TW201807300A - Door lock control device capable of receiving a wireless signal and is controlled by the wireless signal to drive the rotating mechanism to rotate the actuating mechanism - Google Patents

Abstract

A door lock control device includes a housing unit and a control unit. The housing unit includes a carrying module for mounting on a top surface of a door lock and a supporting module connected to the carrying module for abutting against a door panel to support the carrying module. The carrying module has an inner surface facing the top surface of the door lock which defines a first direction perpendicular to the inner surface and a second direction parallel to the inner surface. The support module is movable relative to the carrying module in at least one of the first direction and the second direction. The control unit is disposed on the housing unit and includes an actuating mechanism for connecting to the knob of the door lock, a rotating mechanism and a driving mechanism. The actuating mechanism is disposed on the carrying module. The rotating mechanism is connected to the actuating mechanism. The driving mechanism is connected to the rotating mechanism and receives a wireless signal and is controlled by the wireless signal to drive the rotating mechanism to rotate the actuating mechanism. The knob is driven by the actuating mechanism to rotate. Wherein the support module is movable relative to the support module in the first direction to adjust the protruding length of the support module relative to the inner surface; by the support module being movable relative to the carrying module in the second direction, it is able to adjust a distance between the support module and the actuating mechanism.

Description

Door lock control

The invention relates to a door lock control device, in particular to a remote-controllable door lock control device.

Generally, mechanical door locks require a key to control the opening and closing of the door lock from outside. In order to save the trouble of carrying a key, someone has developed a remote control module that can be added to the existing mechanical door lock so that it can be combined with a mobile phone to remotely control the door lock. This type of control module is mainly assembled in a door lock with a knob, and a wireless signal sent from a mobile phone is used to control the rotation of the knob, thereby controlling the switch of the door lock.

Referring to FIG. 1, a conventional door lock 91 is disposed on a door panel 92 and includes a base 911, a knob 912, and a blocking lever 913. Rotating the knob 912 from the door can control the blocking lever 913 to extend or retract to lock the door. Lock or unlock, and a key is required from outside the door to control the lock or unlock. Referring to FIG. 2, the current control module 93 needs to be combined with the knob 912, but because the door lock 91 is installed on the surface of the door panel 92 as a whole, that is, the base 911 protrudes from the surface of the door panel 92, so that the control module 93 After being assembled with the knob 912, a part of the knob 912 protrudes out of the base 911 and is suspended. In this way, not only the control module 93 is not easy to install, but also the stability of the combination of the control module 93 and the door lock 91 will be affected.

Therefore, one object of the present invention is to provide a door lock control device including an adjustable housing unit to be stably mounted on a door lock.

Therefore, the door lock control device of the present invention is suitable for assembling with a door lock. The door lock includes a base provided on a door panel and protruding from the surface of the door panel, and a base provided on the base panel and protruding from the base. A top knob, the door lock control device includes a housing unit and a control unit. The housing unit includes a load-bearing module for mounting on the top surface of the base, and a support module connected to the load-bearing module and used to abut the surface of the door panel to support the load-bearing module. The load-bearing module The support module has an inner surface facing the top surface of the base, defining a first direction perpendicular to the inner surface and a second direction parallel to the inner surface. The support module may be at the first position relative to the load module. Moving in at least one of the direction and the second direction. The control unit is provided in the housing unit, and includes an actuating mechanism for connecting with a knob of the door lock, a rotating mechanism and a driving mechanism. The actuating mechanism is provided on the bearing module, and the rotating mechanism and the actuating mechanism. The driving mechanism is connected with the driving mechanism and can receive a wireless signal and be controlled by the wireless signal to drive the rotating mechanism to rotate the operating mechanism, and the operating mechanism drives the knob to rotate. Wherein, the supporting module can be moved in the first direction relative to the bearing module to adjust the length of the supporting module protruding from the inner surface; and the supporting module can be relative to the bearing module. The group moves in the second direction to adjust the distance between the support module and the actuating mechanism.

In some embodiments, the supporting module includes a receiving box, and the receiving box is movable in the first direction to adjust a length of the supporting module protruding relative to the inner surface.

In some embodiments, the support module further includes a fixed frame base, which is positioned relative to the load module in the first direction and can receive the storage box, and the storage box can be fixed relative to the fixed The frame base moves in the first direction.

In some embodiments, the fixed frame base has two side wall portions opposite to each other, and at least one first track extending along the first direction is formed on the inner side of each side wall portion, and the storage box has a box body and a plurality of First positioning portions connected to both sides of the box body, the first positioning portions are matched with the first rails one to one, and each first positioning portion can move along the corresponding first rail.

In some embodiments, each first track is formed by a plurality of card slots arranged along the first direction. Each first positioning portion is an elastic card block and can be placed on one of the cards corresponding to the first track. Slot, thereby enabling the storage box to move relative to the fixed frame base in the first direction and be positioned in multiple sections.

In some embodiments, the storage box has a power receiving space, and the control unit further includes a power supply module. The power supply module is disposed in the power receiving space and is electrically connected to the driving mechanism to provide The power source required for the driving mechanism to operate.

In some embodiments, the load-bearing module includes a shell seat and a cover plate having the inner surface, and the two together define a receiving chamber and jointly form a mounting portion and a connecting portion. The mounting portion forms a through hole to The actuating mechanism is accommodated, and the connecting portion is connected to the supporting module.

In some embodiments, the support module includes an adapter and a fixed frame seat, and the adapter is movably sleeved to the connecting portion in the second direction, so that the support module can be opposite to The load-bearing module moves in the second direction, the fixed frame base is fixedly connected to the adapter base, and protrudes from the inner surface of the load-bearing module in the first direction.

In some embodiments, the load bearing module further includes at least a second positioning portion formed at a connecting portion of the housing base and away from the mounting portion, and the adapter base forms at least one extending along the second direction and facing It should be the second track of the second positioning part, and the second positioning part can move along the second track.

In some embodiments, the second track is composed of a plurality of card slots arranged along the second direction, the second positioning portion is an elastic card block and can be snapped into one of the card slots of the second track, Thereby, the adapter can be moved in the second direction relative to the carrier module and positioned in multiple sections.

In some embodiments, the rotating mechanism includes a driven gear connected to the driving mechanism, a driving gear connected to the driving mechanism, and a plurality of intermediate gears connected between the driven gear and the driving gear. The intermediate gear can adjust the relative position of each other according to the relative moving position of the bearing module and the adapter base, so as to maintain connection between the driven gear and the driving gear.

In some embodiments, the driving mechanism includes a motor connected to the driving gear, the support module further includes a motor carrier, and a storage box that can be received in the fixed frame base. The adapter base has a A base wall and an adapter wall spaced apart from the base wall and connected to the fixed frame base, the motor carrier has a limit plate between the cover plate and the adapter wall of the adapter base, and a A slot fixedly connected to the limit plate and protruding toward the fixed frame seat, the motor is received in the slot, the storage box has a power receiving space and an avoiding space for receiving the slot, The slot body passes through the transition wall and the fixed frame base and can be accommodated in the avoidance space. The control unit further includes a power supply module. The power supply module is disposed in the power accommodation space and communicates with the drive. The mechanism is electrically connected to provide the power required to operate the drive mechanism.

In some embodiments, the motor carrier can move in the second direction, and the motor carrier further has two third positioning portions formed on the limit plate, and the carrier module further includes two formed on A third track extending from the connecting portion of the cover plate along the second direction and cooperating with the third positioning portions, each third track has a starting end near the mounting portion, and a distance away from the mounting portion. When the third positioning parts are respectively located at the start ends of the third tracks, the limit plates of the motor carrier are aligned with the fixed frame base, and the third positioning parts are respectively located on the third tracks When the terminal is terminated, the limit plate can be driven by the load module and partially extend out of the adapter seat, so that the load module and the adapter seat can be further extended relatively.

In some embodiments, the fixed frame base has two side wall portions opposite to each other, and at least one first track extending along the first direction is formed on the inner side of each side wall portion, and the storage box has a box body and a plurality of First positioning portions connected to both sides of the box body, the first positioning portions are matched with the first rails one to one, and each first positioning portion can move along the corresponding first rail.

In some embodiments, the fixed frame base has two side wall portions opposite to each other, and at least one first track extending along the first direction is formed on the inner side of each side wall portion, and the storage box has a box body and a plurality of First positioning portions connected to both sides of the box body, the first positioning portions are matched with the first rails one to one, and each first positioning portion can move along the corresponding first rail.

Therefore, in some embodiments, the door lock control device of the present invention is suitable for assembling with a door lock. The door lock includes a base provided on a door panel and protruding from the surface of the door panel, and a base provided on the base and A knob protruding from a top surface of the base, and the door lock control device includes a housing unit and a control unit. The housing unit includes a load-bearing module for mounting on the top surface of the base, and a support module connected to the load-bearing module and used to abut the surface of the door panel to support the load-bearing module. The load-bearing module The support module has an inner surface facing the top surface of the base, defining a first direction perpendicular to the inner surface and a second direction parallel to the inner surface. The support module may be at the first position relative to the load module. Moving in the direction and the second direction, the load-bearing module includes a shell seat and a cover plate having the inner surface, both of which jointly define a receiving chamber and jointly form a mounting portion and a connecting portion. The support module includes An adapter base, a fixed frame base, and a storage box, the adapter base is movably sleeved on the connection portion in the second direction, so that the support module can be positioned in the second relative to the load module. Moving in the direction, the fixed frame base is fixedly connected to the adapter base, and is protruded from the inner surface of the load module in the first direction, the storage box can be accommodated in the fixed frame base and can be relative to the fixed The frame base moves in the first direction, so that the supporting module can Moved in the first direction to the carrier module. The control unit is provided in the housing unit, and includes an actuating mechanism for connecting with a knob of the door lock, a rotating mechanism and a driving mechanism. The actuating mechanism is provided at a mounting portion of the bearing module, and the rotating mechanism The driving gear includes a driven gear connected to the driving mechanism, a driving gear connected to the driving mechanism, and a plurality of intermediate gears connected between the driven gear and the driving gear. The relative moving positions of the adapters are adjusted to each other's relative positions so as to remain connected between the driven gear and the driving gear. The driving mechanism is connected to the rotating mechanism and can receive a wireless signal and be controlled by the wireless signal. The driving mechanism is driven to rotate the actuating mechanism, and the knob is rotated by the actuating mechanism; wherein the supporting module can be moved in the first direction relative to the bearing module to adjust the supporting module. The length protruding relative to the inner surface; the supporting module can be moved in the second direction relative to the carrying module to adjust the supporting module relative to the motive the distance between.

In some embodiments, the driving mechanism includes a motor connected to the driving gear, the adapter base has a base wall and an adapter wall spaced from the base wall and connected to the fixed frame base, the support The module also includes a motor carrier, the motor carrier having a limit plate located between the cover plate and the transition wall of the adapter base, and a fixed connection to the limit plate and facing the fixed frame base. A protruding groove body, the motor is housed in the groove body, the storage box has a power receiving space and an avoidance space for containing the groove body, the groove body passes through the transition wall and the fixing frame The control unit further includes a power supply module. The power supply module is disposed in the power accommodation space and is electrically connected to the driving mechanism to provide the driving mechanism with the necessary power. power supply.

In some embodiments, the motor carrier can move in the second direction, and the motor carrier further has a pair of positioning portions formed on the limit plate, and the carrier module further includes a pair of formed on the cover. Tracks extending at the connection portion of the board and extending along the second direction and cooperating with the positioning portions, respectively, each track has a starting end near the mounting portion, and a terminal away from the mounting portion, the positioning portions When located at the beginning of the tracks, the limit plate of the motor carrier is aligned with the fixed frame seat. When the positioning portions are located at the ends of the tracks, the limit plate can be partially driven by the cover plate. Extending the adapter base allows the load-bearing module and the adapter base to further extend relatively.

In some embodiments, the load-bearing module includes a shell seat and a cover plate having the inner surface, and the two together define a receiving chamber and jointly form a mounting portion and a connecting portion. The mounting portion forms a through hole to The actuating mechanism is accommodated, the connection portion is connected to the support module, and the cover plate forms two fourth tracks each formed by a plurality of card slots arranged along the second direction at the connection portion. The support module It includes an adapter and a fixed base, and the adapter is movably sleeved on the connecting portion in the second direction, so that the support module can move in the second direction relative to the load module. The fixing base is fixedly connected to the adapter base, and protrudes from the inner surface of the bearing module in the first direction. The housing unit further includes a locking module provided on the fixing base, and the locking buckle The module has a control part exposing the fixed seat for operation and two latching parts connected to the control part and corresponding to the fourth tracks, respectively. The latching parts are respectively extended by the control part's linkage energy. Into one of the locking positions and one Exit fourth track such unlocked position, and biased by the elastic constant return to the locking position, the carrier module to the module is positioned relative to the support in the second direction.

In some embodiments, each of the latching portions has a connecting segment connected to the control portion, a locking segment extending from the connecting segment toward the cover plate in the first direction, and a connecting segment along the connecting segment. The first direction extends toward the limiting portion of the fixing base. The fixing base has a body and two recessed holes formed in the base body and respectively receiving the limiting portions. The lock module also has two An elastic member is respectively sleeved on the limiting sections, and two ends of each elastic member respectively abut the corresponding connecting section and the hole wall defining the recessed hole to provide elastic biasing of the latching portions.

In some embodiments, the rotating mechanism includes a driven gear connected to the driving mechanism, a driving gear connected to the driving mechanism, and a plurality of intermediate gears connected between the driven gear and the driving gear. The intermediate gear can adjust the relative position of each other according to the relative moving position of the bearing module and the adapter seat, so as to remain connected between the driven gear and the driving gear. The driving mechanism includes a driving gear connected to the driving gear. A motor, the support module further includes a motor carrier, the motor carrier having a limit plate partially overlapping the cover plate, and a slot body fixedly connected to the limit plate and protruding toward the fixed seat The motor is accommodated in the groove body, and the fixing base also has an escape space penetrating the base body and used for accommodating the groove body.

In some embodiments, the fixing base further has a power receiving space formed in the base body and facing away from the opening of the adapter base. The control unit further includes a power supply module, and the power supply module is disposed in The power supply accommodation space is electrically connected to the driving mechanism to provide power required for the operation of the driving mechanism. The support module further includes a set of movable covers covering the fixed base. The movable cover has a body and a movable cover. A side plate combined with the main body which is disassembled and grounded, the main body has two opposite side walls, and the opposite inner sides of the side walls respectively form at least one positioning track extending along the first direction, and each positioning track has one along the first side. The connecting section extends in a direction, and a plurality of latching sections extending from one side of the connecting section and arranged along the first direction at a distance from each other. The fixing base also has a plurality of protruding parts on opposite sides of the base body and The positioning blocks corresponding to the positioning rails, respectively, in a state of being detached from the side plate, the body can be used by a user to move in the second direction to cause the positioning blocks to enter the connecting sections of the corresponding positioning rails, so that the The body can be moved in the first direction relative to the fixed seat. When the positioning blocks correspond to the positions of one of the locking sections of the corresponding positioning track, the body can be moved in the second direction in the opposite direction. The positioning blocks are located in the corresponding clamping sections, so that the body and the fixing seat are relatively fixed in the first direction, and then the body and the side plate are combined to enable the body and the fixing seat to be in the second direction. Direction is relatively fixed.

In some embodiments, the limit plate of the motor carrier is located on a side of the cover plate facing away from the fixed seat and is movable in the second direction. The limit plate is formed by two The fifth track formed by the card slots arranged in two directions, the cover plate also forms two elastic hooks corresponding to the fifth tracks, respectively, and the elastic hooks are respectively elastically buckled on one of the fifth tracks. The groove can drive the limit plate to move in the second direction.

Therefore, in some embodiments, the door lock control device of the present invention is suitable for assembling with a door lock. The door lock includes a base provided on a door panel and protruding from the surface of the door panel, and a base provided on the base and A knob protruding from a top surface of the base, the door lock control device includes a housing unit and a control unit. The housing unit includes a load-bearing module for mounting on the top surface of the base, and a support module connected to the load-bearing module and used to abut the surface of the door panel to support the load-bearing module. The load-bearing module The support module has an inner surface facing the top surface of the base, defining a first direction perpendicular to the inner surface and a second direction parallel to the inner surface. The support module may be at the first position relative to the load module. Moving in the direction and the second direction, the load-bearing module includes a shell seat and a cover plate having the inner surface, both of which jointly define a receiving chamber and jointly form a mounting portion and a connecting portion. The support module includes An adapter base, a fixed frame base, and a storage box, the adapter base is movably sleeved on the connection portion in the second direction, so that the support module can be positioned in the second relative to the load module. Moving in the direction, the fixed frame base is fixedly connected to the adapter base, and is protruded from the inner surface of the load module in the first direction, the storage box can be accommodated in the fixed frame base and can be relative to the fixed The frame base moves in the first direction, so that the supporting module can Moved in the first direction to the carrier module. The control unit is provided in the housing unit, and includes an actuating mechanism for connecting with a knob of the door lock, a rotating mechanism and a driving mechanism. The actuating mechanism is provided at a mounting portion of the bearing module, and the rotating mechanism The driving gear includes a driven gear connected to the driving mechanism, a driving gear connected to the driving mechanism, and a plurality of intermediate gears connected between the driven gear and the driving gear. The relative moving positions of the adapters are adjusted to each other's relative positions so as to remain connected between the driven gear and the driving gear. The driving mechanism is connected to the rotating mechanism and can receive a wireless signal and be controlled by the wireless signal. The driving mechanism is driven to rotate the operating mechanism, and the knob is rotated by the operating mechanism. Wherein, the supporting module can be moved in the first direction relative to the bearing module to adjust the length of the supporting module protruding from the inner surface; and the supporting module can be relative to the bearing module. The group moves in the second direction to adjust the distance between the support module and the actuating mechanism.

In some embodiments, the housing unit further includes a locking module provided on the fixing base to operatively control the locking and release of the supporting module in the second direction relative to the supporting module. lock.

The beneficial effect of the present invention is that the supporting module can be moved in the first direction relative to the carrying module to adjust the protruding length of the supporting module with respect to the inner surface; by the supporting module It can move in the second direction relative to the bearing module to adjust the distance between the supporting module and the actuating mechanism, so that the actuating mechanism can correspond to the position of the knob, and the supporting module can resist Lean against the door plate to achieve the function of supporting the load-bearing module and enabling the actuating mechanism to be stably connected with the knob.

Before the present invention is described in detail, it should be noted that in the following description, similar elements are represented by the same numbers.

Referring to FIG. 1, FIG. 3 and FIG. 4, a first embodiment of a door lock control device according to the present invention is suitable for assembling with a door lock 91. The door lock 91 includes a door plate 92 protruding from a surface of the door plate 92. The door lock control device includes a housing unit 10 and a control unit 20, and a knob 912 provided on the base 911 and protruding from a top surface 911 a of the base 911.

The housing unit 10 includes a load-bearing module 1 for mounting on the top surface 911a of the base 911, and a bearing module 1 connected to the load-bearing module 1 and used to abut the surface of the door panel 92 to support the load-bearing module 1. Support module 2. The carrying module 1 has an inner surface 121 mounted to face the top surface 911a of the base 911, defining a first direction D1 perpendicular to the inner surface 121 and a second direction D2 parallel to the inner surface 121. The supporting module 2 is movable relative to the carrying module 1 in at least one of the first direction D1 and the second direction D2. In this embodiment, the support module 2 is movable in the first direction D1 and the second direction D2 relative to the load module 1.

5 to 7, the load-bearing module 1 includes a housing base 11 and a cover plate 12 having the inner surface 121. The two together define a receiving chamber 13 and form a mounting portion 14 and a connecting portion 15 together. The connecting portion 15 is narrower than the mounting portion 14 on both sides in the width direction. The control unit 20 is disposed in the housing unit 10 and includes an actuating mechanism 3, a rotating mechanism 4 and a driving mechanism 5 for connecting with a knob 912 (see FIG. 1) of the door lock 91. The actuating mechanism 3 is disposed in a mounting portion 14 of the carrying module 1. The mounting portion 14 forms a through hole 16 to receive the actuating mechanism 3. The rotating mechanism 4 includes a driven gear 41 connected to the driving mechanism 3, a driving gear 42 connected to the driving mechanism 5, and a plurality of intermediate gears 43 connected between the driven gear 41 and the driving gear 42. In this embodiment, two intermediate gears 43 are taken as an example. A shaft 44 passes through the axis of each of the intermediate gears 43. The two shafts 44 pass through the two ends of a connecting rod 45, respectively. The distance between the centers of the two intermediate gears 43 is fixed at 45. A limiting shaft 46 is provided at a central position of the connecting rod 45. The cover plate 12 is provided with three guide grooves 122, and the two rotating shafts 44 and the limiting shaft 46 are respectively penetrated through the guide grooves 122, and can be moved along the corresponding guide grooves 122 to drive the two middle portions. The gear 43 moves. The driving mechanism 5 includes a motor 51 connected to the driving gear 42. The operating mechanism 3 includes two clamping jaws 31, a carrier plate 32, a manual member 33, and a rotating bolt 34. The two clamping jaws 31 are fixed to the carrier plate 32 at a distance from each other, and are used for accommodating the knob 912 (see FIG. 1) therebetween. The carrier plate 32 is movably connected to the driven gear 41, and the two clamping jaws 31 protrude from the cover plate 12. The driven gear 41 is provided with a pair of lateral guide grooves 411, and the carrier plate 32 is provided with a pair of longitudinal guide grooves 321, so that the carrier plate 32 can be moved laterally and longitudinally relative to the driven gear 41 to fine-tune the The positions of the two clamping jaws 31 relative to the carrying module 1. The manual member 33 and the two clamping jaws 31 are respectively located on two sides of the driven gear 41, and the rotating bolt 34 is connected to the manual member 33 and the driven gear 41. When the control unit 20 is in a manual mode, a user can operate the manual member 33 to rotate the driven gear 41, and the driven gear 41 can rotate the carrier plate 32 and the two clamping jaws 31 to rotate.

Referring to FIGS. 6 and 9 to 11, the support module 2 includes an adapter base 21, a fixed frame base 22, a receiving box 23, and a motor carrier 24. The adapter base 21 is movably sleeved on the connecting portion 15 in the second direction D2, so that the support module 2 can be moved and adjusted in the second direction D2 relative to the load module 1. The adapter base 21 has a base wall 211, an adapter wall 212 spaced apart from the base wall 211, and a connecting wall 213 connecting the base wall 211 and the adapter wall 212. The three together define an accommodation. The receiving space 214 of the connecting portion 15, wherein the base wall 211 is adjacent to the housing base 11, and the transition wall 212 is adjacent to the cover plate 12. The fixed frame base 22 is fixedly connected to the adapter wall 212 of the adapter base 21, and protrudes from the inner surface 121 of the load-bearing module 1 in the first direction D1. The storage box 23 can be accommodated in the fixed frame base 22 and can be moved in the first direction D1 relative to the fixed frame base 22 so that the support module 2 can be in the first direction relative to the carrier module 1. Move adjustment on D1. The motor carrier 24 has a limit plate 241 located between the cover plate 12 and the transfer wall 212 of the adapter base 21, and a limit plate 241 fixedly connected to the limit plate 241 and protruding toward the fixed frame base 22. The motor body 242 is received in the motor body 242. The adapter wall 212 of the adapter base 21 forms a first avoidance passage 212a for the groove body 242 to pass through and provide a space for the groove body 242 to move in the second direction D2. The fixed frame base 22 has a fixed wall 221 and a surrounding wall 222 connected to a peripheral side of the fixed wall 221. The fixed wall 221 forms a second avoidance passage 221a, the second avoidance passage 221a is aligned with the first avoidance passage 212a, and the same is provided for the groove body 242 to pass through and the groove body 242 is provided in the second direction D2 Moving space. With reference to FIG. 12, the storage box 23 includes a box body 231, a cover body 232, an escape space 233 for receiving the groove body 242, and a power supply receiving space 234. The groove body 242 passes through the transition wall 212 and the fixed frame base 22 and can be accommodated in the avoidance space 233. Similarly, the avoidance space 233, the first escape passage 212a, and the second escape passage 221a Align and provide space for the slot body 242 to move in the second direction D2. The control unit 20 further includes a power supply module 6. The power supply module 6 is disposed in the power receiving space 234 and is electrically connected to the driving mechanism 5 to provide power required for the operation of the driving mechanism 5. In this embodiment, the power supply accommodating space 234 is composed of two chambers 234a, and the two chambers 234a are respectively located on both sides of the avoidance space 233 and the openings of the two chambers 234a face in opposite directions. The power supply module 6 includes two batteries 61 and two pairs of electrode pads 62. The batteries 61 are respectively housed in the chambers 234a, and each pair of electrode pads 62 is disposed in the corresponding chamber 234a corresponding to one of the batteries 61 Inside. In this embodiment, the avoidance space 233 and the power receiving space 234 are defined by the box body 231, and the cover body 232 is U-shaped and detachably combined with the box body 231 to close the openings of the two chambers 234a. . When the user wants to replace the batteries 61, the cover body 232 can be removed from the box body 231 to expose the chambers 234a, and the battery 61 can be replaced. After replacement, the cover body 232 and the box body 231 can be combined again.

10, FIG. 11, and FIG. 13, the surrounding wall 222 of the fixed frame base 22 is substantially rectangular and has two side wall portions 222a opposite to each other, and two sides of each side wall portion 222a are formed to extend along the first direction D1. The positions of the first rails 223 are corresponding to the positions of the first rails 223 on the other side wall portion 222a. The receiving box 23 further includes a flange 235 surrounding the outer periphery of the box body 231 and a plurality of first positioning portions 236 connected to two sides of the box body 231. The box body 231 has a front side surface 231 a and a rear side surface 231 b on opposite sides. The flange 235 is aligned with the surrounding wall 222 of the fixed frame base 22 and surrounds the front side surface 231 a of the box body 231. The first positioning portions 236 are matched one-to-one with the first rails 223, and are located on both sides of the rear side 231b. Each first positioning portion 236 can move along the corresponding first rail 223. In this embodiment, each first track 223 is formed by a plurality of card slots 223a arranged along the first direction D1. Each first positioning portion 236 is an elastic card block and can be snapped into the corresponding first track 223. One of the latching slots 223a allows the storage box 23 to move relative to the fixed frame base 22 in the first direction D1 and to be positioned in multiple stages. As shown in FIG. 13, when the storage box 23 is completely contained in the fixed frame base 22, the first positioning portions 236 are respectively located at one end of the corresponding first rail 223 near the fixed wall 221 of the fixed frame base 22. When the user pulls out the storage box 23 relative to the fixed frame base 22, each first positioning portion 236 can be pushed and elastically displaced to pass between adjacent latching grooves 223a in the corresponding first rail 223 A partition wall 223b can be reset when moving to the next card slot 223a, and can be placed in the card slot 223a. The storage box 23 is positioned relative to the fixed frame base 22, so that the user can fine-tune the storage box. The distance between the flange 235 of 23 and the fixed frame base 22 is the length of the storage box 23 protruding from the fixed frame base 22. Referring to FIG. 14 and FIG. 15, the support module 2 is extended to a maximum length in the first direction D1. At this time, the first positioning portions 236 are respectively located at one end of the corresponding first rail 223 away from the fixed wall 221 of the fixed frame base 22. In this embodiment, each side wall portion 222a of the fixed frame base 22 is provided with two first rails 223, but it is understandable that each side wall portion 222a is provided with only one first rail 223.

Referring to FIG. 7, FIG. 8, and FIG. 16, the load bearing module 1 further includes two second positioning portions 17 formed at the connecting portion 15 of the housing base 11 and remote from the mounting portion 14. The wall 211 forms two second rails 215 extending along the second direction D2 and corresponding to the second positioning portions 17, respectively. The second positioning portions 17 can move along the second rails 215 respectively. Each of the second rails 215 has a first end 215a far from the mounting portion 14 and a second end 215b close to the mounting portion 14. In addition, the motor carrier 24 also has two third positioning portions 243 formed on the limiting plate 241. The load-carrying module 1 further includes two connection portions 15 formed on the cover plate 12 along the second positioning portion 15. The third rails 123 extending in the direction D2 and respectively matched with the third positioning portions 243. Each third rail 123 has a starting end 123 a near the mounting portion 14 and a terminal 123 b far from the mounting portion 14. In this embodiment, each second track 215 and each third track 123 are formed by a plurality of card slots arranged along the second direction D2, and each second positioning portion 17 and each third positioning portion 243 are all elastic blocks. The corresponding relationship between the second positioning portion 17 and the second track 215, and the corresponding relationship between the third positioning portion 243 and the third track 123, and the corresponding relationship between the first positioning portion 236 and the first track 223. The function relationship is the same, so it will not be described in detail here. Each second positioning portion 17 can be snapped into a corresponding one of the second rails 215, and each third positioning portion 243 can be snapped into a corresponding one of the third rails 123. So that the adapter 21 can move in the second direction D2 relative to the carrier module 1 and be positioned in multiple sections. In this embodiment, the base wall 211 of the adapter 21 is provided with two second rails 215, but it is understandable that only one second rail 215 can be implemented in the middle position of the base wall 211. Of course, The carrier module 1 needs to be adjusted to form only one second positioning portion 17.

As shown in FIG. 16, when the adapter 21 is not moved relative to the load module 1, the second positioning portions 17 are respectively located at the first ends 215 a of the second rails 215, and the third positioning portions 243 are located at the start ends 123a of the third rails 123, respectively. When the third positioning portions 243 are respectively located at the starting ends 123 a of the third rails 123, the limit plate 241 of the motor carrier 24 is aligned with the fixed frame base 22.

Referring to FIG. 17 to FIG. 20, when the adapter 21 and the supporting module 1 are relatively stretched, the second positioning portions 17 are respectively relative to the second rails 215 by the first of the second rails 215. The end 215a moves in the direction of the second end 215b. At the same time, the third positioning portions 243 move from the starting end 123a of the third rail 123 toward the terminal 123b with respect to the third rail 123, respectively, until the first The three positioning portions 243 are respectively located at the terminals 123b of the third rails 123. Within the distance between the third positioning portion 243 and the third rail 123 from the starting end 123a to the terminal 123b of the third rail 123, the second positioning portion 17 and the third positioning The part 243 moves to the next card slot corresponding to the track 25 in synchronization. In this embodiment, the lengths of the second rails 215 are longer than the third rails 123. When the third positioning portions 243 are respectively located at the terminals 123b of the third rails 123, the second positioning portions 17 The second end 215b of the corresponding second track 215 has not yet been reached. Moreover, referring to FIGS. 19 and 20, within the distance of the relative movement of the bearing module 1 and the adapter 21, the rotation shafts 44 of the rotation mechanism 4 respectively move along the corresponding guide grooves 122 and drive the The intermediate gears 43 are relatively displaced to match the increased distance between the driven gear 41 and the driving gear 42.

Referring to FIG. 21 to FIG. 23, when the third positioning portions 243 are respectively located at the terminals 123b of the third rails 123, the third positioning portions 243 are respectively locked in the third rails 123, and the limit positions The plate 241 can be driven by the carrying module 1 to partially extend out of the adapter base 21, so that the carrying module 1 and the adapter base 21 can be further extended relatively. Therefore, when the adapter 21 and the load module 1 are further stretched relative to each other, the second positioning portions 17 are moved relative to the second rails 215 toward the second end 215b, until the first When the two positioning portions 17 are respectively located at the second ends 215b of the second rails 215, they are the maximum lengths that the load-bearing module 1 and the adapter 21 can relatively stretch. Referring to FIG. 24 and FIG. 25, at a distance where the load-bearing module 1 and the adapter 21 are further extended, the limit plate 241 moves to extend out of the adapter 21 and interlocks the groove 242 and the motor 51. And the driving gear 42 to maintain a distance between the driving gear 42 and the driven gear 41.

Referring to FIG. 26 and FIG. 27, in this embodiment, the support module 2 can be adjusted in the first direction D1 and the second direction D2 at the same time. As shown in FIG. 26 and FIG. 27, the support module 2 is fully extended in the first direction D1 and the second direction D2 with respect to the carrier module 1.

Referring to FIG. 16, FIG. 18, FIG. 23, and FIG. 27, the user can adjust the protruding length of the support module 2 relative to the inner surface 121 according to the thickness T of the door lock 91 to be installed, so that the support module 2 can 扺Leaning against the door panel 92. The distance between the support module 2 relative to the actuating mechanism 3 can also be adjusted according to the distance L between the knob 912 of the door lock 91 to be installed and the edge of the base 911, that is, adjusting the distance between the actuating mechanism 3 and the fixed frame base 22. The distance between them, so that the actuating mechanism 3 can correspond to the position of the knob 912, and the support module 2 can lean against the door panel 92, so as to support the bearing module 1 so that the actuating mechanism 3 can communicate with the knob 912 Stable connection function.

Referring to FIG. 1, FIG. 28 to FIG. 31, a second embodiment of a door lock control device according to the present invention is also suitable for assembling with a door lock 91. The door lock 91 includes a door plate 92 protruding from the door plate. The base 911 on the 92 surface and a knob 912 provided on the base 911 and protruding from a top surface 911a of the base 911. The door lock control device includes a housing unit 10 and a control unit 20. The housing unit 10 includes a load-bearing module 1 for mounting on the top surface 911a of the base 911, and a support connected to the load-bearing module 1 and used to abut the surface of the door panel 92 to support the load-bearing module 1. Module 2. The carrying module 1 has an inner surface 121 for mounting on the top surface 911a of the base 911. The support module 2 includes a fixed frame base 22 and a storage box 23. The fixed frame base 22 is integrally connected to the load module 1, and the storage box 23 can be received in the fixed frame base 22. Define a first direction D1 perpendicular to the inner surface 121. The support module 2 can be moved in the first direction D1 relative to the load module 1 to adjust the protrusion of the support module 2 relative to the inner surface 121. length. In this embodiment, the storage box 23 is provided with a track 25, and the fixed frame base 22 is provided with a positioning portion 26. The track 25 is composed of a plurality of card slots arranged along the first direction D1. The positioning portion 26 is an elastic card block and can be snapped into one of the card slots of the track 25, so that the storage box 23 can be opposed to each other. The fixed frame base 22 moves in the first direction D1 and is positioned in multiple sections.

In the second embodiment, the control unit 20 is substantially the same as the control unit 20 in the first embodiment. In the second embodiment, only an actuation mechanism 3 is illustrated. The operation principle of the control unit 20 is similar to that of the first embodiment. An embodiment is the same and will not be described in detail here. In the present embodiment, the storage box 23 has a power receiving space 234 for receiving two batteries 61 and a motor receiving space 237 for receiving a motor 51 (refer to FIG. 7).

The first embodiment can also be adjusted to an embodiment in which the support module 2 can only move in the first direction D1 or the second direction D2. The user can select the implementation mode in which the support module 2 can be adjusted in a single direction or both directions according to the use needs.

32 to FIG. 34, a third embodiment of a door lock control device according to the present invention is substantially the same as the first embodiment. However, in the third embodiment, the housing unit 10 further includes a lock module 7, The support module 2 includes an adapter base 21, a fixed base 27, and a movable cover 28, and the cover plate 12 is formed at the connecting portion 15 with two card slots arranged along the second direction D2. A fourth track 124 is formed (see FIG. 40). Referring to FIG. 35 and FIG. 36 for more details, specifically, the fixing base 27 is fixedly connected to the adapter base 21, and protrudes from the inner surface 121 of the load bearing module 1 in the first direction D1. The module 7 is disposed on the fixed base 27 and has a control portion 711 that exposes the fixed base 27 for operation and two latching portions 712 connected to the control portion 711 and corresponding to the fourth rails 124 respectively. The latching portions 712 each have a connecting section 712a connected to the control section 711, a locking section 712b extending from the connecting section 712a in the first direction D1 toward the cover plate 12, and a connecting section 712a A limiting section 712 c extending along the first direction D1 toward the fixing seat 27. The fixing base 27 has a base body 271 and two recessed holes 272 formed in the base body 271 and respectively receiving the limiting sections 712c. The elastic members 713 are respectively sleeved on the limiting sections 712c, and two ends of each elastic member 713 abut against the corresponding connecting section 712a and the hole wall defining the recessed hole 272 to provide the latching portions 712. Elastic bias. The latching portions 712 are linked by the control portion 711 to a locked position (see FIG. 37) that respectively extends into one of the card slots of the fourth rails 124 and a release from the fourth rails 124 respectively. The lock position (see FIG. 38) is moved, and is constantly returned to the lock position by elastic bias to position the load-bearing module 1 relative to the support module 2 in the second direction D2. That is, when the user wants to adjust the distance between the support module 2 and the actuating mechanism 3, the user can apply force to the control portion 711 to move the latching portions 712 to the unlocking position, and then The supporting module 2 moves in the second direction D2 relative to the carrying module 1. After the supporting module 2 is moved to an appropriate position, the control portion 711 is released to return the latching portions 712 to the locked position to extend into. The other slots of the fourth rails 124 (see FIG. 41), that is, the supporting module 2 and the supporting module 1 are relatively fixed in the second direction D2, as shown in FIG. 40. 2 In the second direction D2 with respect to the maximum elongation state of the load bearing module 1, when the latching portions 712 are located in different slots of the fourth rails 124, the support module 2 can be adjusted in the first Different elongations in the two directions D2 relative to the carrier module 1. In addition, referring to FIG. 39 and FIG. 42, in a third embodiment, the limiting plate 241 of the motor carrier 24 is located on a side of the cover plate 12 facing away from the fixing seat 27 and partially overlaps the cover plate 12. The limiting plate 241 forms two fifth rails 241a each composed of a plurality of card slots arranged along the second direction D2, and the cover plate 12 also forms two elastic cards corresponding to the fifth rails 241a. The hooks 125 and the elastic hooks 125 are respectively elastically buckled in one of the respective slots of the fifth rails 241a and can drive the limit plate 241 to move in the second direction D2. The spacing of the slot of the fifth track 241a in the second direction D2 is the same as the spacing of the slot of the fourth track 124 in the second direction D2, and can correspond to the supporting module 1 in the second direction D2. The adjustment amplitude of the displacement in the second direction D2. The function principle between the fifth track 241a and the elastic hook 125 is the same as that between the third track 123 provided on the cover plate 12 and the third positioning portion 243 provided on the limit plate 241 in the first embodiment. It will not be repeated here. The elastic hooks 125 can drive the motor carrier 24 to move in the second direction D2, so that the supporting module 1 is further extended in the second direction D2 relative to the supporting module 2. In the third embodiment, the limit plate 241 also forms two rows of yield holes 241b (see FIG. 37) corresponding to the slots of the fourth rails 124 to accommodate the latching of the latching portions 712. The end of segment 712b. That is, the latching sections 712b of the latching portions 712 also extend into the yielding holes 241b of the limit plate 241, so that the positioning of the limit plate 241 is more stable.

Referring to FIG. 33 to FIG. 36 again, in the third embodiment, the fixing seat 27 further has an escape space 273 penetrating the seat body 271 and used to receive the groove body 242, and a back space formed on the seat body 271 and the back The power receiving space 274 opened to the adapter base 21. The power supply accommodating space 274 of the third embodiment is the same as the power accommodating space 234 of the first embodiment for setting the power supply module 6 (see FIG. 12). For the setting method, refer to the first embodiment, and will not be repeated here. Recap. With reference to FIG. 43, the movable cover 28 has a main body 281 and a side plate 282 detachably combined with the main body 281. The body 281 has two opposite wall plates 281a, and the opposite inner sides of the plate walls 281a form at least one positioning track 281b extending along the first direction D1, and each positioning track 281b has an extending along the first direction D1. The connecting section 2811 and a plurality of latching sections 2812 extending from one side of the connecting section 2811 and arranged along the first direction D1 at a distance from each other. The fixing seat 27 also has a plurality of protrusions protruding from the seat body 271. Positioning blocks 275 on opposite sides and corresponding to the positioning rails 281b, respectively. As shown in FIG. 44 and FIG. 45, when the movable cover 28 is in an unexpanded position relative to the fixed seat 27, the positioning blocks 275 are located at the locking section 2812 of the corresponding positioning track 281 b farthest from the fixed seat 27. As shown in FIG. 46, the movable cover 28 is in a state where the movable cover 28 is at the maximum extended position in the first direction D1, and FIGS. 47 and 48 are shown when the movable cover 28 is in the maximum extended position. The positioning blocks 275 are located in the clamping section 2812 of the corresponding positioning track 281b closest to the fixing seat 27. Specifically, in the third embodiment, the opposite ends of the side plate 282 are detachably connected to the plate walls 281a, and each plate wall 281a forms two positioning rails 281b and one of the positioning rails 281b is adjacent to the side plate 282. The communication section 2811 of the positioning rail 281b is located in a space on the edge of the plate wall 281a vacated after the side plate 282 is detached. When the side plate 282 is detached, the body 281 can be moved by a user in the second direction D2 to cause the positioning blocks 275 to enter the communication section 2811 of the corresponding positioning track 281b, so that the body 281 can be opposite to After the fixing base 27 moves in the first direction D1, when the positioning blocks 275 correspond to the positions of one of the locking sections 2812 of the corresponding positioning rail 281b, the body 281 is further in the second direction D2 Reverse movement causes the positioning blocks 275 to be located in the corresponding locking sections 2812, so that the body 281 and the fixing seat 27 are relatively fixed in the first direction D1, and then the body 281 and the side plate 282 are combined, so that The main body 281 and the fixing base 27 are relatively fixed in the second direction D2. That is, when the user wants to adjust the protruding length of the support module 2 relative to the inner surface 121, the side plate 282 can be removed first, so that the body 281 can be released from the fixing seat 27 in the first place. The lock in two directions D2 can move the body 281 in the second direction D2, so that the connecting sections 2811 of the positioning rails 281b are moved to a position aligned with the corresponding positioning block 275 in the first direction D1. In this way, the connecting sections 2811 of the positioning rails 281b can slide in the first direction D1 relative to the corresponding positioning blocks 275, that is, the body 281 can move in the first direction D1 relative to the fixing base 27, When the user moves the main body 281 to an appropriate position, one of the locking sections 2812 of the positioning rails 281b is aligned with the corresponding positioning block 275 in the second direction D2, and then the main body 281 is in the second direction. Move the positioning block 275 in the corresponding locking section 2812 in the reverse direction on D2, so that the body 281 and the fixing seat 27 are relatively fixed in the first direction D1, and then the side plate 282 and the body are fixed. 281 is combined, so that the body 281 and the fixing seat 27 are The second direction D2 is relatively fixed. In other words, by positioning the positioning blocks 275 in different locking sections 2812, the position of the movable cover 28 relative to the fixed seat 27 in the first direction D1 can be adjusted.

In addition, referring to FIG. 33 and FIG. 43, in the third embodiment, the movable cover 28 can cover the avoidance space 273 and the power receiving space 274 of the fixed seat 27. When the user wants to replace the power supply module 6 (see FIG. 12) of the battery 61, after removing the side plate 282 as described above, the main body 281 is moved in the first direction D1 relatively away from the fixing seat 27, and is relatively far away in the third embodiment. The positioning rails 281b of the side plate 282 also each have an exit section 2813 extending from the end of the communication section 2811 relatively far from the fixing seat 27 toward the side plate 282. When the body 281 moves in the first direction D1 to After the position farthest from the fixing seat 27, the main body 281 is moved in the second direction D2 in a direction opposite to the side plate 282 and detached from the positioning blocks 275 by the exit sections 2813, and then the main body 281 is detached from the fixing base 27 to replace the battery 61, and then the main body 281 and the side plate 282 are assembled back to the fixing base 27 in a reverse operation. FIG. 49 shows that the support module 2 is in a state of maximum extension in the first direction D1 and the second direction D2 with respect to the carrier module 1.

In summary, the supporting module 2 can be moved in the first direction D1 relative to the carrying module 1 to adjust the protruding length of the supporting module 2 with respect to the inner surface 121; The supporting module 2 can be moved in the second direction D2 relative to the carrying module 1 to adjust the distance between the supporting module 2 and the actuating mechanism 3 so that the actuating mechanism 3 can correspond to the knob 912. Position, and the supporting module 2 can lean against the door panel 92 to achieve the function of supporting the carrying module 1 so that the actuating mechanism 3 can be stably connected with the knob 912.

However, the above are only examples of the present invention. When the scope of implementation of the present invention cannot be limited in this way, any simple equivalent changes and modifications made in accordance with the scope of the patent application and the content of the patent specification of the present invention are still Within the scope of the invention patent.

10‧‧‧shell unit
20‧‧‧Control unit
1‧‧‧bearing module
11‧‧‧shell
12‧‧‧ Cover
121‧‧‧Inner surface
122‧‧‧Guide groove
123‧‧‧Third Track
123a‧‧‧start
123b‧‧‧Terminal
124‧‧‧ Fourth track
125‧‧‧Flexible hook
13‧‧‧capacity room
14‧‧‧Mounting Department
15‧‧‧Connection Department
16‧‧‧ through hole
17‧‧‧Second Positioning Department
2‧‧‧Support Module
21‧‧‧ adapter
211‧‧‧ base wall
212‧‧‧Transition wall
212a‧‧‧First Avoidance Channel
213‧‧‧ connecting wall
214‧‧‧Containment space
215‧‧‧Second Track
215a‧‧‧First end
215b‧‧‧ second end
22‧‧‧Fixed Frame Base
221‧‧‧Fixed wall
221a‧‧‧Second Avoidance Channel
222‧‧‧ around the wall
222a‧‧‧ sidewall
223‧‧‧First Track
223a‧‧‧card slot
223b‧‧‧ partition
23‧‧‧Storage Box
231‧‧‧Box
231a‧‧‧Front side
231b‧‧‧ rear side
232‧‧‧ Cover
233‧‧‧Avoiding Space
234‧‧‧Power receiving space
234a‧‧‧chamber
235‧‧‧ flange
236‧‧‧First Positioning Department
237‧‧‧Motor housing space
24‧‧‧Motor Carrier
241‧‧‧Limit plate
241a‧‧‧Fifth track
241b‧‧‧Given hole
242‧‧‧Slot body
243‧‧‧ Third Positioning Department
25‧‧‧ track
26‧‧‧Positioning Department
27‧‧‧Fixed
271‧‧‧ seat
272‧‧‧concave hole
273‧‧‧Avoiding Space
274‧‧‧Power receiving space
275‧‧‧ positioning block
28‧‧‧ movable cover
281‧‧‧ Ontology
281a‧‧‧panel
281b‧‧‧ positioning track
2811‧‧‧ Connected Section
2812‧‧‧Stuck section
2813‧‧‧Exit
282‧‧‧Side
3‧‧‧ Acting mechanism
31‧‧‧Jaw
32‧‧‧ Carrier
321‧‧‧longitudinal guide groove
33‧‧‧Manual parts
34‧‧‧turn bolt
4‧‧‧ rotating mechanism
41‧‧‧ driven gear
411‧‧‧Horizontal guide groove
42‧‧‧Drive gear
43‧‧‧Intermediate gear
44‧‧‧ shaft
45‧‧‧ connecting rod
46‧‧‧ limit axis
5‧‧‧Drive mechanism
51‧‧‧Motor
6‧‧‧ Power Supply Module
61‧‧‧battery
62‧‧‧electrode pads
7‧‧‧Lock Module
711‧‧‧Control Department
712‧‧‧Lock
712a‧‧‧ connecting section
712b‧‧‧Stopped section
712c‧‧‧Limit section
713‧‧‧elastic
91‧‧‧door lock
911‧‧‧base
911a‧‧‧Top
912‧‧‧ knob
913‧‧‧Bar
92‧‧‧Door panel
93‧‧‧control module
D1‧‧‧ first direction
D2‧‧‧ Second direction

Other features and effects of the present invention will be clearly presented in the embodiment with reference to the drawings, wherein: FIG. 1 is a schematic diagram illustrating a conventional door lock; FIG. 2 is a schematic diagram illustrating an existing control module and the door lock assembly A schematic diagram of the relationship; FIG. 3 is a perspective view of a first embodiment of the door lock control device of the present invention; FIG. 4 is a perspective view corresponding to FIG. 3 from another perspective; and FIG. 5 is an exploded perspective view of the first embodiment 6 is a further exploded perspective view of FIG. 5; FIG. 7 is a further exploded perspective view of FIG. 6; FIG. 8 is a perspective exploded view similar to FIG. 7 from another perspective; FIG. 9 is an exploded perspective view of the first embodiment; FIG. 10 is a further exploded perspective view of FIG. 9; FIG. 11 is an exploded perspective view of FIG. 10 from another perspective; An exploded perspective view of a storage box. FIG. 13 is an incomplete cross-sectional view corresponding to FIG. 3. FIG. 14 is a perspective view illustrating a state in which a support module of the first embodiment is fully extended in a first direction. FIG. 15 Is an incomplete cross-sectional view corresponding to FIG. 14 16 is a cross-sectional view corresponding to FIG. 3; FIG. 17 is a perspective view of a state in which the support module of the first embodiment is extended in a second direction; FIG. 18 is a cross-sectional view corresponding to FIG. 17; FIG. 17 is a front view in which some elements are not shown; FIG. 20 is a front view similar to FIG. 19 in which some elements are not shown; FIG. 21 is a diagram illustrating the support module of the first embodiment in the second A perspective view of the state in the fully extended direction; FIG. 22 is a perspective view corresponding to FIG. 21 from another perspective; FIG. 23 is a cross-sectional view corresponding to FIG. 21; FIG. 24 is a front view corresponding to FIG. 25 is a front view similar to FIG. 24, with some components not shown; FIG. 26 is a perspective view illustrating a state where the support module of the first embodiment is fully extended in the first direction and the second direction; Fig. 27 is a sectional view corresponding to Fig. 26; Fig. 28 is a perspective view of a second embodiment of the door lock control device of the present invention; Fig. 29 is a view illustrating a supporting module of the second embodiment fully extended in a first direction A perspective view of the state; Figure 30 is An exploded perspective view of the second embodiment; FIG. 31 is a perspective view of a storage box of the second embodiment; FIG. 32 is a perspective view of a third embodiment of the door lock control device of the present invention; An exploded perspective view of the third embodiment; FIG. 34 is an exploded perspective view of the third embodiment; FIG. 35 is an exploded perspective view corresponding to FIG. 34 from another perspective; and FIG. 36 is an exploded view of the third embodiment Exploded view; FIG. 37 is a sectional view illustrating a locking module of the third embodiment in a locked position; FIG. 38 is a sectional view illustrating the locking module of the third embodiment in a unlocked position; FIG. 39 It is a cross-sectional view illustrating the relationship between an elastic hook of a cover plate and a fifth track of a limit plate in the third embodiment; FIG. 40 is a diagram illustrating a support module of the third embodiment in the second A perspective view of the state fully extended in the direction; FIG. 41 is a sectional view corresponding to FIG. 40; FIG. 42 is another sectional view corresponding to FIG. 40; FIG. 43 is an exploded perspective view of the third embodiment; A movable cover of the third embodiment is described with respect to a fixed seat. A cross-sectional view of the relationship between a plurality of positioning blocks on the fixed base and a positioning track on the movable cover in an extended state; FIG. 46 is a perspective view illustrating a state where the movable cover is in a maximum extended position according to the third embodiment; 47 and FIG. 48 are cross-sectional views illustrating the relationship between the plurality of positioning blocks on the fixed base and the positioning rails on the movable cover when the movable cover is in the maximum extended position of the third embodiment; and FIG. 49 is an explanatory view A perspective view of the support module of the third embodiment in a fully extended state in the first direction and the second direction.

10‧‧‧shell unit

20‧‧‧Control unit

1‧‧‧bearing module

2‧‧‧Support Module

D1‧‧‧ first direction

D2‧‧‧ Second direction

Claims (25)

A door lock control device is suitable for assembling with a door lock. The door lock includes a base provided on a door plate and protruding from the surface of the door plate, and a base provided on the base and protruding from a top surface of the base. The knob and the door lock control device include: a housing unit including a load-bearing module for mounting on the top surface of the base, and a load-bearing module connected to the load-bearing module and supporting the load-bearing mold Set of supporting modules, the carrying module having an inner surface facing the top surface of the base, defining a first direction perpendicular to the inner surface and a second direction parallel to the inner surface, the supporting module may Moving in at least one of the first direction and the second direction with respect to the bearing module; and a control unit provided in the housing unit and including an actuating mechanism for connecting with a knob of the door lock A turning mechanism and a driving mechanism, the actuating mechanism is provided on the bearing module, the turning mechanism is connected with the actuating mechanism, the driving mechanism is connected with the turning mechanism, and can receive a wireless signal and be controlled by the wireless signal to Drive the turn The mechanism rotates the actuating mechanism, and the knob is rotated by the actuating mechanism; wherein the supporting module can be moved in the first direction relative to the bearing module to adjust the supporting module relative to the inner The protruding length of the surface; the support module can be moved in the second direction relative to the bearing module to adjust the distance between the support module and the actuating mechanism. The door lock control device according to claim 1, wherein the support module includes a storage box, and the storage box is movable in the first direction to adjust a length of the support module protruding relative to the inner surface. The door lock control device according to claim 2, wherein the support module further includes a fixed frame base, the fixed frame base is positioned relative to the carrier module in the first direction and can receive the storage box, the storage The box is movable in the first direction relative to the fixed frame base. The door lock control device according to claim 3, wherein the fixed frame base has two side wall portions opposite to each other, and at least one first track extending along the first direction is formed inside the side wall portion, and the storage box has A box body and a plurality of first positioning portions connected to both sides of the box body, the first positioning portions are matched with the first rails one-to-one, and each first positioning portion can follow the corresponding first Orbital movement. The door lock control device according to claim 4, wherein each first track is formed by a plurality of card slots arranged along the first direction, and each first positioning portion is an elastic card block and can be snapped on a corresponding first block. One of the slots of a track enables the storage box to move relative to the fixed frame base in the first direction and be positioned in multiple sections. The door lock control device according to claim 5, wherein the storage box has a power receiving space, the control unit further includes a power supply module, and the power supply module is disposed in the power receiving space and communicates with the driver. The mechanism is electrically connected to provide the power required to operate the drive mechanism. The door lock control device according to claim 1, wherein the load-bearing module includes a housing base and a cover plate having the inner surface, and the two together define a receiving room and jointly form a mounting portion and a connecting portion. The mounting portion forms a through hole to receive the actuating mechanism, and the connection portion is connected to the support module. The door lock control device according to claim 7, wherein the support module includes an adapter base and a fixed frame base, and the adapter base is movably sleeved on the connecting portion in the second direction so that the connection portion The support module is movable in the second direction relative to the load module, the fixed frame base is fixedly connected to the adapter base, and protrudes from the inner surface of the load module in the first direction. The door lock control device according to claim 8, wherein the load bearing module further includes at least a second positioning portion formed at a connecting portion of the housing base and away from the mounting portion, and the adapter base forms at least one along the The second direction extends to correspond to the second track of the second positioning portion, and the second positioning portion is movable along the second track. The door lock control device according to claim 9, wherein the second track is formed by a plurality of card slots arranged along the second direction, and the second positioning portion is an elastic card block and can be snapped on the second track One of the card slots allows the adapter to move in the second direction relative to the carrier module and be positioned in multiple sections. The door lock control device according to claim 7, wherein the rotating mechanism includes a driven gear connected to the driving mechanism, a driving gear connected to the driving mechanism, and a plurality of connected to the driven gear and the driving gear. The intermediate gears can be adjusted relative to each other according to the relative moving position of the bearing module and the adapter, so as to maintain connection between the driven gear and the driving gear. The door lock control device according to claim 11, wherein the driving mechanism includes a motor connected to the driving gear, the support module further includes a motor carrier, and a storage box that can be received in the fixed frame base, The adapter base has a base wall and an adapter wall spaced apart from the base wall and connected to the fixed frame base, and the motor carrier has a base between the cover plate and the adapter wall of the adapter base. A limit plate, and a slot fixedly connected to the limit plate and protruding toward the fixed frame seat, the motor is accommodated in the slot, the storage box has a power receiving space and a receiving space Avoidance space of the slot body, the slot body passes through the transition wall and the fixed frame base and can be accommodated in the avoidance space, the control unit further includes a power supply module, and the power supply module is disposed in the power supply container Space and is electrically connected to the driving mechanism to provide the power required for the operation of the driving mechanism. The door lock control device according to claim 12, wherein the motor carrier is movable in the second direction, and the motor carrier further has two third positioning portions formed on the limit plate, and the carrier module It also includes two third rails formed at the connecting portion of the cover plate and extending along the second direction and cooperating with the third positioning portions, respectively. Each third rail has a starting end near the mounting portion. And a terminal far from the mounting portion, when the third positioning portions are respectively located at the starting ends of the third rails, the limit plate of the motor carrier is aligned with the fixed frame base, and the third positioning portions are respectively When located at the ends of the third tracks, the limit plate can be driven by the load module and partially extend out of the adapter, so that the load module and the adapter can be further extended relatively. The door lock control device according to claim 12, wherein the fixed frame base has two side wall portions opposite to each other, and at least one first rail extending along the first direction is formed inside the side wall portion, and the storage box has A box body and a plurality of first positioning portions connected to both sides of the box body, the first positioning portions are matched with the first rails one-to-one, and each first positioning portion can follow the corresponding first Orbital movement. The door lock control device according to claim 13, wherein the fixed frame base has two side wall portions opposite to each other, and at least one first rail extending along the first direction is formed inside the side wall portion, and the storage box has A box body and a plurality of first positioning portions connected to both sides of the box body, the first positioning portions are matched with the first rails one-to-one, and each first positioning portion can follow the corresponding first Orbital movement. The door lock control device according to claim 1, wherein the load-bearing module includes a housing base and a cover plate having the inner surface, and the two together define a receiving room and jointly form a mounting portion and a connecting portion. The mounting portion forms a through hole to accommodate the actuating mechanism, the connection portion is connected to the support module, and the cover plate forms two fourth portions formed at the connection portion by a plurality of card slots arranged in the second direction. The rail, the support module includes an adapter and a fixed seat, and the adapter is movably sleeved on the connecting portion in the second direction, so that the support module can be positioned on the bearing module relative to the bearing module. Moving in the second direction, the fixing base is fixedly connected to the adapter base, and protrudes from the inner surface of the load-bearing module in the first direction. The housing unit further includes a lock provided on the fixing base. Module, the lock module has a control part exposing the fixed seat for operation and two latch parts connected to the control part and corresponding to the fourth tracks, respectively, and the latch parts are subject to the control part The interlocking motion can extend into a The locked position and a unlocked position exiting each of the fourth tracks are moved, and are constantly returned to the locked position by elastic bias to position the load-bearing module in the second direction relative to the support module. The door lock control device according to claim 16, wherein each of the latching portions has a connecting segment connected to the control portion, a locking segment extending from the connecting segment in the first direction toward the cover plate, and A limiting section extending from the connecting section in the first direction toward the fixed seat, the fixed seat has a body and two recessed holes formed in the seat body and respectively accommodating the limiting sections, and the lock The buckle module also has two elastic members respectively set on the limiting sections, and two ends of each elastic member respectively abut the corresponding connecting section and the hole wall defining the recessed hole to provide the latching portions. Elastic bias. The door lock control device according to claim 17, wherein the rotating mechanism includes a driven gear connected to the driving mechanism, a driving gear connected to the driving mechanism, and a plurality of connected to the driven gear and the driving gear. Intermediate gears, which can be adjusted relative to each other with the relative movement of the bearing module and the adapter to maintain a connection between the driven gear and the driving gear, the driving mechanism includes a A motor connected to the driving gear, the support module further includes a motor carrier, the motor carrier has a limit plate partially overlapping the cover plate, and a fixed connection to the limit plate and toward the fixed The motor has a protruding groove on the seat, and the motor is accommodated in the groove. The fixing seat also has an escape space that penetrates the seat and is used for accommodating the groove. The door lock control device according to claim 18, wherein the fixed base further has a power receiving space formed in the base body and facing away from the opening of the adapter base, the control unit further includes a power supply module, and A power supply module is disposed in the power receiving space and is electrically connected to the driving mechanism to provide power required for the operation of the driving mechanism. The support module further includes a set of a movable cover covering the fixed seat, and the movable cover. The main body has a main body and a side plate detachably combined with the main body. The main body has two opposite side walls, and the opposite inner sides of the side walls respectively form at least one positioning track extending along the first direction, and each positioning track There is a communication segment extending along the first direction, and a plurality of latching segments extending from one side of the communication segment and arranged along the first direction at a distance from each other, and the fixing base further has a plurality of protrusions protruding from the base. On the opposite sides of the body and corresponding to the positioning blocks of the positioning rails, the body can be moved by the user in the second direction to make the positioning blocks enter the corresponding positioning rails in a state of being detached from the side plate. The connecting section, so that the body can move in the first direction relative to the fixed seat, and when the positioning blocks correspond to the positions of one of the locking sections of the corresponding positioning track, the body is then placed in the second Reverse movement in the direction causes the positioning blocks to be located in the corresponding clamping sections, so that the body and the fixing seat are relatively fixed in the first direction, and then the body and the side plate are combined to enable the body and the The fixing base is relatively fixed in the second direction. The door lock control device according to claim 18, wherein the limit plate of the motor carrier is located on the side of the cover facing away from the fixed seat and is movable in the second direction, and the limit plate forms two each The fifth track formed by a plurality of card slots arranged along the second direction is free. The cover plate also forms two elastic hooks corresponding to the fifth tracks, respectively. The elastic hooks are elastically buckled to the first track. Each of the five tracks has a slot and can drive the limit plate to move in the second direction. A door lock control device is suitable for assembling with a door lock. The door lock includes a base provided on a door plate and protruding from the surface of the door plate, and a base provided on the base and protruding from a top surface of the base. The knob and the door lock control device include: a housing unit including a load-bearing module for mounting on the top surface of the base, and a load-bearing module connected to the load-bearing module and supporting the load-bearing mold Set of supporting modules, the carrying module having an inner surface facing the top surface of the base, defining a first direction perpendicular to the inner surface and a second direction parallel to the inner surface, the supporting module may Relative to the carrier module moving in the first direction and the second direction, the carrier module includes a shell seat and a cover plate having the inner surface, both of which define a receiving chamber and form a mounting portion together. And a connecting portion, the supporting module includes an adapter, a fixed frame base and a storage box, and the adapter is movably sleeved on the connecting portion in the second direction so that the supporting module can be The fixing frame moves in the second direction relative to the bearing module. The base is fixedly connected to the adapter base, and protrudes from the inner surface of the load module in the first direction. The storage box can be housed in the fixed frame base and can be located on the first side relative to the fixed frame base. Moving upward so that the support module can move in the first direction relative to the bearing module; and a control unit provided in the housing unit and including an action for connecting with a knob of the door lock Mechanism, a rotating mechanism and a driving mechanism, the actuating mechanism is provided at the mounting portion of the bearing module, the rotating mechanism includes a driven gear connected to the actuating mechanism, a driving gear connected to the driving mechanism, and a plurality of connections An intermediate gear between the driven gear and the driving gear, the intermediate gears can adjust each other's relative position with the relative moving position of the bearing module and the adapter, so as to maintain connection between the driven gear and the Between the driving gears, the driving mechanism is connected to the rotating mechanism, and can receive a wireless signal and be controlled by the wireless signal to drive the rotating mechanism to rotate the operating mechanism, and the knob is driven by the operating mechanism. Rotating; wherein the supporting module can be moved in the first direction relative to the carrying module to adjust the length of the supporting module protruding relative to the inner surface; and the supporting module can be relative to the The bearing module moves in the second direction to adjust the distance between the supporting module and the actuating mechanism. The door lock control device according to claim 21, wherein the driving mechanism includes a motor connected to the driving gear, the adapter base has a base wall and a base wall spaced from the base wall and connected to the fixed frame base. An adapter wall, the support module further includes a motor carrier, the motor carrier having a limit plate located between the cover plate and the adapter wall of the adapter base, and a fixed connection to the limit plate And a groove protruding toward the fixed frame base, the motor is accommodated in the groove, the receiving box has a power receiving space and an avoiding space for containing the groove, and the groove passes through the rotating body The wall and the fixed frame base can be accommodated in the avoidance space. The control unit further includes a power supply module, which is disposed in the power accommodation space and is electrically connected to the driving mechanism to provide the Power required to drive the mechanism. The door lock control device according to claim 22, wherein the motor carrier is movable in the second direction, and the motor carrier further has a pair of positioning portions formed on the limit plate, and the carrier module further includes A pair of rails formed at the connecting portion of the cover plate and extending along the second direction and mating with the positioning portions, respectively, each rail has a starting end near the mounting portion, and a rail away from the mounting portion. Terminal, when the positioning parts are located at the beginning of the track, the limit plate of the motor carrier is aligned with the fixed frame, and when the positioning parts are located at the ends of the track, the limit plate can be The cover plate drives and partially protrudes from the adapter seat, so that the load-bearing module and the adapter seat can be further extended relatively. A door lock control device is suitable for assembling with a door lock. The door lock includes a base provided on a door plate and protruding from the surface of the door plate, and a base provided on the base and protruding from a top surface of the base. The knob and the door lock control device include: a housing unit including a load-bearing module for mounting on the top surface of the base, and a load-bearing module connected to the load-bearing module and supporting the load-bearing mold Set of supporting modules, the carrying module having an inner surface facing the top surface of the base, defining a first direction perpendicular to the inner surface and a second direction parallel to the inner surface, the supporting module may Relative to the carrier module moving in the first direction and the second direction, the carrier module includes a shell seat and a cover plate having the inner surface, both of which define a receiving chamber and form a mounting portion together. And a connecting part, the supporting module includes an adapter seat, a fixed seat and a movable cover, and the adapter seat is movably sleeved on the connecting part in the second direction so that the supporting module can be opposite to each other As the carrier module moves in the second direction, the fixed seat and The adapter base is fixedly connected, and protrudes from the inner surface of the load module in the first direction. The movable cover covers the fixed base and can be moved in the first direction relative to the fixed base to Enabling the supporting module to move in the first direction relative to the carrying module; and a control unit provided in the housing unit and including an actuating mechanism for connecting with a knob of the door lock, a rotation Mechanism and a driving mechanism, the actuating mechanism is provided at the mounting portion of the bearing module, the rotating mechanism includes a driven gear connected to the driving mechanism, a driving gear connected to the driving mechanism, and a plurality of connected to the driven gear Intermediate gears between the gear and the driving gear, the intermediate gears can adjust the relative position of each other with the relative moving position of the bearing module and the adapter, so as to maintain connection between the driven gear and the driving gear The driving mechanism is connected to the rotating mechanism, and can receive a wireless signal and be controlled by the wireless signal to drive the rotating mechanism to rotate the operating mechanism, and the operating mechanism drives the knob to rotate; The supporting module can be moved in the first direction relative to the supporting module to adjust the length of the supporting module protruding from the inner surface; the supporting module can be relative to the supporting module Move in the second direction to adjust the distance between the support module and the actuating mechanism. The door lock control device according to claim 24, wherein the housing unit further comprises a lock module provided on the fixed base to operatively control the support module with respect to the carrier module in the second Directional locking and unlocking.