CN210032808U - Parking equipment's operating system - Google Patents

Abstract

The utility model discloses a parking equipment's operating system belongs to mechanical lifting device field. This operating system includes: mounting bracket, lifting hook subassembly, wheel components, haulage rope and haulage rope drive arrangement, the mounting bracket includes: the top plate is fixed at the top of the first side plate and the top plate is fixed at the bottom of the second side plate. When the vehicle drives onto the vehicle loading platform or drives away from the vehicle loading platform, the transmission shaft of the transmission rod driving device retracts and drives the transmission rod to move together, so that the hook body rotates anticlockwise along the central line of the pin shaft, the hook body is locked with the hook groove, the vehicle can drive onto the vehicle loading platform or drive away from the vehicle loading platform, and the vehicle has good stability relative to the mounting frame due to the locking of the hook body and the hook groove in the moving process, and cannot shake due to the movement of the vehicle.

Description

Parking equipment's operating system

Technical Field

The utility model relates to a mechanical lifting device field, in particular to parking equipment's operating system.

Background

With the development of national economy and the improvement of the living standard of people, the holding quantity of automobiles in cities in China is increased rapidly, and the small number of parking spaces becomes a big problem in many cities. In order to solve the problem of few parking spaces, the three-dimensional parking garage is produced by transportation.

The existing three-dimensional parking garage comprises an installation frame, a movable pulley, a fixed pulley, a chain and a plurality of vehicle carrying platforms, wherein the movable pulley is installed at the top of the installation frame, the fixed pulley is installed at the bottom of an installation hole, the chain is wound around the movable pulley and the fixed pulley respectively, the plurality of vehicle carrying platforms are arranged between the movable pulley and the fixed pulley at equal horizontal intervals and fixed on the chain, and the chain is driven to rotate through the movable pulley, so that the chain can drive the plurality of vehicle carrying platforms to perform lifting motion.

In realizing the utility model discloses an in-process, the designer discovers that prior art has following problem at least:

in the process that the vehicle drives on or off the vehicle carrying platform, the vehicle carrying platform connected with the chain can shake relative to the mounting frame, and the safety of the three-dimensional parking garage can be reduced due to the fact that the vehicle is large in weight.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem that stereo garage's security is low among the prior art, the embodiment of the utility model provides a parking equipment's operating system. The technical scheme is as follows:

the embodiment of the utility model provides a parking equipment's operating system, operating system is applicable to the lift parking equipment carries the car platform, operating system includes: mounting bracket, lifting hook subassembly, wheel components, haulage rope and haulage rope drive arrangement, the mounting bracket includes: the top plate is fixed at the tops of the first side plate and the second side plate, and the bottom plate is fixed at the bottoms of the first side plate and the second side plate.

The hook assembly includes: the lifting hook comprises a lifting hook body, a pin shaft, a transmission rod driving device and a reset spring, wherein the lifting hook body is arranged between a first side plate and a second side plate, one end of the lifting hook body is provided with a lifting hook groove matched with a lifting hook frame, the other end of the lifting hook body is provided with a pin shaft hole, the middle part of the pin shaft is inserted into the pin shaft hole, the first side plate is provided with a first pin shaft mounting hole, the second side plate is provided with a second pin shaft mounting hole, two ends of the pin shaft are respectively mounted on the first pin shaft mounting hole and the second pin shaft mounting hole, one end of the transmission rod is rotatably mounted on the lifting hook body, the other end of the transmission rod is rotatably connected with a transmission shaft of the transmission rod driving device, and the transmission rod driving device is configured to drive the lifting hook body to rotate along the center line, one end of the reset spring is installed on the lifting hook body, and the other end of the reset spring is installed on the inner wall of the first side plate.

The roller assembly includes: the roller support is fixed on the mounting frame, and the rollers are arranged on the guide rail and rotatably mounted on the roller support.

The vehicle carrying platform is fixed on the mounting frame, one end of the traction rope is fixed on the mounting frame, and the other end of the traction rope is in transmission connection with the traction rope driving device.

Specifically, the lifting system further comprises: the lifting hook comprises a lifting hook body and is characterized by comprising a first stop rod and a second stop rod, wherein a stop surface is arranged on the side wall of the lifting hook body, the first stop rod and the second stop rod are arranged opposite to the stop surface, the first stop rod and the second stop rod are fixed on the inner wall of the first side plate, when the lifting hook frame is clamped in the lifting hook groove, the first stop rod is in contact with the stop surface, and when the lifting hook frame is not clamped in the lifting hook groove, the second stop rod is in contact with the stop surface.

Further, install the monitoring board on the backstop face, install on the inner wall of first curb plate and be used for monitoring the position sensor of the position of monitoring board.

Specifically, the lifting hook assembly further comprises a locking block and a locking bolt, the locking block is fixed to the pin shaft, the locking block is provided with a locking hole, the inner wall of the first side plate is provided with a threaded hole matched with the locking bolt, and the locking bolt penetrates through the locking hole and is installed in the threaded hole.

Specifically, the lifting system further comprises: the guide rail comprises a first guide rail side wall, a second guide rail side wall, a third guide rail side wall and a fourth guide rail side wall, the first guide rail side wall and the third guide rail side wall are two side walls which are oppositely arranged on the guide rail, the second guide rail side wall and the first side plate are oppositely arranged, the guide rail mounting frame is installed on the fourth guide rail side wall, and the first guide rail side wall and the third guide rail side wall extend out of two sides of the guide rail mounting frame respectively;

the roller includes: first gyro wheel, second gyro wheel and third gyro wheel, first gyro wheel with the second gyro wheel sets up respectively between the guide rail mounting bracket with the first curb plate, and first gyro wheel with the second gyro wheel respectively rollably arranges on first guide rail lateral wall and the third guide rail lateral wall, the third gyro wheel is arranged on the second guide rail lateral wall, the gyro wheel support includes: the first roller, the second roller and the third roller are respectively rotatably arranged on the first roller support, the second roller support and the third roller support, the first roller support and the second roller support are respectively arranged on the first side plate, and the third roller support is arranged on the top plate.

Specifically, the operating system still includes the pull rod subassembly, the pull rod hole has been seted up on the roof, the pull rod subassembly includes: the pull rod comprises a pull rod body, a positioning ring, a spring and a nut, wherein the middle of the pull rod body is arranged in the pull rod hole, a traction rope mounting hole is formed in the top of the pull rod body, the traction rope is mounted on the traction rope mounting hole, the positioning ring is fixed on the pull rod body, the positioning ring is located above a top plate, external threads matched with the nut are arranged on the outer wall of the bottom of the pull rod body, the nut is mounted at the bottom of the pull rod body, the spring is sleeved on the pull rod body, and the spring is arranged between the nut and the bottom surface of the top plate.

Further, the lift system also includes a pull rod sensor for monitoring the position of the nut, the pull rod sensor being mounted on the inner wall of the first side plate.

Specifically, the driving device of the transmission rod is a direct current permanent magnet motor.

Specifically, operating system still includes the reset spring mounting bracket, the reset spring mounting bracket includes reset spring installing support, reset spring installation pull rod and two reset spring installation nuts, the reset spring installing support is installed on the inner wall of first curb plate, the through-hole has been seted up on the reset spring installing support, the middle part of reset spring installation pull rod is located in the through-hole, just be provided with on the outer wall of reset spring installation pull rod respectively with two reset spring installation nut matched with external screw threads, two reset spring installation nuts are installed respectively reset spring installing support both sides on the reset spring installation pull rod, set up on the reset spring installation pull rod and be used for the installation reset spring the drag hook of the other end.

Specifically, the lifting system further comprises: and the two sides of the third side plate are respectively fixed on the first side plate and the second side plate, and the third side plate is provided with a hook body movable through hole.

The embodiment of the utility model provides a beneficial effect that technical scheme brought is: the embodiment of the utility model provides a lifting system, before the vehicle went on the car-carrying platform or went off the car-carrying platform, with the transmission shaft retraction of transfer line drive arrangement, and drive the transfer line and move together, make the lifting hook body along the anticlockwise rotation of the central line of round pin axle, realize the locking of lifting hook body and lifting hook groove, the vehicle can drive on the car-carrying platform or drive off the car-carrying platform at this moment, and the vehicle is in the in-process, because of the locking of lifting hook body and lifting hook groove, make the car-carrying platform have good stability relative to the mounting bracket, can not take place to rock because of the removal of vehicle, wait after the vehicle drives on the car-carrying platform or drives off the car-carrying platform, can separate the lifting hook body and lifting hook groove, and carry out the lift operation to the car-carrying platform again, when the lift operation is carried out to the operating system, the gyro wheel rotates on the, thereby improving the stability of the lifting system.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a schematic front view of a lifting system provided in an embodiment of the present invention;

fig. 2 is a schematic side view of a lifting system according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a mounting frame according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a hook assembly provided in an embodiment of the present invention;

fig. 5 is a schematic structural view of a hook body provided in an embodiment of the present invention;

fig. 6 is a schematic structural diagram of a third side plate according to an embodiment of the present invention;

fig. 7 is a schematic structural view of the mounting frame and the vehicle carrying platform provided by the embodiment of the present invention;

fig. 8 is a schematic structural view of the first stop bar and the second stop bar provided by the embodiment of the present invention;

fig. 9 is a schematic top view of a lifting system according to an embodiment of the present invention;

fig. 10 is a schematic structural diagram of a first roller and a first roller bracket according to an embodiment of the present invention;

fig. 11 is a schematic structural diagram of a third roller and a third roller support provided in the embodiment of the present invention;

fig. 12 is a schematic structural diagram of a sixth roller and a sixth roller support provided in the embodiment of the present invention;

fig. 13 is a schematic structural diagram of a drawbar assembly according to an embodiment of the present invention;

fig. 14 is a schematic structural diagram of a cover plate according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, embodiments of the present invention will be described in further detail below with reference to the accompanying drawings.

The embodiment of the utility model provides a parking equipment's operating system, this operating system are applicable to lifting parking equipment's year platform a, as shown in fig. 1 ~ 3, this operating system includes: the device comprises a mounting frame 1, a hook component 2, a roller component 3, a traction rope 4 and a traction rope driving device 5. The mounting bracket 1 includes: the structure comprises a first side plate 1a, a second side plate 1b, a top plate 1d and a bottom plate 1e, wherein the first side plate 1a and the second side plate 1b are oppositely arranged at intervals, the top plate 1d is fixed at the top of the first side plate 1a and the second side plate 1b, and the bottom plate 1e is fixed at the bottom of the first side plate 1a and the second side plate 1 b.

As shown in fig. 4 and 5 in combination, the hook assembly 2 includes: the lifting hook comprises a lifting hook body 2a, a pin shaft 2b, a transmission rod 2c, a transmission rod driving device 2d and a return spring 2f, wherein the lifting hook body 2a is arranged between a first side plate 1a and a second side plate 1b, one end of the lifting hook body 2a is provided with a lifting hook groove 201a matched with the lifting hook frame b, the other end of the lifting hook body 2a is provided with a pin shaft hole 202a, the middle part of the pin shaft 2b is inserted into the pin shaft hole 202a, the first side plate 1a is provided with a first pin shaft mounting hole 101a, the second side plate 1b is provided with a second pin shaft mounting hole 101b, two ends of the pin shaft 2b are respectively mounted on the first pin shaft mounting hole 101a and the second pin shaft mounting hole 101b, one end of the transmission rod 2c is rotatably mounted on the lifting hook body 2a, the other end of the transmission rod 2c is rotatably connected with a transmission shaft of the transmission rod driving device 2d, the driving device 2d is configured to drive, one end of the return spring 2f is installed on the hook body 2a, and the other end of the return spring 2f is installed on the inner wall of the first side plate 1 a.

Referring again to fig. 1, the roller assembly 3 includes: a roller 3a and a roller support 3b, the roller support 3b can be fixed on the mounting frame 1 by bolts, the roller 3a is arranged on the guide rail c and can be rotatably mounted on the roller support 3 b.

Further, the lifting system may further comprise a pull rod sensor 14 for monitoring the position of the nut 13d, the pull rod sensor 14 being mounted on the inner wall of the first side plate 1 d. When the pull rod assembly 13 performs the lifting movement, the position between the pull rod assembly and the nut 13d is monitored by the pull rod sensor 14, so that the user can know the position of the pull rod assembly 13 conveniently.

In particular, the driving rod driving device 2d may be a dc permanent magnet motor. The direct-current permanent magnet motor can drive the transmission rod 2c to move and drive the hook body 2a to rotate along the central line of the pin shaft 2 b.

As shown in fig. 6, the lifting system may further include: the two sides of the third side plate 1c are respectively fixed on the first side plate 1a and the second side plate 1b, and the third side plate 1c is provided with a hook body movable through hole 101 c. When lifting hook body 2a rotated along the central line of round pin axle 2b, can stretch out lifting hook body activity through-hole 101c, can dwindle the volume of mounting bracket 1 like this, reduced this operating system's volume and weight, simultaneously, installation third curb plate 1c can also make mounting bracket 1 more firm.

Referring to fig. 1 and 7, a vehicle carrying platform a is fixed on an installation frame 1, one end of a traction rope 4 is fixed on the installation frame 1, and the other end of the traction rope 4 is in transmission connection with a traction rope driving device 5.

As shown in fig. 5 and 8, the lifting system may further include: the hook comprises a hook body 2a and is characterized by comprising a first stop rod 6 and a second stop rod 7, wherein a stop surface 8 is arranged on the side wall of the hook body 2a, the first stop rod 6 and the second stop rod 7 are arranged opposite to the stop surface 8, the first stop rod 6 and the second stop rod 7 are fixed on the inner wall of the first side plate 1a, when a hook frame b is locked with a hook groove 201a, the first stop rod 6 is in contact with the stop surface 8, and after the hook frame b is separated from the hook groove 201a, the second stop rod 7 is in contact with the stop surface 8. When the hook body 2a separated from the hook groove 201a rotates anticlockwise, the hook body 2a is locked with the hook groove 201a, at the moment, the first stop rod 6 is in contact with the stop surface 8, the hook body 2a can be prevented from continuing to rotate anticlockwise through the first stop rod 6, and the anticlockwise rotation of the hook body 2a is limited; when the lifting hook body 2a rotates clockwise, the locked lifting hook body 2a is separated from the lifting hook groove 201a, at the moment, the second stop rod 7 is in contact with the stop surface 8, the lifting hook body 2a can be stopped by the second stop rod 7 to continue rotating clockwise, the clockwise rotation of the lifting hook body 2a is limited, and the safety and the stability of the lifting system can be improved by the stopping effect of the first stop rod 6 and the second stop rod 7.

In implementation, both the first stop rod 6 and the second stop rod 7 may be cylindrical, the end portions of the first stop rod 6 and the second stop rod 7 may be provided with cylindrical stop blocks 16, the diameter of each cylindrical stop block 16 may be larger than the diameter of each first stop rod 6 and the diameter of each second stop rod 7, and the two cylindrical stop blocks 16 may increase the contact area between the first stop rod 6 and the stop surface 8 and the contact area between the second stop rod 7 and the stop surface 8, so that the rotation of the hook body 2a can be effectively stopped. In this embodiment, the rotatable connection may be a hinge.

Referring again to fig. 4, the lift system may further include: the first driving device mounting frame 18a and the second driving device mounting frame 18b are arranged in parallel, the first driving device mounting frame 18a includes a horizontal driving device mounting frame 1801a and a vertical driving device mounting frame 1802a which are arranged perpendicular to each other, a side edge of the horizontal driving device mounting frame 1801a is fixed to a top portion of the vertical driving device mounting frame 1802a, the transmission rod driving device 2d is mounted on the horizontal driving device mounting frame 1801a, a first mounting hole 181a with a circular waist shape is formed in the vertical driving device mounting frame 1802a, a screw hole is formed in a position, corresponding to the first mounting hole 181a, of the second driving device mounting frame 18b, a screw penetrates through the first mounting hole 181a to mount the vertical driving device mounting frame 1802a on the second driving device mounting frame 18b, a second mounting hole 181b with a circular waist shape is formed in the second driving device mounting frame 18b, and the screw penetrates through the second mounting hole 181b to fix the second driving device mounting frame 18b on the first. When the driving device is implemented, the first mounting hole 181a and the second mounting hole 181b are both arranged in parallel with the first side plate 1a, the length direction of the first mounting hole 181a is arranged in parallel with the moving direction of the transmission shaft of the transmission rod driving device 2d, and the second mounting hole 181b is arranged perpendicular to the moving direction of the transmission shaft of the transmission rod driving device 2 d. The position of the transmission rod driving device 2d can be adjusted by arranging the first mounting hole 181a and the second mounting hole 181b in the shape of a circular waist, so that the angle of the transmission rod 2c relative to the hook body 2a can be adjusted, and the transmission rod 2c can be more smoothly driven to rotate by the hook body 2 a.

Further, a monitoring plate 9 may be mounted on the stop surface 8, and a position sensor 10 for monitoring the position of the monitoring plate 9 is mounted on the inner wall of the first side plate 1 a. The position sensor 10 can monitor the position of the monitoring plate 9, and the position of the hook body 2a can be monitored by monitoring the position of the monitoring plate 9, so that the user can know the rotation condition of the hook body 2 a.

Specifically, the hook assembly 2 may further include: the locking device comprises a locking block 11 and a locking bolt (not shown in the figure), wherein the locking block 11 is fixed on a pin shaft 2b, a locking hole 11a is formed in the locking block 11, a threaded hole matched with the locking bolt is formed in the inner wall of the first side plate 1a, and the locking bolt penetrates through the locking hole 11a and is installed in the threaded hole. The locking piece 11 cooperates with the locking bolt to realize the fixation of the pin shaft 2b, so that the pin shaft 2b is prevented from rotating together with the hook body 2a when the hook body 2a rotates, and the safety and the stability of the lifting system are further improved. When the locking device is used, in order to firmly fix the locking block 11 on the pin shaft 2b, a notch 11b matched with the pin shaft 2b in shape can be formed in the locking block 11, the locking block is fixed on the pin shaft 2b through the notch 11b, the contact area between the locking block 11 and the pin shaft 2b can be increased through the notch 11b, and the locking block 11 and the pin shaft 2b are more firmly connected.

As shown in fig. 9, the lifting system may further include: guide rail c and guide rail mount d. Guide rail c includes first guide rail lateral wall c1, second guide rail lateral wall c2, third guide rail lateral wall c3 and fourth guide rail lateral wall c4, and first guide rail lateral wall c1 and third guide rail lateral wall c3 are two lateral walls of the opposite arrangement on guide rail c, and second guide rail lateral wall c2 is the opposite arrangement with first curb plate 1a, and rail mounting bracket d installs on fourth guide rail lateral wall c4, and first guide rail lateral wall c1 and third guide rail lateral wall c3 extend respectively to the both sides of rail mounting bracket d. Referring to fig. 10 and 11, the roller 3a includes: a first wheel 301a, a second wheel 302a, and a third wheel 303 a. The first roller 301a and the second roller 302a are respectively disposed between the rail mount d and the first side plate 1a, and the first roller 301a and the second roller 302a are respectively rollably disposed on the first rail side wall c1 and the third rail side wall c3, and the third roller 303a is disposed on the second rail side wall c2, and the roller bracket 3b includes: the first roller bracket 301b, the second roller bracket 302b and the third roller bracket 303b, the first roller 301a, the second roller 302a and the third roller 303a are respectively rotatably mounted on the first roller bracket 301b, the second roller bracket 302b and the third roller bracket 303b, the first roller bracket 301b and the second roller bracket 302b are respectively mounted on the first side plate 1a, and the third roller bracket 303b is mounted on the top plate 1 d. The guide rail mounting bracket d can prevent the first roller 301a and the second roller 302a from being separated from the guide rail c in the rotating process, and can ensure that the lifting system has good stability. Meanwhile, the first roller 301a, the second roller 302a and the third roller 303a roll together on the guide rail c, so that a guiding function can be realized for the lifting system.

As shown in fig. 1, 2 and 12, the roller 3a may further include: a fourth roller 304a, a fifth roller (not shown) and a sixth roller 306a, the fourth roller 304a is disposed below the first roller 301a, the fifth roller is disposed below the second roller 302a, and the fourth roller 304a and the fifth roller are disposed between the rail mount d and the first side plate 1a, the fourth roller 304a and the fifth roller are respectively rollably disposed on the first rail side wall c1 and the third rail side wall c3, the sixth roller 306a is disposed on the second rail side wall c2, the roller bracket 3b may further include: a fourth roller bracket 304b, a fifth roller bracket 305b and a sixth roller bracket 306b, wherein the fourth roller 304a, the fifth roller 305b and the sixth roller 306a are respectively rotatably mounted on the fourth roller bracket 304b, the fifth roller bracket 305b and the sixth roller bracket 306b, the fourth roller bracket 304b and the fifth roller bracket are respectively mounted on the first side plate 1a, and the sixth roller bracket 306b is mounted on the second side plate 1 b. Through setting up fourth gyro wheel 304a, fifth gyro wheel and sixth gyro wheel 306a can effectively guarantee operating system's guide function, can also further guarantee operating system's stability simultaneously, avoid carrying a car platform a and rock.

As shown in fig. 13, the lifting system may further include a pull rod assembly 13, the top plate 1d has a pull rod hole, and the pull rod assembly 13 includes: pull rod 13a, holding ring 13b, spring 13c and nut 13d, pull rod 13 a's middle part is arranged at the pull rod downthehole, the haulage rope mounting hole has been seted up at pull rod 13 a's top, haulage rope 4 installs on the haulage rope mounting hole, holding ring 13b fixes on pull rod 13a, and holding ring 13b is located the top of roof 1d, be provided with the external screw thread with nut 13d matched with on pull rod 13 b's the bottom outer wall, nut 13d installs the bottom at pull rod 13a, spring 13c cover is established on pull rod 13a, and spring 13c arranges between the bottom surface of nut 13d and roof 1 d. This pull rod assembly 13 is used for installing haulage rope 4, and simultaneously, spring 13c arranges between the bottom surface of nut 13d and roof 1d, can avoid pull rod assembly 13 and roof 1d rigid contact like this, and simultaneously, spring 13c can also play the effect of buffering, makes haulage rope 4 pulling pull rod assembly 13 remove in-process operating system's lift more steady.

In implementation, the tie rod assembly 13 may further include: and a spring seat 13g, the spring seat 13g being fixed to the nut 13d, and a bottom of the spring 13c being mounted on the spring seat 13 g. The spring seat 13g can fix the spring 13c, preventing the bottom of the spring 13c from being displaced.

When the tension rod assembly 13 is implemented, the tension rod assembly 13 may further include a spring support ring 13e, the spring support ring 13e is sleeved on the tension rod 13a, the spring 13c is sleeved on an outer wall of the spring support ring 13e, the spring support ring 13e is used for supporting the spring 13c, the length of the spring support ring 13e is smaller than that of the spring 13c, and the spring support ring 13e guides the spring 13c when the spring 13c is elastically deformed, so that the spring 13c can be compressed or extended along the outer wall of the spring support ring 13 e.

Referring to fig. 8 again, this operating system may further include a return spring mounting bracket 15, the return spring mounting bracket 15 includes a return spring mounting bracket 15a, a return spring mounting pull rod 15b and two return spring mounting nuts 15c, the return spring mounting bracket 15a is installed on the inner wall of the first side plate 1a, a through hole has been opened on the return spring mounting bracket 15a, the middle part of the return spring mounting pull rod 15b is located in the through hole, and the outer wall of the return spring mounting pull rod 15b is provided with external threads respectively matched with the two return spring mounting nuts 15c, the two return spring mounting nuts 15c are respectively installed on the return spring mounting pull rods 15b on both sides of the return spring mounting bracket 15a, and the return spring mounting pull rod 15b is provided with a drag hook 151b for installing the other end of the return spring 2 f. Through adjusting the position of two reset spring mounting nuts 15c on reset spring installation pull rod 15b, can adjust the length of reset spring installation pull rod 15b between reset spring mounting bracket 15 and reset spring 2f to the size of the spring force that control reset spring 2f provided, and then guarantee that reset spring 2f can effectively make the lifting hook body 2a after the rotation reset.

Referring again to fig. 5, in the present embodiment, a return spring mounting rod 17 may be provided on the hook body 2a, and one end of the return spring 2f is mounted on the return spring mounting rod 17.

Referring again to fig. 1 and 2, the first side plate 1a may include an upper plate 19, a connecting plate 20, and a mounting block 21, wherein the upper plate 19 and the mounting block 21 are respectively disposed at two sides of the connecting plate 20, the upper plate 19 is fixed at the top of the connecting plate 20, the mounting block 21 is fixed at the bottom of the connecting plate 20, and a tie rod hole is opened on the mounting block 21. There is a height difference between the upper plate 19 and the mounting block 21, which enables the top of the mounting block 21 to be used to accommodate the top of the drawbar assembly 13, thereby reducing the volume of the lift.

As shown in fig. 2 and 14, the mounting bracket 1 may further include a fourth side plate 1f and a cover plate 1g, the cover plate 1g is fixed on the outer side of the second side plate 1b and arranged in parallel with the first side plate 1a, the top of the cover plate 1g is fixed on the top plate 1d, the bottom of the cover plate 1g is fixed on the bottom plate 1e, two sides of the fourth side plate 1f are fixed on the cover plate 1g and the first side plate 1a, respectively, the top of the fourth side plate 1f is fixed on the mounting block 21, and the bottom of the fourth side plate 1f is fixed on the bottom plate 1 e. Can avoid the inside part of mounting bracket 1 to expose through setting up fourth curb plate 1f and apron 1g to improve this elevating gear's security, simultaneously, fourth curb plate 1f and apron 1g can also make mounting bracket 1's structure more firm. A first reinforcing rib plate 22 can be arranged between the first side plate 1a and the second side plate 1b, a second reinforcing rib plate 23 is arranged between the first side plate 1a and the top plate 1d, and a third reinforcing rib plate 24 is arranged between the fourth side plate 1f and the bottom plate 1 e. The first reinforcing plate 22, the second reinforcing plate 23 and the third reinforcing plate 24 can further stabilize the structure of the mounting bracket 1.

The following briefly introduces the working principle of the lifting system provided by the embodiment of the present invention, which is specifically as follows:

when the lifting parking equipment is realized, four corners of a car carrying platform a of the lifting parking equipment can be fixed with the mounting frame 1 of one lifting system, and the four lifting systems synchronously work in the lifting process of the lifting car carrying platform a.

When a car carrying platform a needs to ascend, the traction rope driving device 5 drives the traction rope 4 to pull the car carrying platform a to ascend, the roller 3a rolls along the guide rail c, at the moment, the transmission shaft of the transmission rod driving device 2d extends out, so that the hook body 2a is separated from the hook groove 201a under the traction of the reset spring 2f (at the moment, the second stop rod 7 can be in contact with the stop surface 8 to realize the stop function), the car carrying platform a is lifted to a specified position through the lifting system, after the car carrying platform a is static, at the moment, the vehicle needs to go onto the car carrying platform a or go away from the car carrying platform a, at the moment, in order to avoid the lifting system to shake, the hook body 2a is locked with the hook groove 201a, and: the transmission shaft of the transmission rod driving device 2d retracts to drive the transmission rod 2c to move together, so that the hook body 2a rotates anticlockwise along the center line of the pin shaft 2b, and finally the hook body 2a is locked with the hook groove 201a (at the moment, the first stop rod 6 can be in contact with the stop surface 8 to achieve a stop function), and then the vehicle can drive on the vehicle loading platform a or drive off the vehicle loading platform a.

The embodiment of the utility model provides a lifting system, before the vehicle went on the car-carrying platform or went off the car-carrying platform, with the transmission shaft retraction of transfer line drive arrangement, and drive the transfer line and move together, make the lifting hook body along the anticlockwise rotation of the central line of round pin axle, realize the locking of lifting hook body and lifting hook groove, the vehicle can drive on the car-carrying platform or drive off the car-carrying platform at this moment, and the vehicle is in the in-process, because of the locking of lifting hook body and lifting hook groove, make the car-carrying platform have good stability relative to the mounting bracket, can not take place to rock because of the removal of vehicle, wait after the vehicle drives on the car-carrying platform or drives off the car-carrying platform, can separate the lifting hook body and lifting hook groove, and carry out the lift operation to the car-carrying platform again, when the lift operation is carried out to the operating system, the gyro wheel rotates on the, thereby improving the stability of the lifting system.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (10)

1. A lifting system for a parking apparatus, the lifting system being adapted for lifting a vehicle platform of the parking apparatus, the lifting system comprising: mounting bracket, lifting hook subassembly, wheel components, haulage rope and haulage rope drive arrangement, the mounting bracket includes: the top plate is fixed at the tops of the first side plate and the second side plate, and the bottom plate is fixed at the bottoms of the first side plate and the second side plate;

the hook assembly includes: the lifting hook comprises a lifting hook body, a pin shaft, a transmission rod driving device and a reset spring, wherein the lifting hook body is arranged between a first side plate and a second side plate, one end of the lifting hook body is provided with a lifting hook groove matched with a lifting hook frame, the other end of the lifting hook body is provided with a pin shaft hole, the middle part of the pin shaft is inserted into the pin shaft hole, the first side plate is provided with a first pin shaft mounting hole, the second side plate is provided with a second pin shaft mounting hole, two ends of the pin shaft are respectively mounted on the first pin shaft mounting hole and the second pin shaft mounting hole, one end of the transmission rod is rotatably mounted on the lifting hook body, the other end of the transmission rod is rotatably connected with a transmission shaft of the transmission rod driving device, and the transmission rod driving device is configured to drive the lifting hook body to rotate along the center line, one end of the reset spring is mounted on the hook body, and the other end of the reset spring is mounted on the inner wall of the first side plate;

the roller assembly includes: the roller wheel bracket is fixed on the mounting rack, and the roller wheel is arranged on the guide rail and is rotatably mounted on the roller wheel bracket;

the vehicle carrying platform is fixed on the mounting frame, one end of the traction rope is fixed on the mounting frame, and the other end of the traction rope is in transmission connection with the traction rope driving device.

2. The lift system of claim 1, further comprising: the lifting hook comprises a lifting hook body and is characterized by comprising a first stop rod and a second stop rod, wherein a stop surface is arranged on the side wall of the lifting hook body, the first stop rod and the second stop rod are arranged opposite to the stop surface, the first stop rod and the second stop rod are fixed on the inner wall of the first side plate, when the lifting hook frame is clamped in the lifting hook groove, the first stop rod is in contact with the stop surface, and when the lifting hook frame is not clamped in the lifting hook groove, the second stop rod is in contact with the stop surface.

3. The lifting system according to claim 2, wherein a monitoring plate is mounted on the stop surface, and a position sensor for monitoring the position of the monitoring plate is mounted on the inner wall of the first side plate.

4. The lifting system according to claim 1, wherein the hook assembly further comprises a locking block and a locking bolt, the locking block is fixed on the pin shaft, the locking block is provided with a locking hole, the inner wall of the first side plate is provided with a threaded hole matched with the locking bolt, and the locking bolt passes through the locking hole and is installed in the threaded hole.

5. The lift system of claim 1, further comprising: the guide rail comprises a first guide rail side wall, a second guide rail side wall, a third guide rail side wall and a fourth guide rail side wall, the first guide rail side wall and the third guide rail side wall are two side walls which are oppositely arranged on the guide rail, the second guide rail side wall and the first side plate are oppositely arranged, the guide rail mounting frame is installed on the fourth guide rail side wall, and the first guide rail side wall and the third guide rail side wall extend out of two sides of the guide rail mounting frame respectively;

the roller includes: first gyro wheel, second gyro wheel and third gyro wheel, first gyro wheel with the second gyro wheel sets up respectively between the guide rail mounting bracket with the first curb plate, and first gyro wheel with the second gyro wheel respectively rollably arranges on first guide rail lateral wall and the third guide rail lateral wall, the third gyro wheel is arranged on the second guide rail lateral wall, the gyro wheel support includes: the first roller, the second roller and the third roller are respectively rotatably arranged on the first roller support, the second roller support and the third roller support, the first roller support and the second roller support are respectively arranged on the first side plate, and the third roller support is arranged on the top plate.

6. The lift system of claim 1, further comprising a tie rod assembly, the top plate defining a tie rod bore, the tie rod assembly comprising: the pull rod comprises a pull rod body, a positioning ring, a spring and a nut, wherein the middle of the pull rod body is arranged in the pull rod hole, a traction rope mounting hole is formed in the top of the pull rod body, the traction rope is mounted on the traction rope mounting hole, the positioning ring is fixed on the pull rod body, the positioning ring is located above a top plate, external threads matched with the nut are arranged on the outer wall of the bottom of the pull rod body, the nut is mounted at the bottom of the pull rod body, the spring is sleeved on the pull rod body, and the spring is arranged between the nut and the bottom surface of the top plate.

7. The lift system of claim 6, further comprising a pull rod sensor for monitoring the position of the nut, the pull rod sensor being mounted on an inner wall of the first side plate.

8. The lift system of claim 1, wherein the drive rod drive is a dc permanent magnet motor.

9. The lift system of claim 1, further comprising a return spring mount, the reset spring mounting rack comprises a reset spring mounting bracket, a reset spring mounting pull rod and two reset spring mounting nuts, the reset spring mounting bracket is mounted on the inner wall of the first side plate, a through hole is formed in the reset spring mounting bracket, the middle part of the reset spring mounting pull rod is positioned in the through hole, and the outer wall of the reset spring mounting pull rod is provided with external threads which are respectively matched with the two reset spring mounting nuts, the two reset spring mounting nuts are respectively mounted on the reset spring mounting pull rods on the two sides of the reset spring mounting bracket, and the reset spring mounting pull rod is provided with a drag hook used for mounting the other end of the reset spring.

10. The lift system of claim 1, further comprising: and the two sides of the third side plate are respectively fixed on the first side plate and the second side plate, and the third side plate is provided with a hook body movable through hole.

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