CN109541971B - Control method of high-stability socket - Google Patents

Abstract

The invention provides a control method of a high-stability socket, which comprises the following steps: analyzing after the processor receives the socket control information to acquire ID information of all socket assemblies needing to be closed and opened in the socket; sorting all socket component ID information included in the socket control information; the processor sequentially controls the motor to act according to the sequencing serial number, and the motor drives the screw rod to move so as to drive the rest of the moving assemblies arranged on the fixed plate to move; when the screw rod drives the fixing plate to move to the socket assembly needing to move, the action information corresponding to the ID of the socket assembly is analyzed, the corresponding moving assembly on the fixing plate is controlled to move, and the socket assembly is closed or opened. In the method, the connection or disconnection of a plurality of groups of socket assemblies can be realized by utilizing one group of movable assemblies, and the whole device is more intelligent, saves more materials and has lower cost on the basis of longer service life.

Description

Control method of high-stability socket

Technical Field

The invention relates to the field of sockets, in particular to a control method of a high-stability socket.

Background

A socket is a receptacle into which one or more circuit connections can be inserted, through which various connections can be inserted, thus facilitating the connection to other circuits. The connection and disconnection between the circuit and the copper piece are realized to finally achieve the connection and disconnection of the part of the circuit. The socket is not only an indispensable article for users in daily life, but also plays an important role in electrical appliance testing. However, when an electrical appliance is tested, the socket insert is loosened due to repeated plugging and unplugging, so that the problem to be solved is to provide a control method for a high-stability socket.

Disclosure of Invention

The technical scheme of the invention is as follows: a method of controlling a high stability outlet, the method comprising the steps of:

s1, analyzing after the processor receives the socket control information, and acquiring the ID information of all socket assemblies needing to be closed and opened in the socket;

s2, sorting all the socket assembly ID information included in the socket control information;

s3, the processor sequentially controls the action of a motor according to the sequence number, and the motor drives a screw rod to move so as to drive the rest of moving components arranged on the fixed plate to move;

and S5, when the screw rod drives the fixed plate to move to the socket assembly needing to be moved, analyzing the action information corresponding to the ID of the socket assembly, controlling the corresponding moving assembly on the fixed plate to move, and closing or opening the socket assembly.

Preferably, the socket control information includes a plurality of sets of socket component information, and each set of socket component information includes socket component ID information and corresponding action information.

Preferably, step S4 includes the process of:

s41, the lead screw drives the fixing plate to move from the initial position to the position corresponding to the ID information of the socket assemblies sequenced at the first position;

s42, analyzing the action information corresponding to the socket assembly, controlling the corresponding moving assembly on the fixed plate to act, and opening or closing the socket assembly;

s43, judging whether the screw rod moves to the position where the ID information of the last socket assembly in the sequence is located, if so, ending the stroke; otherwise, the motor drives the screw rod to move to the position corresponding to the ID information of the next socket assembly in the sequence, and the step S42 is executed in a returning mode.

Preferably, in step S43, after the stroke is finished, the motor controls the lead screw to drive the fixing plate to move to the initial position.

Preferably, in step S2, the socket component ID information in the socket control information is sorted in sequence according to the arrangement order of the socket components.

The technical scheme has the following advantages or beneficial effects: in the method, the connection or disconnection of a plurality of groups of socket assemblies can be realized by utilizing one group of movable assemblies, and the whole device is more intelligent, saves more materials and has lower cost on the basis of longer service life.

Drawings

Embodiments of the present invention will now be described more fully hereinafter with reference to the accompanying drawings. The drawings are, however, to be regarded as illustrative and explanatory only and are not restrictive of the scope of the invention.

Fig. 1 is a schematic external view of a high stability socket according to the present invention;

FIG. 2 is a schematic diagram of a socket assembly of the self-sustained high-stability socket of the present invention;

FIG. 3 is a schematic diagram of a portion of a self-contained high stability receptacle according to the present invention;

FIG. 4 is a schematic diagram of a moving component from a high stability socket according to the present invention;

fig. 5 is a first flowchart illustrating a control method of a high-stability socket according to the present invention;

fig. 6 is a second flowchart illustrating a control method of a high-stability socket according to the present invention;

in the drawings: 1. a housing; 2. mounting grooves; 11. a fixed seat; 12. a first track; 13. a second track; 14. a neutral contact block; 15. a live line contact block; 16. a limiting groove; 17. positioning a plate; 21. a screw rod; 22. a motor; 23. a nut; 24. a fixing plate; 25. a third cylinder; 26. mounting a plate; 31. a first cylinder; 32. a second cylinder; 33. and (5) positioning the rod.

Detailed Description

The following describes a control method of a high-stability socket according to the present invention in detail with reference to the accompanying drawings and specific embodiments.

Example one

The utility model provides a socket of high stability, includes casing 1, sets up at 1 inside a plurality of socket subassembly of casing and removes the subassembly, and in using, during a plurality of plug one-to-one inserted the socket subassembly that corresponds, remove the subassembly and promote live wire contact block 15 and zero line contact block 14 that insert in the socket subassembly that has the plug for with live wire inserted sheet and zero line inserted sheet one-to-one contact on the plug, with this UNICOM that realizes socket and plug.

Further, as shown in fig. 1, the upper surface of the housing 1 is a socket panel, the socket panel is provided with a plurality of mounting grooves 2, and a socket assembly is disposed in each mounting groove 2.

Further, as shown in fig. 2, the socket assembly includes: the fixing base 11, set up two tracks on the fixing base 11 and one-to-one are located live wire contact block 15 and zero line contact block 14 on the track. In practical application, the moving component pushes the live contact block 15 and/or the neutral contact block 14 to move along the track to make contact with the live insertion piece and/or the neutral insertion piece on the plug, so that the socket is connected. For the sake of distinction, the track at the bottom of the neutral contact block 14 is referred to as the first track 12, and the track at the bottom of the live contact block 15 is referred to as the second track 13.

Furthermore, a positioning hole is formed in the bottom of each track, a moving rod is clamped in the positioning hole and can rotate, and a positioning plate 17 is fixedly arranged on the moving rod. In addition, a spring is arranged in the positioning hole, one end of the spring is fixed in the positioning hole, and the other end of the spring is fixed on the positioning plate 17. When the positioning plate 17 is completely accommodated in the positioning hole, the height of the positioning plate is lower than the height of the bottom of the rail. Therefore, when the moving component pushes the neutral contact block 14 to move towards the neutral plug along the track, the positioning plate 17 is slowly ejected along with the separation of the neutral contact block 14 and the elastic force of the spring until the positioning plate 17 is completely erected. At this moment, the zero line contact block 14 is in contact with the zero line insertion piece, and the standing of the positioning plate 17 ensures the fixation of the zero line contact block 14, so that the moving assembly can continuously move to the next socket assembly to be switched on to work, namely, the moving assembly is moved away without causing the displacement of the zero line contact block 14 due to the action of the positioning plate 17. When the connection is disconnected, the moving assembly is utilized to push the zero line contact block 14 to be away from the zero line insertion piece, then the positioning plate 17 falls down along with the zero line contact block until the zero line contact block 14 completely covers the upper end of the positioning plate 17, and the positioning plate 17 is arranged in the positioning hole. At this time, the positioning plate 17 does not infer that there is a side surface on the neutral contact block 14, and the upward pushing force thereof does not affect the movement of the neutral contact block 14. Correspondingly, a positioning plate 17 is also arranged below the moving track corresponding to the live wire contact block 15, the structure and the working principle of the positioning plate are the same as those of the neutral wire contact block 14, and the moving directions of the neutral wire contact block 14 and the live wire contact block 15 are always opposite, so that the difference point is only in the fixed direction and the standing/lying direction of the positioning plate 17. Utilize the removal that removes subassembly promotion zero line contact block 14 and live wire contact block 15, not only realized the switch-on or the disconnection of socket with the plug, can also prevent to pull out repeatedly and insert the plug and cause and insert not tight, easily take off the scheduling problem, and then prevent the socket because not hard up phenomenon that causes the outage, improved socket life. In addition, the use of locating plate 17 for to the location of socket when plug and socket contact, prevent because rock the circumstances such as cause the removal of zero line contact block 14 and live wire contact block 15 and then the phenomenon of outage appears. The positioning structure is simple and low in cost.

In a further aspect, as shown in fig. 3, the moving assembly includes a mounting plate 26 and two cylinders disposed on the mounting plate 26 and having opposite moving directions, and the two cylinders are respectively configured to abut against the neutral contact block 14 or the live contact block 15 to drive the neutral contact block 14 and the live contact block 15 to move to opposite defensive lines. For the sake of distinction, the cylinder pushing the neutral contact block 14 is referred to as a first cylinder 31, and the cylinder pushing the live contact block 15 is referred to as a second cylinder 32. The use of two cylinders makes zero line contact block 14 and live wire contact block 15 remove simultaneously, improves work efficiency.

Furthermore, the side surfaces of the zero line contact block 14 and the live line contact block 15 are both provided with a limiting groove 16 to limit the cylinder before moving, so as to drive the zero line contact block 14 or the live line contact block 15 to move. The use of spacing groove 16 makes the cylinder output shaft can be accurate insert zero line contact block 14 or live wire contact block 15, can guarantee the degree of accuracy when both remove simultaneously, improves the accuracy and the reliability of whole device.

Further, as shown in fig. 4, the moving assembly further includes a screw 21 and a motor 22 for driving the screw 21 to move, a nut 23 is sleeved on the screw 21, and the moving assembly is located on the nut 23. The movement of the motor 22 drives the screw rod 21 to move, and then the moving component is moved. It is worth pointing out that the plurality of mounting grooves 2 on the socket panel are arranged in a linear manner, and the screw rod 21 is parallel to the straight line of the mounting grooves 2. Therefore, the movement of the screw 21 drives the mounting plate 26 to move, so that the air cylinder can move to different socket assemblies to adjust the socket assemblies.

In addition, a fixing plate 24 is provided between the nut 23 and the mounting plate 26, that is, the fixing plate 24 is fixedly provided on the nut 23, and the mounting plate 26 is provided on the fixing plate 24. Besides, the fixing plate 24 is further provided with a third cylinder 25 and a third rail, the mounting plate 26 is movably arranged on the third rail, and an output shaft of the third cylinder 25 abuts against the mounting plate 26 to drive the mounting plate 26 to reciprocate on the third cylinder 25. Therefore, in practical application, when at least one socket assembly needs to be contacted or disconnected, the motor 22 drives the screw rod 21 to move to a first target socket assembly, the third cylinder 25 pushes the mounting plate 26 to move towards a position close to the target socket assembly, and the first cylinder 31 and the second cylinder 32 are inserted into the corresponding limiting grooves 16 to drive the neutral contact block 14 or the live contact block 15 to move so as to realize the action of contacting or separating from a plug, so as to realize the effect of connection or disconnection. After completion, the third cylinder 25 drives the mounting plate 26 to move away from the target socket assembly, so that the first cylinder 31 and the second cylinder 32 are separated from the limiting groove 16. The motor 22 then moves the entire mounting plate 24 to the second destination jack module and so on until the desired action is completed. Through above-mentioned structure, utilize a set of removal subassembly, can realize the switch-on or the disconnection of multiunit socket subassembly, whole device is more intelligent on the basis that the life-span is longer, and save material more, and the cost is cheaper.

In a further aspect, a positioning rod 33 is fixedly disposed on each of the output shafts of the first cylinder 31 and the second cylinder 32, the positioning rod 33 being perpendicular to the extending direction of the output shaft of the cylinder, and when the neutral contact block 14 needs to move forward or move, the positioning rod 33 on the output shaft of the first cylinder 31 moves into the limiting groove 16 under the action of the third cylinder 25. At this time, when the first cylinder 31 moves forward, the positioning rod 33 is clamped in the limiting groove 16 to push the neutral contact block 14 to move forward, and on the contrary, the positioning rod 33 is clamped in the limiting groove 16 to pull the neutral contact block 14 to move backward. The movement principle of the live line contact block 15 is the same. Therefore, by utilizing the matching motion of the positioning rod 33 and the limiting groove 16, the zero line contact block 14 and the live line contact block 15 can be driven in two directions without an additional power mechanism.

Further, the device comprises a processor electrically linked to the motor 22, the first cylinder 31 and the second cylinder 32 to realize intelligent control of the whole socket.

Example two

Based on the above-mentioned embodiment of a high stability socket, the present embodiment provides a control method for a high stability socket.

As shown in fig. 5, a method for controlling a high-stability outlet includes the steps of:

s1, after the processor receives the socket control information, analyzing the socket control information to obtain the socket component ID information needing to be closed and the socket component ID information needing to be opened in the socket;

s2, sequencing the ID of the socket assemblies required to be closed or opened in sequence according to the ID information of all the socket assemblies included in the socket control information;

s3, the processor sequentially controls the motor 22 to act according to the sorting sequence, and the motor 22 drives the screw rod 21 to move so as to drive the other moving components on the fixed plate 24 to move;

and S4, when the lead screw 21 drives the fixing plate 24 to move to the socket assembly needing to be moved, analyzing the action information corresponding to the ID of the socket assembly, controlling the corresponding moving assembly on the fixing plate 24 to move, and closing or opening the socket assembly.

Specifically, in the above method, the socket control information is analyzed to obtain the ID information of all the socket assemblies that need to be operated, the ID information is sorted, and then the motor 22 drives the screw rod 21 to move, and the fixing plate 24 is sequentially moved to the corresponding ID information according to the sorting result. When the socket module moves to a certain socket module, the action information corresponding to the ID information of the socket module is analyzed, and then the corresponding moving module on the fixing plate 24 is controlled to act, so as to close or open the socket module. Through the mode, the intelligent control of the socket with the plurality of socket assemblies is realized.

Further, the socket control information includes a plurality of sets of socket component information, and each set of socket component information includes socket component ID information and corresponding action information. Through the receiving and dispatching of socket control information once, just can realize the control to a plurality of socket subassemblies, it is more efficient.

Further, as shown in fig. 6, the step S4 includes the following steps:

s41, the lead screw 21 drives the fixing plate 24 to move from the initial position to the socket assembly sequenced at the first position;

s42, analyzing the action information corresponding to the socket assembly, controlling the corresponding moving assembly on the fixing plate 24 to act, and closing or opening the socket assembly;

s43, judging whether the screw rod 21 moves to the ID position of the last socket assembly in the sequence, if so, finishing the stroke, and controlling the screw rod 21 to drive the fixing plate 24 to move to the initial position by the motor 22; otherwise, the motor 22 drives the screw rod 21 to move to the position corresponding to the next socket assembly ID in the sequence, and the step S42 is executed again.

Specifically, each subsequent displacement, except for the first displacement of the screw 21, requires a determination as to whether all actions have been completed, i.e., whether the retainer plate 24 is already at the last ordered socket assembly ID. The processing mode ensures the integrity of the whole process and also ensures the reliability of the whole method.

In step S2, the outlet module ID information in the outlet control information is sorted in order of the arrangement of the outlet modules. The sequencing mode is beneficial to the screw rods 21 to sequentially advance in sequence, the reciprocating motion of the screw rods 21 is not needed, and the problem of increasing the workload further occurs.

In the method, the connection or disconnection of a plurality of groups of socket assemblies can be realized by utilizing one group of movable assemblies, and the whole device is more intelligent, saves more materials and has lower cost on the basis of longer service life.

Various alterations and modifications will no doubt become apparent to those skilled in the art after having read the above description. Therefore, the appended claims should be construed to cover all such variations and modifications as fall within the true spirit and scope of the invention. Any and all equivalent ranges and contents within the scope of the claims should be considered to be within the intent and scope of the present invention.

Claims (5)

1. A method for controlling a high stability outlet, the method comprising the steps of:

s1, analyzing after the processor receives the socket control information, and acquiring the ID information of all socket assemblies needing to be closed and opened in the socket;

s2, sorting all the socket assembly ID information included in the socket control information;

s3, the processor sequentially controls the motor (22) to act according to the sequence number, and the motor (22) drives the screw rod (21) to move so as to drive the rest of the moving components arranged on the fixing plate (24) to move;

s4, when the screw rod (21) drives the fixing plate (24) to move to the socket assembly needing to be moved, analyzing the action information corresponding to the ID of the socket assembly, controlling the corresponding moving assembly on the fixing plate (24) to move, and closing or opening the socket assembly;

the receptacle assembly includes: the device comprises a fixed seat (11), two tracks arranged on the fixed seat (11), and a live wire contact block (15) and a zero wire contact block (14) which are correspondingly arranged on the tracks one by one;

the moving assembly comprises an installation plate (26) and two air cylinders arranged on the installation plate (26) and having opposite movement directions, and the two air cylinders are respectively used for abutting against the zero line contact block (14) or the live line contact block (15) to drive the zero line contact block (14) and the live line contact block (15) to move in opposite directions.

2. The method as claimed in claim 1, wherein the socket control information includes a plurality of sets of socket component information, each set of socket component information includes a socket component ID information and corresponding action information.

3. The method for controlling a high-stability outlet according to claim 2, wherein the step S4 includes the steps of:

s41, the lead screw (21) drives the fixing plate (24) to move from the initial position to the position corresponding to the ID information of the socket assemblies sequenced at the first position;

s42, analyzing the action information corresponding to the socket assembly, controlling the corresponding movement assembly on the fixed plate (24) to act, and opening or closing the socket assembly;

s43, judging whether the screw rod (21) moves to the position where the ID information of the last socket assembly in the sequence is located, if so, ending the stroke; otherwise, the motor (22) drives the screw rod (21) to move to the position corresponding to the ID information of the next socket assembly in the sequence, and the step S42 is executed in a returning mode.

4. The method as claimed in claim 1, wherein in step S43, the motor (22) controls the lead screw (21) to move the fixing plate (24) to the initial position after the stroke is finished.

5. The method for controlling a high-stability outlet according to claim 1, wherein in step S2, the outlet component ID information in the outlet control information is sorted in turn according to the arrangement order of the outlet components.

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