CN116786467B

CN116786467B - Automatic test equipment for height and resistance of battery cap

Info

Publication number: CN116786467B
Application number: CN202311090166.2A
Authority: CN
Inventors: 张豹; 王少普; 毕艳风; 张吉醌; 李宁
Original assignee: Henan Oriental New Energy Co ltd
Current assignee: Henan Oriental New Energy Co ltd
Priority date: 2023-08-28
Filing date: 2023-08-28
Publication date: 2023-11-03
Anticipated expiration: 2043-08-28
Also published as: CN116786467A

Abstract

The invention discloses automatic test equipment for the height and the resistance of a battery cap, which relates to the technical field of detection of battery caps and comprises a vibration disc, a rack body arranged on one side of the vibration disc, a rotating disc frame arranged on the rack body, and a height detection mechanism and a resistance detection mechanism arranged on the rack body, wherein an A discharging pipeline, a B discharging pipeline, a C discharging pipeline, a D discharging pipeline and an E discharging pipeline are sequentially arranged on the rotating disc frame in a ring shape, and an air blowing mechanism is also arranged on the rotating disc frame.

Description

Automatic test equipment for height and resistance of battery cap

Technical Field

The invention relates to the technical field of battery cap detection, in particular to automatic test equipment for the height and resistance of a battery cap.

Background

In the production of the battery, a battery cap is a key component of the battery, the battery cap has the function of providing battery sealing, the function of providing temperature protection and the function of providing a safety valve, and plays a role of a positive or negative electrode conductive terminal, once the battery cap fails, the battery is likely to leak electrolyte, and serious consequences such as incapacity of venting and pressure relief or easy rupture and explosion of the battery are caused, and the sealing of a sealing ring of the battery cap is an important process for guaranteeing the use safety of the battery;

in the production process of the battery cap on an automatic production line, the automatic production line can sequentially assemble various bulk aluminum parts of the cap, and perform the procedures of automatic feeding, laser engraving of an orifice plate explosion-proof sheet, CCD visual detection, automatic hot melting of a rubber ring explosion-proof sheet, automatic cutting and feeding of an aluminum film, precision height measurement recording, servo automatic compensation height ultrasonic welding, automatic internal resistance testing, automatic edge covering, automatic shaping, automatic arc welding and the like;

after the battery cap is produced, the height and the resistance of the battery cap are required to be detected, so that the height and the resistance of the battery cap are ensured to be within the normal limit value, the current cylindrical battery cap height consistency test and the battery cap resistance test are completed on two independent devices, two operators are required to perform operation tests respectively, the test efficiency is relatively low, the manpower and material cost is wasted, and the production beat is influenced.

Disclosure of Invention

The invention aims to provide automatic testing equipment for the height and the resistance of a battery cap, so as to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides an automatic test equipment of battery cap height and resistance, including the vibrations dish, be provided with in the rack body of vibrations dish one side, wherein the rack body install the rolling disc frame, just be in the intercommunication state between rolling disc frame pan feeding mouth and the discharge gate of vibrations dish, install on the rack body and be used for detecting high detection mechanism and the resistance detection mechanism of material on the rolling disc frame, be annular fixed mounting in proper order on the rolling disc frame and have A ejection of compact pipeline, B ejection of compact pipeline, C ejection of compact pipeline, D ejection of compact pipeline and E ejection of compact pipeline, wherein A ejection of compact pipeline is close to resistance detection mechanism, wherein still fixed mounting has air blowing mechanism on the rolling disc frame, and set up in divide the material pipeline on the rack body, just be in the intercommunication state between branch material pipeline feed end and the B ejection of compact pipeline discharge end, divide material pipeline discharge end below parallel arrangement has two annular fixed bolster, every annular body fixed bolster and platform frame are connected with annular bracket, every fixed bolster inside setting up spacing mechanism.

Preferably, the material distributing pipeline is composed of a first output channel and a second output channel, wherein the dividing plate frame is positioned at the intersection of the first output channel and the second output channel, a driving motor is arranged outside the material distributing pipeline, and the output end of the driving motor penetrates through the outer wall of the material distributing pipeline and is fixedly connected with the dividing plate frame.

Preferably, the first output channel and the second output channel are internally provided with oblique baffles, the oblique baffles are close to the discharge ends of the first output channel and the second output channel, one sides of the first output channel and the second output channel, which are close to the oblique baffles, are provided with material conveying frames, the material inlet of each material conveying frame is positioned at one end of each oblique baffle, and air inlets are arranged at the other sides of the first output channel and the second output channel.

Preferably, the limiting mechanism comprises a fixed disc fixedly arranged in the annular fixed support, a circular rotary disc A which is rotationally connected with the inner wall of the annular fixed support is arranged above the fixed disc, a limiting disc is arranged above the circular rotary disc A, a circular rotary disc B which is rotationally connected with the limiting disc is arranged on the limiting disc, and the discharge end of the material conveying frame is positioned above the circular rotary disc A.

Preferably, the annular fixing support is provided with a plurality of fixing base bodies, and the fixing base bodies are provided with extension columns, wherein the limiting disc is provided with a plurality of extension frame bodies, and the end parts of the extension frame bodies are connected with the extension columns.

Preferably, the material receiving assembly comprises a material receiving sleeve, a material receiving panel, a touch column body, a partition plate and a spring body, wherein a plurality of material receiving sleeves are arranged on the circular turntable A and the circular turntable B; the material receiving panel is arranged in the material receiving sleeve and is in sliding connection with the inner wall of the material receiving sleeve; the touch column body is arranged on the lower side of the receiving panel; the baffle is arranged in the material receiving sleeve, and the touch column body is in sliding connection with the inner wall of the baffle; the spring body is arranged at the lower side of the receiving panel, and the other end of the spring body is in contact with the partition plate.

Preferably, the first button is arranged on the fixed disc, the first button is positioned under the discharge end of the material conveying frame, the second button is arranged on the limiting disc, and the second button is positioned under the discharge end of the material distributing pipeline.

Preferably, the servo motor is installed at the bottom of the annular fixed support, the shaft body is installed on the output end of the servo motor, the shaft body is in sliding connection with the output end of the servo motor, the magnetic panel is installed at the lower end of the shaft body, the annular electromagnet group is installed at one side, close to the magnetic panel, of the fixed disc, and the annular electromagnet group is electrified to produce attractive force on the magnetic panel.

Preferably, the shaft body is provided with two force application blocks in parallel, the interiors of the circular turntable A and the circular turntable B are provided with force application blocks, and the force application blocks are positioned on the movement track of the force application blocks.

Preferably, the number of the material receiving sleeves on the circular turntable A is larger than that of the material receiving sleeves on the circular turntable B.

Compared with the prior art, the invention has the beneficial effects that:

according to the invention, the battery caps on the rotating disc frame are automatically detected by the height detection mechanism and the resistance detection mechanism, and under the action of the air blowing mechanism, the battery caps with unqualified heights and resistances are blown down into the corresponding discharging pipelines, so that the automatic test device and the automatic test method for the battery caps of the rotating disc frame utilize the characteristic of high degree of automation, improve the test efficiency, simultaneously reduce the labor cost, and improve the rejection classification efficiency by utilizing the air blowing mechanism and the plurality of discharging pipelines, thereby facilitating the reprocessing of unqualified products by subsequent staff.

According to the invention, the material distribution pipeline and the differentiating plate frame in the material distribution pipeline are utilized to control the battery caps with high resistance and low resistance to carry out classified discharging, so that the re-screening workload of subsequent workers is reduced, meanwhile, under the action of the inclined baffle plate, the battery caps with the heights higher than the standard value and the battery caps lower than the standard value are classified, and meanwhile, under the action of the material receiving sleeve, the probability of mutual friction between the battery caps is reduced, and the scratch condition of the battery caps caused by mutual friction is effectively prevented.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a rear view of the upper half of the present invention;

FIG. 3 is a schematic view of a partial structure of the present invention;

FIG. 4 is a schematic view of the internal structure of the material dividing pipeline according to the present invention;

FIG. 5 is another angular schematic view of a partial structure of the present invention;

FIG. 6 is a partially isolated schematic illustration of the present invention;

FIG. 7 is a schematic view of a limiting disc and a circular turntable B of the present invention in partial cutaway;

FIG. 8 is a schematic view of a partial cut-away configuration of an annular mounting bracket of the present invention;

FIG. 9 is a partially cut-away schematic illustration of the annular mounting bracket of the present invention;

fig. 10 is an enlarged view of the area a of fig. 9 according to the present invention.

In the figure: 1-a vibration plate; 2-a rack body; 3-rotating the disc holder; 4-a height detection mechanism; 5-a resistance detection mechanism; 6-A discharge pipeline; 7-B discharge pipeline; 8-C discharge pipelines; 9-D discharge pipeline; 10-E discharge pipeline; 11-an air blowing mechanism; 12-a material distributing pipeline; 121-output channel one; 122-output channel two; 123-a drive motor; 124-diagonal baffles; 125-a material conveying frame; 126-air inlet; 13-dividing grillage; 14-an annular fixing bracket; 141-a fixed seat body; 142-extending the column; 15-a limiting mechanism; 151-a fixed disk; 152-circular carousel a; 153-limit disc; 154-a circular turntable B; 155-extending a frame; 156-button one; 157-button two; 16-a receiving assembly; 161-receiving sleeve; 162-receiving panel; 163-touching the column; 164-a separator; 165-a spring body; 17-a servo motor; 171-a shaft body; 172-magnetic panel; 173-a ring electromagnet group; 174-force application block; 175-stressed block.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-10, the present invention provides a technical solution: the invention provides automatic testing equipment for the height and the resistance of a battery cap, which correspondingly improves the technical problems in the background art, and comprises a vibrating tray 1, a rack body 2 positioned at one side of the vibrating tray 1, wherein the rack body 2 is fixedly provided with a rotating tray frame 3, a feed port of the rotating tray frame 3 is communicated with a discharge port of the vibrating tray 1, further explaining that the rotating tray frame 3 comprises a shell and a rotating mechanism, wherein the rotating mechanism is positioned in the shell and rotates in the shell, materials (namely, battery caps, which are replaced by materials) in the vibrating tray 1 are conveyed into the rotating tray frame 3, the materials are driven to rotate under the cooperation of the rotating mechanism and the shell, a height detecting mechanism 4 and a resistance detecting mechanism 5 for detecting the materials on the rotating tray frame 3 are fixedly arranged on the rack body 2, an A discharge pipeline 6, a B discharge pipeline 7, a C discharge pipeline 8, a D discharge pipeline 9 and an E discharge pipeline 10 are sequentially arranged on the rotating disc frame 3 in an annular shape, wherein the A discharge pipeline 6 is used for conveying materials with unqualified resistance and height (which are far different from a standard value) to the outside, scrapping the materials and re-producing the materials, the B discharge pipeline 7 is used for conveying materials with unqualified resistance (which are small in difference from the standard value and can be reprocessed) to the outside, the C discharge pipeline 8 is used for conveying materials with unqualified resistance to the outside, the D discharge pipeline 9 is used for conveying materials with unqualified resistance and unqualified height to the outside, the E discharge pipeline 10 is used for conveying qualified materials to the outside, the A discharge pipeline 6 is close to a resistance detection mechanism 5, an air blowing mechanism 11 is further arranged on the rotating disc frame 3, further, the air blowing mechanism 11 is composed of five output air pipes, and the five output air pipes correspond to the A discharge pipeline 6, the B discharge pipeline 7, the C discharge pipeline 8, the D discharge pipeline 9 and the E discharge pipeline 10 respectively, so that materials are conveyed into the discharge pipeline under the action of air, and the materials can be effectively processed through the components, so that the aim of improving the working efficiency is fulfilled, and meanwhile, the labor intensity and the labor cost of workers are reduced; the rack body 2 is provided with a material distributing pipeline 12, the material distributing pipeline 12 is in a communicating state between the material inlet end of the material distributing pipeline 12 and the material outlet end of the material outlet pipeline 7, the material distributing pipeline 12 is composed of a first output channel 121 and a second output channel 122, a distinguishing plate frame 13 for classifying according to the resistance value condition is rotatably arranged in the material distributing pipeline 12, the distinguishing plate frame 13 is positioned at the intersection of the first output channel 121 and the second output channel 122, a driving motor 123 is fixedly arranged outside the material distributing pipeline 12, the output end of the driving motor 123 penetrates through the outer wall of the material distributing pipeline 12 and is connected with the distinguishing plate frame 13, and further, the driving motor 123 is electrically connected with the resistance value detection mechanism 5, so that when the resistance value detection mechanism 5 detects that the resistance value of the battery cap is smaller than the standard value, a signal is sent to the driving motor 123, the driving motor 123 drives the distinguishing plate frame 13 to rotate, so that the battery cap with small resistance value enters the first output channel 121, and if the resistance value detection mechanism 5 detects that the resistance value of the battery cap is larger than the standard value, the battery cap with large resistance value is introduced into the second output channel 122 under the action of the distinguishing plate frame 13; the first output channel 121 and the second output channel 122 are fixedly provided with inclined baffles 124, the inclined baffles 124 are close to the discharge ends of the first output channel 121 and the second output channel 122, and further explaining that the inclined baffles 124 are used for blocking battery caps with heights higher than standard values, and battery caps smaller than the standard values enter the discharge ends of the first output channel 121 and the second output channel 122 through the inclined baffles 124, wherein one sides of the first output channel 121 and the second output channel 122 are provided with material conveying frames 125, the material inlet of each material conveying frame 125 is positioned at one end of each inclined baffle 124, and the other sides of the first output channel 121 and the second output channel 122 are provided with air inlets 126;

specifically, when the battery cap enters the material distributing pipeline 12, the resistance value detection mechanism 5 sends a signal to the driving motor 123, the driving motor 123 controls the differentiating grillage 13 to act according to the resistance value of the battery cap so as to control the battery cap to enter the first output channel 121 or the second output channel 122, when the height of the battery cap is smaller than the standard value, the battery cap flows out from the material outlet end through the inclined baffle 124, and if the height of the battery cap is larger than the standard value, the battery cap is blocked by the inclined baffle 124 and is blown into the material conveying frame 125 under the action of the air inlet 126; wherein, two annular fixed brackets 14 are arranged in parallel below the discharge end of the material distribution pipeline 12, namely, the two annular fixed brackets 14 are positioned below the first output channel 121 and the second output channel 122, a limiting mechanism 15 is arranged in each annular fixed bracket 14, and a material receiving component 16 is arranged on each limiting mechanism 15;

as a further limitation in the invention, the limiting mechanism 15 comprises a fixed disc 151 fixedly installed inside the annular fixed support 14, a circular turntable a152 rotationally connected with the inner wall of the annular fixed support 14 is arranged above the fixed disc 151, a limiting disc 153 is also arranged above the circular turntable a152, a circular turntable B154 rotationally connected with the limiting disc 153 is rotationally installed on the limiting disc 153, wherein the discharge end of the material conveying frame 125 is positioned above the circular turntable a152, further, two circular turntables B154 are respectively positioned below the first output channel 121 and the second output channel 122, a plurality of fixed seat bodies 141 are fixedly installed on the annular fixed support 14, an extension column 142 is fixedly installed on the fixed seat bodies 141, a plurality of extension frame bodies 155 are fixedly installed on the limiting disc 153, and the end parts of the extension frame bodies 155 are fixedly connected with the extension column 142; the bottom of the annular fixed support 14 is fixedly provided with a servo motor 17, the output end of the servo motor 17 is provided with a shaft body 171, the shaft body 171 is in sliding connection with the output end of the servo motor 17, one end of the shaft body 171 is provided with a magnetic panel 172, one side of the fixed disc 151, which is close to the magnetic panel 172, is fixedly provided with an annular electromagnet group 173, the annular electromagnet group 173 is electrified to generate attraction force on the magnetic panel 172, the shaft body 171 is fixedly provided with two force application blocks 174 in parallel, further, the inside of the circular turntable A152 and the circular turntable B154 are provided with force application blocks 175, further, for convenience of description, the force application blocks 175 corresponding to the circular turntable A152 are replaced by M force application blocks 175, the force application block 175 corresponding to the circular turntable B154 is replaced by N force application blocks 175, one force application block 174 on the shaft body 171 is positioned below the M force application block 175, the distance value is X, the other force application block 174 on the shaft body 171 is positioned below the N force application block 175, and the distance value is Y, and the distance value is X < Y.

As a further limitation in the present invention, the material receiving assembly 16 includes a plurality of material receiving sleeves 161 mounted on the circular turntable a152 and the circular turntable B154 (i.e. a plurality of material receiving sleeves 161 are mounted on the circular turntable a152 and the circular turntable B154, a material receiving panel 162 is mounted in the material receiving sleeve 161 and is in sliding connection with the inner wall of the material receiving sleeve, a touching cylinder 163 is fixedly mounted on one side of the material receiving panel 162, wherein a partition plate 164 is fixedly mounted in the material receiving sleeve 161, and the touching cylinder 163 is in sliding connection with the inner wall of the partition plate 164, a spring body 165 is fixedly mounted on one side of the material receiving panel 162 close to the partition plate 164, and the other end of the spring body 165 is in contact with the partition plate 164, a button one 156 is fixedly mounted on the fixed disc 151 in the present invention, and a button one 156 is located under the material delivering frame 125, wherein the button one 156 is electrically connected with an annular electromagnet group 173, the annular electromagnet group 173 is electrified, and the electrifying quantity G, a button two 157 is fixedly mounted on one side of the material receiving panel 162, the button two 157 is located under the material delivering end of the partition pipe 12, and the button two is electrified by the annular electromagnet group 173, and the electrifying quantity H is greater than H;

specifically, under the action of the inclined baffle 124, the battery cap with a height value smaller than the standard value flows out from the discharge end of the first output channel 121 or the second output channel 122 and falls onto the material receiving panel 162 inside the material receiving sleeve 161 (on the circular turntable B154), the acting force of the material receiving panel 162 on the spring body 165 increases (gravity increases), when the battery cap on the material receiving panel 162 reaches a certain number, the material receiving panel 162 descends a certain displacement (compresses the spring body 165) inside the material receiving sleeve 161, at this time, the lower end of the touching cylinder 163 touches the second button 157, the second button 157 sends a signal to the annular electromagnet group 173, the annular electromagnet group 173 is electrified (the electrified amount is H), the annular electromagnet group 173 generates a attraction force on the magnetic panel 172, the shaft 171 performs a lifting action on the output end of the servo motor 17, the two force application blocks 174 act synchronously with the force application blocks, and the (N) force application block 175 in the circular turntable B154 is located on the motion track of the other force application block 174 (the M force application block 175 is located below one force application block 174 and is not located on the motion track), the servo motor 17 is started, the output end drives the shaft body 171 to rotate, further explaining that, since the shaft body 171 is in sliding connection with the output end of the servo motor 17, after the position of the shaft body 171 is adjusted, it is still located on the output end of the servo motor 17, the servo motor 17 rotates, the output end can drive the shaft body 171 to rotate, so that the (N) force application block 175 is rotated by the action force under the action of the other force application block 174, thereby the circular turntable B154 performs limit rotation on the limit disc 153, namely, the receiving sleeve 161 below the discharge end of the first output channel 121 or the second output channel 122 is changed, so as to achieve the purpose of replacing the receiving sleeve 161; the battery cap with the height value larger than the standard value enters the discharging frame under the action of the oblique baffle 124 and flows out from the discharging end of the material conveying frame 125, and enters the material receiving panel 162 inside the material receiving sleeve 161 (on the circular turntable A152), when the end of the touching cylinder 163 at one side of the material receiving panel 162 contacts the button one 156, the button two 157 sends a signal to the annular electromagnet group 173, the annular electromagnet group 173 is electrified (the electrified quantity is G), the (M) stress block 175 in the circular turntable A152 is positioned on the motion track of one of the force applying blocks 174 (the N stress block 175 is positioned above the other force applying block 174 at the moment and is not on the motion track thereof), and then the circular turntable A152 carries out position adjustment so as to achieve the purpose of replacing the material receiving sleeve 161.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a battery cap height and resistance automation test equipment which characterized in that: including vibrations dish (1), be provided with in rack body (2) of vibrations dish (1) one side, wherein rack body (2) installs rotating disk frame (3), just be in the intercommunication state between rotating disk frame (3) pan feeding mouth and the discharge gate of vibrations dish (1), install on rack body (2) and be used for carrying out high detection mechanism (4) and resistance detection mechanism (5) that detects to the material on rotating disk frame (3), be annular fixed mounting in proper order on rotating disk frame (3) have A ejection of compact pipeline (6), B ejection of compact pipeline (7), C ejection of compact pipeline (8), D ejection of compact pipeline (9) and E ejection of compact pipeline (10), wherein A ejection of compact pipeline (6) are close to resistance detection mechanism (5), wherein still fixed mounting has air blowing mechanism (11) on rotating disk frame (3), and set up in divide material pipeline (12) on rack body (2) between the material end and B ejection of compact pipeline (7), divide material pipeline (12) to be in the annular and divide between the end and divide material pipeline (12) ejection of compact end to divide fixedly installed in two places between pipeline (13) and be in the state according to two parallel connection of the annular side's of support (14), the bottom of each annular fixed support (14) is fixedly connected with the rack body (2), a limiting mechanism (15) is arranged in each annular fixed support (14), and a material receiving assembly (16) is arranged on each limiting mechanism (15); the limiting mechanism (15) comprises a fixed disc (151) fixedly arranged in the annular fixed support (14), a circular rotary disc A (152) which is rotationally connected with the inner wall of the annular fixed support (14) is arranged above the fixed disc (151), a limiting disc (153) is arranged above the circular rotary disc A (152), and a circular rotary disc B (154) which is rotationally connected with the limiting disc (153) is arranged on the limiting disc (153); the servo motor (17) is installed at the bottom of the annular fixed support (14), the shaft body (171) is installed at the output end of the servo motor (17), the shaft body (171) is in sliding connection with the output end of the servo motor (17), the magnetic panel (172) is installed at the lower end of the shaft body (171), the annular electromagnet group (173) is installed at one side, close to the magnetic panel (172), of the fixed disc (151), and the annular electromagnet group (173) is electrified to generate attractive force on the magnetic panel (172); two force application blocks (174) are arranged on the shaft body (171) in parallel, stress blocks (175) are arranged in the circular turntable A (152) and the circular turntable B (154), and the stress blocks (175) are located on the motion track of the force application blocks (174).

2. The automated battery cap height and resistance testing apparatus of claim 1, wherein: the material distribution pipeline (12) is composed of a first output channel (121) and a second output channel (122), wherein the material distribution plate frame (13) is positioned at the intersection of the first output channel (121) and the second output channel (122), a driving motor (123) is arranged outside the material distribution pipeline (12), and the output end of the driving motor (123) penetrates through the outer wall of the material distribution pipeline (12) and is fixedly connected with the material distribution plate frame (13).

3. The automated battery cap height and resistance testing apparatus of claim 2, wherein: the utility model discloses a circular turntable A (152) of a mobile phone, including output channel one (121) and output channel two (122), output channel one (121) and output channel two (122) are inside all to install oblique baffle (124), just oblique baffle (124) are close to output channel one (121) and output channel two (122) discharge end department, output channel one (121) and output channel two (122) are close to one side of oblique baffle (124) and all install material conveying frame (125), just material conveying frame (125) feed inlet is located oblique baffle (124) one end, and output channel one (121) and output channel two (122) opposite side install air inlet (126), wherein material conveying frame (125) discharge end is located circular turntable A (152) top.

4. The automated battery cap height and resistance testing apparatus of claim 3, wherein: the annular fixed support (14) is provided with a plurality of fixed seat bodies (141), the fixed seat bodies (141) are provided with extension columns (142), the limiting disc (153) is provided with a plurality of extension frame bodies (155), and the end parts of the extension frame bodies (155) are connected with the extension columns (142).

5. The automated battery cap height and resistance testing apparatus of claim 4, wherein: the material receiving assembly (16) comprises a material receiving sleeve (161), a material receiving panel (162), a touch column (163), a baffle plate (164) and a spring body (165);

a plurality of receiving sleeves (161) are arranged on the circular turntable A (152) and the circular turntable B (154);

the material receiving panel (162) is arranged in the material receiving sleeve (161) and is in sliding connection with the inner wall of the material receiving sleeve;

the touch column body (163) is arranged on the lower side of the material receiving panel (162); the partition plate (164) is arranged in the material receiving sleeve (161), and the touch column body (163) is in sliding connection with the inner wall of the partition plate (164);

the spring body (165) is mounted on the lower side of the material receiving panel (162), and one end of the spring body is in contact with the partition plate (164).

6. The automated battery cap height and resistance testing apparatus of claim 5, wherein: the fixed disc (151) is provided with a first button (156), the first button (156) is positioned right below the discharge end of the material conveying frame (125), the limiting disc (153) is provided with a second button (157), and the second button (157) is positioned right below the discharge end of the material distributing pipeline (12).

7. The automated battery cap height and resistance testing apparatus of claim 5, wherein: the material receiving sleeves (161) on the circular turntable A (152) are larger in number than the material receiving sleeves (161) on the circular turntable B (154).