CN214163541U

CN214163541U - Automatic line production device for artificial stone plate

Info

Publication number: CN214163541U
Application number: CN202022172761.9U
Authority: CN
Inventors: 汪田安; 罗国彬
Original assignee: FOSHAN SHUOYU MACHINERY RESEARCH DEVELOPMENT CO LTD
Current assignee: FOSHAN SHUOYU MACHINERY RESEARCH DEVELOPMENT CO LTD
Priority date: 2020-09-29
Filing date: 2020-09-29
Publication date: 2021-09-10
Anticipated expiration: 2030-09-29

Abstract

The automatic line laying production device for the artificial stone slab comprises a rack, wherein two ends of the rack are respectively provided with a cross beam; a conveying mechanism mounted on the frame; the movable beam is arranged on the two cross beams in a sliding mode, and a first driving unit for driving the movable beam to move along the extending direction of the cross beams is arranged on the movable beam or the cross beams; the movable block is arranged on the movable beam, and a second driving unit for driving the movable block to move along the extending direction of the movable beam is arranged on the movable block or the movable beam; the movable block is provided with a nicking tool, a first nozzle and a second nozzle; the first material storage barrel is used for storing the slurry and is communicated with the first nozzle; and the second storage barrel is used for storing powder and is communicated with the second nozzle. The utility model reduces the space occupied by the automatic artificial stone plate line arrangement production device; and need not remove panel between three processes, improved the efficiency of production to only need once fix a position panel, improved the precision of production.

Description

Automatic line production device for artificial stone plate

Technical Field

The utility model relates to a stone material production technical field, concretely relates to automatic cloth strip apparatus for producing of rostone panel.

Background

The artificial stone has better physical and chemical properties, is widely applied to the field of building materials, and particularly has obvious advantages compared with other stones when being applied to table tops and houses of bathrooms. Under the general condition, the texture needs to be processed on the surface of rostone to promote the outward appearance aesthetic feeling of rostone, and current way is at the grooving of panel, spouts powder and mill base in the recess after, waits that mill base and powder form the texture that needs on the surface of panel after the recess internal curing.

In the existing production device, the processes of groove carving, powder spraying and color paste spraying are carried out on different stations, so that the production device occupies larger space and has lower production efficiency.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an automatic cloth strip apparatus for producing of rostone stone slab, its occupation space is little, and can improve rostone stone slab's machining efficiency to prior art not enough.

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

automatic cloth lines apparatus for producing of artificial stone panel includes:

the device comprises a rack, wherein two ends of the rack are respectively provided with a cross beam extending along the width direction of the rack;

the conveying mechanism is arranged on the rack and used for conveying and supporting the plates;

the movable beam extends along the length direction of the rack, two ends of the movable beam are respectively installed on the two cross beams in a sliding mode, and the movable beam or the cross beams are provided with first driving units used for driving the movable beam to move along the extending direction of the cross beams;

the movable block is arranged on the movable beam, and a second driving unit for driving the movable block to move along the extending direction of the movable beam is arranged on the movable block or the movable beam; the movable block is provided with a nicking tool, a first nozzle and a second nozzle;

the first material storage barrel is used for storing the slurry and is communicated with the first nozzle;

and the second storage barrel is used for storing powder and is communicated with the second nozzle.

Fixedly connected with support on the movable block is provided with a mount pad on this support and is used for driving the mount pad and reciprocates the cylinder, and burin, first nozzle and second nozzle are all installed on the mount pad.

The mounting seat is provided with a rotating shaft and a motor for driving the rotating shaft to rotate, and the graver is connected to the bottom end part of the rotating shaft.

The mount pad includes the mount pad, dock in the lower mount pad of last mount pad lower surface, is provided with a recess at last mount pad under with between the mount pad, goes up to be fixed with on the mount pad one with the connecting pipe of recess intercommunication, first storage vat and this connecting pipe intercommunication, the top and the recess intercommunication of first nozzle.

A baffle plate surrounding the nicking tool, the first nozzle and the second nozzle is fixed on the mounting seat, and the second nozzle is fixedly connected to the baffle plate.

A roller is also arranged in the baffle.

First storage vat and the equal fixed mounting of second storage vat are on the walking beam, and communicate with first nozzle and second nozzle through hose respectively.

The second driving unit comprises a rack arranged on the movable beam, a gear arranged on the movable block and meshed with the rack, and a servo motor used for driving the gear to rotate.

The beneficial effects of the utility model reside in that:

compared with the prior art, the utility model has the advantages that when the artificial stone plate is produced, the processes of groove carving, powder spraying and slurry spraying are all completed on one station, so that the space occupied by the automatic line arrangement production device for the artificial stone plate is reduced; and need not remove panel between three processes, improved the efficiency of production to only need once fix a position panel, improved the precision of production.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural diagram of the movable block of FIG. 1;

FIG. 3 is a schematic view of the installation of the nicking tool of FIG. 2;

fig. 4 is a schematic structural diagram of the second driving unit.

Detailed Description

The invention will be further described with reference to the accompanying drawings and specific embodiments:

as shown in fig. 1, 2, 3, and 4, for the utility model, an automatic artificial stone plate material laying line production device comprises a frame 10, a conveying mechanism 20, a movable beam 30, a movable block 40, a first storage tank 31 and a second storage tank 32, wherein the frame 10 is an installation base part of the whole device, in the illustration, the X direction is the length direction of the frame 10, the Y direction is the width direction of the frame 10, two ends of the frame 10 are respectively provided with a beam 11, and the extending direction of the beam 11 is consistent with the Y direction; the conveying mechanism 20 is mounted on the frame 10 and is used for conveying the plate, and supports the plate below the plate during the plate processing, specifically, the conveying mechanism 20 may be a belt conveying mechanism, but of course, in other embodiments, the conveying mechanism 20 may also be a roller conveying mechanism, in short, it is only necessary to convey and support the plate. The extending direction of the movable beam 30 is the same as the X direction in the figure, and both ends of the movable beam 30 are respectively installed on the two cross beams 11 in a sliding manner, so that the movable beam 30 has a degree of freedom of movement along the Y direction, meanwhile, the movable beam 30 is provided with a first driving unit for driving the movable beam 30 to move along the Y direction, and of course, the first driving unit for driving the movable beam 30 may also be arranged on the cross beam 11. The movable block 40 is mounted on the movable beam 30, and a second driving unit is disposed on the movable block 40 or the movable beam 30, and the second driving unit is configured to drive the movable block 40 to move along the extending direction of the movable beam 30, that is, drive the movable block 40 to move along the X direction. The movable block 40 is provided with a nicking tool 51, a first nozzle 61 and a second nozzle 62, wherein the first nozzle 61 is communicated with the first storage barrel 31, and the second nozzle 62 is communicated with the second storage barrel 32.

The utility model discloses at the during operation, carry panel to frame 10 on through conveying mechanism 20, make panel be in the station on frame 10, and utilize conveying mechanism 20 to support panel, make movable block 40 can remove in X, Y directions through first drive unit and second drive unit, then make burin 51 remove on the surface that can be at panel, through graphic input to the control unit with needs, utilize first drive unit of control unit control and second drive unit to make burin 51 draw the recess corresponding with the texture on the surface of panel, then spout powder and thick liquids to the recess through first nozzle 61 and second nozzle 62. Compared with the prior art, the working procedures of groove carving, powder spraying and slurry spraying are all completed on one station when the artificial stone plate is produced and manufactured, so that the space occupied by the automatic line distributing production device for the artificial stone plate is reduced; and need not remove panel between three processes, improved the efficiency of production to only need once fix a position panel, improved the precision of production.

In order to facilitate the plate to go in and out, the utility model sets the graver 51, the first nozzle 61 and the second nozzle 62 to be a structure capable of moving up and down, specifically, as shown in fig. 2 and 3, a bracket 41 is fixedly connected to the movable block 40, an installation seat 42 and an air cylinder 43 for driving the installation seat 42 to move up and down are arranged on the bracket, specifically, the cylinder body of the air cylinder 43 is fixed on the bracket 41, the installation seat 42 is connected to the telescopic rod of the air cylinder 43, and then the installation seat 42 is driven by the air cylinder 43 to move up and down, so that the graver 51, the first nozzle 61 and the second nozzle 62 are close to or far away from the plate; in addition, a guide sleeve 44 is further arranged on the bracket 41, and the telescopic rod of the air cylinder 43 is penetrated in the guide sleeve 44, so that the vertical movement of the mounting seat 42 can be guided, and the mounting seat 42 is prevented from deflecting during the vertical movement. In order to make nicking tool 51 can be at the nimble processing recess in panel surface, the utility model discloses set up nicking tool 51 into rotatable structure, it is concrete, install a pivot 53 and motor 52 on mount pad 42, motor 52 is used for driving pivot 53 and rotates, and bottom portion at pivot 53 is connected to nicking tool 51.

In another preferred embodiment, the present invention provides the mounting seat 42 as two parts of the upper mounting seat 421 and the lower mounting seat 422, wherein, the lower mounting seat 422 is butted against the lower surface of the upper mounting seat 421, a groove 423 is arranged between the upper mounting seat 421 and the lower mounting seat 422, the groove 423 is annular, the upper mounting seat 421 and the lower mounting seat 422 are in sealed fit, so that the groove 423 forms an annular channel, a connecting pipe 424 communicated with the groove 423 is fixed on the upper mounting seat 421, the first storage tank 31 is connected with the connecting pipe 424 through a hose, the first nozzle 61 is fixedly connected below the lower mounting seat 422, and the tip end portion of the first nozzle 61 communicates with the groove 423, so that the slurry enters the first nozzle 61 through the hose via the groove 423, the slurry can be continuously sprayed out from the first nozzle 61, so that the ginger can be continuously filled in the grooves on the surface of the plate.

In addition, a baffle 45 is fixed on the mounting seat 42, the baffle can be connected on the lower mounting seat 422, the baffle 45 surrounds the nicking tool 51, the first nozzle 61 and the second nozzle 62, the second nozzle 62 is fixed on the baffle 45 through a fixing frame 621, and through the blocking of the baffle 45, the splashing of chips, powder and slurry during the groove carving and the cloth carving on the surface of the plate is avoided. In addition, a roller 46 is installed in the baffle 45, and during processing, the roller 46 is pressed on the upper surface of the plate and is in rolling fit with the surface of the plate so as to provide a certain supporting function.

The utility model discloses in, first storage vat 31 and second storage vat 32 are all fixed on walking beam 30 to communicate with first nozzle 61 and second nozzle 62 through the hose respectively, of course, first storage vat 31 and second storage vat 32 also can be fixed in frame 10.

Referring to fig. 4, the second driving unit includes a rack 301 mounted on the movable beam 30, a gear 401 mounted on the movable block 40, and a servo motor for rotating the gear 401, the gear 401 being engaged with the rack 301, thereby enabling the movable block 40 to move in the extending direction of the movable beam 30; the movable beam 30 is further provided with a guide rail 302, the movable block 30 is provided with a guide wheel 402, and the guide wheel 402 is engaged with the guide rail 302 to guide the movement of the movable block 40. The first driving unit of the present invention may be the same as the second driving unit, and will not be described herein.

The foregoing is merely a preferred embodiment of the present invention, and further details of the present invention are described in conjunction with specific preferred embodiments, which should not be construed as limiting the practice of the invention to these descriptions. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. Automatic cloth lines apparatus for producing of artificial stone panel, its characterized in that includes:

2. The automatic laying line production device for artificial stone plates as claimed in claim 1, wherein a support is fixedly connected to the movable block, a mounting seat and a cylinder for driving the mounting seat to move up and down are provided on the support, and the graver, the first nozzle and the second nozzle are all mounted on the mounting seat.

3. The apparatus for producing artificial stone slabs with automatic stringing strips as claimed in claim 2, wherein the mounting base is provided with a rotary shaft and a motor for driving the rotary shaft to rotate, and the graver is connected to the bottom end of the rotary shaft.

4. The automatic line laying device for artificial stone slabs as claimed in claim 3, wherein the mounting seat comprises an upper mounting seat and a lower mounting seat butted against the lower surface of the upper mounting seat, a groove is formed between the upper mounting seat and the lower mounting seat, a connecting pipe communicated with the groove is fixed on the upper mounting seat, the first storage tank is communicated with the connecting pipe, and the top of the first nozzle is communicated with the groove.

5. The automatic laying line production device for artificial stone slabs as claimed in claim 2, wherein a baffle plate surrounding the graver, the first nozzle and the second nozzle is fixed on the mounting base, and the second nozzle is fixedly connected to the baffle plate.

6. The apparatus for producing artificial stone slab automatic stringing line as set forth in claim 5, wherein a roller is further installed in the baffle.

7. The automatic stringing production apparatus for artificial stone slabs according to claim 1, wherein the first storage tank and the second storage tank are both fixedly mounted on the movable beam and are respectively communicated with the first nozzle and the second nozzle through hoses.

8. The apparatus for producing artificial stone slab automatic stringing line as set forth in claim 1, wherein the second driving unit comprises a rack mounted on the movable beam, a gear mounted on the movable block to be engaged with the rack, and a servo motor for driving the gear to rotate.