CN115957983A - PIN high-voltage detection device and detection method - Google Patents

Abstract

The invention relates to a PIN high-voltage detection device and a detection method. Mainly get rid of mechanism, laser marking mechanism and clean mechanism including upset feed mechanism, high-tension electricity detection mechanism, stitch position detection mechanism, NG that set gradually, still include transport mechanism, transport mechanism sets up one side of upset feed mechanism. This application carries the product one by one through upset feed mechanism, and the product that will send through high-voltage circular telegram detection mechanism carries out high-pressure measuring, whether correctly detects the stitch position of product through stitch position detection mechanism, gets rid of the mechanism through NG and carries unqualified product, carries out laser marking through laser marking mechanism to the product, cleans the product through clean mechanism. This application can carry out quick high pressure to the product of batch and detect, still integrates with other processes.

Description

PIN high-voltage detection device and detection method

Technical Field

The invention relates to the field of PIN detection, in particular to a PIN high-voltage detection device and a detection method.

Background

After the PIN needle is produced, the PIN needle needs to be subjected to high-voltage power-on detection. That is, the PIN is electrified with high voltage electricity to detect the properties of the PIN such as conductivity and the like. Generally, a plurality of PIN needles can be installed and form one and wait to detect the product on a support body, and traditional equipment that is used for carrying out high-voltage electricity to this type of product and detects includes the carrier, places the product on the carrier, then links to each other with the both ends and the high-pressure test port of each PIN needle on the product, and the high-pressure test port links to each other with detecting instrument. The PIN needle is detected by discharging through a detection instrument, and the test voltage is 500V. The traditional detection mode can detect one product, but how to rapidly detect the batch products and reasonably integrate high-voltage detection and other processes into a difficult problem.

Disclosure of Invention

Based on this, provide a PIN needle high pressure detection device. The device can carry out quick high-pressure detection to batch product, and moreover, the device has still carried out reasonable integration with high-pressure detection and other processes.

The utility model provides a PIN needle high pressure check out test set, gets rid of mechanism, laser marking mechanism and clean mechanism including upset feed mechanism, high-tension electricity detection mechanism, stitch position detection mechanism, NG that set gradually, still includes transport mechanism, transport mechanism sets up one side of upset feed mechanism.

This application carries the product one by one through upset feed mechanism, and the product that will send through high-voltage circular telegram detection mechanism carries out high-pressure measuring, whether correctly detects the stitch position of product through stitch position detection mechanism, gets rid of the mechanism through NG and carries unqualified product, carries out laser marking through laser marking mechanism to the product, cleans the product through clean mechanism. This application can carry out quick high pressure test to the product in batches, still integrates with other processes.

In one embodiment, the carrying mechanism comprises a moving module and a bracket arranged on the moving module, wherein a plurality of vacuum suction head assemblies are arranged on the bracket at intervals.

In one embodiment, the vacuum suction head assembly comprises a vertical sliding rail assembly arranged on a support, a mounting frame is arranged on the vertical sliding rail assembly, a spring seat is arranged above the mounting frame, an elastic reset assembly is arranged between the mounting frame and the spring seat, and a suction head is arranged at the bottom end of the mounting frame

In one embodiment, the turnover feeding mechanism comprises a turnover motor, the turnover motor is connected with a turnover table, one end of the turnover table is provided with a first receiving port, the other end of the turnover table is provided with a second receiving port, a product positioning structure is arranged in the first receiving port, a product positioning structure is arranged in the second receiving port, one side of the turnover motor is provided with a linear feeding mechanism, a conveying table is arranged on the linear feeding mechanism, a third receiving port is arranged on the conveying table, a product positioning structure is arranged in the third receiving port, the conveying table is provided with a first position and a second position, the conveying table corresponds to the first receiving port or the second receiving port at the first position, the conveying table corresponds to the feeding support table at the second position, the first pushing mechanism corresponds to the first position, the first pushing mechanism is used for pushing a product in the first receiving port or the second receiving port to the third receiving port of the conveying table, the second pushing mechanism corresponds to the second position, and the second pushing mechanism is used for pushing the third product in the conveying table to the third receiving port.

In one embodiment, the high-voltage electrifying detection mechanism comprises a high-voltage detection support platform, high-voltage detection port assemblies are respectively arranged on two sides of the high-voltage detection support platform, each high-voltage detection port assembly is respectively connected with a detection instrument, each high-voltage detection port assembly is also connected with a high-voltage detection pushing assembly,

the stitch position detection mechanism comprises a position detection supporting platform, position detection components are respectively arranged on two sides of the position detection supporting platform, each position detection component comprises a supporting seat, an L-shaped block, an auxiliary plate, a position detection sensor, an auxiliary slide rail component, an auxiliary frame body, a detection plate and a position detection pushing mechanism, the supporting seat is connected with the position detection pushing mechanism, the L-shaped block is arranged on the supporting seat, the position detection sensor is arranged on the L-shaped block, the auxiliary slide rail component is arranged on the supporting seat, the auxiliary frame body is arranged on the auxiliary slide rail component, a plurality of springs are arranged between the L-shaped block and the auxiliary frame body, the detection plate is arranged at the end part of the auxiliary frame body, a plurality of position detection holes are arranged on the detection plate, one end of the auxiliary plate is connected with the auxiliary frame body, the other end of the auxiliary plate is supported by the L-shaped block, an auxiliary through hole is arranged at the tail end of the auxiliary plate, and the auxiliary through hole is positioned at the position detection sensor,

the high pressure detects and is provided with pushing down the mechanism between the brace table and the position detection brace table, pushing down the mechanism and being used for exerting down force to the product on high pressure detection brace table and the position detection platform, pushing down the mechanism and including pushing down the cylinder, with push down the frame and install the briquetting down at push down frame both ends that the cylinder links to each other down. The pressing mechanism is arranged on a first platform, and the first platform is connected with the first linear driving module.

In one embodiment, the high voltage detection port component at one side of the high voltage detection support platform and the high voltage detection pushing component connected with the high voltage detection port component are arranged on a second platform, the second platform is connected with a second linear driving module,

the position detection assembly on one side of the position detection supporting table is arranged on a third platform, and the third platform is connected with a third linear driving module.

In one embodiment, the NG removing mechanism comprises a belt conveying line, a supporting plate is arranged above the belt conveying line and connected with a driving cylinder of the supporting plate, a product limiting table is arranged above the supporting plate, and a unqualified product recovery box is further arranged on one side of the belt conveying line.

In one embodiment, the laser marking mechanism comprises a marking support table and a laser marking device arranged on one side of the marking support table, the other side of the marking support table is provided with a smoking component, the marking support table is arranged on a marking driving cylinder,

the cleaning mechanism comprises a cleaning support table, a blowing mechanism is arranged on one side of the cleaning support table, and a suction mechanism is arranged on the other side of the cleaning support table.

A PIN detection method comprises the following steps:

the product material is sent to the material loading support platform through the overturning material loading mechanism,

then, the product is conveyed to the high-voltage electrifying detection mechanism through the conveying mechanism to carry out high-voltage electrifying detection,

then, the product is sent to the stitch position detection mechanism for stitch position detection through the carrying mechanism,

then, the product is conveyed to an NG eliminating mechanism through a conveying mechanism, if the product is qualified, the product is conveyed to a laser reaching-standard mechanism, if the product is unqualified, the product is conveyed to an unqualified product recovery box through the NG eliminating mechanism,

the product is marked in laser marking mechanism department and is operated, then, carries the product to clean mechanism department through transport mechanism, blows clean operation through clean mechanism to the product.

Drawings

Fig. 1 is a schematic diagram of a PIN high voltage detection device of an embodiment of the present application.

Fig. 2 is a schematic diagram showing the arrangement position of a cleaning mechanism provided in the PIN high-voltage detection device according to the embodiment of the present application.

Fig. 3 is a schematic view of a conveyance mechanism according to an embodiment of the present application.

Fig. 4 is a schematic view of an inverted feed mechanism of an implementation of the present application.

Fig. 5 is a schematic diagram of a high-voltage energization detecting mechanism, a stitch position detecting mechanism, a hold-down frame, and a hold-down block according to an embodiment of the present application.

Fig. 6 is a schematic diagram of an NG excluding mechanism implemented by the present application.

Fig. 7 is a schematic diagram of a laser marking mechanism of an implementation of the present application.

Fig. 8 is a schematic diagram of a cleaning mechanism of an implementation of the present application.

Fig. 9 is a schematic view of a product of an embodiment of the present application.

Wherein:

110. a material loading mechanism is turned over; 120. a high-voltage energization detection mechanism; 130. a stitch position detection mechanism; 140. a carrying mechanism; 150. an NG elimination mechanism; 160. a laser marking mechanism; 170. a cleaning mechanism;

141. a moving module; 142. a support; 143. a vertical slide rail assembly; 144. a mounting frame; 145. a spring seat; 146. a suction head;

201. inserting a block; 202. a PIN needle; 200. producing a product;

111. turning over a motor; 112. a turning table; 1121. a first receiving port; 1122. a second receiving port;

113. a linear feeding mechanism; 114. a conveying table; 1141. a third receiving port; 115. a feeding support table;

116. a first pushing mechanism; 117. a second pushing mechanism;

121. a high-voltage detection support platform; 122. a high voltage detection push assembly; 123. a port plate; 124. a wire; 125. a high voltage detection base; 131. a supporting seat;

132. an L-shaped block; 133. an auxiliary plate; 134. a position detection sensor; 135. an auxiliary slide rail assembly; 136. an auxiliary frame body; 137. detecting a plate; 138. a position detection pushing mechanism; 139. a spring;

181. pressing down the frame; 182. pressing the block; 1261. a second linear driving module; 1262. a third linear driving module;

151. the supporting plate drives the air cylinder; 152. a support plate; 153. a product limiting table; 154. a belt conveyor line;

161. a laser marking device; 162. marking driving cylinders; 163. marking a supporting table; 164. a smoking assembly;

171. cleaning the support table; 172. a blowing mechanism; 173. and an air suction mechanism.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

As shown in fig. 1 and 2, the embodiment of the present application provides a PIN high voltage detection device, which includes a turning feeding mechanism 110, a high voltage electrifying detection mechanism 120, a stitch position detection mechanism 130, an NG elimination mechanism 150, a laser marking mechanism 160, a cleaning mechanism 170, and a carrying mechanism 140, which are sequentially arranged, wherein the carrying mechanism 140 is arranged on one side of the turning feeding mechanism 110. The conveying mechanism 140 is used to move the product 200 between the stations.

This application carries product 200 one by one through upset feed mechanism 110, and the product 200 that will send through high-voltage electricity detection mechanism 120 carries out high-pressure measuring, whether correctly detect the stitch position of product 200 through stitch position detection mechanism 130, get rid of mechanism 150 through NG and carry nonconforming product 200, carry out laser marking to product 200 through laser marking mechanism 160, clean product 200 through clean mechanism 170.

In one embodiment, as shown in fig. 3, the handling mechanism 140 includes a moving module 141 and a rack 142 mounted on the moving module 141, and a plurality of vacuum nozzle 146 assemblies are spaced on the rack 142. The vacuum tip 146 assembly is connected to a vacuum extractor.

Specifically, the moving module 141 may be a cam-type lifting moving mechanism or another two-dimensional moving module 141. The movement module 141 is capable of moving the vacuum nozzle 146 assemblies simultaneously so that the products 200 at each station can be transferred simultaneously to the next station.

On the basis, the vacuum suction head 146 assembly comprises a vertical sliding rail assembly 143 arranged on the support 142, a mounting frame 144 is arranged on the vertical sliding rail assembly 143, a spring seat 145 is arranged above the mounting frame 144, an elastic reset assembly is arranged between the mounting frame 144 and the spring seat 145, and a suction head 146 is arranged at the bottom end of the mounting frame 144. The elastic return assembly may include a return spring, and the spring seat 145 is provided at an upper end of the mounting bracket 144, and the return spring is provided between the spring seat 145 and the mounting bracket 144. Furthermore, structures such as a guide post and the like can be arranged in the return spring.

Since the product 200 generally comprises two or three insertion blocks 201, a plurality of PIN PINs 202 are inserted into the insertion blocks 201. In order to facilitate compatibility of the suction head 146, the suction head 146 is provided with a suction structure corresponding to three inserts 201, for example, 3 rows of suction nozzles are arranged at intervals at the end of the suction head 146. Thus, when the product 200 has 2 insert blocks 201, the product 200 can be sucked by only using 2 rows of suction nozzles. For example, a material loading support table 115, a high pressure detection support table 121, a position detection support table, and the like.

It can be understood that the supporting table at each station of this application can also be provided with a corresponding product 200 positioning groove, namely a positioning groove for positioning the insert 201 on the product 200. For compatibility, 3 detents can be provided. This can also be used when the product 200 has two inserts 201. A corresponding photo-sensor may also be provided on the support table at each station to determine whether a product 200 is placed thereon.

In one embodiment, as shown in fig. 4, the flipping and feeding mechanism 110 includes a flipping motor 111, the flipping motor 111 is connected to a flipping table 112, one end of the flipping table 112 is provided with a first receiving opening 1121, the other end of the flipping table 112 is provided with a second receiving opening 1122, and a product 200 positioning structure is disposed in the first receiving opening 1121, and the product 200 positioning structure may be set according to the shape of a shelf on the product 200. For example, the product 200 generally includes two or three insert blocks 201, and a plurality of PIN PINs 202 are inserted into the insert blocks 201. The product 200 positioning structure may be a slot corresponding to the insert 201. The second receiving port 1122 is internally provided with a product 200 positioning structure, one side of the turnover motor 111 is provided with a linear feeding mechanism 113, the linear feeding mechanism 113 is provided with a conveying table 114, the conveying table 114 is provided with a third receiving port 1141, the third receiving port 1141 is internally provided with a product 200 positioning structure, the conveying table 114 is provided with a first position and a second position, the first position is that the conveying table 114 corresponds to the first receiving port 1121 or the second receiving port 1122, the second position is that the conveying table 114 corresponds to the loading support table 115, the product turnover device further comprises a first material pushing mechanism 116 and a second material pushing mechanism 117, the first material pushing mechanism 116 corresponds to the first position, the first material pushing mechanism 116 is used for pushing the product 200 in the first receiving port 1121 or the second receiving port 1122 to the third receiving port 1141 of the conveying table 114, the second material pushing mechanism 117 corresponds to the second position, and the second material pushing mechanism 117 is used for pushing the product 200 in the third receiving port 1141 of the conveying table 114 to the loading support table 115.

Specifically, the first pushing mechanism 116 and the second pushing mechanism 117 may be composed of a pushing cylinder, a vertical plate, and a horizontal pushing plate, or may be composed of a pushing cylinder and a horizontal pushing plate. For example, the material pushing cylinder drives the vertical plate to drive the horizontal material pushing plate to move, and the product 200 is pushed by the horizontal material pushing plate, so that the product 200 is moved. For example, if the pushing cylinder is directly connected to the horizontal pushing plate, the pushing cylinder may directly drive the horizontal pushing plate to move to convey the product 200.

When the turnover feeding mechanism 110 is in operation, after the first receiving opening 1121 of the turnover table 112 receives the product 200, the turnover table 112 is driven by the turnover motor 111 to turn over, the first receiving opening 1121 of the turnover table 112 turns over to the first material pushing mechanism 116, and meanwhile, the second receiving opening 1122 turns over to the material receiving position, so that the product 200 can be received. The horizontal pushing plate of the first pushing mechanism 116 pushes the product 200 in the first receiving opening 1121 to the third receiving opening 1141 of the conveying table 114, and then the conveying table 114 moves from the first position to the second position, i.e., to the second pushing mechanism 117. Next, the horizontal pusher plate of the second pusher 117 pushes the product 200 in the third receiving opening 1141 of the conveying platform 114 out to the feeding support platform 115.

In one embodiment, as shown in fig. 5, the high-voltage energization detecting mechanism 120 includes a high-voltage detection supporting platform 121, two sides of the high-voltage detection supporting platform 121 are respectively provided with a high-voltage detection port assembly, each high-voltage detection port assembly is respectively connected to the detecting instrument, and each high-voltage detection port assembly is further connected to a high-voltage detection pushing assembly 122. The high-voltage detecting and pushing assembly 122 may be composed of a sliding table cylinder and the like. The high-voltage detection port assembly comprises a port plate 123, a plurality of connection ports matched with the PIN PINs 202 are arranged on the port plate 123, each connection port is connected with a lead 124, and the lead 124 is connected with a detection instrument. The port plate 123 may be connected to the high voltage testing base 125, and the high voltage testing base 125 is connected to the high voltage testing pushing assembly 122. The high-pressure detecting pushing assembly 122 may be composed of a cylinder, a sliding rail assembly, and the like. The port plate 123 may be moved by the high voltage detection push assembly 122 until it is plugged into a respective PIN. Then the related high-voltage conduction detection can be carried out through a detection instrument. The detection instrument can be an existing instrument.

As shown in fig. 5, the stitch position detecting mechanism 130 includes a position detecting support platform, and two sides of the position detecting support platform are respectively provided with a position detecting assembly, and the position detecting assembly includes a support seat 131, an L-shaped block 132, an auxiliary plate 133, a position detecting sensor 134, an auxiliary slide rail assembly 135, an auxiliary frame body 136, a detecting plate 137, and a position detecting pushing mechanism 138. The position detecting and pushing mechanism 138 may be composed of a cylinder and a slide rail assembly. The support seat 131 is connected with the position detection pushing mechanism 138, the L-shaped block 132 is arranged on the support seat 131, the position detection sensor 134 is arranged on the L-shaped block 132, the auxiliary slide rail assembly 135 is arranged on the support seat 131, the auxiliary frame body 136 is arranged on the auxiliary slide rail assembly 135, a plurality of springs 139 are arranged between the L-shaped block 132 and the auxiliary frame body 136, the detection plate 137 is arranged at the end part of the auxiliary frame body 136, a plurality of position detection holes are formed in the detection plate 137, one end of the auxiliary plate 133 is connected with the auxiliary frame body 136, the other end of the auxiliary plate 133 is supported by the L-shaped block 132, an auxiliary through hole is formed in the tail end of the auxiliary plate 133, and the auxiliary through hole is located at the position detection sensor 134.

When the PIN position detecting mechanism 130 operates, the position detecting and pushing mechanism 138 moves the supporting base 131 toward the position detecting supporting base, and if each position detecting hole on the detecting plate 137 is inserted into a corresponding PIN 202 on the product 200, the auxiliary through hole of the auxiliary plate 133 and the position detecting sensor 134 (which may be a photoelectric sensor) are always kept in position matching. This indicates that the product 200 is a good product. If a certain PIN 202 cannot be inserted in place, the detection plate 137 cannot move to a designated position, the detection plate 137 stops moving, the supporting seat 131 can continue moving, the L-shaped block 132 is close to the auxiliary frame body 136, the spring is compressed, meanwhile, the auxiliary through hole at the tail end of the auxiliary plate 133 is no longer matched with the position detection sensor 134, and the position detection sensor 134 generates a relevant signal, which indicates that the product 200 is an unqualified product.

Further, as shown in fig. 5, a pressing mechanism is disposed between the high-pressure detection support platform 121 and the position detection support platform, the pressing mechanism is used for applying a pressing force to the products 200 on the high-pressure detection support platform 121 and the position detection platform, and the pressing mechanism includes a pressing cylinder, a pressing frame 181 connected to the pressing cylinder, and pressing blocks 182 mounted at two ends of the pressing frame 181. The product 200 can be pressed by the pressing block 182, and the pressing block 182 presses the product 200 and then rises to reset, so that the position of the product 200 can be accurate, and the subsequent detection can be facilitated. The hold-down block 182 is adapted to hold down the product 200 after the vacuum head 146 assembly has been raised. The pressing mechanism is arranged on a first platform, the first platform is connected with a first linear driving module, and the first linear driving module can be composed of a sliding rail assembly and an air cylinder. The first linear driving module can be composed of a cylinder, a sliding rail component and the like.

In one embodiment, as shown in fig. 5, the high voltage testing port assembly on one side of the high voltage testing support 121 and the high voltage testing pushing assembly 122 connected thereto are disposed on a second platform, which is connected to a second linear driving module 1261. The second linear driving module 1261 may be composed of a rail assembly and a cylinder, etc. The position detection assembly on one side of the position detection support platform is arranged on a third platform, and the third platform is connected with a third linear driving module 1262. The third linear driving module 1262 may comprise a slide rail assembly and a cylinder.

In one embodiment, as shown in fig. 6, the NG removing mechanism 150 includes a belt conveying line 154, a supporting plate 152 is disposed above the belt conveying line 154, the supporting plate 152 is connected to a supporting plate driving cylinder 151, a product limiting table 153 is disposed above the supporting plate 152, and a rejected product 200 recovery box is disposed on one side of the belt conveying line 154.

Specifically, the product 200 on the position detection support table is conveyed to the product limit table 153, the product 200 is supported by the support plate 152, and if the product 200 is a qualified product, the product 200 is continuously conveyed to the marking support table 163. If the product 200 is not a qualified product. The supporting plate 152 is withdrawn and the product 200 loses the support of the supporting plate 152 and drops onto the belt conveyor 154 and is conveyed to the rejected product recovery box by the belt conveyor 154.

In one embodiment, as shown in fig. 7, the laser marking mechanism 160 includes a marking support table 163 and a laser marking device 161 disposed on one side of the marking support table 163, and a smoking assembly 164 disposed on the other side of the marking support table 163. The marking support table 163 is disposed on the marking driving cylinder 162. A two-dimensional code or the like can be printed on the product 200 by the laser marking device 161. The smoke may be drawn away by the smoking assembly 164. The laser marking device 161 described above may use existing equipment. The smoking assembly 164 may use existing suction type devices.

As shown in fig. 8, the cleaning mechanism 170 includes a cleaning support 171, an air blowing mechanism 172 is provided on one side of the cleaning support 171, and an air suction mechanism 173 is provided on the other side of the cleaning support 171. The product 200 is purged of impurities by blowing air to the product 200 by the air blowing mechanism 172, and the gas with impurities is sucked by the suction mechanism 173.

The embodiment of the application also provides a PIN detection method, which comprises the following steps:

the product 200 is fed to the loading support table 115 by the inverting loading mechanism 110,

then, the product 200 is sent to the high-voltage energization detecting mechanism 120 by the conveying mechanism 140 for high-voltage energization detection,

then, the product 200 is sent to the stitch position detection mechanism 130 by the carrying mechanism 140 for stitch position detection,

next, the product 200 is sent to the NG removing mechanism 150 by the carrying mechanism 140, if the product 200 is a qualified product, the product 200 is sent to the laser marking mechanism, if the product 200 is an unqualified product, the product 200 is sent to the unqualified product recovery box by the NG removing mechanism 150, the marking operation is performed on the product 200 at the laser marking mechanism 160, then, the product 200 is sent to the cleaning mechanism 170 by the carrying mechanism 140, and the blowing cleaning operation is performed on the product 200 by the cleaning mechanism 170.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent should be subject to the appended claims.

Claims (9)

1. The utility model provides a PIN needle high pressure check out test set which characterized in that, gets rid of mechanism, laser marking mechanism and clean mechanism including upset feed mechanism, high-voltage electricity detection mechanism, stitch position detection mechanism, NG that set gradually, still includes transport mechanism, transport mechanism sets up one side of upset feed mechanism.

2. The PIN high pressure detection device of claim 1, wherein the handling mechanism comprises a moving module and a support mounted on the moving module, and a plurality of vacuum nozzle assemblies are arranged on the support at intervals.

3. The PIN high-pressure detection device according to claim 2, wherein the vacuum suction head assembly comprises a vertical slide rail assembly arranged on a support, a mounting frame is arranged on the vertical slide rail assembly, a spring seat is arranged above the mounting frame, an elastic reset assembly is arranged between the mounting frame and the spring seat, and a suction head is arranged at the bottom end of the mounting frame.

4. The PIN high-voltage detection device according to claim 1, wherein the overturning and feeding mechanism comprises an overturning motor, the overturning motor is connected with the overturning platform, one end of the overturning platform is provided with a first receiving port, the other end of the overturning platform is provided with a second receiving port, a product positioning structure is arranged in the first receiving port, a product positioning structure is arranged in the second receiving port, one side of the overturning motor is provided with a linear feeding mechanism, a conveying platform is arranged on the linear feeding mechanism, a third receiving port is arranged on the conveying platform, a product positioning structure is arranged in the third receiving port, the conveying platform is provided with a first position and a second position, the conveying platform corresponds to the first receiving port or the second receiving port at the first position, the conveying platform corresponds to the feeding support platform at the second position, the first pushing mechanism corresponds to the first position, the first pushing mechanism is used for pushing a product in the first receiving port or the second receiving port to the third receiving port of the conveying platform, the second pushing mechanism corresponds to the second pushing mechanism, and the second pushing mechanism is used for pushing the product in the third receiving port.

5. The PIN high-voltage detection device according to claim 1, wherein the high-voltage power-on detection mechanism comprises a high-voltage detection support platform, high-voltage detection port assemblies are respectively arranged on two sides of the high-voltage detection support platform, each high-voltage detection port assembly is respectively connected with a detection instrument, and each high-voltage detection port assembly is further connected with a high-voltage detection pushing assembly,

the stitch position detection mechanism comprises a position detection supporting platform, position detection components are respectively arranged on two sides of the position detection supporting platform, each position detection component comprises a supporting seat, an L-shaped block, an auxiliary plate, a position detection sensor, an auxiliary slide rail component, an auxiliary frame body, a detection plate and a position detection pushing mechanism, the supporting seat is connected with the position detection pushing mechanism, the L-shaped block is arranged on the supporting seat, the position detection sensor is arranged on the L-shaped block, the auxiliary slide rail component is arranged on the supporting seat, the auxiliary frame body is arranged on the auxiliary slide rail component, a plurality of springs are arranged between the L-shaped block and the auxiliary frame body, the detection plate is arranged at the end part of the auxiliary frame body, a plurality of position detection holes are formed in the detection plate, one end of the auxiliary plate is connected with the auxiliary frame body, the other end of the auxiliary plate is supported by the L-shaped block, an auxiliary through hole is formed in the tail end of the auxiliary plate, and the auxiliary through hole is located at the position detection sensor,

the high pressure detects and is provided with pushing down the mechanism between the brace table and the position detection brace table, pushing down the mechanism and being used for exerting down force to the product on high pressure detection brace table and the position detection platform, pushing down the mechanism and including pushing down the cylinder, with push down the frame and install the briquetting under pushing down the frame both ends that the cylinder links to each other down, pushing down the mechanism and setting up on first platform, first platform links to each other with first linear drive module.

6. The PIN high-voltage detection device according to claim 5,

the high-voltage detection port component at one side of the high-voltage detection supporting platform and the high-voltage detection pushing component connected with the high-voltage detection port component are arranged on a second platform, the second platform is connected with a second linear driving module,

the position detection assembly on one side of the position detection supporting table is arranged on a third platform, and the third platform is connected with a third linear driving module.

7. The PIN high-pressure detection device according to claim 1, wherein the NG removing mechanism comprises a belt conveyor line, a support plate is arranged above the belt conveyor line and connected with a support plate driving cylinder, a product limiting table is arranged above the support plate, and a defective product recovery box is further arranged on one side of the belt conveyor line.

8. The PIN high-voltage detection device according to claim 1, wherein the laser marking mechanism comprises a marking support table and a laser marking device arranged on one side of the marking support table, a smoking component is arranged on the other side of the marking support table, the marking support table is arranged on a marking driving cylinder,

the cleaning mechanism comprises a cleaning supporting table, a blowing mechanism is arranged on one side of the cleaning supporting table, and a suction mechanism is arranged on the other side of the cleaning supporting table.

9. A PIN high-voltage detection method is characterized by comprising the following steps:

the product material is sent to the material loading support platform through the overturning material loading mechanism,

then, the product is conveyed to the high-voltage electrifying detection mechanism through the conveying mechanism to carry out high-voltage electrifying detection,

then, the product is sent to the stitch position detection mechanism for stitch position detection through the carrying mechanism,

then, the product is conveyed to an NG eliminating mechanism through a conveying mechanism, if the product is qualified, the product is conveyed to a laser reaching-standard mechanism, if the product is unqualified, the product is conveyed to an unqualified product recovery box through the NG eliminating mechanism,

the product is marked at the laser marking mechanism, then is carried to clean mechanism department through transport mechanism with the product, blows clean operation to the product through clean mechanism.

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