CN114273269A - Detection equipment for automobile key identification induction coil - Google Patents

Abstract

The invention discloses a detection device for an automobile key identification induction coil, which comprises a rack, and a transfer motion group, a product scanning code group, a product testing group, a product marking group, a product collecting group and a product clamping group which are positioned on the rack, wherein the product clamping group comprises a clamping component for clamping the induction coil on a placing plate to the product collecting group and a driving transfer component for controlling the clamping component to move; move and carry motion group, including supplying the thing plate of putting that induction coil placed, it includes the connection to put the thing plate the mounting panel on the conveying member with be located the mounting panel front side just is provided with the board of placing of putting the thing slotted hole. This application has the continuous cooperation through each work group and uses, realizes induction coil's automated inspection, has improved induction coil's detection efficiency's effect.

Description

Detection equipment for automobile key identification induction coil

Technical Field

The invention relates to the field of automobile spare and accessory part processing equipment, in particular to detection equipment for an automobile key identification induction coil.

Background

At present, the automobile key identification induction coil chip has a special diagnosis function, and can obtain historical information of the anti-theft system when key secret information is read.

When the key is turned on, the Engine Control Unit (ECU) sends a group of encrypted electronic code signals to the chip in the key, and only when the ECU can read and feedback to receive correct anti-theft code signals, the vehicle is allowed to start. For example, as shown in fig. 1, the coil includes an annular housing generally mounted outside the ignition switch, a coil disposed inside the annular housing, and a protective housing disposed on one side of the annular housing and provided with a coil pin.

Aiming at the related technologies, the inventor thinks that when the quality of the induction coil needs to be detected at present, the through groove adopts a mode of manually detecting one by one and then marking and screening one by one, and the detection efficiency of the detection mode is low.

Disclosure of Invention

In order to improve induction coil's detection efficiency, this application provides a check out test set for car key discernment induction coil.

The application provides a check out test set for car key discernment induction coil adopts following technical scheme:

a detection device for a car key identification induction coil, comprising:

the rack comprises a bearing platform and a storage chamber positioned below the bearing platform;

the transfer motion group comprises a placing plate for placing the induction coil and a conveying component which is arranged on the bearing platform and controls the placing plate to slide back and forth;

when the object placing plate is positioned below the product scanning code group, scanning and recording product coding information of the induction coil positioned on the object placing plate, and recording the product coding information;

the product testing group comprises a pressing component for pressing the induction coil on the object placing plate, a testing plug for judging the product quality of the induction coil, and a lifting component for controlling the testing plug to be electrically connected with the coil pins;

the product marking group marks the induction coil with qualified product quality on the object placing plate;

the product collection group comprises finished product collection components with qualified collection quality and waste collection components with unqualified collection quality;

the product clamping group comprises a clamping component for clamping the induction coil on the object placing plate to a finished product collecting component or a waste collecting component respectively and a driving transfer component for controlling the clamping component to move; the object placing plate comprises an installation plate connected to the conveying component and a placing plate located on the front side of the installation plate and provided with an object placing groove hole.

By adopting the technical scheme, the induction coil is placed on the object placing plate, the induction coil moves on different stations through the conveying component, the induction coil records some information carried by the induction coil through the product scanning code group, then the induction coil moves to the product testing group, the object placing plate is pressed and positioned through the pressing component, the testing plug and the induction coil are electrified through the lifting component to judge whether the induction coil is qualified or not, after the detection is finished, the product marking group marks the induction coil with qualified quality, the unqualified induction coil does not mark, after the marking is finished, finished products meeting and not meeting the requirements are respectively transferred to the finished product collecting component and the waste material and waste material collecting component through the clamping component in the product clamping group, the detection, the marking and the information input of a single product are finished, and the purpose of automatic batch detection is realized through the detection equipment, the detection efficiency of the induction coil is improved.

Optionally, the conveying component includes many distribution in installation stand on the plummer, install in first lead screw sharp module on the installation stand, the mounting panel is fixed in on the slip table on the first lead screw sharp module.

Through adopting above-mentioned technical scheme, realize through first lead screw sharp module with mounting panel reciprocating motion on different stations, realize will processing one by one and detect the induction coil on the mounting panel, and realize the repeated reciprocating motion of mounting panel.

Optionally, the compressing member includes a guide rod, a sliding plate slidably disposed on the guide rod, a lifting cylinder for controlling the sliding plate to lift, and a compressing plate located on one side of the sliding plate and capable of compressing the induction coil in the storage slot;

the lifting component comprises a jacking cylinder arranged on the bearing table and a connecting plate arranged on a piston rod of the jacking cylinder, and the test plug is arranged on the connecting plate;

when the placing plate is positioned below the pressing plate, the pressing plate realizes the positioning of the induction coil on the object placing slotted hole through the lifting cylinder, and the jacking cylinder drives the test plug to be inserted into the protective shell.

Through adopting above-mentioned technical scheme, the slide plate on the lift cylinder control guide bar goes up and down to make the pressure strip on the slide plate can compress tightly the induction coil on the board of placing of below putting the thing slotted hole, avoid the tight cylinder in top when drive test plug inserts protective housing in, from putting the downthehole quilt of slotted hole ejecting, ensured the stability of product test group when detecting.

Optionally, be provided with buffer board, lower extreme threaded connection on the connecting plate and supply on the connecting plate the buffer board cover is established many connecting rods that slide the cover is equipped with and is located on the connecting rod the buffer board with just be compression state's elastic component on the connecting plate, the top of connecting rod is provided with the restriction the location head of position is established to the buffer board cover, the test plug set up in the buffer board up end.

Through adopting above-mentioned technical scheme, the buffer board of setting on the connecting plate can be changed test plug and induction coil's hard contact into and be soft contact, avoids test plug direct to lead to the fact destruction after the impact in the twinkling of an eye induction coil.

Optionally, the driving transfer component comprises a second lead screw linear module arranged in parallel with the first lead screw linear module, and a third lead screw linear module connected to a sliding table on the second lead screw linear module;

the centre gripping component including invert install in drive actuating cylinder, connection on the slip table on the third lead screw sharp module drive two-way cylinder, two components on actuating cylinder's the piston rod and establish grip block on two-way cylinder's the piston rod, two sets of relative settings the grip block lower extreme forms the centre gripping region that is used for centre gripping induction coil.

Through adopting above-mentioned technical scheme, two relative grip blocks that set up control through two-way cylinder and are close to each other or keep away from each other, and then realize carrying out the centre gripping or unclamping with the induction coil in the grip region. Reciprocating motion of grip block between putting thing plate and product cell phone group realizes through second lead screw straight line module, third lead screw straight line module and drive actuating cylinder third person jointly, and through three's cooperation removal, the free removal in the space is realized to the grip block.

Optionally, the waste collection member comprises a collection bin located above the deposit chamber, a collection guide tube extending from an upper end of the collection bin to above the load-bearing platform.

Through adopting above-mentioned technical scheme, the grip block can be put in unqualified induction coil to the collection stand pipe, drops automatically in the pipeline of collecting the stand pipe again and collects in collecting box.

Optionally, the finished product collecting component includes a pulley set disposed on the bearing table, and a receiving component located at a side of the pulley set and linked with the pulley set;

connect the material subassembly include with belt pulley group parallel arrangement's linear slide, fix discharge plate on the slip table on the linear slide, discharge plate one side and the belt fixed connection on the belt pulley group.

Through adopting above-mentioned technical scheme, press from both sides the material subassembly and place discharge plate with induction coil after, through the operation of belt pulley group, can shift out the frame outside with discharge plate to operating personnel directly takes the collection to qualified induction coil of quality.

Optionally, the finished product collecting component is arranged on two sides of the belt pulley set respectively, two groups of material receiving components are connected to two sides of the belt pulley set respectively and are arranged in a staggered mode, and a plurality of material placing holes are distributed in the material placing plate.

By adopting the technical scheme, the material receiving assemblies are arranged into two groups, so that when the material placing holes in one group of material placing plates are filled with the induction coils and then are moved out of the rack, the other group of material placing plates can be automatically moved into the rack, and the clamping assemblies can continuously clamp the product and the whole detection equipment can continuously work.

Optionally, the product marking group comprises a lifting column and a marking machine, the lower end of the lifting column is fixed on the operating platform and is provided with a lead screw module, and the marking machine is fixed on the sliding table of the lead screw module.

Through adopting above-mentioned technical scheme, marking machine can realize adjusting for the position of putting the thing plate through the lift post, and then satisfies the production and processing of the induction coil of different models.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the automatic detection of the induction coil is realized by the continuous matching use of each working group, so that the detection efficiency of the induction coil is improved;

2. sweep sign indicating number and letter sorting through detecting, realize carrying out the categorised collection to the quality of product automatically.

Drawings

Fig. 1 is a schematic view of a structure of an induction coil in the related art.

Fig. 2 is a schematic structural diagram of the detection device.

Fig. 3 is a schematic structural view of the transfer unit.

Fig. 4 is a schematic diagram of the structure of a product code-scanning group.

Fig. 5 is an enlarged schematic view of the portion a shown in fig. 2.

Fig. 6 is a first schematic structural diagram of a product testing group, which is used for embodying a compression member.

Fig. 7 is a schematic structural diagram ii of a product testing group, which is used for embodying the lifting member.

Fig. 8 is a schematic structural diagram of a product marking group.

FIG. 9 is a schematic structural diagram II of the detecting apparatus for embodying the waste collecting member.

Fig. 10 is a schematic structural view of a finished collecting member.

Fig. 11 is a schematic structural diagram three of the detection apparatus.

Fig. 12 is a schematic structural view of a product clamping group.

Fig. 13 is an enlarged schematic view of a portion B in fig. 12.

Description of reference numerals:

1. a frame; 101. a bearing table; 102. a storage chamber; 103. a slide rail frame;

2. a transferring movement group; 201. an article placing plate; 2011. mounting a plate; 2012. placing the plate; 2013. a storage slot; 202. a conveying member; 2021. mounting the upright post; 2022. a first lead screw linear module;

3. scanning code groups of the product; 301. a column; 302. a rotating plate; 303. a code scanner;

4. a product testing group; 401. a pressing member; 4011. a guide bar; 40111. a C-shaped sleeve; 4012. a slide plate; 40121. a T-shaped pipe; 4013. a lifting cylinder; 4014. a compression plate; 40141. a rubber plate; 402. testing the plug; 403. a lifting member; 4031. tightly pushing the air cylinder; 4032. a connecting plate; 404. a buffer plate; 405. a connecting rod; 406. an elastic member; 407. positioning the head;

5. marking a product; 501. a lifting column; 502. marking machine;

6. a product collection group; 601. a finished product collection member; 6011. a pulley set; 60111. a protective horizontal plate; 6012. a material receiving assembly; 6013. a linear slide rail; 6014. a material placing plate; 60141. l-shaped folded plates; 6015. fixing a plate; 60151. a material placing hole; 602. a waste collection member; 6021. a collection box; 60211. a glass plate body; 6022. collecting a guide pipe;

7. a product clamping group; 701. a clamping member; 7011. a driving cylinder; 7012. a bidirectional cylinder; 7013. a clamping block; 702. driving the transfer member; 7021. a second lead screw linear module; 7022. and the third lead screw linear module.

Detailed Description

The present application is described in further detail below with reference to figures 2-13.

The embodiment of the application discloses a detection device for an automobile key identification induction coil. Referring to fig. 2, the detection apparatus for an automobile key identification induction coil includes a frame 1, a plate body as a bearing table 101 is arranged in the middle of the frame 1, a storage chamber 102 is arranged in the space below the bearing table 101, a detection area for a workpiece is arranged above the bearing table 101, a product scanning group 3, a product testing group 4, a product marking group 5 and a product collecting group 6 are sequentially arranged on the bearing table 101, a transfer moving group 2 sequentially passing through the working groups is further arranged on the bearing table 101, the detection apparatus is used for respectively transferring the induction coil to each working group, and a product clamping group 7 for clamping the induction coil on the transfer moving group 2 to the product collecting group 6 is further arranged on the bearing table 101.

Referring to fig. 3, the transferring and moving assembly 2 includes a placement board 201 and a conveying member 202, wherein the conveying member 202 includes a plurality of mounting posts 2021 vertically fixed on the platform 101, and a first lead screw linear module 2022 fixed on the upper ends of the mounting posts 2021 by bolts. On the other hand, the placement plate 201 comprises a mounting plate 2011 in a T shape and a placement plate 2012 located on the mounting plate 2011, one end plate of the mounting plate 2011 is fixed on a sliding table of the first lead screw linear module 2022, the plate at the other end is used for placing the placement plate 2012 and placing the plate 2012 and the plate 2012, the mounting plate 2011 and the placement plate 2012 are both provided with two placement slots 2013 for placing induction coils, the placement slots 2013 are approximately in interference fit with the induction coils, in order to enable the subsequent product testing group 4 to better detect the induction coils, the placement slots 2013 on the mounting plate 2011 are slightly larger than the placement slots 2013 on the placement plate 2012, and meanwhile, a space for placing a protection shell of the induction coils is further arranged on the placement slots 2013.

Referring to fig. 4 and 5, the product scanning group 3 includes two sets of scanners 303, and the scanners 303 may adopt keyence scanners 303, and can directly scan the product coding information on the induction coil and record each product. Two sets of bar code scanners 303 are fixed through two uprights 301 with rotating plates 302, one ends of the rotating plates 302 and the uprights 301 are locked through bolts and achieve lifting and rotating on the uprights 301, and the other ends of the rotating plates 302 are used for fixedly mounting the bar code scanners 303. The two columns 301 are respectively disposed on two sides of the first lead screw linear module 2022, and the position of the barcode scanner 303 is just above the two slot holes 2013 on the placing board 2012, so that when the induction coil approaches the lower side of the barcode scanner 303, the barcode scanner 303 can scan and record directly.

Referring to fig. 5, the product testing group 4 is disposed at the rear side of the product scanning group 3, and includes a pressing member 401 for positioning the upper end of the induction coil, a testing plug 402 for determining the product quality of the induction coil, and a lifting member 403 for controlling the testing plug 402 to be electrically connected to the coil pins, wherein how to detect and determine whether the quality is qualified after the testing plug 402 and the induction coil are powered on is the prior art, and therefore, the working principle thereof will not be described. The pressing member 401 is provided on the stage 101 inside the first lead screw linear module 2022, and the lifting member 403 is provided on the stage 101 outside the first lead screw linear module 2022.

Referring to fig. 5 and 6, the pressing member 401 includes a lifting cylinder 4013 erected on the bearing table 101, a sliding plate 4012 fixed to an upper end of a piston rod of the lifting cylinder 4013, and two guide rods 4011 for preventing the sliding plate 4012 from rotating. Wherein guide bar 4011 is provided with two both sides of establishing at lift cylinder 4013, the through-hole has been seted up on slide plate 4012, the through-hole is provided with T type pipe 40121, this T type pipe 40121 cover is established on guide bar 4011, when lift cylinder 4013 moves, slide plate 4012 realizes upgrading on guide bar 4011 and slides, simultaneously for spacing slide plate 4012's the distance of sliding, the cover is equipped with C type sleeve 40111 that has locking bolt on guide bar 4011 and carries on spacingly, C type sleeve 40111 adjusts the mounted position on guide bar 4011 through locking bolt. The sliding plate 4012 extends from the upper part of the first lead screw linear module 2022 to the upper part of the lifting component 403, and the end is connected with a pressing plate 4014, the pressing plate 4014 can be approximately the same as the placing plate 2012 in profile with the placing plate 2012, and the area size is determined by the fact that the sliding plate can be completely covered on the two placing slot holes 2013. Through the operation of lift cylinder 4013, final control pressure strip 4014 can compress tightly in the induction coil upper end, avoids induction coil to be ejecting from placing board 2012. Meanwhile, in order to avoid damage to the induction coil caused by the pressure plate 4014, a rubber plate 40141 can be arranged on the lower end face of the pressure plate 4014, and the effect of protecting the induction coil is achieved.

Referring to fig. 7, the lifting member 403 includes two jacking cylinders 4031 capable of aligning with the storage slots 2013, a connecting plate 4032 disposed on the jacking cylinders 4031, and a test plug 402 disposed on the connecting plate 4032, respectively. After the connecting plate 4032 is fixed to the piston rod of the jacking cylinder 4031, a buffer plate 404 for mounting the test plug 402 is fixed to the connecting plate 4032, wherein the buffer plate 404 is provided with four connecting rods 405 sleeved with springs serving as elastic members 406, the lower ends of the connecting rods 405 are connected to the connecting plate 4032 in a threaded manner, and the top ends of the connecting rods are provided with positions located at the upper ends of the buffer plate 404. Through the setting of the spring that is compression state and the spacing of locating head 407, buffer board 404 can carry out relative movement relative to connecting plate 4032, and then makes test plug 402 can move relative to connecting plate 4032, and then changes test plug 402 and induction coil's hard connection into the soft connection, plays the effect of protection induction coil equally. When the induction coil needs to be detected, the upper end is pressed through the pressing plate 4014, the lower end enables the test plug 402 to be plugged through the operation of the jacking cylinder 4031, and finally, the coil in the induction coil is electrified and detected.

Referring to fig. 8, the product marking group 5 includes a lifting column 501 and a marking machine 502, wherein a group of manually-rotated screw modules is disposed in the lifting column 501, the marking machine 502 is fixed on a sliding table on the screw modules, and the marking machine 502 is adjusted relative to the position of the placing plate 2012 by driving the screw modules.

Referring to fig. 9, the product collecting group 6 is disposed at the end of the first lead screw linear module 2022, and includes a finished product collecting member 601 with qualified collecting quality and a waste collecting member 602 with unqualified collecting quality, which are disposed at two sides of the first lead screw linear module 2022. Wherein the waste material collecting member 602 comprises a collecting box 6021 disposed in the deposit chamber 102 and a collecting guide tube 6022 having one end positioned at the upper end of the carrier platform 101 and the other end communicating with the collecting box 6021. The upper end of the collecting guide tube 6022 above the bearing platform 101 is provided with a collecting port in the shape of an inverted circular truncated cone, and the end face of one side of the collecting box 6021 close to the outer side of the rack 1 is provided with a glass plate 60211, so that an operator can directly observe the number of the waste induction coils in the collecting box 6021.

Referring to fig. 9 and 10, the finished product collecting member 601 includes a belt pulley set 6011 parallel to the first lead screw linear module 2022, material receiving assemblies 6012 connected to both sides of the belt pulley set 6011, and two sets of material receiving assemblies 6012 are staggered in tandem on both sides of the belt pulley set 6011, so that when one set of material receiving assemblies 6012 is moved out of the rack 1, the other set can be close to the first lead screw linear module 2022, and the two sets operate in a reciprocating manner to realize that the finished product collecting member 601 can continuously collect the finished product. Wherein the belt pulley set 6011 runs through a driving motor and a protective horizontal plate 60111 is fixed at the upper end of the belt pulley set 6011.

Referring to fig. 10, the material receiving assembly 6012 includes two linear slide rails 6013 respectively disposed at two sides of the belt pulley set 6011 and disposed in parallel, and a material discharging plate 6014 with one end fixed on a sliding table of the linear slide rails 6013, where the material discharging plate 6014 is further connected to an L-shaped folded plate 60141 at the end and is simultaneously and fixedly connected to the sliding table and the material discharging plate 6014, so that when the belt pulley set 6011 operates, the whole material discharging plate 6014 can slide together with the belt pulley set 6011. The upper end of the material placing plate 6014 comprises a fixing plate 6015 which is connected through a magnet, material placing holes 60151 which are distributed in a grid shape are distributed in the fixing plate 6015, and the induction coils are completely taken out at one time through direct separation of the fixing plate 6015 and the material placing plate 6014. In order to facilitate the operation and material taking of the material receiving assembly 6012, the rack 1 is preferably provided with an opening on one side, so that the material discharging plate 6014 can be directly removed from the inside of the rack 1.

Referring to fig. 11, 12 and 13, the product clamping group 7 includes a clamping member 701 for clamping the induction coil on the placing plate 2012 to the finished product collecting member 601 or the waste collecting member 602, respectively, and a driving transfer member 702 for controlling the movement of the clamping member 701. The driving transfer component 702 comprises a second lead screw linear module 7021 arranged in parallel with the first lead screw linear module 2022 and a third lead screw linear module 7022 connected to a sliding table on the second lead screw linear module 7021; wherein for the stable placing of third lead screw straight line module 7022, frame 1 still is provided with the slide rail frame 103 that has the slip table in second lead screw straight line module 7021 one side for the third lead screw straight line module 7022 can be steady place on frame 1. On the other hand, the clamping member 701 comprises a driving cylinder 7011 which is inversely installed on the sliding table of the third lead screw linear module 7022, a bidirectional cylinder 7012 which is connected to the piston rod of the driving cylinder 7011, and two clamping blocks 7013 which are arranged on the piston rod of the bidirectional cylinder 7012, wherein the lower ends of the two groups of clamping blocks 7013 which are oppositely arranged form a clamping area for clamping the induction coil.

After the induction coil is detected and marked, the clamping block 7013 can be located on the placing plate 2012 through the common sliding of the second lead screw linear module 7021 and the third lead screw linear module 7022, then the placing plate 2012 is close to through the operation of the driving air cylinder 7011, finally the induction coil protruding on the placing plate 2012 is clamped through the common operation of the bidirectional air cylinder 7012, and then the finished product collecting member 601 and the waste material collecting member 602 are respectively placed according to the quality detection result.

The implementation principle of the detection equipment for the automobile key identification induction coil is as follows: place two induction coil through manipulator or manual work and place on the board 2012, should place board 2012 and pass through the product and sweep behind code group 3, product test group 4, the product is beaten mark group 5 in proper order afterwards, press from both sides material group 7 through the product and place induction coil and collect group 6 on, accomplish single automated inspection.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. A detection device for a car key identification induction coil, comprising:

the rack (1) comprises a bearing platform (101) and a storage chamber (102) positioned below the bearing platform (101);

the transfer moving group (2) comprises an object placing plate (201) for placing an induction coil and a conveying member (202) which is arranged on the bearing platform (101) and controls the object placing plate (201) to slide in a reciprocating manner;

the product scanning code group (3) is used for scanning and recording product coding information of the induction coil on the object placing plate (201) and recording the product coding information when the object placing plate (201) is positioned below;

the product testing group (4) comprises a pressing member (401) for pressing the induction coil on the object placing plate (201), a testing plug (402) for judging the product quality of the induction coil, and a lifting member (403) for controlling the testing plug (402) to be electrically connected with coil pins;

the product marking group (5) marks the induction coil with qualified product quality on the object placing plate (201);

the product collection group (6) comprises a finished product collection component (601) with qualified collection quality and a waste collection component (602) with unqualified collection quality;

the product clamping group (7) comprises a clamping component (701) for clamping the induction coil on the object placing plate (201) to a finished product collecting component (601) or a waste collecting component (602) respectively, and a driving transfer component (702) for controlling the clamping component (701) to move; the placement plate (201) comprises a mounting plate (2011) connected to the conveying component (202) and a placement plate (2012) located on the front side of the mounting plate (2011) and provided with a placement groove hole (2013).

2. The detection apparatus for be used for car key discernment induction coil according to claim 1, characterized in that, transport component (202) include many distribution in installation stand (2021) on plummer (101), install first lead screw straight line module (2022) on installation stand (2021), mounting panel (2011) is fixed in on the slip table on first lead screw straight line module (2022).

3. The detection apparatus for the car key recognition induction coil according to claim 1, characterized in that the pressing member (401) comprises a guide rod (4011), a sliding plate (4012) arranged on the guide rod (4011) in a sliding way, a lifting cylinder (4013) for controlling the sliding plate (4012) to lift, and a pressing plate (4014) which is positioned at one side of the sliding plate (4012) and can press the induction coil in the accommodating groove hole (2013);

the lifting component (403) comprises a jacking cylinder (4031) arranged on the bearing table (101) and a connecting plate (4032) arranged on a piston rod of the jacking cylinder (4031), and the test plug (402) is mounted on the connecting plate (4032);

when the placing plate (2012) is located below the pressing plate (4014), the pressing plate (4014) realizes that the induction coil is positioned on the accommodating groove hole (2013) through the lifting cylinder (4013), and the jacking cylinder (4031) drives the test plug (402) to be inserted into the protective shell.

4. The detection device for the automobile key identification induction coil according to claim 3, wherein a buffer plate (404) is arranged on the connecting plate (4032), the lower end of the connecting plate is in threaded connection with the connecting plate (4032), the upper end of the connecting plate is provided with a plurality of connecting rods (405) for the buffer plate (404) to slide in a sleeved mode, the connecting rods (405) are sleeved with elastic pieces (406) which are located on the buffer plate (404) and the connecting plate (4032) and are in a compressed state, the top end of each connecting rod (405) is provided with a positioning head (407) for limiting the sleeved position of the buffer plate (404), and the test plug (402) is arranged on the upper end face of the buffer plate (404).

5. The detection equipment for the automobile key identification induction coil is characterized in that the driving transfer component (702) comprises a second lead screw linear module (7021) arranged in parallel with the first lead screw linear module (2022), and a third lead screw linear module (7022) connected to a sliding table on the second lead screw linear module (7021);

the clamping component (701) comprises a driving air cylinder (7011), a bidirectional air cylinder (7012) and two clamping blocks (7013), wherein the driving air cylinder (7011), the bidirectional air cylinder (7012) and the two clamping blocks are arranged on a piston rod of the bidirectional air cylinder (7012) and are inversely installed on a sliding table on the third lead screw linear module (7022), and the two clamping blocks (7013) are oppositely arranged in two groups, and the lower end of each clamping block (7013) forms a clamping area for clamping an induction coil.

6. A detection apparatus for a car key identification induction coil according to claim 1, characterized in that the waste material collection member (602) comprises a collection box (6021) located on the deposit chamber (102), a collection guide tube (6022) extending from an upper end of the collection box (6021) to above the carrier table (101).

7. The detecting device for the automobile key identification induction coil according to claim 1, wherein the finished product collecting member (601) comprises a pulley set (6011) arranged on the bearing platform (101), and a material receiving assembly (6012) located at a side of the pulley set (6011) and linked with the pulley set (6011);

connect material subassembly (6012) include with belt pulley group (6011) parallel arrangement's linear slide rail (6013), fix discharge board (6014) on the slip table on linear slide rail (6013), discharge board (6014) one side and belt fixed connection on the belt pulley group (6011).

8. The apparatus as claimed in claim 7, wherein the finished product collecting member (601) is provided with material receiving assemblies (6012) at two sides of the pulley set (6011), two material receiving assemblies (6012) are connected to two sides of the pulley set (6011) respectively and are staggered, and a plurality of material placing holes (60151) are distributed on the material placing plate (6014).

9. The detection device for the automobile key identification induction coil is characterized in that the product marking group (5) comprises a lifting column (501) and a marking machine (502), the lower end of the lifting column (501) is fixed on the bearing platform (101) and is provided with a lead screw module, and the marking machine (502) is fixed on a sliding table of the lead screw module.

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