CN214639980U - Staple bolt is forging device for production - Google Patents

Abstract

The utility model discloses a staple bolt production is with forging device, including the installation supporting component, including the fixing base, staple bolt placing component places the forging disc including the staple bolt that sets up above the fixing base, place outer annular standing groove and the interior annular standing groove that forging disc top surface outer lane was seted up at the staple bolt, staple bolt subassembly, the forging subassembly, including the fixed diaphragm that sets up above the fixing base, the drive cylinder that sets up in fixed diaphragm bottom surface and the lower pressing disc of connection in the drive cylinder bottom surface, hammer pressing component optimizes traditional staple bolt forging device, through setting up circular forging dish, and set up different standing grooves in the inner and outer lane, conveniently place the staple bolt of different specification sizes, such structural design conveniently forges the staple bolt of different specifications simultaneously, improve forging efficiency, and when carrying out the press forging, push down simultaneously through two annular raised plates, and the forging die is completely clamped with different placing grooves for indifference forging, and the forging die is simple in structure and not easy to damage.

Description

Staple bolt is forging device for production

Technical Field

The utility model relates to a staple bolt production forges technical field, specifically is a staple bolt production is with forging device.

Background

Most of metalwork preparation of staple bolt forms, so the staple bolt just needs forging device to carry out continuous hammering in process of production, thereby reach and forge the effect, traditional forging device is comparatively single at the in-process structure that uses, can't carry out continuous hammering to the staple bolt of different specifications simultaneously and forge, the use has certain limitation, production efficiency is lower, and traditional hammering mode needs a plurality of fixed hammers to push down and forge, the structure is complicated, it is comparatively loaded down with trivial details to install, for this reason, we propose a staple bolt forging device for production.

SUMMERY OF THE UTILITY MODEL

Therefore, the utility model aims at providing a staple bolt is forging device for production, optimize traditional staple bolt forging device, through setting up the circular shape and forge the dish, and set up different standing grooves including the outer lane, conveniently place the staple bolt of different specifications size, such structural design is convenient to forge the staple bolt of different specifications simultaneously, improve forging efficiency, and when hammering and pressing and forging, push down simultaneously through two annular protruding boards, and completely with different standing groove joints, hammer and press and forge, such design need not install a plurality of fixed hammers, two entity protruding boards can accomplish and forge, moreover, the steam generator is simple in structure, and is convenient to use.

For solving the technical problem, according to the utility model discloses an aspect, the utility model provides a following technical scheme:

the utility model provides a staple bolt is forging device for production, includes:

the mounting support assembly comprises a fixed seat arranged horizontally and a support leg fixed on the top surface of the fixed seat;

the hoop placing assembly comprises a hoop placing forging disc arranged above the fixed seat, an outer annular placing groove formed in the outer ring of the top surface of the hoop placing forging disc, and an inner annular placing groove formed in the inner ring of the top surface of the hoop placing forging disc;

the hoop assembly comprises a large hoop placed in the outer annular placing groove and a small hoop placed in the inner annular placing groove;

the forging assembly comprises a fixed transverse plate fixed on the top surface of the supporting leg, a driving air cylinder arranged on the bottom surface of the fixed transverse plate and a pressing disc connected to the bottom surface of the driving air cylinder;

and the hammering component comprises an outer ring raised plate fixed on the outer ring of the bottom surface of the lower pressing disc and an inner ring raised plate fixed with the inner ring of the bottom surface of the lower pressing disc.

As an optimized scheme of staple bolt production forging device, wherein, the supporting leg lateral wall is fixed with the triangle fixed plate, just another lateral wall of supporting leg is fixed with the triangle fixed plate equally.

As an optimized scheme of staple bolt production with forging device, wherein, big staple bolt with little staple bolt is provided with a plurality ofly, and a plurality of equidistant distribution of big staple bolt and little staple bolt is in outer annular standing groove with in the annular standing groove of interior.

As an optimized scheme of staple bolt production forging device, wherein, it is provided with a plurality ofly, and a plurality ofly to drive actuating cylinder be annular distribute and with it is fixed to push down the disc top.

As an optimized scheme of staple bolt production with forging device, wherein, still include big spacing subassembly, big spacing subassembly is including fixing outer annular standing groove top is located the first cylinder of big staple bolt one side with fix outer annular standing groove top is located the second cylinder of big staple bolt opposite side.

As an optimized scheme of staple bolt production is with forging device, wherein, still include little spacing subassembly, little spacing subassembly is including fixing inside the interior annular standing groove and being located the third cylinder of little staple bolt one side with fix the interior annular standing groove is inside and being located the fourth cylinder of little staple bolt opposite side.

As a staple bolt production with forging device's an optimal selection scheme, wherein, the staple bolt place forge disc bottom surface and with the fixed cylinder of fixing base.

As an staple bolt production is with forging device's an preferred scheme, wherein, still include damper, damper is including setting up the staple bolt is placed the forging disc below the disc the circular opening that damper intermediate position was seted up and will the fixing base with the damping spring that damper connects.

As a staple bolt production is with forging device's an preferred scheme, wherein, circular open-ended surface area is greater than the surface area of fixed cylinder top surface.

As a staple bolt production is with forging device's an preferred scheme, wherein, outer loop flange with inner ring flange respectively with outer annular standing groove with the complete joint of interior annular standing groove.

Compared with the prior art, the utility model discloses the beneficial effect who has is: optimize the traditional staple bolt forging device, through setting up the circular forging dish, and offer different standing grooves in the inner and outer lane, conveniently place the staple bolt of different specifications size, such structural design is convenient to forge the staple bolt of different specifications simultaneously, raise and forge efficiency, and when hammering and forging, press down through two annular protruding boards simultaneously, and totally joint with different standing grooves, hammer and forge, such design does not need to install multiple fixed hammers, two entity protruding boards can finish forging, simple in construction is not fragile, easy to use, when specifically using, the user will need to forge big staple bolt and little staple bolt to place in outer annular standing groove and inner annular standing groove respectively, big staple bolt joint in the course of placing between first cylinder and second cylinder, carry on spacing, prevent shifting in the course of forging, the placing mode of the little staple bolt is the same as big staple bolt, drive actuating cylinder drive push down the disc and move down after spacing, move down the in-process and drive the protruding board of outer loop and the protruding board hammer press forging of inner ring, such hammer press forging structure is comparatively complete, use two ring form protruding boards can, conveniently carry out indifference forging hammer press, the large-scale forging production of being convenient for, simple structure, difficult fracture damage.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the present invention will be described in detail below with reference to the accompanying drawings and detailed embodiments, and 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 inventive labor. Wherein:

FIG. 1 is a structural diagram of a forging device for hoop production according to the present invention;

FIG. 2 is a structural diagram of a hoop placing assembly of the forging apparatus for hoop manufacturing of the present invention shown in FIG. 1;

FIG. 3 is a structural diagram of the shock-absorbing assembly of FIG. 1 of the forging apparatus for hoop manufacturing of the present invention;

fig. 4 is the structure diagram of the hammering component in fig. 1 of the forging device for hoop production of the utility model.

In the figure: 100. mounting a support component; 110. a fixed seat; 120. supporting legs; 130. a triangular fixing plate; 200. the hoop placing component; 210. placing a forging disc by using the hoop; 220. an outer annular standing groove; 230. an inner annular placing groove; 300. the hoop component; 310. a large hoop; 320. a small hoop; 400. forging the component; 410. fixing the transverse plate; 420. a driving cylinder; 430. pressing the disc downwards; 500. hammering the assembly; 510. an outer ring raised plate; 520. an inner ring raised plate; 600. a shock absorbing assembly; 610. a damper disc; 620. a circular opening; 630. a damping spring; 700. a large limit component; 710. a first cylinder; 720. a second cylinder; 800. a small limiting component; 810. a third cylinder; 820. a fourth cylinder; 900. and fixing the cylinder.

Detailed Description

In order to make the above objects, features and advantages of the present invention more comprehensible, embodiments of the present invention are described in detail below with reference to the accompanying drawings.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be implemented in other ways than those specifically described herein, and one skilled in the art may similarly generalize the present invention without departing from the spirit of the present invention, and therefore the present invention is not limited to the specific embodiments disclosed below.

Next, the present invention will be described in detail with reference to the schematic drawings, and in the detailed description of the embodiments of the present invention, for convenience of explanation, the sectional view showing the device structure will not be partially enlarged in half scale, and the schematic drawings are only examples, and should not limit the scope of the present invention. In addition, the three-dimensional dimensions of length, width and depth should be included in the actual fabrication.

In order to make the objects, technical solutions and advantages of the present invention clearer, embodiments of the present invention will be described in further detail below with reference to the accompanying drawings.

The utility model provides a staple bolt production is with forging device, optimize traditional staple bolt forging device, through setting up the circular shape and forge the dish, and set up different standing grooves including the outer lane, conveniently place the staple bolt of different specifications size, such structural design is convenient to forge the staple bolt of different specifications simultaneously, improve and forge efficiency, and when hammering and press and forge, push down simultaneously through two annular bellying boards, and completely with different standing groove joints, hammer and press and forge, a plurality of fixed hammers need not installed in such design, two entity bellying boards can accomplish and forge, moreover, the steam generator is simple in structure and not fragile.

Fig. 1 to 4 are schematic diagrams illustrating an overall structure of an embodiment of a forging apparatus for hoop production according to the present invention, please refer to fig. 1 to 4, a main body of the forging apparatus for hoop production according to the present embodiment includes a mounting support assembly 100, a hoop placing assembly 200, a hoop assembly 300, a forging assembly 400, and a hammering assembly 500.

Installation supporting component 100 is used for the support and the construction of whole forging device, and is concrete, and installation supporting component 100 includes fixing base 110 and the supporting leg 120 of fixing at fixing base 110 top surface that the level set up, and supporting leg 120 lateral wall is fixed with triangle fixed plate 130, and when specifically using, the forging structure is installed on fixing base 110 top, and the forging pushes down the device and is supported by supporting leg 120, guarantees normally to push down and forges the work.

The staple bolt is placed subassembly 200 and is used for placing the staple bolt of different specifications simultaneously, conveniently forge simultaneously, improve and forge efficiency, it is concrete, the staple bolt is placed subassembly 200 and is placed forging disc 210 including the staple bolt that sets up in fixing base 110 top, place the outer annular standing groove 220 that forges disc 210 top surface outer lane and place the inner annular standing groove 230 that forges disc 210 top surface inner lane at the staple bolt, when specifically using, the user will need forged big staple bolt 310 and little staple bolt 320 to place respectively in outer annular standing groove 220 and inner annular standing groove 230, place the big staple bolt 310 joint of in-process between first cylinder 710 and second cylinder 720, carry on spacingly, prevent to shift at forging in-process, the mode of placing of little staple bolt 320 is the same with big staple bolt 310, it forges simultaneously to place the later stage of being convenient for after finishing.

The hoop assembly 300 includes a large hoop 310 positioned within the outer annular positioning slot 220 and a small hoop 320 positioned within the inner annular positioning slot 230.

Forging subassembly 400 is used for the drive to push down, it pushes down the forging simultaneously to drive different lug plates, and is concrete, it is including fixing the fixed diaphragm 410 at the supporting leg 120 top surface to forge subassembly 400, drive actuating cylinder 420 and connect the push down disc 430 that drives actuating cylinder 420 bottom surface that sets up at fixed diaphragm 410 bottom surface, when specifically using, a plurality of drive actuating cylinder 420 drive push down disc 430 simultaneously and move down, structural design prevents that a single cylinder from damaging the normal operating that influences whole forging device like this, a plurality of drive actuating cylinder 420 drive whole push down disc 430 regularity push down simultaneously.

The hammering component 500 is used for performing complete undifferentiated hammering forging, and is simple in structure and not easy to break and damage, and concretely, the hammering component 500 comprises an outer ring convex plate 510 fixed on the outer ring of the bottom surface of a lower pressing disc 430 and an inner ring convex plate 520 fixed with the inner ring of the bottom surface of the lower pressing disc 430.

With reference to fig. 1-4, in the forging apparatus for hoop production of this embodiment, when in specific use, a user places a large hoop 310 and a small hoop 320 to be forged in the outer annular placing groove 220 and the inner annular placing groove 230, respectively, the large hoop 310 during placement is clamped between the first cylinder 710 and the second cylinder 720 for limiting and preventing displacement during forging, the small hoop 320 is placed in the same manner as the large hoop 310, the driving cylinder 420 drives the pressing disc 430 to move downwards after limiting, and drives the outer ring convex plate 510 and the inner ring convex plate 520 to perform hammer forging during moving downwards, because the bottom surfaces of the outer ring convex plate 510 and the inner ring convex plate 520 are on the same horizontal line, such hammer forging structure is relatively complete, two annular convex plates are used, thereby facilitating undifferentiated forging and hammering, facilitating large-scale forging production, and having simple structure, is not easy to break and damage.

In the embodiment, due to the lack of protective measures, if the hoop is used for placing the forging disc 210 and is damaged by long-time impact and fracture in the forging process, a large potential safety hazard exists, so that the shock absorption assembly 600 is arranged below the hoop for placing the forging disc 210 for protection, when fracture and damage occur, shock absorption is carried out, impact force is reduced, and the potential safety hazard is reduced, specifically, the shock absorption assembly 600 further comprises the shock absorption assembly 600, the shock absorption assembly 600 comprises the shock absorption disc 610 arranged below the hoop for placing the forging disc 210, the circular opening 620 arranged at the middle position of the shock absorption disc 610 and the shock absorption spring 630 connecting the fixed seat 110 with the shock absorption disc 610, when the shock absorption assembly is specifically used, the surface area of the circular opening 620 is larger than the surface area of the top surface of the fixed cylinder 900, so that the shock absorption disc 610 is ensured to be positioned under the whole hoop for placing the forging disc 210, when fracture and fracture are inclined, a plurality of damping spring 630 that set up carry out the shock attenuation, strike shock attenuation dish 610 in the twinkling of an eye under the effect of elastic force slowly move down, and greatly reduced impact plays better guard action, greatly reduced potential safety hazard's emergence.

While the invention has been described above with reference to an embodiment, various modifications may be made and equivalents may be substituted for elements thereof without departing from the scope of the invention. In particular, as long as there is no structural conflict, the various features of the disclosed embodiments of the present invention can be used in any combination with each other, and the non-exhaustive description of these combinations in this specification is merely for the sake of brevity and resource conservation. Therefore, it is intended that the invention not be limited to the particular embodiments disclosed, but that the invention will include all embodiments falling within the scope of the appended claims.

Claims (10)

1. The utility model provides a staple bolt is forging device for production which characterized in that includes:

the mounting support assembly (100) comprises a fixed seat (110) arranged horizontally and a support leg (120) fixed on the top surface of the fixed seat (110);

the hoop placing assembly (200) comprises a hoop placing forging disc (210) arranged above the fixed seat (110), an outer annular placing groove (220) formed in the outer ring of the top surface of the hoop placing forging disc (210), and an inner annular placing groove (230) formed in the inner ring of the top surface of the hoop placing forging disc (210);

a hoop assembly (300) including a large hoop (310) placed within the outer annular placement groove (220) and a small hoop (320) placed within the inner annular placement groove (230);

the forging assembly (400) comprises a fixed transverse plate (410) fixed on the top surface of the supporting leg (120), a driving air cylinder (420) arranged on the bottom surface of the fixed transverse plate (410), and a pressing disc (430) connected to the bottom surface of the driving air cylinder (420);

the hammering assembly (500) comprises an outer ring convex plate (510) fixed on the outer ring of the bottom surface of the lower pressing disc (430) and an inner ring convex plate (520) fixed with the inner ring of the bottom surface of the lower pressing disc (430).

2. The forging apparatus for producing hoops as recited in claim 1, wherein a triangular fixing plate (130) is fixed to one side wall of each support leg (120), and a triangular fixing plate (130) is also fixed to the other side wall of each support leg (120).

3. The hoop manufacturing forging apparatus as claimed in claim 2, wherein a plurality of the large hoops (310) and the small hoops (320) are provided, and the plurality of the large hoops (310) and the small hoops (320) are distributed in the outer annular placing groove (220) and the inner annular placing groove (230) at equal intervals.

4. The forging device for producing the hoop as claimed in claim 3, wherein a plurality of the driving cylinders (420) are provided, and the plurality of the driving cylinders (420) are distributed in a ring shape and fixed to the top end of the lower pressing disc (430).

5. The forging apparatus for manufacturing hoops, according to claim 4, wherein the forging apparatus further comprises a large limiting assembly (700), wherein the large limiting assembly (700) comprises a first cylinder (710) fixed at the top end of the outer annular placing groove (220) and positioned at one side of the large hoop (310) and a second cylinder (720) fixed at the top end of the outer annular placing groove (220) and positioned at the other side of the large hoop (310).

6. The forging apparatus for manufacturing hoops, according to claim 5, further comprising a small stop assembly (800), wherein the small stop assembly (800) comprises a third cylinder (810) fixed inside the inner annular placing groove (230) and located at one side of the small hoop (320), and a fourth cylinder (820) fixed inside the inner annular placing groove (230) and located at the other side of the small hoop (320).

7. The forging apparatus for manufacturing hoops of claim 6, wherein the hoop is used for placing the fixing cylinder (900) fixed on the bottom surface of the forging disc (210) and the fixing seat (110).

8. The hoop manufacturing forging device as claimed in claim 7, further comprising a shock absorption assembly (600), wherein the shock absorption assembly (600) comprises a shock absorption plate (610) arranged below the hoop placing forging disc (210), a circular opening (620) formed in the middle of the shock absorption plate (610), and a shock absorption spring (630) connecting the fixed seat (110) and the shock absorption plate (610).

9. The hoop manufacturing forging apparatus as claimed in claim 8, wherein the surface area of the circular opening (620) is larger than the surface area of the top surface of the fixing cylinder (900).

10. The hoop manufacturing forging apparatus as claimed in claim 9, wherein the outer ring protrusion plate (510) and the inner ring protrusion plate (520) are completely engaged with the outer annular placement groove (220) and the inner annular placement groove (230), respectively.

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