CN220239952U - Multi-mode synchronous hot forging device for gear machining - Google Patents
Multi-mode synchronous hot forging device for gear machining Download PDFInfo
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- CN220239952U CN220239952U CN202321295561.XU CN202321295561U CN220239952U CN 220239952 U CN220239952 U CN 220239952U CN 202321295561 U CN202321295561 U CN 202321295561U CN 220239952 U CN220239952 U CN 220239952U
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- 238000005242 forging Methods 0.000 title claims abstract description 33
- 230000001360 synchronised effect Effects 0.000 title claims abstract description 15
- 238000003754 machining Methods 0.000 title claims abstract description 14
- 210000001503 joint Anatomy 0.000 claims description 25
- 238000000034 method Methods 0.000 abstract description 4
- 238000011031 large-scale manufacturing process Methods 0.000 abstract 1
- 239000002184 metal Substances 0.000 description 6
- 238000009434 installation Methods 0.000 description 4
- 238000004519 manufacturing process Methods 0.000 description 2
- 230000009286 beneficial effect Effects 0.000 description 1
- 230000005540 biological transmission Effects 0.000 description 1
- 238000010438 heat treatment Methods 0.000 description 1
- 238000003825 pressing Methods 0.000 description 1
- 210000002268 wool Anatomy 0.000 description 1
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Abstract
The utility model provides a multimode synchronous hot forging device for gear machining, which relates to the technical field of gear machining and aims to solve the problems that when the existing gear hot forging device is used, only one gear part can be forged at a time, the use efficiency of forging equipment is low and the forging equipment is not suitable for large-scale production and use, and comprises a mounting mechanism; the mounting mechanism comprises a main body, a guide rod and a side groove. During the use, pull splint to the both sides of fly leaf, then install the both sides of fly leaf with two sets of die holders, and then make three die holders arrange in proper order on the fly leaf, through setting up like this, can forge out three sets of gears simultaneously when processing, through setting up movable mounting's die holder, still can install the lower module that has three different shape recesses of group when using, and then make this device when processing, can process out three sets of gears with the model simultaneously, can process out three sets of gears of different models again.
Description
Technical Field
The utility model belongs to the technical field of gear machining, and particularly relates to a multi-mode synchronous hot forging device for gear machining.
Background
The gear is a common transmission part, and is widely applied to various mechanical equipment, hot die forging is one of forging processing, and is a precision forging method, after heating a metal blank, the metal blank is forged into a workpiece with the same shape and size as a die by using forging equipment.
Based on the prior art discovery, the machining efficiency of current gear hot die forging processingequipment, when using, only can forge a gear spare part once, this kind of forging processing equipment use inefficiency, unsuitable mass production uses, and current gear hot die forging processingequipment's practicality is poor, when using, can only carry out single hot forging processing to the gear, can't carry out the processing of trompil to the gear in step.
Disclosure of Invention
In order to solve the technical problem, the utility model provides a synchronous hot forging device of multimode for gear processing to solve the machining efficiency of current gear hot forging processingequipment, when using, only can forge a gear spare part once, this kind of forging processing equipment uses inefficiency, is unsuitable for mass production and uses, and current gear hot forging processingequipment's practicality is poor, when using, can only carry out single hot forging processing to the gear, can't carry out the problem of the processing of trompil to the gear in step.
The utility model relates to a purpose and efficiency that is used for synchronous hot forging device of multimode of gear processing is reached by following concrete technical means:
a multi-die synchronous hot forging apparatus for gear machining, comprising:
a mounting mechanism; the mounting mechanism comprises a main body, a guide rod and a side groove, wherein a rectangular groove is formed in the inner side of the main body; the guide rods are arranged in four groups in total, and are symmetrically arranged at the two sides of the main body; the side grooves are arranged in two groups, the side grooves are symmetrically arranged on two sides of the inside of the main body, and screw rods are rotatably arranged in the side grooves; the mounting mechanism is provided with a sliding component, the mounting plate of the sliding component is arranged at the bottom side of the lifting plate at the upper end of the main body, the middle position of the mounting plate is rotationally connected with the lifting plate, and the limit screw on the outer side of the mounting plate is in sliding connection with the guide groove in the lifting plate.
Further, the mounting mechanism includes: lifting plate and guide slot; the lifting plate is arranged at the upper end of the main body, is in sliding connection with the guide rod, and is provided with a circular through groove at the middle side; the guide grooves are arranged in two groups, the guide grooves are symmetrically arranged at the inner ends of two sides of the lifting plate, and the guide grooves penetrate through two sides of the lifting plate.
Further, the mounting mechanism further includes: the movable plate, the butt joint groove and the clamping plate; the movable plate is movably arranged in the rectangular groove in the main body, two sides of the movable plate are slidably arranged in the side grooves, and the movable plate is in threaded connection with the screw rod in the side grooves; the butt joint grooves are arranged in three groups, are equidistantly formed in the inner side of the movable plate, and penetrate through two sides of the movable plate; the clamping plates are provided with two groups in total, and the clamping plates are slidably mounted on two sides of the movable plate through elastic pieces.
Further, the mounting mechanism further includes: the lower die holder and the butt joint block; the lower die holder is arranged at the upper end of the movable plate, and is positioned at the middle position of the two groups of clamping plates; the butt joint block is arranged at the bottom of the lower die holder and is inserted into the butt joint groove.
Further, the sliding assembly includes: the device comprises a mounting plate, a limit screw and a chute; the top of the mounting plate is provided with a cylindrical structure; the limit screws are provided with two groups in total, and the limit screws are fixedly arranged at the upper ends of two sides of the mounting plate; the spout is seted up in the inboard bottom of mounting panel, and the spout runs through the both sides of mounting panel.
Further, the sliding assembly further includes: the upper die holder and the fixing hole; the upper die holder is arranged at the bottom side of the mounting plate, and the top of the upper die holder is in sliding connection with the sliding groove; the fixed holes are provided with two groups, and the fixed holes are symmetrically arranged at two sides of the upper end of the upper die holder.
Further, the sliding assembly further includes: an inner groove and a locking piece; six groups of inner grooves are arranged in total, the inner grooves are symmetrically arranged on two sides of the mounting plate, and the inner grooves are communicated with the sliding grooves; the locking piece is slidably mounted in the inner groove, and the tail end of the locking piece penetrates through the inner groove and is inserted into the fixing hole.
Compared with the prior art, the utility model has the following beneficial effects:
1. in the device, a mounting mechanism is arranged, a movable plate is movably mounted in a main body, two ends of the movable plate are in threaded connection with screw rods in side grooves, three groups of rectangular butt joint grooves are formed in the movable plate, clamping plates are slidably mounted on two sides of the movable plate through elastic pieces, a lower die holder is mounted at the middle position of the movable plate, butt joint blocks on the bottom side of the lower die holder are inserted into the butt joint grooves, when the device is used, the clamping plates are pulled to two sides of the movable plate, two groups of lower die holders are mounted on two sides of the movable plate, and then three groups of lower die holders are sequentially arranged on the movable plate, three groups of gears can be forged and machined simultaneously when the device is used, and a lower die set with three groups of grooves in different shapes can be mounted when the device is used, so that when the device is used, three groups of gears in the same type can be machined simultaneously, and three groups of gears in different types can be machined;
2. in this device, set up the slip subassembly, set up T shape spout at the inside bottom side of mounting panel, set up six sets of rectangle inside grooves at the both ends of mounting panel, be linked together inside groove slidable mounting locking piece, during the use, install the bottom side of mounting panel with the upper die base, make upper end and spout sliding connection of upper die base, install two sets of upper die bases that have different forging heads again in the both sides of mounting panel, and then insert the terminal of locking piece into the fixed orifices of upper die base, through setting up like this, can carry out the processing of different purposes to three different gears of group simultaneously when single processing, and still through setting up movable mounting's upper die base, can be nimble and quick change die holder when this device carries out different process processing.
Drawings
Fig. 1 is a schematic perspective view of the present utility model.
Fig. 2 is a schematic exploded view of the present utility model.
Fig. 3 is a schematic cross-sectional view of the mounting mechanism of the present utility model.
Fig. 4 is a schematic cross-sectional view of a slide assembly of the present utility model.
1. A mounting mechanism;
101. a main body; 1011. a guide rod; 1012. a side groove;
102. a lifting plate; 1021. a guide groove;
103. a movable plate; 1031. a butt joint groove; 1032. a clamping plate;
104. a lower die holder; 1041. a butt joint block;
2. a sliding assembly;
201. a mounting plate; 2011. a limit screw; 2012. a chute;
202. an upper die holder; 2021. a fixing hole;
203. an inner tank; 2031. a locking piece.
Detailed Description
Embodiments of the present utility model are described in further detail below with reference to the accompanying drawings and examples.
Examples:
as shown in fig. 1 to 4:
the utility model provides a multimode synchronous hot forging device for gear machining, which comprises the following components: a mounting mechanism 1; the mounting mechanism 1 comprises a main body 101, a guide rod 1011 and a side groove 1012, wherein a rectangular groove is arranged on the inner side of the main body 101; four groups of guide rods 1011 are arranged in total, and the guide rods 1011 are symmetrically arranged at two side positions of the main body 101; the side grooves 1012 are provided with two groups, the side grooves 1012 are symmetrically arranged on two sides of the inside of the main body 101, and screw rods are rotatably arranged in the side grooves 1012; the installation mechanism 1 is provided with a sliding component 2, an installation plate 201 of the sliding component 2 is arranged on the bottom side of the lifting plate 102 at the upper end of the main body 101, the middle position of the installation plate 201 is rotationally connected with the lifting plate 102, and a limit screw 2011 on the outer side of the installation plate 201 is in sliding connection with a guide groove 1021 in the lifting plate 102.
As shown in fig. 2 to 3, wherein the mounting mechanism 1 comprises: a lifting plate 102 and a guide slot 1021; the lifting plate 102 is arranged at the upper end of the main body 101, the lifting plate 102 is in sliding connection with the guide rod 1011, and a circular through groove is formed in the middle side of the lifting plate 102; the two groups of guide grooves 1021 are arranged in total, the guide grooves 1021 are symmetrically arranged at the inner ends of the two sides of the lifting plate 102, and the guide grooves 1021 penetrate the two sides of the lifting plate 102; the rectangular lifting plate 102 is arranged, the lifting plate 102 is connected with the hydraulic machine, the hydraulic machine can push the lifting plate 102 to move the mounting plate 201 with the upper die holder 202, an arc-shaped guide groove 1021 is arranged, a limit screw 2011 penetrates through the guide groove 1021, and the rectangular lifting plate 102 can play a guiding role when the mounting plate 201 rotates on the lifting plate 102, and the movable plate 103, the butt joint groove 1031 and the clamping plate 1032; the movable plate 103 is movably installed in a rectangular groove in the main body 101, both sides of the movable plate 103 are slidably installed in the side grooves 1012, and the movable plate 103 is in threaded connection with a screw in the side grooves 1012; the butting grooves 1031 are provided with three groups in total, the butting grooves 1031 are equidistantly formed in the inner side of the movable plate 103, and the butting grooves 1031 penetrate through two sides of the movable plate 103; the clamping plates 1032 are provided with two groups in total, and the clamping plates 1032 are slidably mounted to both sides of the movable plate 103 through elastic members; the movable plate 103 is rectangular, three groups of lower die holders 104 for processing gears can be arranged on the movable plate 103, rectangular butting grooves 1031 are arranged, the lower die holders 104 can be fixed on the movable plate 103 by inserting butting blocks 1041 into the butting grooves 1031, rectangular clamping plates 1032 are arranged, and the lower die holders 104 can be more stable on the movable plate 103 by jacking the clamping plates 1032 to the outer ends of the lower die holders 104, wherein the lower die holders 104 and the butting blocks 1041 are arranged; the lower die holder 104 is arranged at the upper end of the movable plate 103, and the lower die holder 104 is positioned at the middle position of the two groups of clamping plates 1032; the butt joint block 1041 is arranged at the bottom of the lower die holder 104, the butt joint block 1041 is inserted into the butt joint groove 1031, the rectangular lower die holder 104 is arranged, the gear can be subjected to hot forging processing by using the lower die holder 104, the rectangular butt joint block 1041 is arranged, and the lower die holder 104 can be quickly fixed on the movable plate 103 by inserting the butt joint block 1041 into the butt joint groove 1031.
As shown in fig. 4, wherein the sliding assembly 2 comprises: mounting plate 201, limit screw 2011 and chute 2012; the top of the mounting plate 201 is provided with a cylindrical structure; the limit screws 2011 are provided with two groups in total, and the limit screws 2011 are fixedly arranged at the upper ends of two sides of the mounting plate 201; the chute 2012 is formed at the bottom of the inner side of the mounting plate 201, and the chute 2012 penetrates through the two sides of the mounting plate 201; a rectangular mounting plate 201 is arranged, an upper die holder 202 can be arranged on the mounting plate 201, a limit screw 2011 is arranged, the limit screw 2011 is slidably arranged in a guide groove 1021, the limit screw can play a guiding role when the mounting plate 201 rotates on the lifting plate 102, a T-shaped chute 2012 is arranged, and the upper die holder 202 can be slidably arranged at the bottom of the mounting plate 201 through the chute 2012, and the upper die holder 202 and a fixing hole 2021; the upper die holder 202 is arranged at the bottom side of the mounting plate 201, and the top of the upper die holder 202 is connected with the chute 2012 in a sliding manner; two groups of fixing holes 2021 are arranged, and the fixing holes 2021 are symmetrically arranged at two side positions of the upper end of the upper die holder 202; providing an upper die holder 202, wherein a gear can be obtained by pressing a metal plate into a groove in the lower die holder 104 by the upper die holder 202, a rectangular fixing hole 2021 is provided, and the upper die holder 202 can be fixed on the mounting plate 201 by inserting the end of a locking piece 2031 into the fixing hole 2021, an inner groove 203 and the locking piece 2031; the inner groove 203 is provided with six groups in total, the inner groove 203 is symmetrically arranged on two sides of the mounting plate 201, and the inner groove 203 is communicated with the sliding groove 2012; the lock piece 2031 is slidably mounted in the inner groove 203, and the end of the lock piece 2031 is inserted into the fixing hole 2021 through the inner groove 203, and the rectangular inner groove 203 is provided, so that the lock piece 2031 can be slidably mounted to the inner ends of both sides of the mounting plate 201 through the inner groove 203, and the T-shaped lock piece 2031 is provided, and the upper die holder 202 can be fixed to the mounting plate 201 by inserting the end of the lock piece 2031 into the fixing hole 2021.
Specific use and action of the embodiment:
in the utility model, as shown in fig. 1-4, guide rods 1011 are arranged at two ends of a main body 101, a lifting plate 102 is slidably mounted at the upper end of the main body 101 through the guide rods 1011, the upper end of the lifting plate 102 is fixed with a hydraulic press, a mounting plate 201 is rotatably mounted at the bottom of the lifting plate 102, then an upper die holder 202 is inserted into a chute 2012 at the bottom of the mounting plate 201, a locking piece 2031 in the mounting plate 201 is pushed, the tail end of the locking piece 2031 is inserted into a fixing hole 2021 in the upper die holder 202, the upper die holder 202 is fixed at the bottom of the mounting plate 201, a movable plate 103 is movably mounted at the inner side of the main body 101, then two ends of the movable plate 103 are in threaded connection with screws in side grooves 1012, three groups of rectangular butt grooves 1031 are formed in the movable plate 103, three groups of lower die holders 104 are mounted at the upper end positions of the movable plate 103, then butt blocks 1041 below the lower die holders 104 are inserted into the butt grooves 1031, the three groups of lower die holders 104 are fixed on the movable plate 103, metal wool is placed at the upper ends of the three groups of the lower die holders 104, then the hydraulic press is driven by the lifting plate 102, and the three groups of lower die holders 201 are driven to forge metal blank parts in the mounting plate at the same time, and forging processing is performed on the metal blank plate.
Claims (7)
1. A multi-die synchronous hot forging apparatus for gear machining, comprising: a mounting mechanism (1); the mounting mechanism (1) comprises a main body (101), a guide rod (1011) and a side groove (1012), wherein a rectangular groove is formed in the inner side of the main body (101); four groups of guide rods (1011) are arranged in total, and the guide rods (1011) are symmetrically arranged at two sides of the main body (101); the side grooves (1012) are provided with two groups in total, the side grooves (1012) are symmetrically arranged on two sides of the inside of the main body (101), and screw rods are rotatably arranged in the side grooves (1012); the mounting mechanism (1) is provided with a sliding assembly (2), a mounting plate (201) of the sliding assembly (2) is arranged at the bottom side of a lifting plate (102) at the upper end of the main body (101), the middle position of the mounting plate (201) is rotationally connected with the lifting plate (102), and a limit screw (2011) at the outer side of the mounting plate (201) is in sliding connection with a guide groove (1021) in the lifting plate (102).
2. A multi-die synchronous hot forging apparatus for gear processing according to claim 1, wherein the mounting mechanism (1) comprises: a lifting plate (102) and a guide groove (1021); the lifting plate (102) is arranged at the upper end of the main body (101), the lifting plate (102) is in sliding connection with the guide rod (1011), and a circular through groove is formed in the middle side of the lifting plate (102); the two groups of guide grooves (1021) are arranged in total, the guide grooves (1021) are symmetrically arranged at the inner ends of two sides of the lifting plate (102), and the guide grooves (1021) penetrate through two sides of the lifting plate (102).
3. A multi-die synchronous hot forging apparatus for gear processing according to claim 1, wherein the mounting mechanism (1) further comprises: a movable plate (103), a butt joint groove (1031) and a clamping plate (1032); the movable plate (103) is movably arranged in a rectangular groove in the main body (101), two sides of the movable plate (103) are slidably arranged in side grooves (1012), and the movable plate (103) is in threaded connection with a screw rod in the side grooves (1012); the butt joint grooves (1031) are provided with three groups in total, the butt joint grooves (1031) are equidistantly formed in the inner side of the movable plate (103), and the butt joint grooves (1031) penetrate through two sides of the movable plate (103); the clamping plates (1032) are provided with two groups in total, and the clamping plates (1032) are slidably mounted on two sides of the movable plate (103) through elastic pieces.
4. A multi-die synchronous hot forging apparatus for gear processing according to claim 3, wherein said mounting mechanism (1) further comprises: a lower die holder (104) and a butt joint block (1041); the lower die holder (104) is arranged at the upper end of the movable plate (103), and the lower die holder (104) is positioned at the middle position of the two groups of clamping plates (1032); the butt joint block (1041) is arranged at the bottom of the lower die holder (104), and the butt joint block (1041) is inserted in the butt joint groove (1031).
5. A multi-die synchronous hot forging apparatus for gear machining according to claim 1, wherein the sliding assembly (2) comprises: the device comprises a mounting plate (201), a limit screw (2011) and a chute (2012); a cylindrical structure is arranged at the top of the mounting plate (201); two groups of limit screws (2011) are arranged in total, and the limit screws (2011) are fixedly arranged at the upper ends of two sides of the mounting plate (201); the sliding groove (2012) is formed in the bottom of the inner side of the mounting plate (201), and the sliding groove (2012) penetrates through two sides of the mounting plate (201).
6. A multi-die synchronous hot forging apparatus for gear machining according to claim 5, wherein the sliding assembly (2) further comprises: an upper die holder (202) and a fixing hole (2021); the upper die holder (202) is arranged at the bottom side of the mounting plate (201), and the top of the upper die holder (202) is in sliding connection with the sliding groove (2012); two groups of fixing holes (2021) are formed, and the fixing holes (2021) are symmetrically formed at two sides of the upper end of the upper die holder (202).
7. A multi-die synchronous hot forging apparatus for gear machining according to claim 6, wherein the sliding assembly (2) further comprises: an inner groove (203) and a lock block (2031); six groups of inner grooves (203) are arranged in total, the inner grooves (203) are symmetrically arranged on two sides of the mounting plate (201), and the inner grooves (203) are communicated with the sliding grooves (2012); the locking block (2031) is slidably mounted in the inner groove (203), and the tail end of the locking block (2031) penetrates through the inner groove (203) and is inserted into the fixing hole (2021).
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202321295561.XU CN220239952U (en) | 2023-05-26 | 2023-05-26 | Multi-mode synchronous hot forging device for gear machining |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202321295561.XU CN220239952U (en) | 2023-05-26 | 2023-05-26 | Multi-mode synchronous hot forging device for gear machining |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN220239952U true CN220239952U (en) | 2023-12-26 |
Family
ID=89265803
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN202321295561.XU Active CN220239952U (en) | 2023-05-26 | 2023-05-26 | Multi-mode synchronous hot forging device for gear machining |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN220239952U (en) |
-
2023
- 2023-05-26 CN CN202321295561.XU patent/CN220239952U/en active Active
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