CN215869046U - Contact shaping equipment - Google Patents

Abstract

A contact shaping device comprises a base body, wherein a positioning slide rail is arranged on the base body, and a contact is arranged on the positioning slide rail; the shaping mechanism can move in a reciprocating manner towards or away from the positioning slide rail to shape the contact; the feeding mechanism comprises a feeding push head, and the feeding push head drives the contact to move along the positioning slide rail; the limiting mechanism comprises a limiting push head, and the limiting push head is arranged close to the base body and can move in a reciprocating manner towards or away from the shaping position; the feeding push head can drive the contact to move to the shaping position along the positioning slide rail, the limiting push head moves to the shaping position in a matched mode, and the feeding push head and the limiting push head are matched together to clamp and position the contact to the shaping position. The contact pressure shaping method has the technical effect of carrying out pressure shaping on the contact so as to improve the performance of the contact system.

Description

Contact shaping equipment

Technical Field

The utility model relates to the field of pressure processing equipment, in particular to contact shaping equipment.

Background

The actuating mechanism of the electric appliance with contacts in the low-voltage electric appliance is generally a contact system, and the connection and disconnection of an electric circuit are realized by the separation and the combination of a movable contact and a fixed contact. The static contact is generally fixed, and the moving contact moves for a certain stroke in the process of opening and closing actions to be contacted with or separated from the static contact. The contact mode of the contact is generally divided into 3 types: point contact, line contact and surface contact, the point contact can be divided into finger contact and shaped bridge contact according to the structural form, it is suitable for the occasion that the electric current is not big and the contact pressure is small, the advantage is that there can be good contact without big pressure, such as the auxiliary contact of the control electrical apparatus or switch electrical commonly; the surface contact is suitable for occasions with large current and large pressure, has the defect of poor self-cleaning effect, and is mainly used for main contacts, knife switches and the like of large-capacity contactors; the line contact is widely applied, and the contact of the line contact generates rolling friction when being connected or disconnected, thereby being beneficial to removing an oxide film on the contact surface and buffering the impact energy when the contact is closed, and further improving the electrical and mechanical properties of the contact.

And to different application occasions, need select suitable contact form, can effectively avoid the deformation of contact, guarantee the life of contact, consequently need carry out high-efficient plastic to the contact according to the application occasion of contact.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art and provide the contact shaping equipment with simple structure and high efficiency.

In order to achieve the purpose, the utility model adopts the following technical scheme:

a contact shaping device comprises a base body, wherein a positioning slide rail is arranged on the base body;

the shaping mechanism comprises a shaping driving part and a shaping pressure head connected with the shaping driving part, and the shaping driving part drives the shaping pressure head to move in a reciprocating mode towards or away from a shaping position to shape the contact of the contact;

the feeding mechanism comprises a feeding push head, and the feeding push head drives the contact to move along the positioning slide rail;

the limiting mechanism comprises a limiting push head, and the limiting push head is arranged close to the base body and can reciprocate towards or away from the shaping position;

the feeding push head can drive the contact to move to the shaping position along the positioning slide rail, the limiting push head moves to the shaping position in a matched mode, and the feeding push head and the limiting push head are matched together to clamp and position the contact to the shaping position.

Preferably, the feeding pushing head is arranged at one end of the positioning slide rail and can reciprocate to the other end along the positioning slide rail.

Preferably, the limiting push head moves away from the shaping position, and the feeding push head drives the contact to move along the positioning slide rail and separate from the positioning slide rail.

Preferably, a slide rail groove is formed in the positioning slide rail, limiting plates are arranged on two sides of the positioning slide rail corresponding to the upper part of the slide rail groove, limiting protrusions are arranged in two groups of limiting plates extending towards the slide rail groove, so that a limiting groove with the width smaller than that of the slide rail groove is formed between the limiting protrusions of the two groups of limiting plates, the contact moves between the bottom sides of the limiting protrusions and the slide rail, and a feeding groove for placing the contact into the slide rail groove is formed in the two groups of limiting plates; and the two sides of the feeding pushing head are connected with sliding blocks matched with the side walls of the sliding rail grooves in a sliding manner, and the sliding blocks move between the bottom sides of the limiting bulges and the sliding rails.

Preferably, the feeding mechanism comprises a feeding driving piece connected with the feeding pushing head, and the limiting mechanism comprises a limiting driving piece connected with the limiting pushing head; the feeding driving part is arranged on one side of the rear end of the positioning slide rail, the limiting driving part is arranged on one side of the front end of the positioning slide rail, and the shaping position is located on the edge of the front end of the positioning slide rail and in the slide rail groove.

Preferably, the material sliding device further comprises a material sliding rail for discharging, the material sliding rail is obliquely arranged and perpendicular to the positioning slide rail, the upper end of the material sliding rail is located between the front end of the positioning slide rail and the limiting mechanism, the limiting push head moves towards the direction far away from the front end of the positioning slide rail, and the feeding push head pushes the contact head to fall into the material sliding rail from the positioning slide rail.

Preferably, the upper part of the side wall surface of the limiting push head close to one side of the contact is correspondingly used for clamping the contact with the feeding push head, the lower part of the side wall surface is in positioning fit with the front end of the positioning slide rail, and the lower part of the side wall surface of the limiting push head close to one side of the contact is in a sawtooth shape.

Preferably, the shaping driving part is vertically arranged above the shaping position and drives the limiting push head to reciprocate up and down; the feeding driving part is horizontally arranged to drive the feeding pushing head to reciprocate along the positioning slide rail; the limiting driving piece is horizontally arranged and located on an extension line of the positioning slide rail, drives the limiting push head to reciprocate along the extension line of the positioning slide rail, or drives the limiting push head to reciprocate up and down through the vertical arrangement of the limiting driving piece, or drives the limiting push head to reciprocate oppositely or away from the shaping position from the side surface through the horizontal arrangement of the limiting driving piece and perpendicular to the positioning slide rail.

Preferably, the reforming ram is detachably connected to the reforming drive.

Preferably, a feeding groove is arranged on the positioning slide rail, and a safety baffle is arranged between the shaping mechanism and the feeding groove.

Preferably, the contact shaping device further comprises a photoelectric sensing switch, the photoelectric sensing switch is electrically connected with the control system of the feeding mechanism, the limiting mechanism and the shaping mechanism, the photoelectric sensing switch is used for sensing and judging whether an operator is located in an operation area, and when the operator leaves the operation area, the photoelectric sensing switch sends a signal to control the device to stop.

The contact shaping equipment provided by the utility model guides the contact through the positioning slide rail, clamps and fixes the contact through the feeding push head and the limiting push head, and shapes the contact through the shaping press head through the shaping mechanism, so that the structure is simple, and the shaping efficiency is high.

In addition, the shaping pressure head is detachable and replaceable, can be replaced according to the application occasion of the contact, shapes the contact into a point or line or plane contact form, meets the corresponding application requirement, and prolongs the service life of the contact.

In addition, the contact is pushed through the pay-off pusher and is followed the location slide rail material loading, and the material loading is reliable high-efficient, and the contact presss from both sides tight location through the cooperation of pay-off pusher and spacing pusher, and after the contact plastic, spacing pusher removes to the direction of keeping away from the location slide rail, and the pay-off pusher promotes the contact and falls into the smooth material track from the location slide rail, and whole material loading and ejection of compact process are convenient quick, efficient.

In addition, the lower part of the side wall surface of the limiting push head close to one side of the contact is in a sawtooth shape, so that the contact area is reduced when the limiting push head collides with the positioning slide rail for limiting, and the occurrence of large noise can be effectively avoided.

In addition, the safety baffle and the photoelectric sensing switch are arranged, so that the safety of an operator is ensured, and the reliability is high.

Drawings

FIG. 1 is a schematic diagram of the construction of the contact shaping apparatus of the present invention;

FIG. 2 is a schematic view of a matching structure of a feeding pushing head and a limiting pushing head of the contact shaping device of the present invention;

FIG. 3 is a schematic structural diagram of a feeding mechanism and a limiting mechanism of the contact shaping device of the present invention;

FIG. 4 is a schematic structural view of the contact shaping device support and positioning mechanism of the present invention;

FIG. 5 is a schematic structural view of a shaping mechanism of the contact shaper of the present invention;

FIG. 6 is a schematic diagram of the contact shaping device of the present invention prior to shaping the contacts;

fig. 7 is a schematic view of the contact shaping device of the present invention after the shaping of the contact.

Detailed Description

The following further describes a specific embodiment of the contact shaping device of the present invention with reference to the embodiments shown in fig. 1 to 7. The contact shaping device of the present invention is not limited to the description of the following embodiments.

As shown in fig. 1 and fig. 2, an embodiment of a contact shaping apparatus includes a base 4, a positioning slide rail 42 is disposed on the base 4, and the contact 7 is disposed on the positioning slide rail 42; the shaping mechanism 3 comprises a shaping driving part and a shaping pressure head 33 connected with the shaping driving part, and the shaping driving part drives the shaping pressure head 33 to move in a reciprocating mode towards or away from a shaping position so as to shape the contact of the contact 7; the feeding mechanism 1 comprises a feeding push head 14, and the feeding push head 14 drives the contact 7 to move along a positioning slide rail 42; the limiting mechanism 2 comprises a limiting push head 24, and the limiting push head 24 is arranged close to the seat body 4 and can reciprocate towards or away from the shaping position; the feeding push head 14 can drive the contact 7 to move to the shaping position along the positioning slide rail 42, the limiting push head 24 moves to the shaping position in a matched mode, and the feeding push head 14 and the limiting push head 24 are matched together to clamp and position the contact 7 to the shaping position.

After the contact 7 is placed into the positioning slide rail 42, the feeding mechanism 1 works to drive the feeding push head 14 to push the contact 7 to move to the shaping position, the limiting push head 24 also moves towards the shaping position in a matching mode to clamp and fix the contact 7 from two sides, then the shaping mechanism 3 works to shape the contact 71 on the contact 7.

Preferably, as shown in fig. 3, the feeding mechanism 1 includes a feeding driving member connected to the feeding pushing head 14, and the limiting mechanism 2 includes a limiting driving member connected to a limiting pushing head 24, in this embodiment, the feeding driving member is a feeding cylinder 12, and the limiting driving member is a limiting cylinder 22, but other types of power driving members may be used instead of the feeding cylinder. The feeding driving part is arranged on one side of the rear end of the positioning slide rail 42, the limiting driving part is arranged on one side of the front end of the positioning slide rail 42, and the shaping position is located on the edge of the front end of the positioning slide rail 42 and in the slide rail groove 421.

Preferably, the feeding pusher head 14 is disposed on one end of the positioning slide rail 42 and can reciprocate to the other end along the positioning slide rail 42. The limiting push head 24 is located outside the positioning slide rail 42, and the limiting driving part drives the limiting push head 24 to reciprocate towards or away from the front end of the positioning slide rail 42. When the limiting push head 24 moves to the front end edge of the positioning slide rail 42 opposite to the front end of the positioning slide rail 42, the limiting push head is matched with the feeding push head 14 to clamp and position the contact 7. When the limiting push head 24 moves away from the shaping position, the feeding push head 14 drives the contact 7 to move along the positioning slide rail 42 and separate from the positioning slide rail 42, so as to discharge the shaped contact 7.

As shown in fig. 1 and 3, preferably, the contact shaping device of this embodiment further includes a blanking mechanism, the blanking mechanism includes a sliding rail 5 for discharging, the sliding rail 5 is disposed obliquely and perpendicular to the positioning slide rail 42, an upper end of the sliding rail 5 is located between a front end of the positioning slide rail 42 and the limiting mechanism 2, an upper end of the sliding rail 5 is disposed at a front end of a moving path of the feeding pusher 14 for receiving materials, and a lower end of the sliding rail 5 is used for discharging materials. After the contact 7 is punched and shaped, the piston rod of the limiting cylinder 22 contracts, the limiting push head 24 moves towards the direction far away from the front end of the positioning slide rail 42, the piston rod of the feeding cylinder 12 stretches, and the feeding push head 14 pushes the contact 7 to fall into the sliding rail 5 from the positioning slide rail 42, so that discharging is realized.

As shown in the embodiment of fig. 3, the shaping driving member is vertically arranged above the shaping position to drive the limiting push head 24 to reciprocate up and down; the feeding driving part is horizontally arranged to drive the feeding pushing head 14 to reciprocate along the positioning slide rail 42; the limiting driving part is horizontally arranged and located on an extension line of the positioning slide rail 42, the limiting push head 24 is driven to reciprocate along the extension line of the positioning slide rail 42, the sliding rail 5 is obliquely arranged and perpendicular to the positioning slide rail 42, and the whole structure is compact and reasonable. Of course, the limit driving member may be disposed above or below the front end side of the positioning slide rail 42, or horizontally perpendicular to the side of the positioning slide rail 42. Namely, the limit driving part is vertically arranged to drive the limit pushing head 24 to reciprocate up and down, or the limit driving part is horizontally arranged and perpendicular to the positioning slide rail 42 to drive the limit pushing head 24 to reciprocate from the side surface to move towards or away from the shaping position.

As shown in fig. 3 and 4, a positioning slide rail 42 is arranged on the base 4, the positioning slide rail 42 is horizontally arranged, a slide rail groove 421 arranged along the feeding direction of the contact 7 is formed in the positioning slide rail 42, the middle of the slide rail groove 421 is horizontal, and two sides of the slide rail groove 421 are inclined downward, so as to be adapted to the contact 7, it is ensured that the lower side and two sides of the contact 7 can be abutted against the slide rail groove 421, two sides of the contact 7 are attached to two side walls of the slide rail groove 421 after feeding, and then the feeding push head 14 pushes the contact 7 to move to the shaping position along the direction of the slide rail groove 421.

Preferably, in order to prevent the contact 7 from slipping out in the feeding process, the two sides of the positioning slide rail 42 corresponding to the upper side of the slide rail groove 421 are provided with horizontally arranged limiting plates 43, the limiting plates 43 are arranged along the feeding direction of the contact 7, two limiting plates 43 are provided with limiting protrusions extending into the slide rail groove 421, so that a limiting groove 431 with a width smaller than that of the slide rail groove 421 is formed between the limiting protrusions of the two groups of limiting plates 43, the contact 7 moves between the bottom sides of the limiting protrusions and the slide rail 42, the bottom sides of the limiting protrusions limit the tops of the two sides of the contact 7 and cannot slip out, one side of the two groups of limiting plates 43 away from the shaping position is provided with a feeding groove 432, the width of the feeding groove 432 is greater than or equal to the width of the slide rail groove 421 and is preferably greater than the width of the slide rail groove 421, and the position of the feeding groove 432 is also the feeding position of the contact 7. When feeding, an operator puts the contact 7 into the slide rail groove 421 from above the feeding groove 432, and then the feeding pushing head 14 slides the contact 7 to the shaping position along the slide rail groove 421, so that the top of the contact 7 cannot slide out under the limitation of the limiting plate 43, and stable feeding of the contact 7 is ensured.

Preferably, as shown in fig. 2, two sides of the feeding pusher 14 are connected with sliders 142 slidably engaged with the side walls of the slide rail groove 421, and the sliders 142 are adapted to the structures on two sides of the slide rail groove 421 to realize feeding. The middle part of the slide rail groove 421 is provided with a matching groove 422 for the first cylinder connector 13 to slide, so as to ensure stable pushing.

Preferably, as shown in fig. 2, a first semicircular groove 241 is formed in a side wall of the limiting pusher 24, a second semicircular groove 141 is formed in a side wall of the feeding pusher 14, the first semicircular groove 241 and the second semicircular groove 141 are respectively used for limiting the axial diameters of two sides of the contact 7, when the contact 7 reaches the shaping position, the first semicircular groove 241 and the second semicircular groove 141 are respectively attached to the axial diameters of two sides of the contact 7, and the remaining side walls of the contact 7 are attached to the side walls of the limiting pusher 24 and the feeding pusher 14, so that the position of the contact 7 is accurately limited, and the accuracy of stamping and shaping of the contact is ensured.

Preferably, as shown in fig. 3, the feeding mechanism 1 includes a front cylinder connecting plate 11, a feeding cylinder 12 and a first cylinder connector 13. The front cylinder connecting plate 11 is connected to one end of the positioning slide rail 42 through threads and is kept vertical, the feeding cylinder 12 is horizontally connected to the front cylinder connecting plate 11 through threads, the first cylinder connector 13 is connected to a piston rod of the feeding cylinder 12, and the first cylinder connector 13 is connected with the feeding push head 14 through a clamping structure so as to achieve the effect of convenient mounting and dismounting.

The limiting mechanism 2 comprises a rear cylinder connecting plate 21, a limiting cylinder 22 and a second cylinder connector 23. Rear cylinder connecting plate 21 passes through threaded connection in the other end of location slide rail 42, and it is vertical to keep, the horizontal threaded connection of spacing cylinder 22 is on rear cylinder connecting plate 21, second cylinder connector 23 is connected on the piston rod of spacing cylinder 22, set up rectangular mounting groove 231 on the lateral wall of second cylinder connector 23, be connected with two sets of mounting panel 242 from top to bottom on the lateral wall of spacing cutting head 24, two sets of mounting panel 242 insert the upper and lower both sides of mounting groove 231 respectively, the bolt hole has been seted up in the corresponding position of mounting panel 242 and second cylinder connector 23, insert the downthehole pin that links to each other spacing cutting head 24 with second cylinder connector 23 through the quick detach pin, through the plug pin, can realize quick ann before the two and tear open, and the alignment in bolt hole can be guaranteed to this design, prevent the slippage of pin.

Preferably, the upper part of the side wall surface of the limit pusher 24 close to one side of the contact 7 is correspondingly used for clamping the contact 7 with the feeding pusher 14, the lower part of the side wall surface is in positioning fit with the front end of the positioning slide rail 42, and the lower part of the side wall surface of the limit pusher 24 close to one side of the contact 7 is in a sawtooth shape, so that the contact area is reduced when the limit pusher 24 collides with the positioning slide rail 42 for limiting, and the occurrence of high noise can be effectively avoided.

Preferably, as shown in fig. 1 and 3, a feed chute 432 is provided on the positioning slide rail 42, and a safety barrier 6 is provided between the shaping mechanism 3 and the feed chute 432. The two sides of the positioning slide rail 42 are in threaded connection with vertically-arranged baffle connecting plates 61, the two groups of baffle connecting plates 61 are connected with safety baffles 6 which stride over the upper part of the slide rail groove 421, the safety baffles 6 are positioned between the shaping mechanism 3 and the feed chute 432, and the positions of the safety baffles 6 corresponding to the first cylinder connectors 13 are provided with through grooves for the safety baffles to pass through. The safety barrier 6 prevents an operator from extending hands to the shaping mechanism 3, and if an accident occurs when the contact 7 is stamped and shaped, the safety barrier 6 can block the flying contact 7 to prevent the danger of the operator.

Preferably, the base 4 is provided with a switch connecting plate 62 in threaded connection, the switch connecting plate 62 is connected with a photoelectric sensing switch 63, the photoelectric sensing switch 63 is electrically connected with the feeding mechanism 1, the limiting mechanism 2 and the control system of the shaping mechanism 3, the photoelectric sensing switch 63 judges whether an operator leaves an operating area through infrared sensing, when the operator is located in the operating area, namely at one end of the feeding mechanism 1, the photoelectric sensing switch 63 does not send a signal, when the operator leaves the operating area, the photoelectric sensing switch 63 sends a signal to control the equipment to be shut down, so that the contact shaping equipment does not work, and the safety of the operator is ensured.

Obviously, the photoelectric sensing switch 63 and the safety barrier 6 are arranged at the same time, so that the safety is the highest, and only one of them may be arranged, which all belong to the protection scope of the present application.

As shown in fig. 5, the reforming ram 33 is preferably detachably connected to the reforming drive. The shaping mechanism 3 comprises a shaping driving part, a shaping die shank 31 connected with the shaping driving part, a die shank connecting block 32 connected with the shaping die shank 31 and two groups of shaping pressure heads 33 in threaded connection with the die shank connecting block 32, the shaping pressure heads 33 are installed on the die shank connecting block 32, the die shank connecting block 32 is detachably connected with the shaping die shank 31, the shaping pressure heads 33 can be replaced according to application occasions of the contact, the contact is shaped into contact forms such as points, lines, surfaces and the like, corresponding application requirements are met, and the service life of the contact is prolonged. The shaping driving part is a hydraulic cylinder, and when the shaping driving part works, the hydraulic cylinder drives the shaping pressure head 33 to descend, so that the two contact points 71 on the contact head 7 are pressed down to change the contact state.

The moving contact 7 of the present embodiment is composed of two contacts 71 and a contact bridge 72, and the circuit breaker is turned on and off by the action of the moving contact 7. The movable contact 71 of the typical contact system is changed into the contact 71 of fig. 7 from the contact 71 of fig. 6 after being directly acted by the pressure head pressure shaping of the device, so that the product with surface contact in the original passage can be changed into a point contact product, and the contact 7 system is suitable for different application scenes. Of course, the movable contact can also be provided with one contact or a plurality of contacts, and by improving the shapes of the slide rail groove 421, the shaping pressure head 33, the feeding push head 14 and the limiting push head 24 of the positioning slide rail, different contact 7 systems can be shaped so as to change the contact form when the contact is electrified.

Preferably, the feeding driving part and the limiting driving part can be replaced by electric transmission, electromagnetic transmission or hydraulic cylinder driving and the like so as to ensure the stability of transmission, but the cost and the manufacturing cost are higher.

Preferably, the control system of the feeding mechanism 1, the limiting mechanism 2 and the shaping mechanism 3 is a PLC (programmable logic controller), a human-computer interaction interface is arranged on the control system, the feeding mechanism 1, the limiting mechanism 2 and the shaping mechanism 3 are controlled by the PLC and the human-computer interaction interface, after products are shaped by pressure, the equipment can be controlled to act by a preset PLC program, and when the acting processes before and after the program are finished, the products are quickly demoulded and unloaded by the sliding track 5, so that more convenient control can be realized.

Preferably, the reforming ram 33 changes shape or uses a more impact and wear resistant material for different reforming processes. To meet different shaping requirements.

The foregoing is a more detailed description of the utility model in connection with specific preferred embodiments and it is not intended that the utility model be limited to these specific details. For those skilled in the art to which the utility model pertains, several simple deductions or substitutions can be made without departing from the spirit of the utility model, and all shall be considered as belonging to the protection scope of the utility model.

Claims (10)

1. A contact shaping device, characterized by: the seat comprises a seat body (4), wherein a positioning slide rail (42) is arranged on the seat body (4);

the shaping mechanism (3) comprises a shaping driving part and a shaping pressure head (33) connected with the shaping driving part, and the shaping driving part drives the shaping pressure head (33) to move in a reciprocating mode in the opposite direction or in the opposite direction to the shaping position so as to shape the contact of the contact (7);

the feeding mechanism (1) comprises a feeding push head (14), and the feeding push head (14) drives the contact (7) to move along a positioning slide rail (42);

the limiting mechanism (2) comprises a limiting push head (24), and the limiting push head (24) is arranged close to the seat body (4) and can reciprocate towards or away from the shaping position;

the feeding push head (14) can drive the contact (7) to move to a shaping position along the positioning slide rail (42), the limiting push head (24) moves to the shaping position in a matched mode, and the feeding push head (14) and the limiting push head (24) are matched together to clamp and position the contact (7) to the shaping position.

2. The contact shaping device of claim 1, wherein: the feeding push head (14) is arranged on one end of the positioning slide rail (42) and can move to the other end along the positioning slide rail (42) in a reciprocating mode.

3. The contact shaping device of claim 1, wherein: the limiting push head (24) moves away from the shaping position, and the feeding push head (14) drives the contact (7) to move along the positioning slide rail (42) and separate from the positioning slide rail (42).

4. The contact shaping device of claim 1, wherein: a slide rail groove (421) is formed in the positioning slide rail (42), limiting plates (43) are arranged on the two sides of the positioning slide rail (42) corresponding to the upper portion of the slide rail groove (421), two groups of limiting plates (43) are provided with limiting protrusions extending towards the inside of the slide rail groove (421), so that a limiting groove (431) with the width smaller than that of the slide rail groove (421) is formed between the limiting protrusions of the two groups of limiting plates (43), the contact (7) moves between the bottom side of the limiting protrusions and the slide rail (42), and a feeding groove (432) used for placing the contact (7) into the slide rail groove (421) is formed in each group of limiting plates (43); the two sides of the feeding pushing head (14) are connected with sliding blocks (142) which are in sliding fit with the side walls of the sliding rail grooves (421), and the sliding blocks (142) move between the bottom sides of the limiting protrusions and the sliding rails (42).

5. The contact shaping device of claim 1, wherein: the feeding mechanism (1) comprises a feeding driving piece connected with the feeding pushing head (14), and the limiting mechanism (2) comprises a limiting driving piece connected with the limiting pushing head (24); the feeding driving part is arranged on one side of the rear end of the positioning sliding rail (42), the limiting driving part is arranged on one side of the front end of the positioning sliding rail (42), and the shaping position is located on the edge of the front end of the positioning sliding rail (42) and located in the sliding rail groove (421).

6. The contact shaping device of claim 5, wherein: still including smooth material track (5) that is used for the ejection of compact, smooth material track (5) slope sets up and perpendicular to location slide rail (42), and the upper end of smooth material track (5) is located between front end and stop gear (2) of location slide rail (42), and spacing cutting somebody's hair (24) remove to the direction of keeping away from the front end of location slide rail (42), and pay-off cutting somebody's hair (14) promote contact (7) and fall into smooth material track (5) from location slide rail (42).

7. The contact shaping device of claim 5, wherein: the upper part of the side wall surface of the limiting push head (24) close to one side of the contact (7) is correspondingly used for clamping the contact (7) with the feeding push head (14), the lower part of the side wall surface is in positioning fit with the front end of the positioning slide rail (42), and the lower part of the side wall surface of the limiting push head (24) close to one side of the contact (7) is in a sawtooth shape.

8. The contact shaping device of claim 5, wherein:

the shaping driving piece is vertically arranged above the shaping position and drives the limiting push head (24) to reciprocate up and down; the feeding driving part is horizontally arranged to drive the feeding pushing head (14) to reciprocate along the positioning slide rail (42);

the limiting driving part is horizontally arranged and located on an extension line of the positioning slide rail (42), the limiting push head (24) is driven to reciprocate along the extension line of the positioning slide rail (42), or the limiting driving part is vertically arranged and drives the limiting push head (24) to reciprocate up and down, or the limiting driving part is horizontally arranged and perpendicular to the positioning slide rail (42), and drives the limiting push head (24) to reciprocate in opposite directions or away from a shaping position from the side surface.

9. The contact shaping device of claim 1, wherein: the shaping pressure head (33) is detachably connected with the shaping driving piece.

10. The contact shaping device of claim 1, wherein: a feeding groove (432) is arranged on the positioning slide rail (42), and a safety baffle (6) is arranged between the shaping mechanism (3) and the feeding groove (432);

and/or the contact shaping equipment further comprises a photoelectric sensing switch (63), the photoelectric sensing switch (63) is electrically connected with the control systems of the feeding mechanism (1), the limiting mechanism (2) and the shaping mechanism (3), the photoelectric sensing switch (63) is used for sensing and judging whether an operator is located in an operation area, and when the operator leaves the operation area, the photoelectric sensing switch (63) sends a signal to control the equipment to stop.

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