CN218745302U - High-efficiency anchor plate chamfering equipment - Google Patents

Abstract

The utility model discloses a high efficiency anchor slab chamfering equipment, include: the chamfering device comprises a clamping device, a rotating seat, a rotary driving device, a chamfering execution device and a chamfering box, wherein a through hole is formed in the bottom of the chamfering box, the rotating seat is installed in the through hole, an anchor plate is borne on the rotating seat, the clamping device is installed on the rotating seat, after the clamping device clamps the anchor plate, the top edge of the anchor plate is exposed, the clamping device clamps the anchor plate located on the rotating seat, the rotating seat is fixed with the output end of the rotary driving device, the chamfering execution device is installed beside the rotating seat, a chamfering knife of the chamfering execution device is located at the top edge of the anchor plate, and the rotary driving device drives the anchor plate to rotate; high efficiency anchor slab chamfer equipment still includes: a conveyor, the conveyor comprising: the device comprises a transition disc, a conveyor belt, a clamping mechanism and a pushing mechanism. This high efficiency anchor slab chamfering equipment solves and can not realize carrying the anchor slab to the roating seat one by one among the prior art and leads to the problem of chamfer efficiency reduction.

Description

High-efficiency anchor plate chamfering equipment

Technical Field

The utility model relates to a chamfering equipment, concretely relates to high efficiency anchor slab chamfering equipment.

Background

The anchor plate is disc structure, and the chamfer need be realized at the anchor plate edge, cuts out the inclined plane exactly at the edge, consequently needs anchor plate chamfer equipment.

Among the prior art, anchor slab chamfer equipment includes: clamping device, the roating seat, the rotation driving device, chamfer execution device and chamfer case, the through-hole has been seted up to chamfer bottom of the case portion, install the roating seat in the through-hole, bear the anchor slab on the roating seat, install clamping device on the roating seat, behind the anchor slab that clamping device pressed from both sides tight anchor slab, anchor slab top edge exposes, clamping device presss from both sides the anchor slab that is located the roating seat, the roating seat is fixed with rotation driving device's output, chamfer execution device installs by the roating seat, chamfer execution device's chamfer sword is located anchor slab top edge, rotation driving device drive anchor slab is rotatory, thereby the chamfer at anchor slab top edge has been realized. However, the apparatus still has the following disadvantages:

because only one anchor plate can be chamfered in each chamfering process, the anchor plates are heavy, and the anchor plates are inconvenient to be conveyed to the rotating seat one by one, so that the chamfering efficiency is low.

SUMMERY OF THE UTILITY MODEL

The utility model provides a high efficiency anchor slab chamfering apparatus solves and can not realize carrying anchor slab one by one to the roating seat and lead to the problem that chamfer efficiency reduces among the prior art.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model discloses a high efficiency anchor slab chamfering equipment, include: the chamfering device comprises a clamping device, a rotating seat, a rotary driving device, a chamfering execution device and a chamfering box, wherein a through hole is formed in the bottom of the chamfering box, the rotating seat is installed in the through hole, an anchor plate is borne on the rotating seat, the clamping device is installed on the rotating seat, after the clamping device clamps the anchor plate, the top edge of the anchor plate is exposed, the clamping device clamps the anchor plate located on the rotating seat, the rotating seat is fixed with the output end of the rotary driving device, the chamfering execution device is installed beside the rotating seat, a chamfering knife of the chamfering execution device is located at the top edge of the anchor plate, and the rotary driving device drives the anchor plate to rotate; high efficiency anchor slab chamfer equipment still includes: a conveyor, the conveyor comprising: the anchor plate clamping device comprises a transition disc, a conveying belt, a clamping mechanism and a pushing mechanism, wherein the output end of the conveying belt is communicated to a rotating seat through the transition disc, the clamping mechanism and the pushing mechanism are installed beside the conveying belt, the pushing mechanism is located on one side, deviating from the transition disc, of the output end of the conveying belt, the clamping mechanism is located on one side, close to the input end of the conveying belt, of the pushing mechanism, the clamping mechanism is matched with the edge of the conveying belt to clamp an anchor plate, and the pushing mechanism is used for pushing the anchor plate to the rotating seat from the conveying belt.

Preferably, the conveyor belt comprises: the area body, first area rod, second area rod, rod actuating mechanism and area seat, take the sunken conveying groove that forms of seat top surface, the conveying inslot is installed and is taken the rod with the second of ability pivoted first root of taking, and first area rod and second are taken the rod and are located the both ends of taking the seat respectively, and the area body encircles outside first area rod and second area rod, and first area rod and second are taken the rod and are driven by rod actuating mechanism, take the seat top to be the conveyer belt edge.

Preferably, a guide plate is mounted on the belt seat, the guide plate is guided to the edge of the conveyor belt, and the guide plate is positioned on one side of the clamping mechanism close to the input end of the conveyor belt.

Preferably, the guide plate includes: the hook section is of an L-shaped structure, the hook section is connected to the guide section through the connecting section, the guide section is parallel to the conveying direction of the conveying belt, and the connecting section is of an arc structure.

Preferably, the pushing mechanism includes: propelling movement head and propelling movement cylinder, the piston rod of propelling movement cylinder is fixed to the propelling movement head, the propelling movement head be used for with anchor slab contact.

Preferably, a pushing groove is formed in one side, located at the rotating seat, of the pushing head, the pushing groove is of a trapezoidal structure, and the large end of the pushing groove is located at one side, close to the rotating seat, of the small end of the pushing groove.

Preferably, the clamping mechanism includes: the clamping cylinder is installed beside the belt seat, a piston rod of the clamping cylinder is fixed to the clamping head, and the clamping head is matched with the conveying edge to clamp the anchor plate.

Preferably, the clamping head is formed with a clamping surface for clamping the anchor plate, an included angle between the clamping surface and the conveying direction of the conveyor belt is an acute angle, a distance between the clamping surface and the edge of the conveyor belt close to the input end of the conveyor belt is D1, a distance between the clamping surface and the edge of the conveyor belt close to the output end of the conveyor belt is D2, and D1 is greater than D2.

Preferably, the belt body is composed of at least three annular chains, chain wheels are arranged on the first belt root and the second belt roller, and the chain wheels are meshed with the annular chains.

Compared with the prior art, the utility model discloses following beneficial effect has:

through setting up the conveyer belt in this application, realized constantly carrying towards excessive dish with the anchor slab, carry the dish department of crossing with the anchor slab, because carry the anchor slab constantly, in order to avoid the transport of anchor slab to shift up in the influence of next anchor slab, consequently, clamping mechanism has been set up and has compressed tightly next anchor slab on the conveyer belt edge, pushing mechanism promotes a last anchor slab simultaneously, with last anchor slab through excessive dish propelling movement to the roating seat on, clamping device on the roating seat presss from both sides tight anchor slab, rotary drive device drives the anchor slab through roating seat and clamping device and rotates together, chamfer final controlling element includes: the chamfering cylinder is installed on the top wall in the chamfering box, and the chamfering tool is tightly attached to the edge of the top of the anchor plate, so that chamfering of the anchor plate is achieved. This application is through setting up conveyor, and conveyor has constantly carried the anchor slab on the roating seat, has improved the conveying efficiency of anchor slab to improved the efficiency of carrying out the chamfer to all anchor slabs, improved production efficiency, be favorable to realizing modern production.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.

Drawings

Fig. 1 is a schematic structural diagram of a high-efficiency anchor plate chamfering device.

FIG. 2 is a schematic structural view of the high-efficiency anchor plate chamfering equipment after the chamfering box is disassembled.

Fig. 3 is an enlarged view of a portion a in fig. 2.

Reference numerals: the device comprises a clamping device 1, a rotating seat 2, a rotary driving device 3, a chamfering execution device 4, a chamfering air cylinder 41, a chamfering knife, a chamfering box 5, a conveying device 6, a transition disc 61, a conveying belt 62, a belt body 621, a belt seat 622, a clamping mechanism 63, a clamping air cylinder 631, a clamping head 632, a pushing mechanism 64, a pushing head 641, a pushing air cylinder 642, a pushing groove 643, a guide plate 65, a hook section 651, a connecting section 652, a guide section 653, an anchor plate 7, a distance D1 from a clamping surface to the edge of the conveying belt close to the conveying belt input end, and a distance D2 from the clamping surface to the edge of the conveying belt close to the conveying belt output end.

Detailed Description

In order to make the utility model realize that technical means, creation characteristics, achievement purpose and effect are clearer and easily understand, it is right to combine below the figure and the detailed implementation mode the utility model discloses do further explanation:

as shown in fig. 1-3, the utility model discloses a high efficiency anchor slab chamfering device, include: the chamfering device comprises a clamping device 1, a rotating base 2, a rotary driving device 3, a chamfering execution device 4 and a chamfering box 5, wherein a through hole is formed in the bottom of the chamfering box 5, the rotating base 2 is installed in the through hole, an anchor plate 7 is borne on the rotating base 2, the clamping device 1 is installed on the rotating base 2, after the clamping device 1 clamps the anchor plate 7, the top edge of the anchor plate 7 is exposed, the clamping device 1 clamps the anchor plate 7 positioned on the rotating base 2, the rotating base 2 is fixed with the output end of the rotary driving device 3, the chamfering execution device 4 is installed beside the rotating base 2, a chamfering knife of the chamfering execution device 4 is positioned at the top edge of the anchor plate 7, and the rotary driving device 3 drives the anchor plate 7 to rotate; 7 chamfer equipment of high efficiency anchor slab still includes: conveyor 6, conveyor 6 includes: the anchor plate fixing device comprises a transition disc 61, a conveyor belt 62, a clamping mechanism 63 and a pushing mechanism 64, wherein the output end of the conveyor belt 62 is communicated to the rotary base 2 through the transition disc 61, the clamping mechanism 63 and the pushing mechanism 64 are installed beside the conveyor belt 62, the pushing mechanism 64 is located on one side, away from the transition disc 61, of the output end of the conveyor belt 62, the clamping mechanism 63 is located on one side, close to the input end of the conveyor belt 62, of the pushing mechanism 64, the clamping mechanism 63 is matched with the edge of the conveyor belt 62 to clamp the anchor plate 7, and the pushing mechanism 64 is used for pushing the anchor plate 7 to the rotary base 2 from the conveyor belt 62.

The conveyor belt 62 includes: the belt body 621, first area rod (not shown), second area rod (not shown), rod actuating mechanism (not shown) and take seat 622, take the sunken conveying groove that forms of seat 622 top surface, the conveying inslot is installed and is taken the rod with first root of taking and the second that can rotate, first area rod and second are taken the rod and are located the both ends of taking seat 622 respectively, the area body 621 encircles outside first area rod and second area rod, first area rod and second are taken the rod actuating mechanism drive, take the seat 622 top to be conveyer belt 62 edge. The anchor plate 7 is placed on the belt body 621, and the anchor plate 7 can be conveyed through the belt body 621.

A guide plate 65 is mounted on the belt seat 622, the guide plate 65 guides the edge of the conveyor belt 62, and the guide plate 65 is located on the side of the clamping mechanism 63 near the input end of the conveyor belt 62. Because the conveying groove is wide, the anchor plate 7 is guided to the edge of the conveying belt 62 by arranging the guide plate 65, so that the anchor plate 7 is closer to the edge of the conveying belt 62, and the clamping mechanism 63 is easier to clamp the anchor plate 7. Since the clamping mechanism 63 moves linearly, there are many uneven portions on the belt body 621, if the clamping mechanism 63 pushes the anchor plate 7 forcibly, the bottom of the anchor plate 7 is damaged due to excessive friction, and the product of the anchor plate 7 is not in compliance with the specification. Therefore, the guide plate 65 is arranged, the anchor plate 7 can be slowly guided to the edge of the conveyor belt 62, the distance for forcibly pushing the anchor plate 7 by the clamping mechanism 63 is small, and the product quality of the anchor plate 7 is ensured.

The guide plate 65 includes: the top surface of the belt seat 622 is recessed to form a hook groove, the hook section 651 is placed in the hook groove, the hook section 651 is in an L-shaped structure, the hook section 651 is connected to the guide section 653 through the connecting section 652, the guide section 653 is parallel to the conveying direction of the conveying belt 62, and the connecting section 652 is in a circular arc structure. Hook section 651 colludes on the hook groove inner wall for deflector 65 can not remove in relative area seat 622, and linkage segment 652 connects hook section 651 arc, makes the direction work to anchor block 7 more smooth and easy, avoids having sharp-pointed corner and leads to the work of direction anchor block 7 to realize, avoids appearing the phenomenon that anchor block 7 was blocked now.

The pushing mechanism 64 includes: a pushing head 641 and a pushing cylinder 642, wherein a piston rod of the pushing cylinder 642 is fixed to the pushing head 641, and the pushing head 641 is used for contacting with the anchor plate 7. Starting the push cylinder is achieved, i.e. the push head 641 pushes the anchor plate 7 onto the swivel 2.

The pushing head 641 is provided with a pushing groove 643 at one side of the rotating base 2, the pushing groove 643 is of a trapezoidal structure, and the large end of the pushing groove 643 is located at the small end of the pushing groove 643 close to the rotating base 2. The push groove 643 is opened so that the push head 641 can surround a part of the anchor plate 7, and the anchor plate 7 can be positioned after the push head 641 surrounds the anchor plate 7.

The clamping mechanism 63 includes: a clamping cylinder 631 and a clamping head 632, the clamping cylinder 631 being mounted next to the belt seat 622, the piston rod of the clamping cylinder 631 being fixed to the clamping head 632, the clamping head 632 cooperating with the transport edge for clamping the anchor plate 7. The clamping head 632 can clamp the anchor plate 7 together with the edge of the conveyor belt 62 after the clamping cylinder 631 is activated.

The clamping head 632 is formed with a clamping surface for clamping the anchor plate 7, an included angle between the clamping surface and the conveying direction of the conveyor belt 62 is an acute angle, a distance between the clamping surface and the edge of the conveyor belt 62 near the input end of the conveyor belt 62 is D1, a distance between the clamping surface and the edge of the conveyor belt 62 near the output end of the conveyor belt 62 is D2, and D1 is greater than D2. The clamping surface is arranged so that it opens with the edge of the conveyor belt 62 towards the input end of the conveyor belt 62 so that the anchor plate 7 is displaced towards the input end of the conveyor belt 62 when the clamping head 632 clamps the anchor plate 7, D2 being so small that the anchor plate 7 does not have any possibility of jumping over the clamping head 632.

The belt body 621 is composed of at least three endless chains, and chain wheels are mounted on the first belt root and the second belt roller and meshed with the endless chains. The annular chain forms the area body 621 for area body 621 surface unevenness makes there is great frictional force to carry anchor plate 7, simultaneously because anchor plate 7 is heavier, sets up annular chain, drives annular chain circulation carriage release lever through the sprocket, makes anchor plate 7 propelling movement smoothly.

Finally, although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the present invention can be modified or replaced by other means without departing from the spirit and scope of the present invention, which should be construed as limited only by the appended claims.

Claims (9)

1. High efficiency anchor slab chamfer equipment includes: the chamfering device comprises a clamping device (1), a rotating base (2), a rotary driving device (3), a chamfering execution device (4) and a chamfering box (5), wherein a through hole is formed in the bottom of the chamfering box (5), the rotating base (2) is installed in the through hole, an anchor plate (7) is borne on the rotating base (2), the clamping device (1) is installed on the rotating base (2), after the clamping device (1) clamps the anchor plate (7), the top edge of the anchor plate (7) is exposed, the clamping device (1) clamps the anchor plate (7) on the rotating base (2), the rotating base (2) is fixed with the output end of the rotary driving device (3), the chamfering execution device (4) is installed beside the rotating base (2), a chamfering tool () of the chamfering execution device (4) is located at the top edge of the anchor plate (7), and the rotary driving device (3) drives the anchor plate (7) to rotate; it is characterized in that the preparation method is characterized in that,

further comprising: a conveying device (6), the conveying device (6) comprising: circle (61) of crossing, conveyer belt (62), clamping mechanism (63) and push mechanism (64), conveyer belt (62) output communicates to roating seat (2) through circle (61) of crossing, other clamping mechanism (63) and push mechanism (64) of installing of conveyer belt (62), push mechanism (64) are located conveyer belt (62) output and deviate from circle (61) one side, clamping mechanism (63) are located push mechanism (64) and are close to conveyer belt (62) input one side, clamping mechanism (63) and conveyer belt (62) edge cooperation press from both sides tight anchor slab (7), push mechanism (64) are used for propelling movement to roating seat (2) from conveyer belt (62) with anchor slab (7).

2. A high efficiency anchor plate chamfering apparatus as claimed in claim 1, wherein the conveyor (62) comprises: the area body (621), first area rod, the second is taken the rod, rod actuating mechanism and are taken seat (622), take seat (622) top surface to cave in and form the transfer tank, install first root of taking and the second of ability pivoted in the transfer tank and take the rod, first area rod and second are taken the rod and are located the both ends of taking seat (622) respectively, area body (621) encircle outside first area rod and second are taken the rod, first area rod and second are taken the rod by the drive of rod actuating mechanism drive, take seat (622) top to be conveyer belt (62) edge.

3. A high efficiency anchor plate chamfering apparatus according to claim 2, wherein a guide plate (65) is installed on the belt mount (622), the guide plate (65) is guided to the edge of the conveyor belt (62), and the guide plate (65) is located on the side of the clamping mechanism (63) near the input end of the conveyor belt (62).

4. A high efficiency anchor plate chamfering apparatus as claimed in claim 3, wherein the guide plate (65) comprises: the belt seat is characterized by comprising a hook section (651), a connecting section (652) and a guide section (653), wherein the top surface of the belt seat (622) is recessed to form a hook groove, the hook groove is used for placing the hook section (651), the hook section (651) is of an L-shaped structure, the hook section (651) is connected to the guide section (653) through the connecting section (652), the guide section (653) is parallel to the conveying direction of the conveying belt (62), and the connecting section (652) is of a circular arc structure.

5. A high efficiency anchor plate chamfering apparatus as claimed in claim 4, wherein the pushing mechanism (64) comprises: a push head (641) and a push cylinder (642), a piston rod of the push cylinder (642) being fixed to the push head (641), the push head (641) being intended to be in contact with the anchor plate (7).

6. The high-efficiency anchor plate chamfering device according to claim 5, wherein the pushing head (641) is provided with a pushing groove (643) at one side of the rotating base (2), the pushing groove (643) is of a trapezoidal structure, and the large end of the pushing groove (643) is located at one side of the small end of the pushing groove (643) close to the rotating base (2).

7. A high efficiency anchor plate chamfering apparatus as claimed in claim 6, wherein the clamping mechanism (63) includes: the clamping cylinder (631) and the clamping head (632), the clamping cylinder (631) is installed beside the belt seat (622), a piston rod of the clamping cylinder (631) is fixed to the clamping head (632), and the clamping head (632) is matched with the conveying edge to clamp the anchor plate (7).

8. A high efficiency anchor plate chamfering apparatus according to claim 7, wherein the clamping head (632) is formed with a clamping surface for clamping the anchor plate (7), the clamping surface being at an acute angle to the conveying direction of the conveyor belt (62), the clamping surface being at a distance D1 from the entrance end of the conveyor belt (62) to the edge of the conveyor belt (62), the clamping surface being at a distance D2 from the exit end of the conveyor belt (62) to the edge of the conveyor belt (62), D1 being greater than D2.

9. The high efficiency anchor plate chamfering apparatus according to claim 8, wherein the belt body (621) is formed of at least three endless chains, and the first belt roller and the second belt roller are each provided with a sprocket which engages with the endless chains.

Images