CN111659847A

CN111659847A - A integrative forging press of forging and pressing rough blank for pliers processing

Info

Publication number: CN111659847A
Application number: CN202010522473.3A
Authority: CN
Inventors: 李院花
Original assignee: Hangzhou Youcai Network Technology Co ltd
Current assignee: Hangzhou Youcai Network Technology Co ltd
Priority date: 2020-06-10
Filing date: 2020-06-10
Publication date: 2020-09-15

Abstract

The invention discloses a forging and pressing rough blank integrated forging and pressing machine for pliers processing, which comprises a conveying device and a heating box, wherein the heating box is arranged outside one end of the conveying device, the bottom end of the conveying device on the side surface of the heating box is provided with a bottom plate, a forging and pressing lower die mounting structure and a material splitting lower die mounting structure are arranged on the surface of the bottom plate corresponding to the conveying device, and a forging and pressing upper die mounting structure is connected to the position, corresponding to the lower die mounting structure, of the surface of the bottom plate on one side of the conveying device, and the material is placed on an arc-shaped groove and then conveyed by controlling the work of a first servo motor, and at the moment, the operation of other equipment is controlled by a control switch group, so that the heating, forging and material splitting operations can be sequentially performed, operators are reduced, and the dies are adsorbed by electromagnets when forging and material splitting are performed, thereby effectively preventing the mould from deviating.

Description

A integrative forging press of forging and pressing rough blank for pliers processing

Technical Field

The invention relates to the technical field of pliers processing, in particular to a forging and pressing rough blank integrated forging and pressing machine for pliers processing.

Background

The rough blank forging and pressing is a common machine for forging and pressing, raw and other materials and steel are heated by the electromagnetic heater, then a forging and pressing product is placed on a forging and pressing machine die, most of rough blank forging and pressing at present mainly comprises four steps of raw and other materials cutting and discharging, heating, material splitting and hammer forging and pressing, although forging and pressing operation can be completed, most of the materials are heated by adopting an electromagnetic heating mode when being processed, heating operation can be performed, single materials can be processed at every time, and because the distance between the materials and the coil is close, the materials are easy to be bonded on the coil, so that the coil is damaged, and a plurality of workers are required to operate when processing four processes is performed at present, and manpower is wasted.

Disclosure of Invention

The invention aims to overcome the defects in the prior art, provides the forging and pressing rough blank integrated forging and pressing machine for the processing of the pliers, and can heat, forge and split materials in sequence only by operating on a control switch group by a user, so that the number of workers is reduced, and the heating mode of an electric heating tube is adopted for heating, so that the loss of a coil is avoided, and the problems in the background technology can be effectively solved.

In order to achieve the purpose, the invention provides the following technical scheme: a forging and pressing rough blank integrated forging and pressing machine for machining pliers comprises a conveying device and a heating box, wherein the heating box is arranged outside one end of the conveying device, a bottom plate is arranged at the bottom end of the conveying device on the side face of the heating box, a forging and pressing lower die mounting structure and a material splitting lower die mounting structure are arranged on the face, corresponding to the conveying device, of the bottom plate, the surface of the bottom plate on one side of the conveying device, corresponding to the lower die mounting structure, is connected with a forging and pressing upper die mounting structure, the surface of the bottom plate on one side of the conveying device, corresponding to the material splitting lower die mounting structure, is connected with a material splitting upper die mounting structure, the surface of the bottom plate on the other side of the conveying device is connected with;

the conveying device comprises conveying chains, the conveying chains are arranged at two ends of a supporting frame of the conveying device, arc-shaped grooves are formed in the surfaces of the conveying chains, and the arc-shaped grooves are uniformly distributed on the surfaces of the conveying chains;

electric heating tubes are arranged in the heating boxes above and below the conveying chain, and the output end of the control switch group is electrically connected with the input end of the electric heating tube;

the forging and pressing lower die mounting structure comprises a first electric telescopic rod arranged on the surface of a bottom plate below a conveying chain, a first supporting plate is arranged at the top end of the first electric telescopic rod, and the output end of the control switch group is electrically connected with the input end of the first electric telescopic rod;

the forging and pressing upper die mounting structure comprises a second electric telescopic rod arranged on the surface of the bottom plate, a first connecting block is arranged at the top end of the second electric telescopic rod, the first connecting block is connected with a second connecting block through a third electric telescopic rod, the second connecting block is connected with a first mounting plate through a fourth electric telescopic rod, and the output end of the control switch group is electrically connected with the input ends of the second electric telescopic rod, the third electric telescopic rod and the fourth electric telescopic rod;

the splitting lower die mounting structure comprises a fifth electric telescopic rod arranged on the surface of the bottom plate below the conveying chain, a second supporting plate is arranged on the surface of the fifth electric telescopic rod, and the output end of the control switch group is electrically connected with the input end of the fifth electric telescopic rod;

splitting and feeding the upper die mounting structure, wherein the upper die mounting structure comprises a sixth electric telescopic rod arranged on the surface of a bottom plate, the top end of the sixth electric telescopic rod is provided with a third connecting block, the third connecting block is connected with a fourth connecting block through a seventh electric telescopic rod, the fourth connecting block is connected with a second mounting plate through an eighth electric telescopic rod, and the output end of a control switch group is electrically connected with the input ends of the sixth electric telescopic rod, the seventh electric telescopic rod and the eighth electric telescopic rod.

As a preferred technical solution of the present invention, a first servo motor is connected to a side surface of the conveying device, and an output end of the control switch group is electrically connected to an input end of the first servo motor.

As a preferable technical scheme of the invention, an observation window is arranged on the side surface of the heating box, a reflector is arranged in the heating box at a position corresponding to the observation window, and a thermometer is arranged on the surface of the observation window corresponding to the inner cavity of the heating box.

As a preferred technical solution of the present invention, a first electromagnet is disposed inside the first support plate, and an output end of the control switch group is electrically connected to an input end of the first electromagnet.

As a preferred technical solution of the present invention, a second electromagnet is disposed inside the second support plate, and an output end of the control switch group is electrically connected to an input end of the second electromagnet.

As a preferred technical scheme of the invention, the material taking structure comprises a second servo motor arranged on the surface of the bottom plate, a first connecting plate is arranged at the top end of an output shaft of the second servo motor, and the output end of the control switch group is electrically connected with the input end of the second servo motor.

As a preferable technical solution of the present invention, the first connecting plate is connected to a second connecting plate through a ninth electric telescopic rod, and an input end of the ninth electric telescopic rod is electrically connected to an output end of the control switch set.

As a preferred technical scheme of the present invention, the second connecting plate is connected to a third mounting plate through a tenth electric telescopic rod, a third electromagnet is disposed inside the third mounting plate, and input ends of the tenth electric telescopic rod and the third electromagnet are electrically connected to an output end of the control switch group.

As a preferred technical scheme of the present invention, a bottom plate outside the second servo motor is provided with a limit groove, a support pillar is provided at a position corresponding to the limit groove at the bottom end of the first connection plate, and the support pillar is tangential to the bottom end of the limit groove.

Compared with the prior art, the invention has the beneficial effects that:

this an integrative forging press of forging and pressing rough blank for pliers processing, put the material that needs processing on the arc wall of conveyor chain, control through the work to a servo motor, from this the inside of heating cabinet is carried to the material, control through the work of electrothermal tube, from this the material to the inside of electrothermal box heats the operation, setting through observation window and reflector, thereby convenient to use person observes the heating condition of material, setting through the thermometer, convenient to use person measures the temperature in the electrothermal box.

This an integrative forging press of forging and pressing rough blank for pliers processing, install the lower mould that the forging and pressing needs on the first backup pad in forging and pressing lower mould mounting structure, install the first mounting panel bottom in the mould mounting structure in the forging and pressing to the last mould that the forging and pressing needs, control through the work to first electric telescopic handle, make the material be in the lower mould from this, then through to second electric telescopic handle, third electric telescopic handle and fourth electric telescopic handle's work is controlled, thereby forge and press the material, but the structure setting of split, convenient to use person changes the mould according to the demand of forging and pressing.

This an integrative forging press of forging and pressing rough blank for pliers processing, install the surface at the second backup pad to the lower mould that splits the material and use, install the bottom at the second mounting panel to the last mould that splits the material and use, control through the work to fifth electric telescopic handle for the material is in and splits the material lower mould, controlling through the work to sixth electric telescopic handle, seventh electric telescopic handle and eighth electric telescopic handle, split the material operation from this, the operation is comparatively simple, convenient to use person's operation.

This an integrative forging press of forging and pressing rough blank for pliers processing, work through to second servo motor is controlled, then control through the work to ninth electric telescopic handle and tenth electric telescopic handle, adjust the position of third mounting panel from this, then make third electro-magnet work, the material to processing is taken from this, control through the work to above-mentioned equipment again, thereby the material to after taking removes, thereby convenient to use person takes the operation to the material after processing, convenient to use person carries out the selective examination operation.

This an integrative forging press of forging and pressing rough blank for pliers processing lays the material on the arc wall, then controls through the work to a servo motor, from this to the material carry, is controlling other equipment operation through control switch group this moment, thereby can heat in proper order, forging and pressing and split the material operation, thereby operating personnel has been reduced, and all adsorb the mould through the electro-magnet when forging and pressing and splitting the material, thereby can effectually prevent that the mould from taking place the skew.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic cross-sectional view of the present invention.

In the figure: 1 conveying device, 11 conveying chains, 12 arc-shaped grooves, 13 first servo motors, 2 heating boxes, 21 electric heating tubes, 22 observation windows, 23 reflectors, 24 thermometers, 3 bottom plates, 4 forging and pressing lower die mounting structures, 41 first electric telescopic rods, 42 first supporting plates, 43 first electromagnets, 5 forging and pressing upper die mounting structures, 51 second electric telescopic rods, 52 first connecting blocks, 53 third electric telescopic rods, 54 second connecting blocks, 55 fourth electric telescopic rods, 56 first mounting plates, 6 splitting lower die mounting structures, 61 fifth electric telescopic rods, 62 second supporting plates, 63 second electromagnets, 7 splitting upper die mounting structures, 71 sixth electric telescopic rods, 72 third connecting blocks, 73 seventh electric telescopic rods, 74 fourth connecting blocks, 75 eighth electric telescopic rods, 76 second mounting plates, 8 material taking structures, 81 second servo motors, 82 first connecting plates, 83 a ninth electric telescopic rod, 84 a second connecting plate, 85 a tenth electric telescopic rod, 86 a third mounting plate, 87 a third electromagnet, 88 a limit groove, 89 a support column and 9 a control switch group.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. 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.

Referring to fig. 1-2, the present invention provides a technical solution: a forging and pressing rough blank integrated forging and pressing machine for machining pliers comprises a conveying device 1 and a heating box 2, wherein the heating box 2 is arranged outside one end of the conveying device 1, a bottom plate 3 is arranged at the bottom end of the conveying device 1 on the side surface of the heating box 2, a forging and pressing lower die mounting structure 4 and a material splitting lower die mounting structure 6 are arranged on the surface of the bottom plate 3 corresponding to the conveying device 1, an upper forging and pressing die mounting structure 5 is connected to the position, corresponding to the lower die mounting structure 4, of the surface of the bottom plate 3 on one side of the conveying device 1, an upper material splitting die mounting structure 7 is connected to the position, corresponding to the material splitting lower die mounting structure 6, of the surface of the bottom plate 3 on the other side of the conveying device 1, a material taking structure 8 is connected to the surface of;

the conveying device 1 comprises a conveying chain 11, the conveying chain 11 is arranged at two ends of a supporting frame of the conveying device 1, an arc-shaped groove 12 is formed in the surface of the conveying chain 11, the arc-shaped grooves 12 are uniformly distributed on the surface of the conveying chain 11, a first servo motor 13 is connected to the side face of the conveying device 1, the output end of the control switch group 9 is electrically connected with the input end of the first servo motor 13, and the work of the first servo motor 13 is controlled, so that the conveying chain 11 is conveniently driven to move, and the conveying operation is carried out on materials;

the heating boxes 2 above and below the conveying chain 11 are internally provided with electric heating tubes 21, the side surfaces of the heating boxes 2 are provided with observation windows 22, the positions, corresponding to the observation windows 22, in the heating boxes 2 are provided with reflectors 23, the surfaces, corresponding to the inner cavities of the heating boxes 2, of the observation windows 22 are provided with thermometers 24, so that a user can observe the heating condition of materials in the heating boxes 2 conveniently, the temperature in the heating boxes 2 can be measured conveniently, and the output ends of the control switch groups 9 are electrically connected with the input ends of the electric heating tubes 21;

the forging and pressing lower die mounting structure 4 comprises a first electric telescopic rod 41 arranged on the surface of the bottom plate 3 below the conveying chain 11, a first supporting plate 42 is arranged at the top end of the first electric telescopic rod 41, a first electromagnet 43 is arranged inside the first supporting plate 42, and the first electromagnet 43 is controlled to work, so that the lower die is magnetic, the mounting temperature of the lower die is improved, the processed materials are convenient to fix, and the output end of the control switch group 9 is electrically connected with the input ends of the first electric telescopic rod 41 and the first electromagnet 43;

the forging and pressing upper die mounting structure 5 comprises a second electric telescopic rod 51 arranged on the surface of the bottom plate 3, the top end of the second electric telescopic rod 51 is provided with a first connecting block 52, the first connecting block 52 is connected with a second connecting block 54 through a third electric telescopic rod 53, the second connecting block 54 is connected with a first mounting plate 56 through a fourth electric telescopic rod 55, and the output end of the control switch group 9 is electrically connected with the input ends of the second electric telescopic rod 51, the third electric telescopic rod 53 and the fourth electric telescopic rod 55;

the material splitting lower die mounting structure 6 comprises a fifth electric telescopic rod 61 arranged on the surface of the bottom plate 3 below the conveying chain 11, a second supporting plate 62 is arranged on the surface of the fifth electric telescopic rod 61, a second electromagnet 63 is arranged inside the second supporting plate 62, so that a die arranged on the surface of the second supporting plate 62 can be conveniently fixed, materials to be processed can be adsorbed and fixed, and the output end of the control switch group 9 is electrically connected with the input ends of the fifth electric telescopic rod 61 and the second electromagnet 63;

splitting upper die mounting structure 7 comprises a sixth electric telescopic rod 71 arranged on the surface of bottom plate 3, a third connecting block 72 is arranged at the top end of sixth electric telescopic rod 71, third connecting block 72 is connected with a fourth connecting block 74 through a seventh electric telescopic rod 73, fourth connecting block 74 is connected with a second mounting plate 76 through an eighth electric telescopic rod 75, and the output end of control switch group 9 is electrically connected with the input ends of sixth electric telescopic rod 71, seventh electric telescopic rod 73 and eighth electric telescopic rod 75.

The material taking structure 8 comprises a second servo motor 81 arranged on the surface of the bottom plate 3, a first connecting plate 82 is arranged at the top end of an output shaft of the second servo motor 81, the first connecting plate 82 is connected with a second connecting plate 84 through a ninth electric telescopic rod 83, the second connecting plate 84 is connected with a third mounting plate 86 through a tenth electric telescopic rod 85, a third electromagnet 87 is arranged inside the third mounting plate 86, the work of the second servo motor 81 is controlled, the work of the ninth electric telescopic rod 83 and the tenth electric telescopic rod 85 are controlled, so that the position of the third mounting plate 86 is adjusted, the third electromagnet 87 is enabled to work, the processed material is taken, the work of the equipment is controlled, the taken material is moved, a limiting groove 88 is arranged on the bottom plate 3 outside the second servo motor 81, the position department that the bottom of first connecting plate 82 corresponds spacing groove 88 is equipped with support column 89, and support column 89 sets up with the bottom of spacing groove 88 is tangent, can play the effect of support to first connecting plate 82, and second servo motor 81, ninth electric telescopic handle 83, tenth electric telescopic handle 85 and third electro-magnet 87's input are connected to the output electricity of control switch group 9.

The control switch group 9 is provided with adjusting buttons corresponding to the first servo motor 13, the electric heating tube 21, the first electric telescopic rod 41, the first electromagnet 43, the second electric telescopic rod 51, the third electric telescopic rod 53, the fourth electric telescopic rod 55, the fifth electric telescopic rod 61, the sixth electric telescopic rod 71, the seventh electric telescopic rod 73, the eighth electric telescopic rod 75, the second servo motor 81, the ninth electric telescopic rod 83, the tenth electric telescopic rod 85 and the third electromagnet 87 one by one, and the control switch group 9 controls the first servo motor 13, the electric heating tube 21, the first electric telescopic rod 41, the first electromagnet 43, the second electric telescopic rod 51, the third electric telescopic rod 53, the fourth electric telescopic rod 55, the fifth electric telescopic rod 61, the sixth electric telescopic rod 71, the seventh electric telescopic rod 73, the eighth electric telescopic rod 75, the second servo motor 81, the ninth electric telescopic rod 83, The tenth electric telescopic rod 85 and the third electromagnet 87 are both adopted by the common method in the prior art.

When in use: the lower die required for forging and pressing is arranged on a first supporting plate 42 in a lower forging and pressing mounting structure 4, the upper die required for forging and pressing is arranged at the bottom end of a first mounting plate 56 in an upper forging and pressing mounting structure 5, the lower die used for splitting is arranged on the surface of a second supporting plate 62, the upper die used for splitting is arranged at the bottom end of a second mounting plate 76, the material required to be processed is placed on an arc-shaped groove 12 of a conveying chain 11, the material is conveyed into the heating box 2 by controlling the work of a first servo motor 13, the material is heated by controlling the work of an electric heating pipe 21, then the material is positioned above the lower forging and pressing mounting structure 4 by controlling the work of a first electric telescopic rod 41, and the material is positioned in the lower forging and pressing mounting structure, then, the material is forged by controlling the operation of the second electric telescopic rod 51, the third electric telescopic rod 53 and the fourth electric telescopic rod 55, then the material is positioned above the material splitting lower die mounting structure 6 by controlling the operation of the first servo motor 13, the material is positioned in the material splitting lower die by controlling the operation of the fifth electric telescopic rod 61, the material is positioned in the material splitting lower die by controlling the operation of the sixth electric telescopic rod 71, the seventh electric telescopic rod 73 and the eighth electric telescopic rod 75, thereby performing the material splitting operation, when the sampling inspection is required, the operation of the second servo motor 81 is controlled, then the operation of the ninth electric telescopic rod 83 and the tenth electric telescopic rod 85 are controlled, thereby adjusting the position of the third mounting plate 86, then the third electromagnet 87 is operated, thus, the processed material is taken.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides an integrative forging press of forging and pressing rough blank for pliers processing, includes conveyer (1) and heating cabinet (2), its characterized in that: the heating box (2) is arranged outside one end of the conveying device (1), a bottom plate (3) is arranged at the bottom end of the conveying device (1) on the side face of the heating box (2), a forging and pressing lower die mounting structure (4) and a material splitting lower die mounting structure (6) are arranged on the face, corresponding to the conveying device (1), of the bottom plate (3) on one side of the conveying device (1), a forging and pressing upper die mounting structure (5) is connected to the position, corresponding to the lower die mounting structure (4), of the surface of the bottom plate (3) on one side of the conveying device (1), an upper material splitting die mounting structure (7) is connected to the position, corresponding to the material splitting lower die mounting structure (6), of the surface of the bottom plate (3) on the other side of the conveying device (1), a material taking structure (8) is connected to the surface of the bottom plate (3) on the;

the conveying device (1) comprises conveying chains (11), the conveying chains (11) are arranged at two ends of a supporting frame of the conveying device (1), arc-shaped grooves (12) are formed in the surface of the conveying chains (11), and the arc-shaped grooves (12) are uniformly distributed on the surface of the conveying chains (11);

electric heating tubes (21) are arranged in the heating boxes (2) above and below the conveying chain (11), and the output end of the control switch group (9) is electrically connected with the input end of the electric heating tubes (21);

the forging and pressing lower die mounting structure (4) comprises a first electric telescopic rod (41) arranged on the surface of the bottom plate (3) below the conveying chain (11), a first supporting plate (42) is arranged at the top end of the first electric telescopic rod (41), and the output end of the control switch group (9) is electrically connected with the input end of the first electric telescopic rod (41);

the forging and pressing upper die mounting structure (5) comprises a second electric telescopic rod (51) arranged on the surface of the bottom plate (3), a first connecting block (52) is arranged at the top end of the second electric telescopic rod (51), the first connecting block (52) is connected with a second connecting block (54) through a third electric telescopic rod (53), the second connecting block (54) is connected with a first mounting plate (56) through a fourth electric telescopic rod (55), and the output end of the control switch group (9) is electrically connected with the input ends of the second electric telescopic rod (51), the third electric telescopic rod (53) and the fourth electric telescopic rod (55);

the material splitting lower die mounting structure (6) comprises a fifth electric telescopic rod (61) arranged on the surface of the bottom plate (3) below the conveying chain (11), a second supporting plate (62) is arranged on the surface of the fifth electric telescopic rod (61), and the output end of the control switch group (9) is electrically connected with the input end of the fifth electric telescopic rod (61);

splitting and feeding the upper die mounting structure (7) including establishing sixth electric telescopic handle (71) on bottom plate (3) surface, the top of sixth electric telescopic handle (71) is equipped with third connecting block (72), third connecting block (72) are connected with fourth connecting block (74) through seventh electric telescopic handle (73), fourth connecting block (74) are connected with second mounting panel (76) through eighth electric telescopic handle (75), the input of sixth electric telescopic handle (71), seventh electric telescopic handle (73) and eighth electric telescopic handle (75) is connected to the output electricity of control switch group (9).

2. The integrated forging press for forging and pressing rough blanks for pliers processing as claimed in claim 1, wherein: the side of the conveying device (1) is connected with a first servo motor (13), and the output end of the control switch group (9) is electrically connected with the input end of the first servo motor (13).

3. The integrated forging press for forging and pressing rough blanks for pliers processing as claimed in claim 1, wherein: the side of heating cabinet (2) is equipped with observation window (22), the inside of heating cabinet (2) is equipped with reflector (23) corresponding to the position department of observation window (22), be equipped with thermometer (24) on the face that observation window (22) correspond heating cabinet (2) inner chamber.

4. The integrated forging press for forging and pressing rough blanks for pliers processing as claimed in claim 1, wherein: the inside of first backup pad (42) is equipped with first electro-magnet (43), the input of first electro-magnet (43) is connected to the output electricity of control switch group (9).

5. The integrated forging press for forging and pressing rough blanks for pliers processing as claimed in claim 1, wherein: a second electromagnet (63) is arranged in the second supporting plate (62), and the output end of the control switch group (9) is electrically connected with the input end of the second electromagnet (63).

6. The integrated forging press for forging and pressing rough blanks for pliers processing as claimed in claim 1, wherein: the material taking structure (8) comprises a second servo motor (81) arranged on the surface of the bottom plate (3), a first connecting plate (82) is arranged at the top end of an output shaft of the second servo motor (81), and the output end of the control switch group (9) is electrically connected with the input end of the second servo motor (81).

7. The forging and pressing integrated rough blank forging press for pliers processing as claimed in claim 6, wherein: the first connecting plate (82) is connected with a second connecting plate (84) through a ninth electric telescopic rod (83), and the input end of the ninth electric telescopic rod (83) is electrically connected with the output end of the control switch group (9).

8. The integrated forging press for forging and pressing rough blanks for pliers processing as claimed in claim 7, wherein: the second connecting plate (84) is connected with a third mounting plate (86) through a tenth electric telescopic rod (85), a third electromagnet (87) is arranged inside the third mounting plate (86), and the input ends of the tenth electric telescopic rod (85) and the third electromagnet (87) are electrically connected with the output end of the control switch group (9).

9. The forging and pressing integrated rough blank forging press for pliers processing as claimed in claim 6, wherein: be equipped with spacing groove (88) on outside bottom plate (3) of second servo motor (81), the position department that the bottom of first connecting plate (82) corresponds spacing groove (88) is equipped with support column (89), support column (89) and the tangent setting in bottom of spacing groove (88).