CN213256613U - Speed regulation support shaping continuous die - Google Patents

Abstract

The utility model discloses a speed regulation bracket forming continuous die, which comprises a fixed die part structure at the lower end and a movable die part structure positioned above the fixed die part structure; a vertical guide structure is arranged between the fixed die part structure and the movable die part structure so that the movable die part structure can vertically move downwards and is in butt joint with the fixed die part structure; the fixed die part structure is characterized by comprising a support frame integrally in a cuboid structure, wherein the support frame comprises a strip-shaped support plate at the upper end, and a punching female die part structure, a waste punching female die part structure, a bending female die part structure and a blanking female die part structure are sequentially arranged on the support plate along the length direction of the support plate; waste material blanking holes which are respectively arranged on the supporting plate and correspond to the lower ends of the punching female die part structure and the waste material punching female die part structure are respectively provided with a waste material yielding port for allowing waste materials to fall down; the utility model has the advantages of can carry out continuous processing better, equipment cost is lower, and machining efficiency is higher.

Description

Speed regulation support shaping continuous die

Technical Field

The utility model belongs to the technical field of the speed governing support is made, concretely relates to speed governing support shaping continuous die.

Background

As shown in fig. 1, a speed regulation bracket structure is provided, one end of the speed regulation bracket is provided with two mounting holes with circle center structures at intervals, and the other end of the speed regulation bracket is provided with a fixing hole with a waist hole structure; and one end of the speed regulation support corresponding to the fixing hole is continuously bent, one side of the speed regulation support corresponding to the end part of the mounting hole is a bending block which is bent, a circular connecting hole is formed in the bending block, and the far end of the bending block is opposite to the connecting hole and is provided with a butt joint notch of a U-shaped structure.

When the speed regulation bracket is processed, the speed regulation bracket is usually processed by adopting a punching die, a waste material punching die, a bending forming die and a blanking die which are mutually independent, and the dies are connected by adopting a manual or mechanical hand; each set of die is driven by a separate stamping driving device. Such machining results in high machining cost, low machining efficiency, and poor machining continuity.

Therefore, how to provide a speed regulation bracket molding continuous die which can better perform continuous processing, has lower equipment cost and higher processing efficiency becomes a technical problem to be solved by technical personnel in the field.

SUMMERY OF THE UTILITY MODEL

To the not enough of above-mentioned prior art, the utility model aims to solve the technical problem that: how to provide a speed governing support shaping continuous mould that can carry out continuous processing better, equipment cost is lower, and machining efficiency is higher.

In order to solve the technical problem, the utility model discloses a following technical scheme:

a speed regulation support molding continuous die comprises a fixed die part structure at the lower end and a movable die part structure positioned above the fixed die part structure; a vertical guide structure is arranged between the fixed die part structure and the movable die part structure so that the movable die part structure can vertically move downwards and is in butt joint with the fixed die part structure; the fixed die part structure is characterized by comprising a support frame integrally in a cuboid structure, wherein the support frame comprises a strip-shaped support plate at the upper end, and a punching female die part structure, a waste punching female die part structure, a bending female die part structure and a blanking female die part structure are sequentially arranged on the support plate along the length direction of the support plate; waste material blanking holes which are respectively arranged on the supporting plate and correspond to the lower ends of the punching female die part structure and the waste material punching female die part structure are respectively provided with a waste material yielding port for allowing waste materials to fall down; the movable die part structure comprises a mounting plate with an upper end in a long strip-shaped structure, and the lower surface of the mounting plate is respectively provided with a punching male die part structure, a waste punching female die part structure, a bending female die part structure and a blanking female die part structure which are respectively corresponding to the punching male die part structure, the waste punching male die part structure, the bending male die part structure and the blanking male die part structure.

Therefore, when the device works, a plate is placed from one end, when the device is used for die assembly and machining, the movable die part structure can vertically move downwards and is in butt joint with the fixed die part structure, at the moment, the punching female die part structure is in butt joint with the punching male die part structure, the waste punching female die part structure is in butt joint with the waste punching male die part structure, the bending female die part structure is in butt joint with the bending male die part structure, the blanking female die part structure is in butt joint with the blanking male die part structure, and punching, waste punching, bending and blanking are sequentially completed to complete continuous machining of workpieces. The device can be used for better and continuously processing the plate to obtain the speed regulation support component. And the progressive die is adopted for processing, only one stamping device is needed, so that the equipment cost is lower, and the processing efficiency is higher.

As optimization, a feeding guide structure is arranged on the support plate and corresponds to the front side of the punching female die part structure; the feeding guide structure comprises a horizontal guide plate, and the upper surface of the guide plate and the upper end surface of the punching female die part structure are positioned on the same horizontal plane; two material guide strips are arranged on the material guide plate at intervals along the transverse direction of the support plate, and a material guide opening is formed between the inner side surfaces of the two material guide strips and is used for a plate material to horizontally enter; the upper surfaces of the two material guide strips are respectively connected with a strip-shaped pressing plate, and the distance between the inner side surfaces of the two pressing plates is smaller than the distance between the inner side surfaces of the two material guide strips; and be equipped with vertical telescopic machanism between stock guide and backup pad, correspond two clamp plates middle part on the mounting panel and be equipped with vertical decurrent compression leg, and the movable mould part structure vertical downstream and with the butt joint back of cover half part structure, the compression leg can the butt support on the clamp plate.

Therefore, the guide plate, the guide strip and the pressing plate are arranged, so that the entering plate can be guided, the deviation of the plate can be better avoided, and the defect products caused by the deviation of the plate can be avoided. And the vertical telescopic mechanism who sets up makes the stock guide can have the float volume in vertical, and when movable mould part structure and cover half part structure butt joint, the stock guide can float downwards for it is located same horizontal plane with the die part structure up end that punches a hole better, and more steady when making the sheet material get into.

As optimization, the vertical telescopic mechanism comprises a base plate arranged on the supporting plate, limit columns which are vertically and upwards arranged are arranged at four corner positions on the upper surface of the base plate, and the upper end surfaces of the limit columns and the lower surface of the material guide plate are arranged at intervals; and a plurality of vertical coil springs are arranged between the material guide plate and the base plate, and two ends of each coil spring are respectively inserted and matched in a lower butt joint hole and an upper butt joint hole which are of blind hole structures and are arranged on the base plate and the material guide plate.

Thus, the vertical telescopic mechanism is simpler and more reasonable in design.

As optimization, a discharging notch is obliquely and downwards arranged on the supporting plate and corresponding to the rear side of the blanking female die part structure, a discharging guide plate is connected to the discharging notch, and the upper end of the discharging guide plate is connected with a workpiece outlet arranged at the lower end of the blanking female die part structure.

Therefore, the workpiece after blanking forming can be more conveniently led out to be subjected to centralized packaging processing.

As optimization, both sides of the discharging guide plate are respectively provided with a side plate which is arranged upwards.

Like this, the design is more reasonable, and the work piece of avoiding that can be better slides from ejection of compact deflector plate side.

As optimization, the vertical guide structure comprises four vertically upward guide columns which are arranged on the support plate and are distributed in a rectangular shape; the mounting plate is provided with guide holes corresponding to the upper ends of the guide posts respectively so as to allow the upper ends of the guide posts to penetrate.

Thus, the vertical guide structure is simpler and the guide is more reliable.

Preferably, the mounting plate is provided with a mounting hole, the mounting hole is internally provided with a guide sleeve, and the guide hole is formed by an inner hole of the guide sleeve.

Thus, the mounting plate can be protected.

As optimization, the support frame comprises a bottom plate of a long-strip-shaped structure at the lower end, four vertical plates are arranged on the bottom plate at intervals along the length direction of the bottom plate, and the support plate is connected and fixed to the upper ends of the vertical plates.

Like this, the structure of support frame is simpler, and the design is more reasonable.

Drawings

Fig. 1 is a schematic structural diagram of a speed regulation bracket.

Fig. 2 is a schematic structural view of a speed regulation support forming continuous mold in the embodiment of the present invention.

Fig. 3 is a left side view of fig. 2.

Fig. 4 is a right side view of fig. 2.

Fig. 5 is a front view of fig. 2.

FIG. 6 is a schematic view of FIG. 2 with a movable mold part removed.

Fig. 7 is a top view of fig. 6.

FIG. 8 is a schematic view of FIG. 2 with the stationary mold part structure removed.

Fig. 9 is a bottom view of fig. 8.

Detailed Description

The invention will be further explained with reference to the following figures and examples:

referring to fig. 1 to 9: a speed regulation support molding continuous die comprises a fixed die part structure 1 at the lower end and a movable die part structure 2 positioned above the fixed die part structure; a vertical guide structure is arranged between the fixed die part structure and the movable die part structure so that the movable die part structure can vertically move downwards and is in butt joint with the fixed die part structure; the fixed die part structure comprises a support frame 3 integrally in a cuboid structure, the support frame comprises a strip-shaped support plate 4 at the upper end, and a punching female die part structure 5, a waste punching female die part structure 6, a bending female die part structure 7 and a blanking female die part structure 8 are sequentially arranged on the support plate along the length direction of the support plate; waste material blanking holes which are respectively arranged on the supporting plate and correspond to the lower ends of the punching female die part structure and the waste material punching female die part structure are respectively provided with a waste material yielding port for allowing waste materials to fall down; the movable mould part structure comprises a mounting plate 9 with an upper end in a long strip-shaped structure, and the lower surface of the mounting plate is respectively provided with a punching male mould part structure 10, a waste punching male mould part structure 11, a bending male mould part structure 12 and a blanking male mould part structure 13, and the punching female mould part structure, the waste punching female mould part structure, the bending female mould part structure and the blanking female mould part structure correspond to each other.

Therefore, when the device works, a plate is placed from one end, when the device is used for die assembly and machining, the movable die part structure can vertically move downwards and is in butt joint with the fixed die part structure, at the moment, the punching female die part structure is in butt joint with the punching male die part structure, the waste punching female die part structure is in butt joint with the waste punching male die part structure, the bending female die part structure is in butt joint with the bending male die part structure, the blanking female die part structure is in butt joint with the blanking male die part structure, and punching, waste punching, bending and blanking are sequentially completed to complete continuous machining of workpieces. The device can be used for better and continuously processing the plate to obtain the speed regulation support component. And the progressive die is adopted for processing, only one stamping device is needed, so that the equipment cost is lower, and the processing efficiency is higher.

In the specific embodiment, a feeding guide structure is arranged on the support plate and corresponds to the front side of the punching female die part structure; the feeding guide structure comprises a horizontal material guide plate 14, and the upper surface of the material guide plate and the upper end surface of the punching female die part structure are positioned on the same horizontal plane; two material guide strips 15 are arranged on the material guide plate at intervals along the transverse direction of the support plate, and a material guide opening is formed between the inner side surfaces of the two material guide strips and is used for a plate material to horizontally enter; the upper surfaces of the two material guide strips are respectively connected with a strip-shaped pressing plate 16, and the distance between the inner side surfaces of the two pressing plates is smaller than the distance between the inner side surfaces of the two material guide strips; and be equipped with vertical telescopic machanism between stock guide and backup pad, correspond two clamp plates middle part on the mounting panel and be equipped with vertical decurrent compression leg, and the movable mould part structure vertical downstream and with the butt joint back of cover half part structure, the compression leg can the butt support on the clamp plate.

Therefore, the guide plate, the guide strip and the pressing plate are arranged, so that the entering plate can be guided, the deviation of the plate can be better avoided, and the defect products caused by the deviation of the plate can be avoided. And the vertical telescopic mechanism who sets up makes the stock guide can have the float volume in vertical, and when movable mould part structure and cover half part structure butt joint, the stock guide can float downwards for it is located same horizontal plane with the die part structure up end that punches a hole better, and more steady when making the sheet material get into.

In the specific embodiment, the vertical telescopic mechanism comprises a base plate 17 arranged on the support plate, four corner positions on the upper surface of the base plate are provided with vertically upwards arranged limiting columns 18, and the upper end surfaces of the limiting columns and the lower surface of the material guide plate are arranged at intervals; and a plurality of vertical coil springs 19 are arranged between the material guide plate and the backing plate, and two ends of each coil spring are respectively inserted and matched in a lower butt joint hole and an upper butt joint hole which are provided with blind hole structures on the backing plate and the material guide plate.

Thus, the vertical telescopic mechanism is simpler and more reasonable in design. When the material guide plate is specifically implemented, the lower side of the material guide plate is attached with a middle plate, and the upper butt joint hole is formed in the middle plate.

In the specific embodiment, an inclined downward discharging gap 20 is arranged on the supporting plate and corresponding to the rear side of the blanking female die part structure, a discharging guide plate 21 is connected to the discharging gap, and the upper end of the discharging guide plate is connected with a workpiece outlet arranged at the lower end of the blanking female die part structure.

Therefore, the workpiece after blanking forming can be more conveniently led out to be subjected to centralized packaging processing.

In the present embodiment, two sides of the discharging guide plate are respectively provided with an upward side plate. (side panels are not shown in the figure).

Like this, the design is more reasonable, and the work piece of avoiding that can be better slides from ejection of compact deflector plate side.

In the present embodiment, the vertical guiding structure includes four vertically upward guiding pillars 22 disposed on the supporting plate and distributed in a rectangular shape; the mounting plate is provided with guide holes corresponding to the upper ends of the guide posts respectively so as to allow the upper ends of the guide posts to penetrate.

Thus, the vertical guide structure is simpler and the guide is more reliable.

In this embodiment, the mounting plate is provided with a mounting hole, and the mounting hole is provided with a guide sleeve 23, the guide hole being formed by an inner hole of the guide sleeve.

Thus, the mounting plate can be protected.

In this embodiment, the support frame includes a bottom plate 24 of a strip-shaped structure at a lower end, four vertical plates 25 are arranged on the bottom plate at intervals along the length direction of the bottom plate, and the support plates are connected and fixed on the upper ends of the vertical plates.

Like this, the structure of support frame is simpler, and the design is more reasonable.

The foregoing has described in detail preferred embodiments of the present invention. It should be understood that numerous modifications and variations can be devised by those skilled in the art in light of the teachings of the present invention without undue experimentation. Therefore, the technical solutions that can be obtained by a person skilled in the art through logic analysis, reasoning or limited experiments based on the prior art according to the concepts of the present invention should be within the scope of protection defined by the claims.

Claims (8)

1. A speed regulation support molding continuous die comprises a fixed die part structure at the lower end and a movable die part structure positioned above the fixed die part structure; a vertical guide structure is arranged between the fixed die part structure and the movable die part structure so that the movable die part structure can vertically move downwards and is in butt joint with the fixed die part structure; the fixed die part structure is characterized by comprising a support frame integrally in a cuboid structure, wherein the support frame comprises a strip-shaped support plate at the upper end, and a punching female die part structure, a waste punching female die part structure, a bending female die part structure and a blanking female die part structure are sequentially arranged on the support plate along the length direction of the support plate; waste material blanking holes which are respectively arranged on the supporting plate and correspond to the lower ends of the punching female die part structure and the waste material punching female die part structure are respectively provided with a waste material yielding port for allowing waste materials to fall down; the movable die part structure comprises a mounting plate with an upper end in a long strip-shaped structure, and the lower surface of the mounting plate is respectively provided with a punching male die part structure, a waste punching female die part structure, a bending female die part structure and a blanking female die part structure which are respectively corresponding to the punching male die part structure, the waste punching male die part structure, the bending male die part structure and the blanking male die part structure.

2. The continuous die for forming the speed regulation bracket as claimed in claim 1, wherein: a feeding guide structure is arranged on the support plate and corresponds to the front side of the punching female die part structure; the feeding guide structure comprises a horizontal guide plate, and the upper surface of the guide plate and the upper end surface of the punching female die part structure are positioned on the same horizontal plane; two material guide strips are arranged on the material guide plate at intervals along the transverse direction of the support plate, and a material guide opening is formed between the inner side surfaces of the two material guide strips and is used for a plate material to horizontally enter; the upper surfaces of the two material guide strips are respectively connected with a strip-shaped pressing plate, and the distance between the inner side surfaces of the two pressing plates is smaller than the distance between the inner side surfaces of the two material guide strips; and be equipped with vertical telescopic machanism between stock guide and backup pad, correspond two clamp plates middle part on the mounting panel and be equipped with vertical decurrent compression leg, and the movable mould part structure vertical downstream and with the butt joint back of cover half part structure, the compression leg can the butt support on the clamp plate.

3. The continuous die for forming the speed regulation bracket as claimed in claim 2, wherein: the vertical telescopic mechanism comprises a base plate arranged on the supporting plate, four corner positions on the upper surface of the base plate are provided with vertically upwards arranged limiting columns, and the upper end surfaces of the limiting columns and the lower surface of the material guide plate are arranged at intervals; and a plurality of vertical coil springs are arranged between the material guide plate and the base plate, and two ends of each coil spring are respectively inserted and matched in a lower butt joint hole and an upper butt joint hole which are of blind hole structures and are arranged on the base plate and the material guide plate.

4. The continuous die for forming the speed regulation bracket as claimed in claim 1, wherein: the rear side of the support plate corresponding to the blanking female die part structure is provided with a discharging notch which is obliquely and downwards arranged, the discharging notch is connected with a discharging guide plate, and the upper end of the discharging guide plate is connected with a workpiece outlet arranged at the lower end of the blanking female die part structure.

5. The continuous die for forming the speed regulation bracket as claimed in claim 4, wherein: two sides of the discharging guide plate are respectively provided with a side plate which is arranged upwards.

6. The continuous die for forming the speed regulation bracket as claimed in claim 1, wherein: the vertical guide structure comprises four vertically upward guide columns which are arranged on the support plate and are distributed in a rectangular shape; the mounting plate is provided with guide holes corresponding to the upper ends of the guide posts respectively so as to allow the upper ends of the guide posts to penetrate.

7. The continuous die for forming the speed regulation bracket as claimed in claim 6, wherein: the mounting plate is provided with a mounting hole, a guide sleeve is arranged in the mounting hole, and an inner hole of the guide sleeve forms the guide hole.

8. The continuous die for forming the speed regulation bracket as claimed in claim 1, wherein: the support frame includes the bottom plate of the long bar-shaped structure of lower extreme, is the alternate four risers that are equipped with along its length direction on the bottom plate, just the backup pad is connected and is fixed in the riser upper end.

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