CN209823081U - Tool is put to PIN needle class product - Google Patents

Abstract

The utility model discloses a tool is put to PIN needle class product, it includes frame, pay-off subassembly and base, and the frame is provided with the riser and has been seted up and has held the silo, and a plurality of pay-off passageways have been seted up to the riser, the one end and the holding silo intercommunication of each pay-off passageway, the other end of each pay-off passageway runs through the end of riser. The feeding assembly comprises an inclined pressing block cover plate, an inclined pressing block and a feeding sliding block, the inclined pressing block cover plate is abutted to the inclined pressing block and is in sliding connection with the vertical plate, the inclined pressing block is abutted to the feeding sliding block and is elastically connected with the vertical plate, a plurality of material receiving holes are formed in the feeding sliding block, each material receiving hole corresponds to a feeding channel, one end of each material receiving hole is communicated with the feeding channel, and the edge of the other end of each material receiving hole is abutted to the base. The base is connected with the machine base and is provided with a plurality of discharge holes. The PIN needle product placing jig can place a plurality of PIN needles at one time, so that the placing efficiency of the PIN needles is greatly improved; PIN needle unloads through the discharge opening and falls in the mould, and it is difficult for deviating from the mould, and it is better to put the effect.

Description

Tool is put to PIN needle class product

Technical Field

The utility model relates to a tool technical field especially relates to a tool is put to PIN needle class product.

Background

The PIN is an important accessory of the connector and is used for conducting current so as to realize the transmission of electricity or signals in the connector. After the PIN needle is produced, the PIN needle needs to be assembled in the connector, so that current flows in the connector, and the conductive function of the connector is realized. So before PIN needle assembly, need place a plurality of PIN needles on the mounting bracket, the operating personnel of being convenient for or manipulator pick up the PIN needle to do benefit to the normal clear of connector assembly operation.

However, in the traditional PIN needle placing operation process, the operators mainly place the PIN needles in the jacks of the mounting frame one by one, and the PIN needle placing efficiency is low; in addition, when PIN needle quantity is more, the operation personnel easily miss and touch remaining PIN needle for put the slope of PIN needle and deviate from even from the jack, the effect is relatively poor is put to the PIN needle, is unfavorable for PIN needle to put the normal clear of operation.

SUMMERY OF THE UTILITY MODEL

Therefore, it is necessary to provide a jig for placing PIN products in order to solve the technical problems of low placing efficiency and poor placing effect.

The utility model provides a tool is put to PIN needle class product, this tool is put to PIN needle class product includes frame, pay-off subassembly and base, and the frame is provided with the riser and has seted up and hold the silo, and a plurality of pay-off passageways have been seted up to the riser, and the one end and the holding silo intercommunication of each pay-off passageway, the other end of each pay-off passageway run through the end of riser. The pay-off subassembly includes the oblique briquetting apron, oblique briquetting and pay-off slider, logical groove has been seted up on the oblique briquetting apron, the riser is worn to establish logical groove and is lapped sliding connection with the oblique briquetting, the oblique briquetting apron is frame and oblique briquetting looks back to, the end of oblique briquetting has first inclined plane, the one end that the adjacent oblique briquetting of pay-off slider is provided with the second inclined plane, first inclined plane corresponds the second inclined plane, and first inclined plane and second inclined plane looks butt, the one end and the riser elastic connection of oblique briquetting are kept away from to the pay-off slider, a plurality of material receiving holes have been seted up to the pay-off slider, each material receiving hole corresponds a pay-off passageway, the one end in material receiving hole is kept away from and is held the silo and communicate with the pay-off passageway, the edge and. The base is connected with the machine base, and a plurality of discharge holes are formed in the base. Hold the silo and be used for the holding to wait to put the PIN needle, the pay-off passageway provides the passageway for waiting to put the removal of PIN needle, connects the material hole to be used for accepting to put the PIN needle by the pay-off passageway falls, and the briquetting pushes the pay-off slider under the drive of briquetting apron to one side, makes each connect the one end that the pay-off passageway was kept away from in the material hole and corresponds the intercommunication with a discharge opening, and the discharge opening is used for communicating with outside mould.

In one embodiment, the distance between the material receiving hole and the material discharging hole is smaller than the distance between the tail end of the inclined pressing block and the base.

In one embodiment, the feeding assembly further comprises a sliding block plate, the sliding block plate is arranged between the vertical plate and the feeding sliding block, the sliding block plate is elastically connected with the inclined pressing block, the sliding block plate is provided with a plurality of material guiding holes, one end of each material guiding hole is far away from the material accommodating groove and is correspondingly communicated with a feeding channel, and the other end of each material guiding hole is correspondingly communicated with a material receiving hole.

In one embodiment, the feeding assembly comprises an elastic member, one end of the elastic member is connected with the inclined pressing block, and the other end of the elastic member is abutted with the sliding block plate.

In one embodiment, the feeding assembly further comprises a plurality of rotating pins facing the slider plate and connected with the inclined pressing block cover plate, the slider plate is provided with a plurality of needle holes, each needle hole is correspondingly communicated with a discharging hole, and each rotating pin is driven by the inclined pressing block cover plate to sequentially penetrate through a needle hole and a material receiving hole.

In one embodiment, the inclined pressing block cover plate is provided with a jack, and the rotating needle penetrates through the jack and is connected with the inclined pressing block cover plate.

In one embodiment, the jig for placing the PIN products further comprises a cover plate, and the cover plate is connected with the base through a back inclined pressing block.

In one embodiment, the cover plate is provided with a first guide hole, the base is provided with a second guide hole, the inclined pressing block cover plate is provided with a third guide hole, the base is provided with a fourth guide hole, the first guide hole, the second guide hole, the third guide hole and the fourth guide hole are sequentially communicated and form a guide channel, the PIN needle product placing jig further comprises a guide post, the guide post penetrates through the guide channel, one end of the guide post is connected with the cover plate, and the other end of the guide post is connected with the base.

In one embodiment, the base is provided with an exhaust hole.

In one embodiment, a protruding strip is arranged on one side of the feeding sliding block, which is far away from the inclined pressing block, a material receiving hole is formed in the protruding strip, a limiting groove is formed in the base, and the protruding strip is clamped in the limiting groove.

According to the tool for placing the PIN needles, the PIN needles to be placed fall into the material receiving holes through the material containing groove through the material feeding channel, the inclined pressing block is enabled to press the material feeding sliding block and push the material feeding sliding block to move by pressing the inclined pressing block cover plate, so that the material feeding sliding block drives the PIN needles to be placed in the material receiving holes to move until the material receiving holes are aligned with the discharging holes, the PIN needles to be placed are discharged from the discharging holes to an external mold, and the PIN needles are placed on the mold, and the tool can place a plurality of PIN needles at one time, so that the placing efficiency of the PIN needles is greatly improved; in addition, the discharge opening of this tool is direct to communicate with outside mould, and the PIN needle directly unloads through the discharge opening and falls in the corresponding hole site of outside mould, and the PIN needle is difficult for deviating from in the hole site of mould, and it is put the effect better.

Drawings

Fig. 1 is a schematic structural view of a PIN product placement jig in one embodiment;

fig. 2 is a schematic structural view of another view angle of the PIN product placing jig in one embodiment;

fig. 3 is a schematic cross-sectional view of the PIN product placement jig shown in fig. 2;

fig. 4 is another schematic cross-sectional view of the PIN product placement jig shown in fig. 2;

FIG. 5 is a schematic view of the structure of the base in one embodiment;

FIG. 6 is a schematic diagram of the feed assembly in one embodiment;

FIG. 7 is a schematic diagram of the structure of a base in one embodiment;

fig. 8 is an exploded schematic view of a PIN product placement jig in one embodiment.

Detailed Description

In order to make the above objects, features and advantages of the present invention more comprehensible, embodiments of the present invention are described in detail below with reference to the accompanying drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein, as those skilled in the art will be able to make similar modifications without departing from the spirit and scope of the present invention.

Please refer to fig. 1 to 7 together, the utility model provides a tool 10 is put to PIN class product, this tool 10 is put to PIN class product includes frame 100, feeding unit 200 and base 300, and frame 100 is provided with riser 110 and has been seted up and has been held silo 120, and a plurality of pay-off passageways 111 have been seted up to riser 110, and the one end of each pay-off passageway 111 with hold silo 120 intercommunication, the other end of each pay-off passageway 111 runs through the end of riser 110. That is, the feeding passage 111 penetrates the vertical plate 110, and one end of the feeding passage 111 communicates with the material accommodating groove 120. The feeding assembly 200 comprises an inclined pressing block cover plate 210, an inclined pressing block 220 and a feeding sliding block 230, wherein a through groove 211 is formed in the inclined pressing block cover plate 210, the vertical plate 110 penetrates through the through groove 211 and is in sliding connection with the inclined pressing block cover plate 210, the inclined pressing block cover plate 210 is abutted with the inclined pressing block 220, a first inclined plane 221 is formed at the tail end of the inclined pressing block 220, the feeding sliding block 230 is provided with a second inclined plane 231, the first inclined plane 221 corresponds to the second inclined plane 231, the first inclined plane 221 is abutted with the second inclined plane 231, the feeding sliding block 230 is elastically connected with the vertical plate 110, the feeding sliding block 230 is provided with a plurality of material receiving holes 232, each material receiving hole 232 corresponds to one feeding channel 111, the material receiving holes 232 are communicated with the feeding channels 111, and the opening edges of the material receiving holes 232. The base 300 is connected to the base 100, and the base 300 is provided with a plurality of discharge holes 310. The material containing groove 120 is used for containing PIN needles to be placed, the feeding channel 111 provides a channel for the movement of the PIN needles to be placed, the material receiving holes 232 are used for receiving the PIN needles to be placed which fall from the feeding channel 111, the inclined pressing block 220 pushes the feeding sliding block 230 under the driving of the inclined pressing block cover plate 210, one end, far away from the feeding channel 111, of each material receiving hole 232 is correspondingly communicated with a discharging hole 310, and the discharging holes 310 are used for being communicated with an external mold. That is to say, connect material hole 232 and discharge opening 310 to be dislocation state in advance, both do not communicate, and behind the briquetting 220 promotion pay-off slider 230 for connect material hole 232 and discharge opening 310 to be vertical connected state, at this moment, utilize the action of gravity, wait to put PIN needle and drop naturally in discharge opening 310.

Above-mentioned tool 10 is put to PIN needle class product, treat to put the PIN needle and fall into in connecing material hole 232 via pay-off passageway 111 by holding silo 120, through pressing sloping block apron 210, make sloping block 220 compress tightly pay-off slider 230 and promote pay-off slider 230 to move, so pay-off slider 230 will drive its treat to put PIN needle and move in connecing material hole 232, until connecing material hole 232 to aim at discharge opening 310, treat to put the PIN needle and will unload from discharge opening 310 and fall to outside mould, realize putting of PIN needle on the mould promptly, this tool can once only put many pieces of PIN needles, the efficiency of putting of PIN needle has been improved greatly. In addition, the discharge opening 310 of this tool is direct to be communicated with outside mould, and the PIN needle directly unloads through discharge opening 310 in the corresponding hole site of outside mould, and the PIN needle is difficult for deviating from in the hole site of mould, and it is put the effect better.

The working principle of the jig for placing the PIN needle products is as follows: to wait to put the PIN needle and place in holding silo 120, rock the tool gently, make and wait to put the PIN needle and remove in holding silo 120 to in waiting to put the PIN needle and slide into pay-off passageway 111. The PIN to be placed slides into the feeding channel 111 and then continues to move until the PIN to be placed slides into the base 300, in this case, a single PIN to be placed completely enters the material receiving hole 232, and the edge of the feeding channel 111 releases the resistance to the movement of the PIN to be placed. At this time, the inclined pressing block cover plate 210 is pressed to enable the inclined pressing block cover plate 210 to push the inclined pressing block 220 to gradually approach the base 300, in the process, the first inclined surface 221 abuts against the second inclined surface 231, the inclined pressing block 220 generates a thrust force on the feeding slider 230, the thrust force pushes the feeding slider 230 along a component force in the horizontal direction, and the feeding slider 230 gradually moves towards the side edge of the base 300, so that the feeding slider 230 gradually approaches the discharge hole 310 on the base 300, that is, the feeding slider 230 drives the PIN to be placed accommodated in the material receiving hole 232 to gradually approach the discharge hole 310 of the base 300 until the material receiving hole 232 is communicated with the discharge hole 310, and thus the PIN to be placed falls into the discharge hole 310 under the action of gravity and falls into an external mold through the discharge hole 310, and placement of the PIN is achieved. Because the feeding slider 230 is elastically connected with the vertical plate 110, when the inclined pressing block 220 pushes the feeding slider 230 to move, the feeding slider 230 gradually approaches the vertical plate 110, the elastic potential energy between the feeding slider 230 and the vertical plate 110 gradually increases, and after the inclined pressing block cover plate 210 is loosened, the external force applied to the inclined pressing block 220 and the feeding slider 230 is released, so that the elastic potential energy between the feeding slider 230 and the vertical plate 110 is released and converted into the kinetic energy of the feeding slider 230, that is, the feeding slider 230 is reset and rebounded, in the process, the second inclined surface 231 abuts against the first inclined surface 221, and the feeding slider 230 pushes the inclined pressing block 220 and the inclined pressing block cover plate 210 to gradually keep away from the bottom plate, thereby resetting of the inclined pressing block 220 and the.

The base 100 is used for installing the inclined pressing block cover plate 210 and the inclined pressing block 220 and guiding the movement of the inclined pressing block and the inclined pressing block 220, so that the problem that the material receiving hole 232 and the discharging hole 310 are difficult to align due to the fact that the inclined pressing block 220 generates deviation is prevented, and the PIN needle to be placed is conveniently and smoothly discharged to an external mold through the discharging hole 310. In addition, frame 100 still is used for providing the passageway for waiting to put the transportation of PIN needle to treating to put PIN needle and carry out the pre-arrangement, so that every PIN needle of waiting to put falls into through discharge opening 310 and falls into corresponding hole site on the mould in, thereby realize waiting to put the orderly arrangement of PIN needle on the mould. Referring to fig. 1 and fig. 5, in an embodiment, two vertical plates 110 are disposed on the base 100, each vertical plate 110 is respectively provided with a plurality of feeding channels 111, and each feeding channel 111 is respectively communicated with the material accommodating slot 120. Through setting up two blocks of risers 110, the quantity of the PIN needle that the tool single can be transported and put on the mould increases to the work efficiency of tool has been improved. In the actual production process, the number and the shape of the vertical plates 110 on the machine base 100 can be changed according to the number and the distribution condition of the hole sites on the die so as to adapt to the die structure, thereby realizing the placing operation of the PIN needles.

In one embodiment, the PIN product placement jig includes a vibration plate (not shown) and a base 100 connected to the vibration plate. The vibration dish produces the vibration after switching on the electric current to will drive frame 100 synchronous oscillation, so, the PIN needle of waiting to put that places in holding silo 120 will produce the shake under the drive of frame 100, so as to do benefit to and wait to put the PIN needle and slide into the pay-off passageway 111 and transport. Through setting up the vibration dish for wait to put the speed that the PIN needle got into pay-off passageway 111, its operation mode that has replaced the manual work and has rocked the tool has improved the pan feeding efficiency of waiting to put the PIN needle greatly.

The feeding assembly 200 is used for transporting to-be-placed PIN needles, particularly, the feeding sliding block 230 receives to-be-placed PIN needles falling from the feeding channel 111 and moves under the action of the inclined pressing block 220, so that the feeding sliding block drives to-be-placed PIN needles to gradually approach the discharge hole 310 until to-be-placed PIN needles fall into the discharge hole 310, and the transportation of to-be-placed PIN needles and the placing installation of the to-be-placed PIN needles on the mold are achieved. The inclined pressing block cover plate 210 is used for pushing the inclined pressing block 220 to move under the action of external force, so that the inclined pressing block 220 further pushes the feeding sliding block 230 to slide on the base 300, and therefore the position of the PIN needle to be placed is transferred. In an embodiment, the cross-sectional area of the slanted pressing block cover plate 210 is larger than the maximum cross-sectional area of the base 100, that is, the slanted pressing block 220 is longer than the base 100 or the slanted pressing block 220 is wider than the base 100, so that an operator can hold the slanted pressing block cover plate 210 and press the slanted pressing block cover plate 210, thereby reducing the difficulty of PIN transportation and placement.

In one embodiment, the distance between the material receiving hole 232 and the material discharging hole 310 is smaller than the distance between the end of the bias block 220 and the base 300. Through making the distance between material receiving hole 232 and the discharge hole 310 be less than the terminal distance to base 300 of briquetting 220 to one side, can ensure that material receiving hole 232 can move to the position of discharge hole 310 all the time to in order to treat and put PIN needle and transport. When the inclined pressing block 220 pushes the feeding sliding block 230 to move, before the tail end of the inclined pressing block 220 is abutted to the base 300, the material receiving hole 232 firstly reaches the position of the discharge hole 310 and is communicated with the discharge hole 310, and a PIN to be placed falls into a corresponding hole position of the mold through the discharge hole 310, so that the PIN is placed.

Referring to fig. 6, in an embodiment, the feeding assembly 200 further includes a slider plate 240, the slider plate 240 is disposed between the vertical plate 110 and the feeding slider 230, the slider plate 240 is elastically connected to the inclined pressing block 220, the slider plate 240 is provided with a plurality of material guiding holes 241, one end of each material guiding hole 241 is far away from the material accommodating groove 120 and is correspondingly communicated with the feeding channel 111, and the other end of each material guiding hole 241 is correspondingly communicated with a material receiving hole 232. Through setting up slider plate 240, can reduce the length of riser 110, prevent that riser 110 overlength from appearing, the stability of riser 110 descends, and riser 110 pushes damaged problem down in the extrusion of pay-off slider 230 to improve the stability of tool, guarantee that the PIN needle is transported and put the effective of operation and go on. In one embodiment, the feeding assembly 200 includes an elastic member 250, one end of the elastic member 250 is connected to the ramp block 220, and the other end of the elastic member 250 abuts against the slider plate 240, and preferably, the elastic member 250 is a spring. The elastic member 250 is used for resetting the feeding sliding block 230 so as to facilitate the next PIN transferring and placing operation. When the inclined pressing block 220 pushes the feeding slider 230 to move, the feeding slider 230 gradually approaches the slider plate 240, the elastic member 250 is compressed, and the elastic potential energy thereof gradually increases. After the cover plate 210 of the inclined pressing block is loosened, the external force applied to the inclined pressing block 220 and the feeding slide block 230 is released, so that the elastic potential energy of the elastic member 250 is released and converted into the kinetic energy of the feeding slide block 230, in other words, the feeding slide block 230 is driven by the elastic member 250 to return and rebound, in the process, the second inclined plane 231 abuts against the first inclined plane 221, and the feeding slide block 230 pushes the inclined pressing block 220 and the cover plate 210 of the inclined pressing block to gradually move away from the bottom plate, thereby realizing the return of the inclined pressing block 220 and the cover plate 210 of the inclined pressing block.

Referring to fig. 1, fig. 3 and fig. 6, in an embodiment, the feeding assembly 200 further includes a plurality of rotating pins 260, the rotating pins 260 face the slider plate 240 and are connected to the bias block cover plate 210, the slider plate 240 is provided with a plurality of needle holes 242, each needle hole 242 is correspondingly communicated with a discharging hole 310, and each rotating pin 260 is driven by the bias block cover plate 210 to sequentially penetrate through a needle hole 242 and a receiving hole 232. By arranging the rotating needle 260 and forming the needle hole 242 on the slider plate 240, in the process of pressing down the inclined pressing block cover plate 210, the inclined pressing block cover plate 210 drives the rotating needle 260 to gradually approach the base 300, and the rotating needle 260 penetrates through the needle hole 242. When the material receiving hole 232 on the feeding sliding block 230 is communicated with the needle hole 242, the rotating needle 260 is synchronously inserted into the material receiving hole 232 and pushes the PIN needle to be placed in the material receiving hole 232 to slide into the discharging hole 310, so that the PIN needle is rapidly discharged into the hole of the mold, and the transportation and placement operation of the PIN needle is realized.

In order to facilitate the replacement of the rotating pin 260 and reduce the use cost of the jig, in an embodiment, the inclined pressing block cover plate 210 is provided with an insertion hole 212, and the rotating pin 260 penetrates through the insertion hole 212 and is connected with the inclined pressing block cover plate 210. Therefore, when the rotating needle 260 is damaged and fails, the rotating needle 260 can be pulled out from the insertion hole 212 to be replaced without replacing the whole inclined pressing block cover plate 210, and the maintenance difficulty and the use cost of the jig are reduced. In an embodiment, the feeding assembly 200 further includes a PIN pressing block 270, the PIN pressing block 270 is located between the base 100 and the slant block cover plate 210 and connected to the slant block cover plate 210, so that the PIN pressing block 270 presses the rotating PINs 260 to prevent the rotating PINs 260 from falling off from the insertion holes 212, that is, the rotating PINs 260 are limited in the insertion holes 212 by the constraint of the PIN pressing block 270 on the rotating PINs 260, so as to improve the stability of the connection between the rotating PINs 260 and the slant block cover plate 210, thereby ensuring that the rotating PINs 260 can always push the PINs in the material receiving holes 232, and facilitating the PIN placing operation.

The base 300 is used for supporting the base 100 and the feeding assembly 200, and the base 300 is also used for limiting the inclined pressing block cover plate 210, the inclined pressing block 220 and the feeding sliding block 230 together with the base 100, so that the inclined pressing block cover plate 210 is always in sliding connection with the base 100, and the feeding sliding block 230 is always abutted to the base 300. Referring to fig. 7 and 8, in one embodiment, the base 300 is provided with an air vent 320. Through seting up exhaust hole 320 on base 300, when the briquetting apron 210 promoted the motion of briquetting 220, the air between briquetting apron 210 and base 300 can be discharged through exhaust hole 320 fast, that is to say, the atmospheric pressure between briquetting apron 210 and the base 300 reduces to do benefit to briquetting apron 210 and continue to promote the briquetting 220 and be close to base 300, and then make the briquetting 220 promote pay-off slider 230, thereby realize the transportation of PIN needle.

In order to keep the first inclined surface 221 and the second inclined surface 231 abutted to each other, so as to facilitate the miter block 220 to push the feeding slider 230 to slide, in an embodiment, a protruding strip 233 is disposed on a side of the feeding slider 230 away from the miter block 220, the protruding strip 233 is provided with a material receiving hole 232, the base 300 is provided with a limiting groove 330, and the protruding strip 233 is clamped in the limiting groove 330. Preferably, the position-limiting groove 330 has a first position-limiting surface 331 and a second position-limiting surface 332, and the first position-limiting surface 331 and the second position-limiting surface 332 are disposed in parallel. Through setting up the sand grip 233 on the pay-off slider 230 respectively, set up spacing groove 330 on base 300, arrange the sand grip 233 card in spacing groove 330 and realize spacing to pay-off slider 230, so, when the briquetting 220 compresses tightly pay-off slider 230, sand grip 233 will with the first spacing face 331 looks butt of spacing groove 330 to prevent that pay-off slider 230 from continuing to the side edge removal of base 300, reduce the shearing force of material receiving hole 232 inner wall to the bull stick 260, thereby prolong the life of bull stick 260 and guarantee that the PIN needle falls into in the discharge opening 310 smoothly. After the inclined pressing block cover plate 210 is loosened, the feeding sliding plate is reset under the driving of the elastic member 250, when the feeding sliding block 230 moves to the second limiting surface 332, the feeding sliding block 230 abuts against the second limiting surface 332, so that the feeding sliding block 230 is limited in the limiting groove 330 under the constraint of the second limiting surface 332, and the problem that the abutting between the first inclined surface 221 and the second inclined surface 231 is broken due to the fact that the feeding sliding block 230 moves excessively towards the edge of the other side of the base 300, the side of the feeding sliding block 230, which is back to the base 300, abuts against the inclined pressing block 220 is solved. In other words, the feeding slide block 230 is limited by the limiting groove 330, and the abutting of the first inclined surface 221 and the second inclined surface 231 can be maintained, so that the pressure of the inclined pressing block 220 on the feeding slide block 230 can be always decomposed into a vertical component perpendicular to the connecting surface of the feeding slide block 230 and the base 300 and a horizontal component parallel to the connecting surface of the feeding slide block 230 and the base 300, and the horizontal component is used for pushing the feeding slide block 230 to move, thereby realizing the transportation of the PIN.

Referring to fig. 1 and 8, in an embodiment, the PIN product placing jig further includes a cover plate 400, and the cover plate 400 is connected to the base 100 in a manner of being back to the inclined pressing block cover plate 210. In the operation in-process is put in the transportation of PIN needle, need rock the tool or make the tool be connected so that PIN needle gets into pay-off passageway 111 with the vibration dish, like this, PIN needle easily falls from the material tank 120 internal splash down under the exogenic shock, and PIN needle is easily contaminated and be unfavorable for picking up to influence going on of operation is put to PIN needle. Through the arrangement of the cover plate 400, the PIN needle is limited in the accommodating groove 120 under the constraint of the cover plate 400, and can only leave the accommodating groove 120 from the feeding channel 111 under the vibration of external force, namely, the motion path of the PIN needle is constrained, so that the PIN needle placing operation is controlled.

In an embodiment, the cover plate 400 is provided with a first guiding hole 410, the base 100 is provided with a second guiding hole 130, the bias block cover plate 210 is provided with a third guiding hole 213, the base 300 is provided with a fourth guiding hole 340, the first guiding hole 410, the second guiding hole 130, the third guiding hole 213 and the fourth guiding hole 340 are sequentially communicated to form a guiding channel, the PIN product placing jig further includes a guiding post 500, the guiding post 500 penetrates through the guiding channel, one end of the guiding post 500 is connected with the cover plate 400, and the other end of the guiding post 500 is connected with the base 300. Through setting up guide post 500, and make guide post 500 wear to establish first guiding hole 410 in proper order, second guiding hole 130, third guiding hole 213 and fourth guiding hole 340, the apron 400 has been realized, frame 100, the connection of oblique briquetting apron 210 and base 300, oblique briquetting apron 210 is all the time along the extending direction of direction passageway, namely the direction that sets up of guide post 500 removes, oblique briquetting apron 210 is difficult for rocking under the restraint of guide post 500, thereby ensured that first inclined plane 221 and second inclined plane 231 remain the butt throughout, in order to do benefit to the PIN needle and transport and put going on of operation.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. A tool for placing PIN needle products is characterized by comprising a machine base, a feeding component and a base,

the machine base is provided with a vertical plate and a material containing groove, the vertical plate is provided with a plurality of feeding channels, one end of each feeding channel is communicated with the material containing groove, and the other end of each feeding channel penetrates through the tail end of the vertical plate;

the feeding assembly comprises an inclined pressing block cover plate, an inclined pressing block and a feeding sliding block, a through groove is formed in the inclined pressing block cover plate, the vertical plate penetrates through the through groove and is connected with the inclined pressing block cover plate in a sliding manner, the inclined pressing block cover plate is back to the machine base and is abutted against the inclined pressing block, the tail end of the inclined pressing block is provided with a first inclined surface, one end of the feeding sliding block, which is adjacent to the inclined pressing block, is provided with a second inclined surface, the first inclined surface corresponds to the second inclined surface, the first inclined plane is abutted against the second inclined plane, one end of the feeding slide block, which is far away from the inclined pressing block, is elastically connected with the vertical plate, the feeding slide block is provided with a plurality of material receiving holes, each material receiving hole corresponds to one feeding channel, one end of the material receiving hole is far away from the material containing groove and is communicated with the feeding channel, and the edge of the other end of the material receiving hole is abutted to the base;

the base is connected with the machine base, and a plurality of discharging holes are formed in the base;

the material accommodating groove is used for accommodating PIN needles to be placed, the feeding channel provides a channel for the movement of the PIN needles to be placed, the material receiving holes are used for receiving the PIN needles to be placed which fall from the feeding channel, the inclined pressing block pushes the feeding sliding block under the driving of the inclined pressing block cover plate, one end, far away from the feeding channel, of each material receiving hole is correspondingly communicated with one discharging hole, and the discharging holes are used for being communicated with an external mold.

2. The tool is put to PIN needle class product of claim 1, characterized by, the distance between material receiving hole and the discharge hole is less than the distance between the end of the sloping block and the base.

3. The tool for placing PIN products according to claim 1, wherein the feeding assembly further comprises a slider plate, the slider plate is disposed between the vertical plate and the feeding slider, the slider plate is elastically connected to the inclined pressing block, the slider plate is provided with a plurality of material guiding holes, one end of each material guiding hole is far away from the material accommodating groove and correspondingly communicated with one feeding channel, and the other end of each material guiding hole is correspondingly communicated with one material receiving hole.

4. The tool is put to PIN needle class product of claim 3, characterized in that, the pay-off subassembly includes the elastic component, the one end of elastic component is connected with the sloping block, the other end of elastic component and the slider board butt joint.

5. The tool for placing PIN products according to claim 3, wherein the feeding assembly further comprises a plurality of rotating PINs facing the slider plate and connected to the inclined pressing block cover plate, the slider plate is provided with a plurality of needle holes, each needle hole is correspondingly communicated with one of the discharging holes, and each rotating PIN is driven by the inclined pressing block cover plate to sequentially penetrate one needle hole and one of the receiving holes.

6. The tool is put to PIN needle class product of claim 5, characterized in that, the sloping block apron has seted up the jack, the commentaries on classics needle wears to establish the jack and is connected with the sloping block apron.

7. The tool is put to PIN needle class product of claim 1, characterized in that, the tool still includes the apron, the apron is connected with the frame dorsad the briquetting apron.

8. The tool is placed to PIN products of claim 7, wherein the cover plate has a first guiding hole, the base has a second guiding hole, the bias block cover plate has a third guiding hole, the base has a fourth guiding hole, the first guiding hole, the second guiding hole, the third guiding hole and the fourth guiding hole are sequentially communicated to form a guiding channel, the tool further comprises a guiding post, the guiding post penetrates through the guiding channel, one end of the guiding post is connected to the cover plate, and the other end of the guiding post is connected to the base.

9. The tool is put to PIN needle class product of claim 1, characterized in that, exhaust hole has been seted up on the base.

10. The tool is put to PIN needle class product of claim 1, characterized in that, the side of the pay-off slider that is far away from the sloping block is provided with a convex strip, the convex strip is provided with a material receiving hole, the base is provided with a limit groove, the convex strip is blocked and arranged in the limit groove.