CN111123092A

CN111123092A - Electric switch quality detection device

Info

Publication number: CN111123092A
Application number: CN202010043773.3A
Authority: CN
Inventors: 不公告发明人
Original assignee: Xinchang Vowel Electronics Co ltd
Current assignee: Xinchang Vowel Electronics Co ltd
Priority date: 2020-01-15
Filing date: 2020-01-15
Publication date: 2020-05-08

Abstract

The invention discloses an electric switch quality detection device, which comprises a machine body, wherein a conveying cavity is arranged in the machine body, the left side and the right side of the conveying cavity are communicated with each other to form a communication cavity, a conveying device is arranged in each communication cavity and comprises two rotary conveying belts which are symmetrically arranged in the front and the back, the conveying belts are used for conveying an electric switch in a rotating mode, and two jacks capable of being connected with electricity are arranged on the electric switch. And the device is operated in a full-automatic manner and is convenient to use.

Description

Electric switch quality detection device

Technical Field

The invention relates to the technical field of electric switches, in particular to an electric switch quality detection device.

Background

The electric switch is that one can make the circuit open a way, make the electric current interrupt or make its electronic component that flows to other circuits, be the especially important and necessary product in life or production, need carry out quality inspection to it in the manufacturing process of electric switch, but guarantee that the qualified rear of product is packed and sold, the detection of current electric switch is accomplished through artifical selective examination and mechanical selective examination two kinds of modes, artifical the detection not only work efficiency is low, there is certain potential safety hazard, and there is the problem that the qualification rate accuracy is low to the quality selective examination of electric switch, can not ensure the quality of every product qualified, bring inconvenience for the user, secondly, when machinery selective examination, electric switch is carried and is detected discontinuously, the testing process need be shut down, reduce detection efficiency. The present invention sets forth a device that solves the above problems.

Disclosure of Invention

The technical problem is as follows:

the detection of current electric switch is accomplished through artifical selective examination and mechanical selective examination dual mode, and artifical the measuring not only work efficiency is low, has certain potential safety hazard, and during mechanical selective examination, the electric switch is carried and is detected discontinuously, and the testing process need be shut down, reduces detection efficiency.

In order to solve the problems, the present embodiment designs an electric switch quality detection device, which comprises a machine body, wherein a conveying cavity is arranged in the machine body, the left side and the right side of the conveying cavity are communicated with each other to form a communicating cavity, a conveying device is arranged in each communicating cavity, each conveying device comprises two rotating conveying belts which are symmetrically arranged in the front and the back, the conveying belts are used for conveying electric switches in a rotating manner, two jacks capable of being connected with electricity are arranged on each electric switch, a driving device is arranged in each conveying cavity, each driving device comprises a conveying plate, each conveying plate can drive each electric switch to detect and convey, a detection cavity is communicated with the right end wall of each conveying cavity, a detection block is arranged in each detection cavity in a sliding manner, two electricity connection blocks capable of being connected with the jacks in an inserting manner and electrified are arranged at the lower ends of the detection blocks, and, a second magnetic plate with the same magnetic pole as the first magnetic plate is arranged on the upper side of the detection block in a sliding mode, when the electric switch is qualified, the first magnetic plate is electrified and magnetized to push the second magnetic plate to ascend, a reset spring is fixedly arranged between the upper end face of the second magnetic plate and the detection cavity, the right end of the second magnetic plate is provided with a locking cavity, a trigger module is fixedly arranged in the locking cavity, the front side of the detection cavity is provided with a lifting device, the lifting device is triggered to work after the second magnetic plate ascends to enable the detection block to ascend, the conveying plate drives the qualified electric switch to convey leftwards when rotating, the rear side of the detection cavity is provided with a storage cavity used for storing the unqualified electric switch, the right side of the detection cavity is provided with a distribution device, the distribution device comprises a deflector rod, and the deflector rod rotates to stir the electric switch to move backwards, the electric switch that will be unqualified promotes extremely deposit the intracavity and collect, carry the chamber rear end wall to be equipped with transmission, transmission includes gliding movable block, promote when the delivery board rotates the movable block rethread can drive the driving lever rotates, stir unqualified the electric switch is collected in unison.

Preferably, a first magnetic block is fixedly arranged at the rear end of the detection block, a second magnetic block is fixedly arranged at the rear end wall of the storage cavity, and the magnetic poles of the storage cavity and the second magnetic block are the same.

The conveying device comprises baffle plates which are symmetrical front and back and are fixedly connected with the machine body, four conveying shafts which are symmetrical left and right are arranged on the baffle plates in a rotating mode, conveying wheels are fixedly arranged on the conveying shafts, the conveying wheels between the baffle plates are connected through two conveying belt power, a synchronous belt groove is formed in the rear side of the conveying cavity, and the conveying shafts are located in the conveying cavity and located on the rear side.

The driving device comprises an upper symmetrical shaft, a lower symmetrical shaft, a conveying cavity, a front end wall, a rear end wall, a conveying shaft, a power motor, a transmission shaft, a transmission plate and a transmission shaft, wherein the upper end and the lower end of the transmission shaft are in symmetrical arrangement, the front end wall and the rear end wall of the conveying cavity are connected through a synchronous belt, the power motor is connected to the front end of the transmission shaft, the rear end of the transmission shaft extends to the lower end of the transmission shaft, the rear end of the transmission shaft is connected with the inner end of the synchronous belt, the transmission shaft is connected with the transmission shaft through.

The lifting device comprises a lifting cavity communicated with the detection cavity, a rotary lead screw is arranged in the lifting cavity in a rotating mode, the lower end of the rotary lead screw is connected with a lifting motor in a power mode, the trigger module can be started, the lifting motor works in a positive rotation mode, a lifting block is installed on the rotary lead screw in a threaded mode, a buffer groove is formed in the lifting block, a sliding rod extending backwards is arranged in the buffer groove in a sliding mode, the sliding rod is installed with the detection block in a sliding mode, and a buffer spring is fixedly arranged between the upper end of the sliding rod and the buffer groove.

The distribution device comprises a rotary groove, a rotary block is arranged in the rotary groove in a rotating mode through a rotary rod, a driving rod is fixedly arranged on the rotary block, a meshing cavity is formed in the upper side of the rotary groove, the upper end of the rotary rod extends to the meshing cavity, a first bevel gear is fixedly arranged in the meshing cavity, a second bevel gear is connected to the left side of the first bevel gear in a meshed mode, a third bevel gear meshed with the second bevel gear is arranged in the meshing cavity in a rotating mode through a transmission shaft, the third bevel gear is not meshed with the first bevel gear, a connecting rod is arranged in the meshing cavity in a sliding mode, the second bevel gear rotates and is installed on the connecting rod, and a pressure spring is fixedly arranged at.

Preferably, the transport chamber upside is equipped with the manipulation chamber, it is equipped with the sliding tray to manipulate chamber rear end wall to communicate with each other, it extends to slide in the sliding tray to be equipped with the front end manipulate the sliding block of intracavity, the sliding block right-hand member with the torsional spring has set firmly between the sliding tray, be equipped with the butt groove in the sliding block, butt inslot butt is equipped with the lower extreme and extends to carry the ejector pad of intracavity, the ejector pad upper end with it has set firmly expanding spring to manipulate between the chamber, it is equipped with the swinging arms to manipulate the intracavity rotation, the swinging arms upper end with the sliding block right-hand member is articulated, it is equipped with the locking block to manipulate the chamber downside slip, the locking block left end can remove left with the locking groove is pegged graft, the locking block upper end is equipped with the recess, the swinging arms lower extreme extends to in the recess, the.

The transmission device comprises a moving groove communicated with the conveying cavity, the moving block is arranged in the moving groove in a sliding mode, a tooth structure is arranged on the upper end face of the moving block, an extrusion spring is fixedly arranged between the rear end of the moving block and the moving groove, a transmission cavity is arranged on the upper side of the moving groove, a rotating gear meshed with the moving block is rotatably arranged in the transmission cavity, a fourth bevel gear is fixedly arranged on the right end face of the rotating gear, a fifth bevel gear is connected to the rear side of the fourth bevel gear in a meshed mode, a gear rotating shaft is fixedly arranged at the center of the fifth bevel gear, a transmission groove is formed in the rear side of the transmission cavity, and the gear rotating shaft and the rear end of the transmission shaft extend into the transmission groove and are connected through power of a transmission belt.

The invention has the beneficial effects that: the continuous input and output of the electric switch to be detected through the conveying device comprise that the quality detection of the electric switch is completed in the process of conveying the electric switch from bottom to top through the driving device, the detection process is uninterrupted or stopped, the continuity of conveying and detection is guaranteed, the detection efficiency is improved, the working energy consumption of the device is reduced, and secondly, the qualified and unqualified electric switches after detection are classified, so that the subsequent packaging and maintenance of workers are facilitated, the device is operated automatically, and the use is convenient.

Drawings

For ease of illustration, the invention is described in detail by the following specific examples and figures.

FIG. 1 is a schematic diagram of the overall structure of an electrical switch quality testing device according to the present invention;

FIG. 2 is a schematic view of the structure in the direction "A-A" of FIG. 1;

FIG. 3 is an enlarged view of "B" of FIG. 1;

FIG. 4 is a schematic view of the structure in the direction "C-C" of FIG. 3;

FIG. 5 is a schematic view of the structure in the direction "D-D" of FIG. 3;

FIG. 6 is a schematic view of the structure in the direction "E-E" of FIG. 3.

Detailed Description

The invention will now be described in detail with reference to fig. 1-6, for ease of description, the orientations described below will now be defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The invention relates to an electric switch quality detection device, which is mainly used for electric switch quality inspection work, and the invention is further explained by combining the attached drawings of the invention:

the invention relates to an electric switch quality detection device, which comprises a machine body 21, wherein a conveying cavity 29 is arranged in the machine body 21, a communicating cavity 23 is communicated with the left side and the right side of the conveying cavity 29, a conveying device 10 is arranged in the communicating cavity 23, the conveying device 10 comprises two rotary conveying belts 26 which are symmetrically arranged in front and back, the conveying belts 26 are used for conveying an electric switch 27 in a rotating mode, two jacks 28 capable of being connected with electricity are arranged on the electric switch 27, a driving device 11 is arranged in the conveying cavity 29, the driving device 11 comprises a conveying plate 33, the conveying plate 33 can drive the electric switch 27 to detect and convey, a detection cavity 37 is communicated with the right end wall of the conveying cavity 29, a detection block 38 is arranged in the detection cavity 37 in a sliding mode, two electricity connection blocks 40 capable of being connected with the jacks 28 in an inserting mode and electrifying mode are arranged at the lower end of the detection block 38, a first, the upper side of the detection block 38 is slidably provided with a second magnetic plate 41 with the same magnetic pole as the first magnetic plate 55, when the electric switch 27 is qualified, the first magnetic plate 55 is electrified and magnetized to push the second magnetic plate 41 to ascend, a return spring 44 is fixedly arranged between the upper end surface of the second magnetic plate 41 and the detection cavity 37, the right end of the second magnetic plate 41 is provided with a locking groove 43, a trigger module 42 is fixedly arranged in the locking groove 43, the front side of the detection cavity 37 is provided with a lifting device 12, the lifting device 12 is triggered to work after the second magnetic plate 41 ascends, so that the detection block 38 ascends, the conveying plate 33 drives the qualified electric switch 27 to convey leftwards when rotating, the rear side of the detection cavity 37 is provided with a storage cavity 54 for storing the unqualified electric switch 27, and the right side of the detection cavity 37 is provided with a distribution device 13, the distributing device 13 comprises a distributing rod 64, the distributing rod 64 rotates to stir the electric switch 27 to move backwards, unqualified electric switches 27 are pushed to the storage cavity 54 to be collected, the rear end wall of the conveying cavity 29 is provided with a transmission device 14, the transmission device 14 comprises a sliding moving block 66, the moving block 66 is pushed to move backwards when the conveying plate 33 rotates to drive the distributing rod 64 to rotate, and unqualified electric switches 27 are stirred to be collected uniformly.

Advantageously, a first magnetic block 52 is fixedly arranged at the rear end of the detection block 38, a second magnetic block 53 is fixedly arranged at the rear end wall of the storage cavity 54, and the magnetic pole of the storage cavity 54 is the same as that of the second magnetic block 53.

According to an embodiment, the conveying device 10 is described in detail below, the conveying device 10 includes baffle plates 22 that are symmetrical front and back and are fixedly connected to the machine body 21, four conveying shafts 24 that are symmetrical left and right are rotatably disposed on the baffle plates 22, conveying wheels 25 are fixedly disposed on the conveying shafts 24, the conveying wheels 25 between the baffle plates 22 are in power connection through two conveying belts 26, a synchronous belt groove 36 is disposed on the rear side of the conveying cavity 29, and the rear ends of the two conveying shafts 24 that are located in the conveying cavity 29 and on the rear side extend into the synchronous belt groove 36.

According to an embodiment, the following description details the driving device 11, where the driving device 11 includes a rotation shaft 30 that is vertically symmetrical and is rotatably connected to the front and rear end walls of the conveying cavity 29, a power motor 32 is power-connected to the front end of the rotation shaft 30, the rear end of the rotation shaft 30 on the lower side extends into the synchronous belt groove 36 and is power-connected to the conveying shaft 24 in the synchronous belt groove 36 through a synchronous belt 35, a rotation wheel 31 is fixedly disposed on the rotation shaft 30 located in the conveying cavity 29, the rotation wheels 31 on the upper and lower sides are power-connected through a rotation belt 34, and the three conveying plates 33 are fixedly mounted on the rotation belt 34.

According to an embodiment, the following detailed description is provided for the lifting device 12, the lifting device 12 includes a lifting cavity 45 communicating with the detection cavity 37, a rotating lead screw 46 is rotatably disposed in the lifting cavity 45, a lifting motor 51 is dynamically connected to the lower end of the rotating lead screw 46, the triggering module 42 can start the lifting motor 51 to rotate forward, a lifting block 49 is mounted on the rotating lead screw 46 through a thread, a buffer groove 47 is disposed in the lifting block 49, a sliding rod 50 extending backward is slidably disposed in the buffer groove 47, the sliding rod 50 is slidably mounted with the detection block 38, and a buffer spring 48 is fixedly disposed between the upper end of the sliding rod 50 and the buffer groove 47.

According to an embodiment, the below detailed description is provided for the distribution device 13, the distribution device 13 includes a rotating groove 65, a rotating block 63 is rotatably disposed in the rotating groove 65 through a rotating rod 62, the shift lever 64 is fixedly disposed on the rotating block 63, an engaging cavity 56 is disposed on the upper side of the rotating groove 65, the upper end of the rotating rod 62 extends into the engaging cavity 56 and is fixedly disposed with a first bevel gear 61, a second bevel gear 57 is engaged and connected to the left side of the first bevel gear 61, a third bevel gear 60 engaged with the second bevel gear 57 is rotatably disposed in the engaging cavity 56 through a transmission shaft 59, the third bevel gear 60 is not engaged with the first bevel gear 61, a connecting rod 87 is slidably disposed in the engaging cavity 56, the second bevel gear 57 is rotatably mounted on the connecting rod 87, and a pressure spring 58 is fixedly disposed at the left end of the connecting rod 87.

Beneficially, an operation cavity 77 is arranged on the upper side of the conveying cavity 29, a sliding groove 80 is arranged in communication with the rear end wall of the operation cavity 77, a sliding block 78 with the front end extending into the operation cavity 77 is arranged in the sliding groove 80 in a sliding mode, a torsion spring 79 is fixedly arranged between the right end of the sliding block 78 and the sliding groove 80, a butting groove 84 is arranged in the sliding block 78, a pushing block 88 with the lower end extending into the conveying cavity 29 is arranged in the butting groove 84 in a butting mode, a telescopic spring 85 is fixedly arranged between the upper end of the pushing block 88 and the operation cavity 77, a swinging rod 81 is rotatably arranged in the operation cavity 77, the upper end of the swinging rod 81 is hinged to the right end of the sliding block 78, a locking block 83 is slidably arranged on the lower side of the operation cavity 77, the left end of the locking block 83 can move leftwards to be plugged into the locking groove 43, a groove 82 is arranged on the, the lower end of the locking block 83 is fixedly connected with the upper end of the connecting rod 87.

According to an embodiment, the transmission device 14 is described in detail below, the transmission device 14 comprises a moving groove 67 communicated with the conveying cavity 29, the moving block 66 is slidably arranged in the moving groove 67, and the upper end surface of the moving block 66 is provided with a tooth structure, an extrusion spring 68 is fixedly arranged between the rear end of the moving block 66 and the moving groove 67, a transmission cavity 69 is arranged on the upper side of the moving groove 67, a rotating gear 70 meshed with the moving block 66 is rotatably arranged in the transmission cavity 69, a fourth bevel gear 72 is fixedly arranged on the right end face of the rotating gear 70, a fifth bevel gear 73 is engaged and connected with the rear side of the fourth bevel gear 72, a gear rotating shaft 74 is fixedly arranged at the center of the fifth bevel gear 73, a transmission belt groove 76 is arranged at the rear side of the transmission cavity 69, the gear rotating shaft 74 and the rear end of the transmission shaft 59 both extend into the transmission belt groove 76 and are in power connection through a transmission belt 75.

The following detailed description of the steps of using an electrical switch quality detection device is provided in conjunction with figures 1-6:

initially, all the springs are in a natural state, the lower end face of the lifting block 49 is abutted to the lower end wall of the lifting cavity 45, the power receiving block 40 is powered on, and the second bevel gear 57 is meshed with the third bevel gear 60 and the first bevel gear 61 respectively.

When the detection device works, the power motor 32 is started, the conveying belt 26 and the rotating belt 34 are rotated, the conveying belt 26 rotates anticlockwise to convey the electric switch 27 to be detected to the left, the rotating belt 34 rotates to drive the electric switch 27 to ascend through the conveying plate 33, when the electric switch 27 ascends until the electric switch 40 is plugged into the jack 28, a loop is formed between the electric switch 40 and the electric switch 27, when the electric switch 27 is qualified, the first magnetic plate 55 is electrified and has magnetism, at the moment, the second magnetic plate 41 and the first magnetic plate 55 repel each other, the second magnetic plate 41 ascends, when the locking block 83 is opposite to the locking groove 43, the left end of the locking block 83 is inserted into the locking groove 43, the position of the second magnetic plate 41 is locked, the reset spring 44 compresses the stored force, the locking block 83 is in contact with the trigger module 42, the forward rotation motor 51 is started, the rotating lead screw 46 is rotated, the lifting block 49 drives the detection block 38 to ascend through the sliding rod, when the locking block 83 moves to the left, the connecting rod 87 is driven to move to the left, the second bevel gear 57 is driven to separate from the first bevel gear 61, the conveying plate 33 drives the qualified electric switch 27 to rotate in the rotating process of the rotating belt 34, the conveying plate 33 pushes the moving block 66 to move backwards, the rotating gear 70 rotates, the third bevel gear 60 rotates through transmission, at the moment, the first bevel gear 61 does not rotate, the conveying plate 33 drives the qualified electric switch 27 to move to the left conveying belt 26, and the left conveying belt 26 rotates to drive the qualified electric switch 27 to output leftwards;

when the conveying plate 33 rotates to push the pushing block 88 to ascend, the sliding block 78 moves leftwards, the swinging rod 81 rotates anticlockwise to pull the locking block 83 to move rightwards for resetting, the locking block 83 is separated from the second magnetic plate 41, the second magnetic plate 41 descends under the elastic restoring force of the restoring spring 44, and the lifting motor 51 rotates reversely, so that the lifting block 49 drives the detection block 38 to descend for resetting;

when the electric switch 27 is unqualified, the first magnetic plate 55 is not electrified, the rotating belt 34 rotates to drive the conveying plate 33 to move, the conveying plate 33 pushes the moving block 66 backwards, the third bevel gear 60 is driven to rotate, the first bevel gear 61 rotates, the rotating block 63 rotates, the unqualified electric switch 27 is driven by the deflector rod 64 to move backwards, the electric switch 27 falls into the storage cavity 54 for collection, and due to the homopolar repulsion between the first magnetic block 52 and the second magnetic block 53, when the moving block 66 is separated from the conveying plate 33 and the moving block 66 moves forwards under the action of the extrusion spring 68, the rotating block 63 drives the deflector rod 64 to rotate backwards, so that the detection block 38 moves forwards to the initial position under the repulsion action, and the next electric switch 27 is prepared to be detected;

during the detection, the power motor 32 is not stopped, and the continuous rotation of the conveyor belt 26 and the rotating belt 34 is maintained, so that the conveying and detection continuity of the electric switch 27 is performed.

In the above manner, a person skilled in the art can make various changes depending on the operation mode within the scope of the present invention.

Claims

1. The utility model provides an electric switch quality detection device, includes the organism, its characterized in that: a conveying cavity is arranged in the machine body;

the left side and the right side of the conveying cavity are communicated with each other to form a communicating cavity, conveying devices are arranged in the communicating cavities and comprise two rotating conveying belts which are symmetrically arranged in the front and back direction, the conveying belts rotate to convey an electric switch, two jacks capable of being connected with electricity are arranged on the electric switch, a driving device is arranged in the conveying cavity and comprises a conveying plate, the conveying plate can drive the electric switch to detect and convey, a detecting cavity is communicated with the right end wall of the conveying cavity, a detecting block is arranged in the detecting cavity in a sliding mode, two electricity connecting blocks capable of being connected with the jacks in an inserting mode and electrified are arranged at the lower end of the detecting block, a first magnetic plate is fixedly arranged on the upper end face of the detecting block, a second magnetic plate with the same magnetic pole as the first magnetic plate is arranged on the upper side of the detecting block in a sliding mode, and when the electric switch is qualified, the first magnetic plate, a return spring is fixedly arranged between the upper end face of the second magnetic plate and the detection cavity, a locking groove is arranged at the right end of the second magnetic plate, and a trigger module is fixedly arranged in the locking groove;

the utility model discloses a detection chamber, including the first magnetic plate, the second magnetic plate is equipped with elevating gear, the second magnetic plate is triggered after rising elevating gear work makes it rises to detect the piece, then it is qualified to drive when the delivery board rotates the electric switch is carried left, it is equipped with mutually to detect the chamber rear side and is used for depositing unqualified the chamber of depositing of electric switch, it is equipped with the device of allocating to detect the chamber right side, the device of allocating includes the driving lever, thereby the driving lever rotates stirs the electric switch removes backward, will unqualified the electric switch promotes extremely deposit the intracavity and collect, it is equipped with transmission to carry the chamber rear end wall, transmission includes gliding movable block, promote.

2. An electrical switch quality testing device according to claim 1, wherein: the rear end of the detection block is fixedly provided with a first magnetic block, the rear end wall of the storage cavity is fixedly provided with a second magnetic block, and the magnetic poles of the storage cavity and the second magnetic block are the same.

3. An electrical switch quality testing device according to claim 1, wherein: the conveying device comprises baffle plates which are symmetrical in front and back and fixedly connected with the machine body;

the baffle is provided with four conveying shafts which are bilaterally symmetrical in a rotating mode, the conveying shafts are fixedly provided with conveying wheels, the conveying wheels between the baffles are connected through two conveying belt power, the rear side of the conveying cavity is provided with a synchronous belt groove, and the conveying cavity is positioned at the rear side and the rear ends of the conveying shafts extend to the inside of the synchronous belt groove.

4. An electrical switch quality testing device according to claim 1, wherein: the driving device comprises rotating shafts which are symmetrical up and down and are rotationally connected with the front end wall and the rear end wall of the conveying cavity;

the axis of rotation front end power is connected with motor power, and the downside the axis of rotation rear end extend to in the synchronous belt trough and with in the synchronous belt trough carry and connect through synchronous belt power between the axle, be located carry the chamber the axis of rotation has set firmly and has rotated the wheel, goes up the downside rotate and take power to connect through rotating between the wheel, three carry board fixed mounting in rotate and take.

5. An electrical switch quality testing device according to claim 1, wherein: the lifting device comprises a lifting cavity communicated with the detection cavity;

the lifting cavity is internally and rotatably provided with a rotating lead screw, the lower end of the rotating lead screw is in power connection with a lifting motor, the trigger module can be started to rotate the lifting motor to rotate positively, a lifting block is installed on the rotating lead screw in a threaded manner, a buffer groove is formed in the lifting block, a sliding rod extending backwards is arranged in the buffer groove in a sliding manner, the sliding rod is slidably installed on the detection block, and a buffer spring is fixedly arranged between the upper end of the sliding rod and the buffer groove.

6. An electrical switch quality testing device according to claim 1, wherein: the distribution device comprises a rotary groove;

the rotating groove is internally provided with a rotating block through a rotating rod in a rotating mode, the driving rod is fixedly arranged on the rotating block, the upper side of the rotating groove is provided with an engagement cavity, the upper end of the rotating rod extends to the engagement cavity, a first bevel gear is fixedly arranged in the engagement cavity, the left side of the first bevel gear is engaged with a second bevel gear, the engagement cavity is internally provided with a third bevel gear engaged with the second bevel gear through a transmission shaft in a rotating mode, the third bevel gear is not engaged with the first bevel gear, a connecting rod is arranged in the engagement cavity in a sliding mode, the second bevel gear rotates and is installed on the connecting rod, and the left end of the connecting rod.

7. An electrical switch quality testing device according to claim 1, wherein: an operation cavity is arranged on the upper side of the conveying cavity;

it is equipped with the sliding tray to handle the chamber rear end wall and communicate with each other, it extends to slide in the sliding tray to slide the front end be equipped with the sliding block in the manipulation intracavity, the sliding block right-hand member with the torsional spring has set firmly between the sliding tray, be equipped with the butt groove in the sliding block, butt inslot butt is equipped with the lower extreme and extends to carry the ejector pad of intracavity, the ejector pad upper end with it has set firmly expanding spring to handle between the chamber, it is equipped with the swinging arms to handle the intracavity rotation, the swinging arms upper end with the sliding block right-hand member is articulated, it is equipped with the locking piece to handle the slip of chamber downside, the locking piece left end can remove left with the locking groove grafting, the locking piece upper end is equipped with the recess, the swinging arms lower extreme extends to in the recess.

8. An electrical switch quality testing device according to claim 1, wherein: the transmission device comprises a moving groove communicated with the conveying cavity;

the movable block slides and is arranged in the movable groove, a tooth structure is arranged on the upper end face of the movable block, an extrusion spring is fixedly arranged between the rear end of the movable block and the movable groove, a transmission cavity is arranged on the upper side of the movable groove, a rotating gear meshed with the movable block is rotatably arranged in the transmission cavity, a fourth bevel gear is fixedly arranged on the right end face of the rotating gear, the rear side of the fourth bevel gear is connected with a fifth bevel gear in a meshed mode, a gear rotating shaft is fixedly arranged at the center of the fifth bevel gear, a transmission groove is formed in the rear side of the transmission cavity, and the gear rotating shaft and the rear end of the transmission shaft extend into the transmission groove and are connected through power of a transmission belt.