CN216990123U - Coiled material shearing device for observing room purifying air pipe - Google Patents

Abstract

The application discloses a coiled material shearing device for a clean air pipe of an observation room, which comprises a coiled material frame and a hydraulic shearing machine, wherein the coiled material frame is arranged at one side of the hydraulic shearing machine; the pulling mechanism comprises two parallel slide rails, a walking trolley arranged between the two slide rails and a clamping jaw cylinder used for clamping coiled materials, the walking trolley is connected to the two slide rails in a sliding mode, and the clamping jaw cylinder is arranged on the walking trolley. This application has the effect that reduces the manpower, improves cutting efficiency.

Description

Coiled material shearing device for observing room purifying air pipe

Technical Field

The utility model belongs to the technical field of the coiled material cutting equipment and specifically relates to a coiled material shearing mechanism for staying look room purification tuber pipe.

Background

An air duct is a duct system for air delivery and distribution. The air pipe can be classified according to section shape and material: according to the cross section shape, the air duct can be divided into a circular air duct, a rectangular air duct, an oblate air duct and the like; the air duct can be divided into a metal air duct, etc. according to the material.

The air duct is made of coiled materials, the coiled materials are continuously coiled steel materials and are divided into plate coils and coil coils, metal plates used in part of industries have certain requirements on thickness and length in the production process of the metal plates, in order to meet the supply requirements of the metal plate products, the produced long-coil metal plates need to be subjected to size shearing, and the long-coil metal plates need to be straightened and subjected to surface quality inspection in the shearing process to prevent unqualified products from entering the market.

In view of the above related technologies, the applicant believes that currently, when a coil is cut, a worker is required to hold the discharged coil and pull the discharged coil backwards, when the discharged coil reaches a certain length, the discharged coil is cut, the cut coil falls to the ground, the worker releases the hand, and the cutting is completed, so that a large amount of labor force of the worker is consumed in the process.

SUMMERY OF THE UTILITY MODEL

In order to facilitate the cutting of the coiled material, the application provides a coiled material shearing mechanism for keeping watch room clean air pipe.

The application provides a coiled material shearing mechanism for keeping watch room purifies tuber pipe adopts following technical scheme:

a coiled material shearing device for a clean air pipe of an observation room comprises a coiled material frame and a hydraulic shearing machine, wherein the coiled material frame is arranged at one side of the hydraulic shearing machine, and a pulling mechanism is arranged at one side of the hydraulic shearing machine, which is far away from the coiled material frame; the pulling mechanism comprises two parallel slide rails, a walking trolley arranged between the two slide rails and a clamping jaw cylinder used for clamping coiled materials, the walking trolley is connected to the two slide rails in a sliding mode, and the clamping jaw cylinder is arranged on the walking trolley.

Through adopting above-mentioned technical scheme, clamping jaw cylinder has gripped the coiled material, and the walking dolly moves along the slide rail, pulls out the coiled material, stops after pulling suitable position, and hydraulic type cutter starts this moment, cuts the coiled material, then clamping jaw cylinder loosens the coiled material, and the walking dolly gets back to the initial position, repeats above-mentioned action, and walking dolly and clamping jaw cylinder have replaced people's work, can reduce the manpower for work efficiency and work accuracy.

Optionally, the slide rail includes several concatenation rails, has seted up a spout on one of them side of concatenation rail, and one of them one end fixed connection of concatenation rail is on the lateral wall of fluid pressure type cutter, and remaining several concatenation rails are dismantled in proper order and are connected behind it, are smooth connection between the spout of two adjacent concatenation rails.

Through adopting above-mentioned technical scheme, the coiled material of different length need be used to different products, consequently uses the slide rail that the concatenation rail was pieced together, and the length of adjustment slide rail can be according to the quantity of the coiled material length adjustment concatenation rail that needs the cutting.

Optionally, the slide rail still includes the splice plate, and the splice plate setting is on the lateral wall of spout is kept away from to the concatenation rail, and the splice plate is through being dismantled between screw and two adjacent concatenation rails and be connected.

Through adopting above-mentioned technical scheme, couple together two adjacent concatenation tracks through the splice plate.

Optionally, the walking trolley comprises a cross beam, two driving motors and two wheels, the cross beam is arranged above the two slide rails, the two driving motors are both arranged on the bottom surface of the cross beam and respectively close to the two slide grooves, the two wheels are respectively and fixedly connected to driving shafts of the two driving motors, the two wheels are respectively arranged in the two slide grooves, and the wheels are connected with the inner walls of the slide grooves in a sliding manner; the clamping jaw air cylinder is fixedly connected above the cross beam.

Through adopting above-mentioned technical scheme, driving motor drive wheel slides in the spout, drives the crossbeam and removes along the slide rail, realizes pulling out this action with the coiled material.

Optionally, the cross section of the sliding groove is in a shape like a Chinese character 'tu'.

By adopting the technical scheme, the sliding groove in the shape of the convex character is adopted, so that the wheel cannot fall out of the sliding groove in the rolling process.

Optionally, a support is arranged below the slide rails, the support comprises a bottom plate and supporting legs, the supporting legs are fixedly connected to the bottom surface of the bottom plate, and the two slide rails are placed on the top surface of the bottom plate.

Through adopting above-mentioned technical scheme, when the slide rail is longer, can not support the weight of walking dolly, consequently increase a support, help the focus of adjusting whole equipment for the slide rail can support the weight of walking dolly.

Optionally, keep away from be equipped with a baffle that is used for avoiding the dolly landing on the concatenation rail of fluid pressure type cutter, the baffle can be dismantled and connect on the concatenation rail keeps away from the terminal surface of fluid pressure type cutter, and the baffle covers the spout.

Through adopting above-mentioned technical scheme, the setting of baffle can avoid the walking dolly to walk out the spout, moves and drops on the slide rail.

Optionally, friction increasing patterns are arranged on the inner wall of the sliding groove.

By adopting the technical scheme, after the travelling trolley moves to a proper position, the travelling trolley needs to be stopped to wait for the cutting of the hydraulic shearing machine, and the arrangement of the friction-increasing patterns can reduce the shaking of the travelling trolley in the cutting process.

Optionally, a collecting box for collecting the cut coiled materials is placed below the sliding rail.

Through adopting above-mentioned technical scheme, the coiled material of playing of shearing can be collected to the collecting box.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the walking trolley and the clamping jaw air cylinder replace the work of a person, so that the manpower can be reduced, and the working efficiency and the working precision can be accelerated;

2. the number of splicing rails can be adjusted according to the length of coiled materials to be cut, and the length of the sliding rails is adjusted, so that the sliding rails adapt to coiled materials with different lengths.

Drawings

Fig. 1 is a schematic overall structure diagram of an embodiment of the present application.

Fig. 2 is a partial structural schematic diagram of the embodiment of the present application.

FIG. 3 is a schematic structural view of a walking trolley according to an embodiment of the present application.

Description of reference numerals:

1. a coil rack; 11. a support plate; 12. a feeding roller; 2. a hydraulic shearing machine; 3. a pulling mechanism; 31. a slide rail; 311. splicing the rails; 3111. a chute; 312. splicing plates; 313. a baffle plate; 32. a walking trolley; 321. a cross beam; 322. a drive motor; 323. a wheel; 33. a clamping jaw cylinder; 34. a support; 341. supporting legs; 342. a base plate; 35. and a collection box.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses a coiled material shearing mechanism for keeping watch room purification tuber pipe. Referring to fig. 1, a coiled material shearing device for a clean air pipe of an observation room comprises a coiled material frame 1, a hydraulic shearing machine 2 and a pulling mechanism 3; the hydraulic shearing machine 2 is an existing shearing machine for shearing coiled materials, and the hydraulic shearing machine 2 is placed on the ground; the coil frame 1 is placed at one end on the top surface of the hydraulic shearing machine 2; the pulling mechanism 3 is placed at the side of the hydraulic shear 2 remote from the coil cradle 1.

Referring to fig. 1, a coil frame 1 includes two support plates 11 and a feeding roller 12; the supporting plates 11 are rectangular plates, the two supporting plates 11 are welded on the top surface of the hydraulic shearing machine 2, and the two supporting plates 11 are arranged in parallel; the feeding roller 12 is a cylindrical rod, the feeding roller 12 is arranged between the two support plates 11, two ends of the feeding roller 12 are rotatably connected to the two support plates 11 through bearings respectively, and the axial direction of the feeding roller 12 is parallel to the width direction of the hydraulic shearing machine 2. The coil is wound on a loading roll 12 and passes through a hydraulic shear 2.

Referring to fig. 1, the pulling mechanism 3 includes a slide rail 31, a traveling carriage 32, and a jaw cylinder 33; the number of the slide rails 31 is two, and the two slide rails 31 are arranged in parallel; the walking trolley 32 is arranged between the two slide rails 31, and the walking trolley 32 can move along the length direction of the slide rails 31; the gripper cylinder 33 is provided on the traveling carriage 32. A bracket 34 is arranged below the two slide rails 31, the bracket 34 is arranged at one end of the slide rail 31 far away from the hydraulic shearing machine, and the bracket 34 comprises two supporting feet 341 and a bottom plate 342; the bottom plate 342 is a rectangular plate, the bottom plate 342 is placed below the two slide rails 31, and the length direction of the bottom plate 342 is perpendicular to the length direction of the slide rails 31; the supporting legs 341 are rectangular columns, one end of each of the two supporting legs 341 is welded on the bottom surface of the bottom plate 342, the two supporting legs 341 are respectively close to two ends of the floor, the two supporting legs 341 are vertically arranged with the bottom plate 342, the two supporting legs 341 are arranged in parallel, and one end of the supporting leg 341 far away from the bottom plate 342 is placed on the ground. Between the support 34 and the hydraulic shears 2 a collecting bin 35 is placed for receiving the cut coil.

Referring to fig. 1 and 2, the slide rail 31 includes a splice rail 311 and a splice plate 312; the splicing rail 311 is a rectangular block, a sliding groove 3111 is arranged on one side surface of the splicing rail 311, the sliding groove 3111 is arranged along the length direction of the splicing rail 311, the sliding groove 3111 penetrates through two ends of the splicing rail 311, the cross section of the sliding groove 3111 is in a convex shape, and friction increasing patterns are arranged on the inner wall of the sliding groove 3111; one end of one splicing rail 311 is welded on the side wall of the hydraulic shearing machine 2, the rest splicing rails 311 are sequentially arranged behind the splicing rail, and the tail end of the front splicing rail 311 is connected with the head end of the rear splicing rail 311 to form a straight line; the inner walls of the sliding grooves 3111 of two adjacent splicing rails 311 are smoothly connected; splice plate 312 is rectangular shaped plate, and splice plate 312 sets up on the side of splicing rail 311 keeps away from spout 3111, and splice plate 312 is close to the contact department at two adjacent splicing rails 311, and splice plate 312 is through being dismantled between bolt and two adjacent splicing rails 311 and be connected. The surfaces of the two slide rails 31, which are provided with the sliding grooves 3111, are opposite to each other. The splicing rail 311 far away from the hydraulic shearing machine 2 is provided with a baffle 313, the baffle 313 is arranged at one end of the splicing rail 311 far away from the hydraulic shearing machine 2, the baffle 313 is fixedly connected to the end face of the splicing rail 311 through screws, and the baffle 313 covers the sliding groove 3111.

Referring to fig. 2 and 3, the traveling carriage 32 includes a cross member 321, a driving motor 322, and wheels 323; the cross beam 321 is a rectangular block, the cross beam 321 is placed on the two slide rails 31, the length direction of the cross beam 321 is perpendicular to the length direction of the slide rails 31, and the bottom surface of the cross beam 321 is in sliding connection with the top surfaces of the slide rails 31; two driving motors 322 are provided, both the two driving motors 322 are fixedly connected to the bottom surface of the cross beam 321 through screws, the two driving motors 322 are respectively close to the two slide rails 31, the driving shaft of the driving motor 322 faces the sliding chute 3111, and the axial direction of the driving shaft of the driving motor 322 is perpendicular to the length direction of the sliding chute 3111; the two wheels 323 are respectively disposed in the two sliding grooves 3111, a driving shaft of the driving motor 322 extends into the sliding groove 3111 and is welded to the side surface of the wheel 323, and the wheel 323 is slidably connected to the inner wall of the sliding groove 3111. The clamping jaw air cylinder 33 is fixedly connected to the top surface of the cross beam 321 through screws, and clamping jaws of the clamping jaw air cylinder 33 face the hydraulic shearing machine 2.

The implementation principle of the coiled material shearing device for the observing room purifying air pipe is as follows: the coiled material is wound on the coiled material frame 1, the coiled material passes through the hydraulic shearing machine 2, and the coiled material is clamped by the clamping jaw air cylinder 33; the traveling trolley 32 drives the coiled material to move and stops after reaching a proper distance; at the moment, the hydraulic shearing machine 2 is started to shear the coiled material; the clamping jaw air cylinder 33 is loosened, and the cut coiled materials fall into the collection box 35; the trolley 32 is then moved to the home position and the steps are repeated. Because the coiled materials with different lengths need to be cut by different products, when the coiled materials with different lengths are cut, the splicing rails 311 and the splicing plates 312 with different numbers can be used, and the sliding rails 31 with different lengths can be spliced.

The above are preferred embodiments of the present application, and the scope of protection of the present application is not limited thereto, so: equivalent changes in structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. The utility model provides a coiled material shearing mechanism for staying room of looking clean wind pipe, includes coiled material frame (1) and fluid pressure type cutter (2), and coiled material frame (1) sets up in one side department of fluid pressure type cutter (2), its characterized in that: a pulling mechanism (3) is arranged at one side of the hydraulic shearing machine (2) far away from the coiled material frame (1); the pulling mechanism (3) comprises two parallel slide rails (31), a walking trolley (32) arranged between the two slide rails (31) and a clamping jaw cylinder (33) used for clamping coiled materials, the walking trolley (32) is connected to the two slide rails (31) in a sliding mode, and the clamping jaw cylinder (33) is arranged on the walking trolley (32).

2. A web shearing device for a clean air duct of an observation room as claimed in claim 1, wherein: slide rail (31) are including several concatenation rail (311), have seted up a spout (3111) on one of them side of concatenation rail (311), and the one end fixed connection of one of them concatenation rail (311) is on the lateral wall of fluid pressure type cutter (2), and remaining several concatenation rail (311) can be dismantled in proper order and connect behind it, is smooth connection between spout (3111) of two adjacent concatenation rails (311).

3. A web shearing device for a clean air duct of an observation room as claimed in claim 2, wherein: slide rail (31) still include splice plate (312), splice plate (312) set up on splice rail (311) keep away from the lateral wall of spout (3111), splice plate (312) are detachable connection through being between screw and two adjacent splice rails (311).

4. A web shearing device for a clean air duct of an observation room as claimed in claim 2, wherein: the walking trolley (32) comprises a cross beam (321), two driving motors (322) and two wheels (323), the cross beam (321) is arranged above the two slide rails (31), the two driving motors (322) are arranged on the bottom surface of the cross beam (321), the two driving motors (322) are respectively close to the two sliding chutes (3111), the two wheels (323) are respectively and fixedly connected to driving shafts of the two driving motors (322), the two wheels (323) are respectively arranged in the two sliding chutes (3111), and the wheels (323) are connected with the inner walls of the sliding chutes (3111) in a sliding manner; the clamping jaw air cylinder (33) is fixedly connected above the cross beam (321).

5. A coil shearing device for a clean air duct of an observation room as claimed in claim 4, wherein: the cross-section of spout (3111) is "protruding" style of calligraphy.

6. The coil shearing device for the clean air pipe of the observation room as claimed in claim 2, wherein: a support (34) is arranged below the sliding rails (31), the support (34) comprises a bottom plate (342) and supporting legs (341), the supporting legs (341) are fixedly connected to the bottom surface of the bottom plate (342), and the two sliding rails (31) are arranged on the top surface of the bottom plate (342).

7. A web shearing device for a clean air duct of an observation room as claimed in claim 3, wherein: keep away from be equipped with one on concatenation rail (311) of hydraulic pressure cutter (2) and be used for avoiding the baffle (313) of dolly landing, baffle (313) can be dismantled and connect on the terminal surface of keeping away from hydraulic pressure cutter (2) in concatenation rail (311), and baffle (313) cover spout (3111).

8. A web shearing device for a clean air duct of an observation room as claimed in claim 2, wherein: and friction increasing patterns are arranged on the inner wall of the sliding groove (3111).

9. A web shearing device for a clean air duct of an observation room as claimed in claim 1, wherein: and a collecting box (35) for collecting the cut coiled materials is arranged below the sliding rail (31).

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