CN218194248U - Sliding table and horizontal stone or rock plate chamfering machine - Google Patents

Abstract

The utility model provides a sliding table and a horizontal stone or rock plate chamfering machine, wherein the sliding table comprises a sliding table body, a limiting component and a pressing component, wherein the limiting component is used for preventing the sliding table body from turning on one side; the sliding table is adopted to convey the rock plate or the stone to move, and the pressing assemblies are correspondingly arranged on the sliding table to ensure the pressing of the rock plate or the stone; the ingenious fixed mounting of subassembly that will compress tightly structural style on the slip table can make whole structure that is used for carrying and compressing tightly the rock plate or stone material become more succinct, low cost, and preparation and transportation are simple and convenient more.

Description

Sliding table and horizontal stone or rock plate chamfering machine

Technical Field

The utility model relates to a rock plate or stone material chamfer processing equipment technical field, concretely relates to slip table and horizontal rock plate or stone material beveler.

Background

The rock plate or stone chamfering and edging processing equipment is generally divided into a vertical type and a horizontal type, wherein the horizontal rock plate or stone chamfering machine comprises synchronous belts which are oppositely arranged up and down, and the stone or rock plate is clamped by the upper and lower synchronous belts to be conveyed. The lower synchronous belt is fixed on the machine frame, the upper synchronous belt is fixed on the pressing frame, the pressing frame can ascend and descend vertically, and the upper synchronous belt can be driven to ascend and descend together, so that the stone or rock plates with different thicknesses can be adapted to. During edging chamfer, stone material or slabstone level are placed under on the hold-in range, compress tightly the frame decline and synchronous drive goes up the hold-in range and moves down, compresses tightly stone material or slabstone under on the hold-in range, guarantees that slabstone or stone material carry forward the in-process that carries out the edging chamfer can not appear rocking. Although adopt hold-in range and lower hold-in range matched with mode can realize the steady transport of slate or stone material, adopt the structural style of conveyer belt, need be equipped with corresponding drive mechanism for the structure of whole equipment is comparatively complicated, and is heavy, and the debugging degree of difficulty is big, transport and transportation all have certain inconvenience.

Disclosure of Invention

To the defect that exists among the prior art, the utility model aims to provide a slip table and horizontal rock plate or stone material beveler.

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

in a first aspect, the present application provides a slip table, the slip table includes:

the sliding table comprises a sliding table body, a sliding table body and a sliding table body, wherein the sliding table body comprises an upper sliding table and a lower sliding seat, and the upper sliding table is connected with the lower sliding seat in a sliding manner;

the limiting assemblies are arranged at two inner sides of the lower part of the upper sliding table;

and at least two groups of pressing assemblies which are symmetrically arranged at two ends of the top end of the sliding table body are used for pressing the rock plates or the stones to be processed on the top end surface of the sliding table body.

The sliding table is adopted to convey the rock plate or the stone to move, and the rock plate or the stone is guaranteed to be compressed through the correspondingly arranged compression assembly; the ingenious fixed mounting of subassembly that will compress tightly structural style on the slip table can make whole structure that is used for carrying and compressing tightly the rock plate or stone material become more succinct, and preparation and transportation are more simple and convenient.

Furthermore, a sliding groove is formed in the top end face of the sliding table body along the length direction of the sliding table body, and the pressing assembly is slidably and fixedly installed in the sliding groove; through be provided with the spout on the slip table body, can be so that compress tightly the subassembly and according to the overall dimension of rock plate or stone material, swiftly adjust its mounted position in a flexible way to guarantee the effect that compresses tightly to rock plate or stone material.

Furthermore, the plurality of groups of pressing assemblies are uniformly arranged along the length direction of the sliding table body at intervals; through according to the overall dimension of rock plate or stone material, the corresponding multiunit that is equipped with compresses tightly the subassembly to guarantee the effect that compresses tightly to rock plate or stone material.

Further, the compressing assembly comprises an air cylinder mounting plate, an air cylinder, a movable pressing plate and a sliding block, the sliding block is slidably mounted in the sliding groove, the air cylinder mounting plate is fixedly mounted at the top end of the sliding block, the air cylinder is vertically and fixedly mounted on the air cylinder mounting plate, and the movable pressing plate is horizontally and fixedly mounted on a piston rod of the air cylinder and used for compressing a rock plate or a stone material to be processed on the top end face of the sliding table body; by adopting the air cylinder and the sliding pressing plate as the pressing mechanism of the rock plate or the stone material, the outer shape size is small and the installation and maintenance are convenient.

Furthermore, the limiting assemblies are two groups of rollers, and the two groups of rollers are vertically and respectively rotatably installed on two sides of the bottom end of the sliding table body; the roller is tightly matched with the lower sliding seat in the rock plate or stone chamfering machine, so that the phenomenon that the sliding table inclines to one side due to uneven stress in the using process is prevented, and the roller can stably move along with the sliding table without influencing the normal movement of the sliding table.

In a second aspect, the application further provides a horizontal rock plate or stone material beveler, the beveler includes the frame, sets up the chamfer device of frame one side department and set up the depended wheel device in frame one side department, the beveler still include as above the slip table, lower slide fixed mounting be in the frame.

Horizontal rock plate or stone material beveler in this application is through adopting above-mentioned slip table structure as the transport and the compact structure of rock plate or stone material, can be so that whole rock plate or stone material beveler overall structure obtain simplifying, low cost, and subsequent transport transportation of being convenient for.

Drawings

Fig. 1 is a schematic perspective view of a horizontal rock plate or stone chamfering machine in an embodiment of the present application.

Fig. 2 is a schematic structural diagram of a sliding table mounted on a rack in the embodiment of the application.

Fig. 3 is a side view direction structural schematic diagram of the sliding table mounted on the frame in the embodiment of the application.

Fig. 4 is a schematic structural diagram of the installation of the limiting assembly on the sliding table body in the embodiment of the application.

Fig. 5 is a schematic view of a part a of the enlarged structure in fig. 2.

Fig. 6 is a schematic perspective view of a slider in an embodiment of the present application.

Fig. 7 is a schematic view of a part B of fig. 3.

Fig. 8 is a schematic view of the upper slide sliding along the lower slide in the embodiment of the present application.

Fig. 9 is a schematic view of a connection structure between the cross beam and the V-shaped roller in the embodiment of the present application.

Fig. 10 is a schematic structural view of the rubber stopper mounted on the lower slider in the embodiment of the present application.

In the figure:

100-horizontal rock plate or stone chamfering machine, 200-rock plate or stone to be processed, 300-supporting rock plate or stone, 1-frame, 2-grinding head component, 3-sliding table, 31-sliding table body, 311-sliding groove, 312-clamping groove, 3121-inner wall, 3122-side wall, 32-limiting component, 321-roller, 33-pressing component, 331-cylinder mounting plate, 332-cylinder, 333-sliding block, 3331-sliding rail, 334-movable pressing plate, 335-pressing plate, 4-upper sliding table, 5-lower sliding seat, 6-upper sliding rail, 7-lower sliding rail, 8-V-shaped roller, 9-connecting shaft, 10-cross beam, 11-lower baffle, 12-rubber baffle and 13-idler wheel device.

Detailed Description

The present invention will be described in further detail with reference to the drawings and the following detailed description.

Referring to fig. 1, the present embodiment provides a horizontal rock plate or stone chamfering machine 100, which includes a frame 1, a sliding table 3, a grinding head assembly 2 disposed at one side of the frame 1 for chamfering and edging a rock plate or a stone, and a cam device 13.

In this embodiment, the sliding table 3 is used to replace the existing structure mode that the upper synchronous belt and the lower synchronous belt which are opposite up and down are matched to compress and convey, so that the horizontal rock plate or stone chamfering machine which is simpler and has lower manufacturing cost is obtained.

Specifically, as shown in fig. 2 to 5 in combination, the slide table 3 in the present embodiment includes a slide table body 31, a pressing assembly 33 installed at a top end surface of the slide table body 31, and a position limiting assembly 32 provided at a bottom end of the slide table body 31.

In this embodiment, the sliding table body 31 is an existing sliding table structure, and specifically, for convenience of description, the sliding table body 31 is divided into two parts, namely, an upper sliding table 4 which is located on the upper part and can be moved back and forth, and a lower sliding base 5 which is located on the lower part and is fixedly connected with the frame 1, wherein a sliding structure is arranged between the upper sliding table 4 and the lower sliding base 5, so that the upper sliding table 4 can be moved back and forth along the lower sliding base 5.

Referring to fig. 2 and 3, the lower sliding base 5 is fixedly installed on the frame 1, and the upper sliding base 4 can reciprocate along the length direction of the lower sliding base 5, so that the grinding head assembly 2 fixed on one side of the frame 1 can complete the chamfering and edging of the side edge of the rock plate or the stone in the moving process of the rock plate or the stone placed on the sliding base body 31.

The sliding structure between the upper sliding table 4 and the lower sliding table 5 may be a conventional sliding structure, for example, a sliding structure such as a sliding rail and a sliding groove, a linear guide pair, or the like. Meanwhile, as for the driving mode of the upper sliding table 4, a common external power device (for example, a motor chain or an air cylinder) can be used for driving, or the driving can be directly performed by means of manual pushing of an operator, which is not limited by the above.

Referring to fig. 3, 8 and 9, two parallel upper slide rails 6 (round steel) are arranged at the bottom end of the upper sliding table 4 along the length direction thereof, two parallel lower slide rails 7 (round steel) are correspondingly arranged at the top end face of the lower sliding base 5 along the length direction thereof, a group of V-shaped rollers 8 is respectively arranged between the two ends of the upper slide rail 6 and the lower slide rail 7 which are opposite up and down, and each group comprises a pair of V-shaped rollers 8. The pair of V-shaped rollers 8 are arranged at two ends of the connecting shaft 9, a cross beam 10 is connected between the connecting shafts 9 at the two ends, and the four V-shaped rollers 8 form an integral structure through the cross beam 10 and the pair of connecting shafts 9. The upper slide rail 6 is slidably mounted on the upper end face of the V-shaped roller 8, and the lower slide rail 7 is slidably mounted on the lower end face of the V-shaped roller 8. When the sliding table 311 slides, because the upper sliding rail 6 of the sliding table 311 slides and presses the V-shaped roller 8, the upper sliding table 4 can drive the V-shaped roller 8 to roll along the lower sliding rail 7 on the lower sliding base 5 in the sliding process, so that the sliding of the upper sliding table 4 relative to the lower sliding base 5 is realized.

Referring to fig. 8 to 10, in order to prevent the V-shaped roller 8 from slipping out in the sliding process, i.e. the falling-off lower sliding seat or the sliding table from slipping out, lower baffles 11 are respectively arranged at the middle positions of the two ends of the bottom end of the upper sliding table 4, and the V-shaped roller 8 is limited from falling off and slipping out from the upper sliding table 4 by the abutting contact between the lower baffles 11 and the cross beam 10; similarly, rubber stoppers 12 are respectively arranged at the middle positions of the two ends of the top end surface of the lower sliding seat 5, and the V-shaped roller 8 is prevented from falling off and sliding out from the lower sliding seat 5 by utilizing the limit and the blocking of the rubber stoppers 12 on the cross beam 10.

Referring to fig. 3 and 4 in combination, the limiting assembly 32 in the embodiment of the present application is two sets of rollers 321, the two sets of rollers 321 are correspondingly installed at two inner sides of the lower portion of the upper sliding table 4, each set of rollers includes a plurality of rollers 321, the plurality of rollers 321 are arranged at intervals along the inner side of the bottom end of the sliding table body 31, and the rollers 321 are installed at the bottom end of the sliding table body 31 in a rotating manner in a vertically rolling state.

Referring to fig. 7, the roller 321 is located at the top end of the lower sliding seat 5 and is provided with a slot 312 arranged in an inverted L shape, and when the roller 321 rolls, the roller 321 rolls along the inner wall 3121 at the top end of the slot 312; when the top end of the sliding table body 31 is stressed unevenly, the roller 321 is turned over to one side, and when the roller 321 is turned over, the roller 321 is abutted against the side wall 3122 of the clamping groove 312 to prevent the roller 321 from continuously turning over. When the upper slide table 4 moves along the lower slide 5, the roller 321 moves synchronously along the inner wall 3121 at the top end of the slot 312.

Referring to fig. 2 to 5, the pressing assembly 33 in this embodiment is installed at the top end surface of the sliding table body 31, and is used for pressing the rock plate or the stone placed on the top end surface of the sliding table body 31, so as to ensure that the rock plate or the stone does not shake during the subsequent chamfering and polishing process. In order to conveniently adjust the installation position of the pressing assembly 33 and flexibly adjust the pressing position of the pressing assembly 33 on the rock slab or the stone, the pressing assembly 33 may be formed with a sliding connection structure with the top end surface of the sliding table body 31. When adjusting the installation position of the pressing assembly 33, the pressing assembly can conveniently slide to quickly and conveniently reach the installation position of the pressing assembly, and after the pressing assembly 33 reaches the installation position of the pressing assembly, the pressing assembly is locked and tightly installed on the sliding table body 31.

Compress tightly the subassembly 33 and be two sets of, two sets of subassemblies that compress tightly 33 symmetry sets up in slip table body top both ends department. In order to compress the longer rock plates or stones of external dimensions, the compressing assemblies 33 may be of multiple groups, wherein the multiple groups are greater than two groups, and the multiple groups of compressing assemblies 33 are arranged at intervals along the length direction of the sliding table body 31 so as to uniformly compress the rock plates or stones placed on the sliding table body 31.

Referring to fig. 2, 5 and 6, in some embodiments, the pressing assembly 33 includes a cylinder mounting plate 331, a cylinder 332, a movable platen 334 and a slider 333. A sliding groove 311 arranged along the length direction of the sliding table body 31 is arranged at the middle position of the top end surface of the sliding table body 31, a sliding rail 3331 matched with the sliding groove 311 in a sliding manner is arranged at the bottom end of the sliding block 333, and the sliding block 333 is installed in the sliding groove 311 in a sliding manner through the sliding rail 3331 at the bottom end of the sliding block 333.

Referring to fig. 5, the cylinder mounting plate 331 is fixedly mounted on the top end of the slider 333, and may be welded or bolted. In this embodiment, bolt fastening is preferably employed for the mounting connection. The cylinder 332 is vertically and fixedly installed on the cylinder installation plate 331, the movable pressing plate 334 is tightly connected with a piston rod at the bottom end of the cylinder 332, and a pair of pressing plates 335 are further arranged below the movable pressing plate 334. A pair of pressing plates 335 are arranged in parallel and laterally, placed on the upper surface of the stone or rock to be processed, and then the pressing plates 335 are pressed by the movable pressing plates 334, thereby pressing the stone or rock to be processed.

When the sliding table is used, the pair of pressing plates 335 are manually and transversely placed on the rock plate or the stone 200 to be processed, the air cylinder 332 drives the movable pressing plate 334 to vertically lift and move to press or loosen the pressing plates 335, and then the rock plate or the stone placed on the top end face of the sliding table body 31 is pressed or loosened. It will be appreciated that by using a pair of transversely parallel arranged press plates 335, the compaction of the rock or stone material is better.

In order to better understand the working principle of the rock plate or stone chamfering machine in the present embodiment, the following description is made of the working process of chamfering and grinding the rock plate or stone, with reference to the accompanying drawings 1 to 3:

the rock plate or the stone material 200 level that will wait to process is placed on the top right flank of slip table body 31, be close to the one side of bistrique subassembly 2 promptly, wait to process the rock plate or the stone material and fix a position through depended wheel device 13 on frame 1 right side, can place the support rock plate or the stone material 300 with waiting to process the same thickness of rock plate or stone material simultaneously on the top left flank of slip table body 31, it can be understood, place support rock plate or stone material 300 through placing at slip table body 31 top left flank, its function lies in providing the support for the other end of clamp plate 335, whole atress is even when guaranteeing that activity clamp plate 334 pushes down, keep balance. After the rock plate or the stone to be processed is placed in place, the air cylinder 332 drives the movable pressing plate 334 to move downwards, and the rock plate or the stone is pressed and attached to the top end face of the sliding table body 31 through the pressing plate 335 below. Subsequently, the upper sliding table 4 is pushed to move forward along the lower sliding base 5, the sliding table body 31 is in the moving process, the side edge of the rock plate or the stone material to be processed on the sliding table body is in contact with the grinding head assembly 2, the grinding head assembly 2 carries out chamfering and edging processing on the side edge of the rock plate or the stone material to be processed, after the rock plate or the stone material to be processed is subjected to chamfering and edging processing, the air cylinder 332 drives the movable pressing plate 334 to ascend, the pressing plate 335 and the rock plate or the stone material to be processed are taken out, the next rock plate or the stone material to be processed and the pressing plate 335 are placed in, the air cylinder 332 drives the movable pressing plate 334 to move downwards to press the movable pressing plate, the sliding table body 31 is pushed to move forward, and the process is repeated.

It will be apparent to those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (6)

1. A slide table, characterized in that the slide table includes:

the sliding table comprises a sliding table body, a sliding table body and a sliding table body, wherein the sliding table body comprises an upper sliding table and a lower sliding seat, and the upper sliding table is connected with the lower sliding seat in a sliding manner;

the limiting assemblies are arranged at two inner sides of the lower part of the upper sliding table;

and at least two groups of pressing assemblies which are symmetrically arranged at two ends of the top end of the sliding table body are used for pressing the rock plates or the stones to be processed on the top end surface of the sliding table body.

2. The slide table of claim 1, wherein the top end surface of the slide table body is provided with a slide groove along a length direction thereof, and the hold-down assembly is slidably and tightly mounted in the slide groove.

3. The sliding table of claim 2, wherein the plurality of sets of the pressing assemblies are arranged at equal intervals along the length direction of the sliding table body.

4. The sliding table according to claim 2 or 3, wherein the pressing assembly includes a cylinder mounting plate, a cylinder, a movable pressing plate and a sliding block, the sliding block is slidably mounted in the sliding groove, the cylinder mounting plate is fixedly mounted at the top end of the sliding block, the cylinder is vertically and fixedly mounted on the cylinder mounting plate, and the movable pressing plate is horizontally and fixedly mounted on a piston rod of the cylinder and used for pressing a rock plate or a stone material to be processed on the top end face of the sliding table body.

5. The sliding table according to claim 1, wherein the limiting assemblies are two sets of rollers vertically and respectively rotatably mounted on two sides of the bottom end of the sliding table body.

6. A horizontal rock plate or stone material beveler, the beveler includes the frame, sets up the chamfer device of frame one side department and sets up the location depended wheel device of frame one side department, its characterized in that, the beveler still includes the slip table of any one of above claim 1 to 5, the lower carriage fixed mounting is in on the frame.

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