CN214640733U - Die forging cutting device - Google Patents

Abstract

The utility model discloses a mould forging cutting device, including base and two supports of setting on the base, be provided with longitudinal movement device on the support, be provided with the lateral shifting device on the longitudinal movement device, the lateral shifting device sets up in the base, another support one side is provided with cutting mechanism, the longitudinal movement device includes longitudinal movement subassembly and the runner assembly of setting on the longitudinal movement subassembly, be provided with fixed sleeve on the runner assembly, set up the cavity fixed block on the fixed sleeve, be provided with fixed subassembly in the cavity fixed block, fixed subassembly includes telescopic cylinder, the telescopic link, first fly leaf, the second fly leaf, bracing piece and semi-circular fixed block, telescopic cylinder's flexible end is connected with the telescopic link, telescopic cylinder's one end is kept away from to the telescopic link runs through out the cavity fixed block and connects in first fly leaf. The device can alleviate the vibration in the cutting, has good fixed effect, can prevent to appear becoming flexible in the cutting process, causes the forging to damage.

Description

Die forging cutting device

Technical Field

The utility model relates to a mould forging field especially relates to a mould forging cutting device.

Background

With the development of society, various molds and tools for obtaining required products by injection molding, blow molding, extrusion, die casting or forging molding, smelting, stamping and other methods are used in the industrial production of molds. In short, a die is a tool for manufacturing a molded article, the tool is composed of various parts, different dies are composed of different parts, the processing of the shape of the article is realized mainly through the change of the physical state of a molded material, the die is called as an industrial mother, and a forging is a workpiece or a blank obtained through forging deformation of a metal blank. The mechanical properties of the metal blank can be changed by applying pressure to the metal blank to generate plastic deformation. The forging is divided into cold forging and warm forging and hot forging according to the temperature of the blank during processing, wherein the cold forging is generally processed at room temperature, the hot forging is processed at a temperature higher than the recrystallization temperature of the metal blank, and a cutting device is used in the processing of the die forging, and the cutting device is a processing method for cutting redundant material layers on the blank or a workpiece into chips by using cutting tools (including a cutter, a grinding tool and an abrasive material) so as to enable the workpiece to obtain a specified geometric shape, size and surface quality.

The existing die forging cutting device mainly comprises a workbench and a cutting device, wherein a forging is fixed by a fixing device on the workbench, and then cutting is carried out by the cutting device.

Although the existing die forging cutting device can fix the forging, the die forging cutting device can vibrate during cutting, so that the fixing effect of the fixing device is reduced due to the vibration, the forging can slide seriously, and the damage to the forging is caused.

SUMMERY OF THE UTILITY MODEL

The utility model provides a mould forging cutting device has solved prior art, but in the cutting, can vibrate, and the vibration can make fixing device's fixed effect reduce like this, can seriously make the forging slide, causes the technical problem of the damage of forging.

The technical scheme of the utility model is realized like this:

the utility model provides a mould forging cutting device, includes the base and sets up two supports on the base, one be provided with longitudinal movement device on the support, be provided with the lateral shifting device on the longitudinal movement device, the lateral shifting device sets up in the base, another support one side is provided with cutting mechanism.

The longitudinal moving device comprises a longitudinal moving assembly and a rotating assembly arranged on the longitudinal moving assembly, wherein a fixing sleeve is arranged on the rotating assembly, a hollow fixing block is arranged on the fixing sleeve, and a fixing assembly is arranged in the hollow fixing block.

The fixing component comprises a telescopic cylinder, a telescopic rod, a first movable plate, a second movable plate, a supporting rod and a semicircular fixing block, the telescopic end of the telescopic cylinder is connected with the telescopic rod, the telescopic cylinder is positioned on the hollow fixed block, one end of the telescopic rod far away from the telescopic cylinder penetrates through the hollow fixed block and is connected with the first movable plate, a fixed rod is movably arranged on the first movable plate, one end of the fixed rod is connected with the supporting block, one side of the supporting block is movably connected with the inner wall of the hollow fixed block, the other end of the fixed rod penetrates out of the first movable plate and is connected with the second movable plate, and a spring is sleeved on the fixed rod and positioned between the first movable plate and the second movable plate, the bottom of the second movable plate is provided with the supporting rod, and the bottom of the supporting rod is connected with the semicircular fixed block.

Preferably, the longitudinal movement assembly comprises a first motor, a first threaded screw rod and a first threaded sleeve, the output end of the first motor is connected with the first threaded screw rod, one end of the first threaded screw rod, which is far away from the first motor, penetrates through the support, the first threaded sleeve is arranged on the first threaded screw rod, one side of the first threaded sleeve is connected with the first sliding block, and one side of the first threaded sleeve, which is far away from the first sliding block, is connected with the rotating assembly.

Preferably, the bracket is provided with a first sliding groove, and the first sliding block is arranged in the first sliding groove.

Preferably, the rotating assembly comprises a second motor and a rotating shaft arranged on the output end of the second motor, one side of the second motor is connected with the first sliding block, and one end, far away from the second motor, of the rotating shaft is connected with the fixed sleeve.

Preferably, the transverse moving assembly comprises a third motor, a third threaded screw rod and a third threaded sleeve, the output end of the third motor is connected with the third threaded screw rod, one end, far away from the third motor, of the third threaded screw rod penetrates through the base, the third threaded sleeve is arranged on the third threaded screw rod, a third sliding block is arranged on the third threaded sleeve, and the support is arranged on the third sliding block.

Preferably, a third sliding groove is formed in the upper surface of the base, and the third sliding block is arranged in the third sliding groove.

The utility model has the advantages that: the support is supported by the base, the longitudinal moving device is supported by the support, the transverse moving device drives the longitudinal moving device to transversely move, the longitudinal moving device is used for longitudinal movement, the fixing component is used for fixing the forge piece, the longitudinal moving component is used for driving the rotating component seat to longitudinally move, the fixed sleeve is driven to rotate by the rotating component, and then cutting is carried out by the cutting mechanism, when the fixing is carried out, the telescopic cylinder drives the telescopic rod to enable the first movable plate to drive the fixed rod to enable the supporting block to move on the inner wall of the hollow fixed block, when the forging piece slides to the position where the forging piece can not slide, the first movable plate extrudes the spring to push the second movable plate to enable the support rod to drive the semicircular fixed block to fix the forging piece, when vibration is generated during cutting, the damping effect is achieved through the elastic force of the spring, and the fixing effect is improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic block diagram of the overall structure of a die forging cutting device of the present invention;

FIG. 2 is a schematic structural view of an internal cross-sectional view of the die forging cutting device of the present invention;

FIG. 3 is a schematic structural view of a fixing sleeve in the die forging cutting device of the present invention;

FIG. 4 is a schematic structural view of a fixing assembly of the die forging cutting device of the present invention;

FIG. 5 is a schematic structural view of a bracket of the die forging cutting device of the present invention;

fig. 6 is the utility model relates to a structure schematic diagram of base in mould forging cutting device.

Reference numerals: 1. a base; 101. a support; 102. fixing the sleeve; 103. a hollow fixed block; 104. a telescopic cylinder; 105. a telescopic rod; 106. a first movable plate; 107. a second movable plate; 108. a support bar; 109. a semicircular fixed block; 110. fixing the rod; 111. a support block; 112. a spring; 201. a first motor; 202. a first threaded lead screw; 203. a first threaded sleeve; 204. a first slider; 205. a first chute; 206. a second motor; 207. a rotating shaft; 208. a third motor; 209. a third threaded screw; 210. a third thread bush; 211. a third slider; 212. and a third chute.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-6, the utility model provides a mould forging cutting device's technical scheme:

a die forging cutting device comprises a base 1 and two supports 101 arranged on the base 1, wherein a longitudinal moving device is arranged on one support 101, a transverse moving device is arranged on the longitudinal moving device, the transverse moving device is arranged in the base 1, a cutting mechanism is arranged on one side of the other support 101, the longitudinal moving device comprises a longitudinal moving component and a rotating component arranged on the longitudinal moving component, a fixed sleeve 102 is arranged on the rotating component, a hollow fixed block 103 is arranged on the fixed sleeve 102, a fixed component is arranged in the hollow fixed block 103, the support 101 is supported through the base 1, the longitudinal moving device is supported through the support 101, the longitudinal moving device is driven by the transverse moving device to move transversely, the longitudinal moving device is used for moving longitudinally, a forging is fixed through the fixed component, and the rotating component is driven by the longitudinal moving component to move longitudinally, the fixed sleeve 102 is driven to rotate by the rotating assembly, and then is cut by the cutting mechanism.

The fixing component comprises a telescopic cylinder 104, a telescopic rod 105, a first movable plate 106, a second movable plate 107, a support rod 108 and a semicircular fixed block 109, the telescopic end of the telescopic cylinder 104 is connected with the telescopic rod 105, the telescopic cylinder 104 is positioned on the hollow fixed block 103, one end of the telescopic rod 105 far away from the telescopic cylinder 104 penetrates through the hollow fixed block 103 and is connected with the first movable plate 106, a fixed rod 110 is movably arranged on the first movable plate 106, one end of the fixed rod 110 is connected with the support block 111, one side of the support block 111 is movably connected with the inner wall of the hollow fixed block 103, the other end of the fixed rod 110 penetrates through the first movable plate 106 and is connected with the second movable plate 107, a spring 112 is sleeved on the fixed rod 110, the spring 112 is positioned between the first movable plate 106 and the second movable plate 107, the support rod 108 is arranged at the bottom of the second movable plate 107, and the bottom of the support rod 108 is connected with the semicircular fixed block 109, when the fixing is performed, the telescopic cylinder 104 drives the telescopic rod 105 to enable the first movable plate 106 to drive the fixed rod 110 to enable the supporting block 111 to move on the inner wall of the hollow fixed block 103, when the hollow fixed block slides to a position where the hollow fixed block cannot slide, the first movable plate 106 extrudes the spring 112 to enable the supporting rod 108 to drive the semicircular fixed block 109 to fix the forge piece, when the cutting generates vibration, the damping effect is achieved through the elastic force of the spring 112, and the fixing effect is improved.

The longitudinal moving assembly comprises a first motor 201, a first thread screw 202 and a first thread sleeve 203, the output end of the first motor 201 is connected with the first thread screw 202, one end of the first thread screw 202, far away from the first motor 201, penetrates through the bracket 101, the first thread screw 202 is provided with the first thread sleeve 203, one side of the first thread sleeve 203 is connected with a first sliding block 204, one side of the first sliding block 204, far away from the first thread sleeve 203, is connected with the rotating assembly, the bracket 101 is provided with a first sliding groove 205, the first sliding groove 205 is internally provided with the first sliding block 204, the rotating assembly comprises a second motor 206 and a rotating shaft 207 arranged on the output end of the second motor 206, one side of the second motor 206 is connected with the first sliding block 204, one end of the rotating shaft 207, far away from the second motor 206, is connected with the fixed sleeve 102, the first thread screw 202 is driven by the first motor 201, so that the first thread sleeve 203 drives the first sliding block 204 to not slide in the first sliding groove 205, then the first sliding block 204 drives the second motor 206 to move longitudinally, and then the second motor 206 drives the rotating shaft 207 to rotate the fixed sleeve 102.

The transverse moving assembly comprises a third motor 208, a third threaded screw rod 209 and a third threaded sleeve 210, the output end of the third motor 208 is connected with the third threaded screw rod 209, one end, far away from the third motor 208, of the third threaded screw rod 209 penetrates through the base 1, the third threaded screw rod 209 is provided with the third threaded sleeve 210, the third threaded sleeve 210 is provided with a third sliding block 211, the third sliding block 211 is provided with a support 101, the upper surface of the base 1 is provided with a third sliding groove 212, the third sliding groove 212 is internally provided with the third sliding block 211, the third motor 208 drives the third threaded screw rod 209 to enable the third threaded sleeve 210 to drive the third sliding block 211 to slide in the third sliding groove 212, and the third sliding block 211 drives the support 101 to move transversely.

The utility model discloses a theory of operation and use flow: firstly, a support 101 is supported by a base 1, a longitudinal moving device is supported by the support 101, the longitudinal moving device is driven by the transverse moving device to transversely move, the longitudinal moving device longitudinally moves, a forge piece is fixed by a fixing component, a rotating component is driven by the longitudinal moving component to longitudinally move, a fixing sleeve 102 is driven by the rotating component to rotate, then cutting is carried out by a cutting mechanism, when the fixing is carried out, a telescopic cylinder 104 drives a telescopic rod 105 to enable a first movable plate 106 to drive a fixing rod 110 to enable a supporting block 111 to move on the inner wall of a hollow fixing block 103, when the fixing is slid to a position where the fixing cannot slide, the first movable plate 106 extrudes a spring 112 to enable a second movable plate 107 to enable a supporting rod 108 to drive a semicircular fixing block 109 to fix the forge piece, and when the cutting generates vibration, the shock absorption effect is achieved through the elasticity of the spring 112, the fixing effect is improved, the third motor 208 drives the third thread screw rod 209 to enable the third thread sleeve 210 to drive the third sliding block 211 to slide in the third sliding groove 212, the third sliding block 211 drives the support 101 to move transversely, the first motor 201 drives the first thread screw rod 202 to enable the first thread sleeve 203 to drive the first sliding block 204 to not slide in the first sliding groove 205, then the first sliding block 204 drives the second motor 206 to move longitudinally, then the second motor 206 drives the rotating shaft 207 to enable the fixed sleeve 102 to rotate, and then the fixed sleeve is machined through the cutting mechanism.

The basic principles, main features and advantages of the present invention have been shown and described above, and it should be understood by those skilled in the art that the present invention is not limited by the above embodiments, and only the preferred embodiments of the present invention are described in the above embodiments and the description, and the present invention is not limited by the above embodiments, and the present invention can also have various changes and improvements, which fall within the scope of the claimed invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. The utility model provides a mould forging cutting device which characterized in that: comprises a base (1) and two brackets (101) arranged on the base (1); a longitudinal moving device is arranged on one bracket (101); the longitudinal moving device is provided with a transverse moving device; the transverse moving device is arranged in the base (1); one side of the other bracket (101) is provided with a cutting mechanism;

the longitudinal moving device comprises a longitudinal moving assembly and a rotating assembly arranged on the longitudinal moving assembly; a fixed sleeve (102) is arranged on the rotating assembly; a hollow fixing block (103) is arranged on the fixing sleeve (102); a fixing component is arranged in the hollow fixing block (103);

the fixing assembly comprises a telescopic cylinder (104), a telescopic rod (105), a first movable plate (106), a second movable plate (107), a supporting rod (108) and a semicircular fixing block (109); the telescopic end of the telescopic cylinder (104) is connected with the telescopic rod (105); the telescopic cylinder (104) is positioned on the hollow fixed block (103); one end of the telescopic rod (105) far away from the telescopic cylinder (104) penetrates through the hollow fixed block (103) and is connected with the first movable plate (106); the first movable plate (106) is movably provided with a fixed rod (110); one end of the fixing rod (110) is connected with the supporting block (111); one side of the supporting block (111) is movably connected with the inner wall of the hollow fixing block (103); the other end of the fixed rod (110) penetrates out of the first movable plate (106) and is connected with the second movable plate (107), and a spring (112) is sleeved on the fixed rod (110); the spring (112) is located between the first movable plate (106) and the second movable plate (107); the bottom of the second movable plate (107) is provided with the supporting rod (108); the bottom of the supporting rod (108) is connected with the semicircular fixing block (109).

2. The die forging cutting apparatus of claim 1, wherein: the longitudinal moving assembly comprises a first motor (201), a first threaded screw rod (202) and a first threaded sleeve (203), the output end of the first motor (201) is connected with the first threaded screw rod (202), one end, far away from the first motor (201), of the first threaded screw rod (202) penetrates through the support (101), the first threaded sleeve (203) is arranged on the first threaded screw rod (202), one side of the first threaded sleeve (203) is connected with a first sliding block (204), and one side, far away from the first threaded sleeve (203), of the first sliding block (204) is connected with the rotating assembly.

3. The die forging cutting apparatus of claim 2, wherein: a first sliding groove (205) is formed in the support (101), and the first sliding block (204) is arranged in the first sliding groove (205).

4. The die forging cutting apparatus of claim 2, wherein: the rotating assembly comprises a second motor (206) and a rotating shaft (207) arranged on the output end of the second motor (206), one side of the second motor (206) is connected with the first sliding block (204), and one end, far away from the second motor (206), of the rotating shaft (207) is connected with the fixed sleeve (102).

5. The die forging cutting apparatus of claim 1, wherein: the transverse moving assembly comprises a third motor (208), a third threaded screw rod (209) and a third threaded sleeve (210), the output end of the third motor (208) is connected with the third threaded screw rod (209), the third threaded screw rod (209) is far away from one end of the third motor (208) penetrates through the base (1), the third threaded screw rod (209) is provided with the third threaded sleeve (210), a third sliding block (211) is arranged on the third threaded sleeve (210), and the third sliding block (211) is provided with the support (101).

6. The die forging cutting apparatus of claim 5, wherein: the upper surface of the base (1) is provided with a third sliding groove (212), and the third sliding block (211) is arranged in the third sliding groove (212).

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