CN215035003U - Automatic corrugated pipe assembling equipment - Google Patents

Abstract

The utility model discloses an automatic equipment of bellows, carry the dish including fixed disk and material, the periphery that the material carried the dish is equipped with bellows material loading station, top metal sleeve material loading station, synthesizes station and the station of unloading in proper order along direction of rotation, and the material carries to be equipped with a plurality of bellows on the dish and carries the seat, and the bellows carries to be equipped with perpendicularly on the seat to the chase, synthesizes the station and includes top crimping mechanism and bottom climbing mechanism, and top crimping mechanism includes the lift briquetting, and bottom climbing mechanism includes that the bottom metal sleeve carries seat and jacking stake. The utility model discloses can realize the automatic equipment of bellows, can satisfy the synchronous equipment demand of top and bottom metal pipe box through synthesizing the station design, improve the equipment precision, reduce the human cost, the product percent of pass obtains great promotion. Through automatic feed and automatic operation cooperation design, satisfy full automated assembly production demand, the packaging efficiency obtains greatly promoting, can eliminate the equipment potential safety hazard simultaneously.

Description

Automatic corrugated pipe assembling equipment

Technical Field

The utility model relates to an automatic equipment of bellows belongs to the technical field of automatic equipment.

Background

At present, a vehicle corrugated pipe is in a pipe shaft-shaped structure, and metal lantern ring matching connection needs to be carried out on the top and the bottom of the corrugated pipe, so that assembly forming is realized.

The metal lantern ring equipment adopts artifical crimping or carries out manual crimping with the help of crimping instrument traditionally, and the crimping stroke is difficult accurate control, and the product percent of pass is lower, appears scrapping easily, has the equipment potential safety hazard. Meanwhile, the manual operation will increase the assembly cost undoubtedly, and the production efficiency is low.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the not enough of above-mentioned prior art, to the manual packaging efficiency of traditional bellows low, product quality is unstable and have the problem of equipment potential safety hazard, provide bellows automation equipment.

In order to achieve the above purpose, the utility model discloses the technical scheme who adopts is:

the automatic corrugated pipe assembling equipment comprises a fixed disc and a material carrying disc with rotary displacement, which is arranged on the periphery of the fixed disc, wherein a corrugated pipe feeding station, a top metal sleeve feeding station, a comprehensive station and an unloading station are sequentially arranged on the periphery of the material carrying disc along the rotation direction of the material carrying disc, a plurality of corrugated pipe carrying seats which are circumferentially distributed and used for switching displacement among the stations are arranged on the material carrying disc, vertical pipe grooves used for loading corrugated pipes are arranged on the corrugated pipe carrying seats,

the comprehensive station comprises a top crimping mechanism and a bottom jacking mechanism which are vertically and oppositely arranged,

the top crimping mechanism comprises a support frame arranged on the fixed disc and a lifting pressing block which is arranged on the free end of the support frame and has lifting displacement,

the bottom jacking mechanism comprises a bottom metal sleeve load seat and a jacking pile which is located at the bottom of the bottom metal sleeve load seat and has lifting displacement, a metal sleeve load groove is formed in the bottom metal sleeve load seat, and a through portion for the jacking pile to penetrate through is formed in the bottom of the metal sleeve load groove.

Preferably, the bottom jacking mechanism comprises a base metal sleeve supply mechanism for automatically supplying materials to the bottom metal sleeve loading seat, and a supply end of the bottom metal sleeve supply mechanism is communicated with the metal sleeve loading groove.

Preferably, the bellows carrier seat is provided with two clamping claw parts with opening and closing displacement, the vertical pipe groove is formed between clamping ends of the two clamping claw parts, and the bellows feeding station and the bellows discharging station are respectively provided with a clamping claw opening and closing mechanism for driving the two clamping claw parts of the bellows carrier seat to open and close and displace.

Preferably, the clamping jaw opening and closing mechanism comprises a driving carrier seat arranged on the fixed disk and a driving block which is arranged on the driving carrier seat and has radial telescopic displacement, an elastic telescopic element is arranged between the two clamping jaw parts,

and the driving block is provided with a driving angle end for driving the two clamping jaw parts to be separated.

Preferably, the bellows loading station is provided with a bellows feeding mechanism and a bellows operating mechanism for operating the bellows on the bellows feeding end of the bellows feeding mechanism to correspond to the bellows carrier seat.

Preferably, the top metal sleeve feeding station is provided with a top metal sleeve feeding mechanism and a top metal sleeve operating mechanism for operating the top metal sleeve on the feeding end of the top metal sleeve feeding mechanism to correspond to the corrugated pipe carrier seat.

The beneficial effects of the utility model are mainly embodied in that:

1. the automatic assembly of bellows can be realized, the synchronous equipment demand of top and bottom metal pipe box can be satisfied through synthesizing the station design, has improved the equipment precision, has reduced the human cost, and the product percent of pass obtains great promotion.

2. Through automatic feed and automatic operation cooperation design, satisfy full automated assembly production demand, the packaging efficiency obtains greatly promoting, can eliminate the equipment potential safety hazard simultaneously.

3. Adopt specific bellows to carry seat and clamping jaw mechanism of opening and shutting to cooperate design, make things convenient for automatic loading and unloading material cooperation, can provide certain clamping tolerance, satisfy the bellows and carry on the stability demand.

Drawings

Fig. 1 is a schematic structural view of the automated assembling apparatus for corrugated pipes of the present invention.

Fig. 2 is the overall structure schematic diagram of the automatic assembling equipment for corrugated pipe of the present invention.

Fig. 3 is a schematic structural diagram of the middle integrated station of the present invention.

Fig. 4 is a schematic structural view of the middle clamping jaw opening and closing mechanism of the present invention.

Detailed Description

The utility model provides an automatic equipment of bellows. The technical solution of the present invention will be described in detail below with reference to the accompanying drawings so as to be easier to understand and grasp.

Bellows automatic assembly equipment, as shown in fig. 1, fig. 3, including fixed disk 1 and the material that possesses rotary displacement who sets up in fixed disk 1 periphery carries dish 2, the periphery that the material carried dish 2 is equipped with bellows material loading station 3 along the direction of rotation that the material carried dish 2 in proper order, top metal sleeve material loading station 4, synthesize station 5 and unload station 6, the material carries and is equipped with a plurality of bellows that are used for switching the displacement between each station of circumference distribution on the dish 2 and carries seat 7, bellows carry and be equipped with the perpendicular tub of groove 8 that is used for loading the bellows on the seat 7.

The comprehensive station 5 comprises a top crimping mechanism 51 and a bottom jacking mechanism 52 which are vertically and oppositely arranged, the top crimping mechanism 51 comprises a support frame arranged on the fixed disc 1 and a lifting pressing block 511 which is arranged at the free end of the support frame and has lifting displacement, the bottom jacking mechanism 52 comprises a bottom metal sleeve carrying seat 521 and a jacking pile 522 which is positioned at the bottom of the bottom metal sleeve carrying seat 521 and has lifting displacement, a metal sleeve carrying groove 520 is arranged on the bottom metal sleeve carrying seat 521, and a through part for the jacking pile to pass through is arranged at the bottom of the metal sleeve carrying groove.

The specific implementation process and principle description are as follows:

firstly, corrugated pipe feeding is carried out on a corrugated pipe loading seat 7 corresponding to a corrugated pipe feeding station 3, the corrugated pipe is connected in a vertical pipe groove 8 in a penetrating mode, the corrugated pipe is rotated, switched and displaced to a top metal sleeve feeding station 4 along with a material loading disc 2 to carry out top metal sleeve preloading, then the corrugated pipe is rotated and switched to a comprehensive station 5, bottom metal sleeve feeding is carried out in a metal sleeve loading groove 520 of the comprehensive station 5, then a jacking pile 522 upwards jacks the bottom metal sleeve, a lifting pressing block 511 downwards presses and connects the top metal sleeve, so that the bottom metal sleeve and the top metal sleeve are assembled and matched with the corrugated pipe, the relative displacement of the jacking pile 522 and the lifting pressing block 511 is accurate, the accurate assembling requirements among the corrugated pipe, the top metal sleeve and the bottom metal sleeve are met, and after the comprehensive station 5 is finished, the corrugated pipe is rotated to an unloading station 6 to carry out unloading operation.

In one embodiment, as shown in FIG. 3, the bottom lift mechanism 52 includes a base metal jacket feed mechanism 523 for automated feeding of the bottom metal jacket mount 521, the feed end of the bottom metal jacket feed mechanism being in communication with the metal jacket loading slot 520.

Specifically, the base metal sheath supplying mechanism 523 includes a base metal sheath vibrating tray and a direct vibration supply, a discharge end of the direct vibration supply is communicated with the metal sheath loading groove 520, and the automatic feeding requirement is met by continuously supplying materials to the metal sheath loading groove 520. The feeding structure belongs to the prior art and is not described in detail herein.

In a preferred embodiment, as shown in fig. 1 and 4, the bellows carrier 7 is provided with two clamping claw portions 71 having opening and closing displacements, a vertical tube slot 8 is formed between clamping ends of the two clamping claw portions 71, and the bellows feeding station 3 and the bellows discharging station 6 are respectively provided with a clamping claw opening and closing mechanism 9 for driving the two clamping claw portions of the bellows carrier to open and close.

Specifically, when the corrugated pipe is loaded at the bellows loading station 3 and unloaded at the unloading station 6, the two clamping jaw parts 71 can be driven to separate by the clamping jaw opening and closing mechanism 9, so that the opening and closing driving requirements of loading and unloading are met.

In this embodiment, the jaw opening and closing mechanism 9 includes a driving carrier 91 disposed on the fixed plate and a driving block 92 disposed on the driving carrier 91 and having radial expansion and contraction displacement, an elastic expansion element 72 is disposed between the two jaw portions 71, and a driving angle end 921 for driving the two jaw portions 71 to separate is disposed on the driving block 92.

The specific implementation process and principle description are as follows:

when the corrugated pipe loading station 3 and the unloading station 6 are used for loading or unloading, the driving block 92 is radially displaced, so that the driving angle end 921 is pushed into between the two claw parts 71, the two claw parts 71 are separated, and the elastic telescopic element 72 is elastically stretched at the moment. When the material is completely loaded or unloaded, the driving angle end 921 retracts, and the two claw parts 71 are reset and clamped under the elastic reset state of the elastic telescopic element 72. Of course, it should be noted that a centering stopper disposed on the bellows carriage 7 is provided between the two clamping claw portions 71, that is, when the two clamping claw portions 71 are reset and clamped, the position degree thereof is limited by the centering stopper, and the requirement of the position accuracy of the vertical pipe groove 8 is satisfied.

In one embodiment, as shown in fig. 2, the bellows loading station 3 is provided with a bellows feeding mechanism 31 and a bellows operating mechanism 32 for operating the bellows on the feeding end of the bellows feeding mechanism 31 to the corresponding bellows carrier 7.

Specifically, the bellows feeding mechanism 31 is formed by a vibration plate and a direct vibration supply, and the bellows operating mechanism 32 is a pickup claw having a linear operation displacement and an elevation pickup displacement, so that an automatic feeding operation can be realized.

As shown in fig. 2, the top metal jacket feeding station 4 is provided with a top metal jacket feeding mechanism 41 and a top metal jacket operating mechanism 42 for operating the top metal jacket on the feeding end of the top metal jacket feeding mechanism 41 to the corresponding bellows carrier 7.

Specifically, the top metal jacket feeding mechanism 41 is formed by a vibration plate and a direct vibration feeding, and the top metal jacket operating mechanism 42 is a pickup claw having a linear operation displacement and an up-down pickup displacement, thereby realizing an automatic feeding operation.

Can discover through the above description, the utility model discloses automatic equipment of bellows can realize the automatic equipment of bellows, can satisfy the synchronous equipment demand of top and bottom metal pipe box through synthesizing the station design, has improved the equipment precision, has reduced the human cost, and the product percent of pass obtains great promotion. Through automatic feed and automatic operation cooperation design, satisfy full automated assembly production demand, the packaging efficiency obtains greatly promoting, can eliminate the equipment potential safety hazard simultaneously. Adopt specific bellows to carry seat and clamping jaw mechanism of opening and shutting to cooperate design, make things convenient for automatic loading and unloading material cooperation, can provide certain clamping tolerance, satisfy the bellows and carry on the stability demand.

The above technical solutions of the present invention have been fully described, and it should be noted that the present invention is not limited by the above description, and all technical solutions formed by equivalent transformation or equivalent transformation adopted by the spirit of the present invention in the aspects of structure, method or function by those of ordinary skill in the art all fall within the protection scope of the present invention.

Claims (6)

1. Automatic equipment of bellows, its characterized in that:

comprises a fixed disk and a material carrying disk with rotary displacement, which is arranged on the periphery of the fixed disk, wherein the periphery of the material carrying disk is sequentially provided with a corrugated pipe feeding station, a top metal sleeve feeding station, a comprehensive station and an unloading station along the rotary direction of the material carrying disk, the material carrying disk is provided with a plurality of corrugated pipe carrying seats which are circumferentially distributed and used for switching displacement among the stations, the corrugated pipe carrying seats are provided with vertical pipe grooves used for loading corrugated pipes,

the comprehensive station comprises a top crimping mechanism and a bottom jacking mechanism which are vertically and oppositely arranged,

the top crimping mechanism comprises a support frame arranged on the fixed disc and a lifting pressing block which is arranged on the free end of the support frame and has lifting displacement,

the bottom jacking mechanism comprises a bottom metal sleeve load seat and a jacking pile which is located at the bottom of the bottom metal sleeve load seat and has lifting displacement, a metal sleeve load groove is formed in the bottom metal sleeve load seat, and a through portion for the jacking pile to penetrate through is formed in the bottom of the metal sleeve load groove.

2. The automated bellows assembly machine of claim 1, wherein:

the bottom jacking mechanism comprises a base metal sleeve supply mechanism used for automatically supplying materials to the bottom metal sleeve carrying seat, and the supply end of the bottom metal sleeve supply mechanism is communicated with the metal sleeve carrying groove.

3. The automated bellows assembly machine of claim 1, wherein:

the corrugated pipe loading seat is provided with two clamping claw parts with opening and closing displacement, the vertical pipe groove is formed between clamping ends of the two clamping claw parts, and the corrugated pipe loading station and the unloading station are respectively provided with a clamping jaw opening and closing mechanism for driving the two clamping jaw parts of the corrugated pipe loading seat to open and close and displace.

4. The automated bellows assembly machine of claim 3, wherein:

the clamping jaw opening and closing mechanism comprises a driving carrier seat arranged on the fixed disk and a driving block which is arranged on the driving carrier seat and has radial telescopic displacement, an elastic telescopic element is arranged between the two clamping jaw parts,

and the driving block is provided with a driving angle end for driving the two clamping jaw parts to be separated.

5. The automated bellows assembly machine of claim 1, wherein:

the corrugated pipe feeding station is provided with a corrugated pipe feeding mechanism and a corrugated pipe operation mechanism used for operating the corrugated pipe on the corrugated pipe feeding mechanism feeding end to the corrugated pipe on the corrugated pipe carrier seat.

6. The automated bellows assembly machine of claim 1, wherein:

and the top metal sleeve feeding station is provided with a top metal sleeve feeding mechanism and a top metal sleeve operating mechanism for operating the top metal sleeve on the feeding end of the top metal sleeve feeding mechanism to correspond to the corrugated pipe carrier seat.

Images