CN210306924U

CN210306924U - Automatic processing bin for processing pliers

Info

Publication number: CN210306924U
Application number: CN201920909037.4U
Authority: CN
Inventors: 王再德; 王荣; 王恒
Original assignee: Hunan Jingzhuan Automation Technology Co ltd
Current assignee: Hunan Jingzhuan Automation Technology Co ltd
Priority date: 2019-06-17
Filing date: 2019-06-17
Publication date: 2020-04-14
Anticipated expiration: 2029-06-17

Abstract

The utility model belongs to the technical field of hardware and tools makes, concretely relates to automatic processing storehouse for pincers body processing, including the storehouse body, be equipped with storehouse apart from the regulating plate on a pair of parallel edge inner wall in the storehouse body respectively, the internal portion in storehouse is equipped with the transportation track. The transport track bottom is equipped with the push pedal track, parallel connection push pedal and connecting plate on the push pedal track, and actuating mechanism is connected to push pedal one end, and the push pedal other end articulates the connecting rod, and the connecting rod other end articulates the connecting plate. The driving mechanism drives the push plate to do reciprocating lifting motion, and one end of the connecting rod does reciprocating lifting motion along with the movement of the push plate. The push plate is hinged with a sliding block, the push plate track is hinged with a limiting block, and the limiting block moves along with the sliding block to do reciprocating lifting motion. The utility model discloses a mechanical linkage between the device realizes blanking, pay-off, is fixed a position in an organic whole, simple structure, low cost, through setting up the storehouse apart from the regulating plate, applicable multiple specification pincers body processing, the range of application is wide, is fit for popularizing and applying.

Description

Automatic processing bin for processing pliers

Technical Field

The utility model belongs to the technical field of hardware and tools makes, especially, relate to an automatic processing storehouse for pincers body processing.

Background

Pliers are widely used hardware tools and can be used for cutting wires, iron wires, sheet iron and the like. As shown in fig. 6, the forceps is composed of two forceps bodies 10 which are symmetrical with each other at the left and right centers, and each forceps body 10 comprises a forceps head 13 and a forceps handle 14; and the head 13 at the top of the pliers is the main working unit of the pliers. On the tong head 13, an outer cutting edge 18, an inner cutting edge 17 and a square opening 16 for shearing, and a grinding disc 15 for assembling are provided, respectively.

In the existing pliers processing technology, the four elements of the pliers head are respectively completed by two procedures and divided into eight processing stations, the left pliers body and the right pliers body are respectively clamped for four times and four processing stations, and through manual clamping, the production efficiency is low, and the labor intensity is high.

For mature hardware tools, the price is low, how to improve the processing technology, improve the product quality and reduce the processing cost are important targets of all processing manufacturers, and how to realize efficient and accurate positioning and feeding in the processing is a necessary guarantee for efficient production. In current pliers course of working, the blank shaping back is mixed mostly and is piled together, does not have according to order in bank stack, and the material waste time is looked for in the processing, and the processing position needs the manual work to be sent to the pincers body, and the left side pincers body is inconsistent with the right side pincers body pay-off, and extravagant process time, in the course of working, needs manual work piece location one by one, and production efficiency is low.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problem of providing a processing bin; especially simple structure, blanking rule, order are put, autoloading, and accurate location collects multiple functions in an automatic processing storehouse for pincers body processing of an organic whole.

In order to solve the technical problem, the utility model discloses a technical scheme be: an automatic processing bin for processing a pincer body comprises a bin body, wherein the bin body is a square body, bin distance adjusting plates are respectively arranged on the inner walls of a pair of parallel edges of the bin body, a conveying track is arranged inside the bin body and is parallel to the bin distance adjusting plates, the end part of the conveying track is connected with a blanking device, a push plate track is arranged at the bottom of the conveying track and is parallel to the conveying track, a push plate is connected onto the push plate track, one end of the push plate is connected with a driving mechanism, the other end of the push plate is hinged with a connecting rod, the other end of the connecting rod is hinged with a connecting plate, the connecting plate is parallel to the push plate, the driving mechanism drives the push plate to do reciprocating lifting motion, one end of the connecting rod does reciprocating lifting motion along with the movement of the push plate, a, the limit bracket is arranged between the push plate and the connecting plate, the limit bracket is hinged with a limit block, the limit block moves in a reciprocating lifting motion along with the movement of the slide block, the drive mechanism enables the push plate to have two static states,

in a first state, the push plate is in a descending position, two ends of the connecting rod are flush and high, the sliding block is not in contact with the limiting block, the limiting block is in the descending position, and the clamp body is not positioned;

and in the second state, the push plate is in a lifting position, one end of the connecting rod is higher than the other end of the connecting rod, the sliding block is in contact with the limiting block, and the limiting block is in the lifting position to realize the positioning of the clamp body.

Furthermore, the push plate track comprises two guide rails arranged in parallel, a lower groove is formed in the bottom of the push plate, the lower groove is embedded in the upper surface of the guide rails, the push plate slides along the guide rails, an upper groove is formed in the top of the push plate, and the upper groove is embedded in the transportation track.

Furthermore, the connecting plates comprise a first connecting plate and a second connecting plate, and the first connecting plate and the second connecting plate are respectively arranged at the end parts of the two guide rails.

Further, the connecting rod includes head rod, second connecting rod, third connecting rod and fourth connecting rod, the head rod with the second connecting rod is arranged in respectively push pedal bottom both corners department, the third connecting rod with the fourth connecting rod is arranged in respectively push pedal top both corners department, the head rod is connected first connecting plate bottom, the fourth connecting rod is connected the first connecting plate top, the push pedal the head rod the fourth connecting rod with the first connecting plate constitutes first quadrangle, the second connecting rod is connected second connecting plate bottom, the third connecting rod is connected second connecting plate top, the push pedal the second connecting rod the third connecting rod with the second connecting plate constitutes the second quadrangle.

Further, the limiting block is a right-angle triangular prism, the limiting block sequentially comprises a first surface, a second surface and a third surface, the first surface is perpendicular to the third surface, a fastening device is arranged on the third surface, a limiting groove is arranged at the joint of the second surface and the third surface, the limiting groove is externally embedded on the transportation track, the limiting block has two static states,

in the first state, the limiting block is static under the action of self gravity;

and in the second state, the limiting block is in contact with the sliding block, the first surface is horizontally static above the sliding block, the third surface is vertically static, and the fastening device is in contact with the clamp body to realize the machining and positioning of the clamp body.

Furthermore, the transportation track comprises a group of sliding rods arranged in parallel, and two ends of each sliding rod are respectively provided with a supporting rod.

Furthermore, the number of the sliding rods is three, and the three sliding rods are arranged side by side at intervals.

Further, the blanking device comprises a material pushing plate, the material pushing plate is arranged above the transportation track in parallel, the material pushing plate is movably connected with the bin body, the material pushing plate is connected with the driving mechanism, and the movement direction of the material pushing plate is parallel to the direction of the transportation track.

Furthermore, the front end of the material pushing plate is provided with an arc edge, and the arc edge is matched with the outer arc of the clamp body.

Furthermore, the bin distance adjusting plate is connected with the inner wall of the bin body through a connecting device, the bin distance adjusting plate is parallel to the conveying track, and the bin distance adjusting plate is respectively fixed at two ends of the clamp body.

The utility model has the advantages and positive effects that:

1. after the blanking device is used for blanking, the pliers body falls onto the sliding rod under the action of self gravity, the push plate slides and rises towards the connecting plate direction under the action of the driving mechanism, the push plate drives the connecting rod hinged with the push plate to rise, and the pliers body moves towards the connecting plate direction under the action of self gravity to realize automatic feeding; the gliding while of push pedal drives rather than the articulated slider motion, and the slider drives the stopper and rotates, realizes the location of the pincers body, convenient follow-up processing, the utility model discloses a mechanical linkage between the device realizes blanking, pay-off, fixes a position in an organic whole, simple structure, low cost, and is multiple functional, easily popularizes and applies.

2. The utility model discloses a location at pincers body both ends is realized to the contact of storehouse apart from regulating plate and binding clip and pincers handle, through connecting device, and the distance between two adjustable storehouses apart from the regulating plate adapts to the processing of the multiple specification pincers body, and the range of application is wide, and the practicality is strong.

3. The utility model discloses a set up fastener on the stopper, can realize the fastening location to the pincers body mill, through fastener and the cooperation of storehouse apart from the regulating plate, realize the three point location to the pincers body, simple structure, the location is stable, and fixes a position effectually, provides the basis for follow-up stable processing, and the practicality is strong.

4. The utility model discloses the interval is provided with three slide bars side by side, and through the interval of three slide bars of adjustment, can make the pincers body fall behind down, treat the processing face up, convenient follow-up pay-off processing avoids adjusting pay-off position, labour saving and time saving once more.

5. The utility model discloses a set up two sets of quadrangles, can realize binding clip pay-off and pincers handle pay-off, can make the pay-off process more stable, avoid the slope of the in-process pincers handle of pay-off, through setting up binding clip location and pincers handle location, can make the location more stable, avoid the pincers handle to rock, be favorable to improving the machining precision, improve production efficiency, the practicality is strong.

6. The utility model discloses an in this processing, because the processing structure and the position of the left side pincers body, the right side pincers body are unanimous (the central hole site and the rivet step position of processing pincers head, the mill hole site), therefore the left side pincers body, the right side pincers body can not do the differentiation and process, have saved manpower and materials, avoid the trouble of artifical letter sorting.

Drawings

Fig. 1 is a schematic view of the overall structure of the embodiment of the present invention.

Fig. 2 is an overall sectional structure diagram of the embodiment of the present invention.

Fig. 3 is a first operation state diagram of the embodiment of the present invention.

Fig. 4 is a second operation state diagram of the embodiment of the present invention.

Fig. 5 is a schematic structural view of a transportation rail according to an embodiment of the present invention.

Fig. 6 is an exploded view of the clamp body to be machined according to the embodiment of the present invention.

Fig. 7 is a schematic view of the gravity self-returning sequencing action of the left clamp body on the conveying track in fig. 6.

Fig. 8 is a schematic view of the gravity self-returning sequencing action of the right caliper body on the conveying track in fig. 6.

Fig. 9 is a top view of the overall structure of the embodiment of the present invention.

Fig. 10 and 11 are detailed views of the local structure of the embodiment of the present invention.

The reference numbers illustrate:

1. storehouse body 2, doffer 3, storehouse apart from regulating plate

4. Transport track 5, push plate track 6 and sliding block

7. Push plate 8, driving mechanism 9 and connecting rod

10. Forceps body 11, support rod 12 and sliding rod

13. Binding clip 14, binding clip handle 15, mill

16. Square mouth 17, inner cutting edge 18, outer cutting edge

19. Ejector plate 20, connecting plate 21 and slider groove

22. Limiting support 23, limiting block 24 and telescopic cylinder

25. Rotating pin 26, connecting lug 27 and support frame

28. Connecting device 29, guide rail 30 and lower groove

31. An upper groove 32, a first connecting rod 33 and a second connecting rod

34. Third connecting rod 35, fourth connecting rod 36, first connecting plate

37. Second connecting plate 38, pincers handle material feeding unit 39, binding clip material feeding unit

40. First surface 41, second surface 42, and third surface

43. Fastening device 44, spacing recess.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The following specifically explains the automatic processing storehouse for pincers body processing with reference to the attached drawings.

As shown in figure 1, the automatic processing bin for processing the pincer body comprises a bin body 1, wherein the bin body 1 is a square body. A pair of parallel edge inner walls of the bin body 1 are respectively provided with a bin distance adjusting plate 3, the bin body 1 is internally provided with a transportation track 4, the transportation track 4 is parallel to the bin distance adjusting plate 3, and the end part of the transportation track 4 is connected with a blanking device 2.

As shown in fig. 2, the bottom of the transportation rail 4 is provided with a push plate rail 5, and the push plate rail 5 is parallel to the transportation rail 4. The push plate 7 is connected on the push plate track 5, one end of the push plate 7 is connected with the driving mechanism 8, the other end of the push plate 7 is hinged with the connecting rod 9, the other end of the connecting rod 9 is hinged with the connecting plate 20, and the connecting plate 20 is arranged in parallel with the push plate 7. The driving mechanism 8 drives the push plate 7 to do reciprocating lifting motion, and one end of the connecting rod 9 does reciprocating lifting motion along with the movement of the push plate 7. The push plate 7 is hinged with the sliding block 6, the push plate track 5 is provided with a limiting support 22, the limiting support 22 is arranged between the push plate 7 and the connecting plate 20, the limiting support 22 is hinged with a limiting block 23, and the limiting block 23 moves along with the sliding block 6 to do reciprocating lifting motion. The driving mechanism 8 makes the push plate 7 have two rest states.

As shown in fig. 3, in the first state, the push plate 7 is in a descending position, the two ends of the connecting rod 9 are flush, the sliding block 6 is not in contact with the limiting block 23, the limiting block 23 is in the descending position, and the forceps body 10 is not positioned.

As shown in fig. 4, in the second state, the push plate 7 is in the lifting position, one end of the connecting rod 9 is higher than the other end of the connecting rod 9, the sliding block 6 is in contact with the limiting block 23, and the limiting block 23 is in the lifting position, so that the positioning of the clamp body 10 is realized.

The driving mechanism 8 is a mechanism for realizing the reciprocating lifting motion of the push plate 7, the driving mechanism 8 can be in various structures, and a telescopic cylinder 24 is preferably hinged with a rotating pin 25 in the embodiment. The push plate 7 is provided with a connecting lug 26, the connecting lug 26 is hinged with one end of a rotating pin 25, the other end of the rotating pin 25 is hinged with a telescopic cylinder 24, and the vertical height of the connecting lug 26 is higher than that of the telescopic cylinder 24. When the telescopic cylinder 24 is stretched, the rotating pin 25 drives the push plate 7 to move upwards while moving towards the connecting plate 20, as shown in fig. 3. When the telescopic cylinder 24 contracts, the rotating pin 25 drives the push plate 7 to move downwards while moving towards the telescopic cylinder 24, as shown in fig. 4.

As shown in fig. 5, the transportation rail 4 includes a set of parallel sliding rods 12, two ends of the sliding rods 12 are respectively provided with a supporting rod 11, the supporting rods 11 are connected with the bottom of the bin body 1 through supporting frames 27, the number of the sliding rods 12 is three, and the three sliding rods 12 are arranged side by side at intervals.

Fig. 7 is a schematic view of the adjustment of the feeding motion of the left caliper body on the conveying track 4 in fig. 6. Fig. 8 is a schematic view of the adjustment of the feeding motion of the right caliper body on the conveying track 4 in fig. 6. In fig. 7, when the pincer body 10, whether in d1 or d2 form, moves onto the sliding rod 12 of the transportation rail 4, under the gravity action of the gravity center concentration at the grinding disc 15 of the pincer head 13, the pincer body will turn over as in fig. 7, and form a uniform arrangement form, that is, the purpose of automatic sorting after blanking in the embodiment is achieved, so that the labor is saved, and the operation is efficient and convenient.

In fig. 8, when the pincer body 10, whether in d3 or d4 form, moves onto the sliding rod 12 of the transportation rail 4, under the gravity action of the gravity center concentration at the grinding disc 15 of the pincer head 13, the pincer body will turn over as in fig. 8, and form a uniform arrangement form, that is, the purpose of automatic sorting after blanking in the embodiment is achieved, so that the labor is saved, and the operation is efficient and convenient.

This occurs when the caliper body 10 slides down from the blanking device 2 onto the transport rail 4. In this way, the sequencing and positioning of the clamp body 10 are conveniently realized.

As shown in fig. 9, the blanking device 2 includes a material pushing plate 19, and the material pushing plate 19 is disposed above the transportation rail 4 in parallel. The material pushing plate 19 is movably connected with the bin body 1, the material pushing plate 19 is connected with the driving mechanism 8, and the moving direction of the material pushing plate 19 is parallel to the direction of the transportation track 4.

Preferably, the front end of the material pushing plate 9 is provided with an arc edge, and the arc edge is matched with the outer arc of the clamp body 10, so that the contact area between the material pushing plate 19 and the clamp body 10 is increased, and stable material pushing is facilitated.

After the blanking device 2 is used for blanking, the pliers body 10 falls onto the sliding rod 12 under the action of self gravity, the push plate 7 slides and rises towards the connecting plate 20 under the action of the driving mechanism 8, the push plate 7 drives the connecting rod 9 at one end hinged with the push plate 7 to rise, and the pliers body 10 moves towards the connecting plate 20 under the action of self gravity, so that automatic feeding is realized; the push plate 7 slides and simultaneously drives the sliding block 6 hinged with the push plate to move, the sliding block 6 drives the limiting block 23 to rotate, the positioning of the clamp body 10 is realized, the subsequent processing is convenient, and the linkage mode can be realized in various modes.

In a specific embodiment, as shown in fig. 10 and 11, the push plate rail 5 includes two parallel guide rails 29, a lower groove 30 is provided at the bottom of the push plate 7, the lower groove 30 is externally embedded in the upper surface of the guide rails 29, the lower groove 30 limits the downward movement displacement of the push plate 7, and the push plate 7 slides along the guide rails 29. The top of the push plate 7 is provided with an upper groove 31, the upper groove 31 is externally embedded on the transportation track 4, and the upper groove 31 limits the upward movement displacement of the push plate 7.

The connecting rods 9 comprise a first connecting rod 32, a second connecting rod 33, a third connecting rod 34 and a fourth connecting rod 35, and the first connecting rod 32 and the second connecting rod 33 are respectively arranged at two corners of the bottom of the push plate 7. The third connecting rod 34 and the fourth connecting rod 35 are respectively arranged at two corners of the top of the push plate 7.

The connecting plate 20 comprises a first connecting plate 36 and a second connecting plate 37, the first connecting plate 36 and the second connecting plate 37 are respectively arranged at the ends of the two guide rails 29.

The first connecting rod 32 is connected with the bottom of the first connecting plate 36, the fourth connecting rod 35 is connected with the top of the first connecting plate 36, the push plate 7, the first connecting rod 32, the fourth connecting rod 35 and the first connecting plate 36 form a first quadrangle, and the first quadrangle forms the clamp handle feeding device 38.

The second connecting rod 33 is connected with the bottom of the second connecting plate 37, the third connecting rod 34 is connected with the top of the second connecting plate 37, the push plate 7, the second connecting rod 33, the third connecting rod 34 and the second connecting plate 37 form a second quadrangle, and the second quadrangle forms the tong head feeding device 39.

Through setting up binding clip material feeding unit 39 and pincers handle material feeding unit 38, can make the pay-off process more stable, avoid the slope of pay-off in-process pincers handle 14, through setting up binding clip location and pincers handle location, can make the location more stable, avoid pincers handle 14 to rock, be favorable to improving the machining precision, improve production efficiency, the practicality is strong.

The bottom of the push plate 7 is provided with a slide block groove 21, and the slide block 6 is arranged in the slide block groove 21 and hinged with the push plate 7.

The limiting block 23 is a right-angle triangular prism, the limiting block 23 sequentially comprises a first surface 40, a second surface 41 and a third surface 42, the first surface 40 is perpendicular to the third surface 42, the third surface 42 is provided with a fastening device 43 which can realize the fastening and the positioning of the grinding disc 15 of the caliper body 10, a limiting groove 44 is arranged at the joint of the second surface 41 and the third surface 42, the limiting groove 44 is externally embedded on the transportation track 4, the limiting block 23 has two static states,

as shown in fig. 3, in the first state, the limiting block 23 is stationary under the action of its own gravity;

as shown in fig. 4, in the second state, the limiting block 23 contacts with the slider 6, the first surface 40 horizontally stands above the slider 6, the third surface 42 vertically stands, and the fastening device 43 contacts with the forceps body 10, so as to realize the machining and positioning of the forceps body 10.

Preferably, the contact part of the third surface 42 and the forceps body 10 is provided with an arc surface matched with the radian of the forceps body 10, so that the contact area between the third surface 42 and the forceps body 10 is increased, the feeding is more stable, and the positioning is more accurate.

The bin spacing adjusting plate 3 is connected with the inner wall of the bin body 1 through a connecting device 28, the bin spacing adjusting plate 3 is parallel to the conveying track 4, and the bin spacing adjusting plate 3 respectively fixes two ends of the clamp body 10. The two ends of the pliers body 10 are positioned by the contact of the bin distance adjusting plates 3 with the pliers heads 13 and the pliers handles 14, the distance between the two bin distance adjusting plates 3 can be adjusted by the connecting device 28, the pliers body 10 is suitable for processing of pliers bodies 10 of various specifications, and the application range is wide. Through the cooperation of fastener 43 and storehouse apart from regulating plate 3, realize the three point location to the pincers body 10, simple structure, the location is stable, and location effect is good, provides the basis for follow-up stable processing.

The utility model discloses a theory of operation is:

the driving mechanism 8 drives the material pushing plate 19 to move, the material pushing plate 19 pushes the clamp body 10 into the sliding rod 12, and the clamp body 10 is arranged between the pushing plate 7 and the limiting bracket 22. The clamp body 10 realizes the automatic position adjustment in fig. 7 and 8 under the action of self gravity. See in particular: FIG. 7 is a schematic view of the left caliper body of FIG. 6 being gravity-fed back on the slide rod 12; fig. 8 is a schematic diagram of the gravity self-returning sequencing action of the right caliper body on the sliding rod 12 in fig. 6. The above description is of the single layer caliper body 10 being machined on the slide bar 12.

The clamp body 10 is arranged on the sliding rod 12, the telescopic cylinder 24 is stretched, the rotating pin 25 takes the connecting point of the rotating pin 25 and the connecting lug 26 as the center of a circle and takes the length of the rotating pin 25 as the radius to do circular arc motion, and at the moment, the push plate 7 moves upwards while moving in the opposite direction of the blanking device 2. The push plate 7 moves upwards with the connecting rod 9 and the hinged end thereof, the hinged end of the connecting rod 9 and the push plate 7 is higher than the hinged end of the connecting rod 9 and the connecting plate 20, and at the moment, the first quadrangle and the second quadrangle are in the shape of parallelogram as shown in fig. 4 and fig. 10. The third connecting rod 34 jacks up the clamp head 13 to separate the clamp head 13 from the sliding rod 12, the fourth connecting rod 35 jacks up the clamp handle 14 to separate the clamp handle 14 from the sliding rod 12, and the clamp body 10 moves in the opposite direction of the blanking device 2 under the action of self gravity until the clamp body 10 slides onto the sliding rod 12 to contact with the limiting block 23.

When the push plate 7 moves in the opposite direction of the blanking device 2, the push plate 7 drives the sliding block 6 to move in the opposite direction of the blanking device 2, the sliding block 6 is in contact with the limiting block 23, at the moment, the limiting block 23 rotates around a hinge point with the limiting support 22, when the first surface 41 is horizontally static above the sliding block 6 and the third surface 42 is vertically static, the movement is stopped, and at the moment, the fastening device 43 is in contact with the clamp body 10. One side of the pliers body 10 is fixed by an included angle between the connecting rod 9 and the sliding rod 12, the other side of the pliers body 10 is fixed by a third face 42, the pliers head 13 and the pliers handle 14 are respectively fixed by the bin distance adjusting plate 3, the grinding disc 15 is fixed by the fastening device 43, the pliers body 10 is positioned in all directions, and the machining is convenient.

The telescopic cylinder 24 contracts, and the driving mechanism 8 drives the push plate 7 to move downwards while moving towards the blanking device 2, and the first quadrangle and the second quadrangle are rectangular at the moment, which is opposite to the above moving state, as shown in fig. 3 and fig. 11. The automatic feeding device has the advantages of reciprocating, realizing the automation of blanking, feeding and positioning, along with simple structure, low cost, complete functions and easy popularization and application.

The utility model has the advantages and positive effects that:

The above only is the embodiment of the present invention, not limiting the patent scope of the present invention, all the equivalent structures or equivalent processes that are used in the specification and the attached drawings or directly or indirectly applied to other related technical fields are included in the patent protection scope of the present invention.

Claims

1. The utility model provides an automatic processing storehouse for pincers body processing, includes the storehouse body, its characterized in that: the bin body is a square body, bin distance adjusting plates are respectively arranged on the inner walls of a pair of parallel edges of the bin body, a conveying track is arranged in the bin body and is parallel to the bin distance adjusting plates, the end part of the conveying track is connected with a blanking device, a push plate track is arranged at the bottom of the conveying track and is parallel to the conveying track, a push plate is connected onto the push plate track, one end of the push plate is connected with a driving mechanism, the other end of the push plate is hinged with a connecting rod, the other end of the connecting rod is hinged with a connecting plate, the connecting plate is arranged in parallel to the push plate, the driving mechanism drives the push plate to do reciprocating lifting motion, one end of the connecting rod does reciprocating lifting motion along with the movement of the push plate, a slide block is arranged on the push plate, a limit, the limit bracket is hinged with a limit block, the limit block moves in a reciprocating lifting motion along with the movement of the slide block, the drive mechanism enables the push plate to have two static states,

2. The automatic processing bin for processing the caliper body according to claim 1, wherein: the push plate track comprises two guide rails arranged in parallel, a lower groove is formed in the bottom of the push plate, the lower groove is embedded in the upper surface of the guide rails, the push plate slides along the guide rails, an upper groove is formed in the top of the push plate, and the upper groove is embedded in the transportation track.

3. The automatic processing bin for processing the caliper body according to claim 2, wherein: the connecting plates comprise a first connecting plate and a second connecting plate, and the first connecting plate and the second connecting plate are respectively arranged at the end parts of the two guide rails.

4. The automatic processing bin for processing the caliper body according to claim 3, wherein: the connecting rod includes head rod, second connecting rod, third connecting rod and fourth connecting rod, the head rod with the second connecting rod is arranged in respectively push pedal bottom two angle departments, the third connecting rod with the fourth connecting rod is arranged in respectively push pedal top two angle departments, the head rod is connected the head rod bottom, the fourth connecting rod is connected the head rod top, the push pedal the head rod the fourth connecting rod with the head rod constitutes first quadrangle, the second connecting rod is connected second connecting plate bottom, the third connecting rod is connected second connecting plate top, the push pedal the second connecting rod the third connecting rod with the second connecting plate constitutes second quadrangle.

5. The automatic processing bin for processing the pincer body according to any one of claims 1 to 4, wherein: the limiting block is a right-angled triangular prism, the limiting block sequentially comprises a first surface, a second surface and a third surface, the first surface is perpendicular to the third surface, the third surface is provided with a fastening device, a limiting groove is arranged at the joint of the second surface and the third surface, the limiting groove is externally embedded on the transportation track, the limiting block has two static states,

6. The automatic processing bin for processing the pincer body according to any one of claims 1 to 4, wherein: the transportation track comprises a group of sliding rods arranged in parallel, and supporting rods are arranged at two ends of each sliding rod respectively.

7. The automatic processing bin for processing the caliper body according to claim 6, wherein: the number of the sliding rods is three, and the three sliding rods are arranged side by side at intervals.

8. The automatic processing bin for processing the pincer body according to any one of claims 1 to 4 or 7, wherein: the blanking device comprises a material pushing plate, the material pushing plate is arranged above the transportation track in parallel and is movably connected with the bin body, the material pushing plate is connected with the driving mechanism, and the movement direction of the material pushing plate is parallel to the direction of the transportation track.

9. The automatic processing bin for processing the caliper body according to claim 8, wherein: the front end of the material pushing plate is provided with an arc edge, and the arc edge is matched with the outer arc of the clamp body.

10. The automatic processing bin for processing the pincer body according to any one of claims 1 to 4, 7 or 9, wherein: the bin distance adjusting plate is connected with the inner wall of the bin body through a connecting device, the bin distance adjusting plate is parallel to the conveying track, and the bin distance adjusting plate is respectively fixed at two ends of the clamp body.