CN214774601U - Wear-resisting SPC floor production high temperature extrusion device - Google Patents

Abstract

The utility model discloses a wear-resisting SPC floor production high temperature extrusion device relates to house production technical field. The utility model discloses a first material fagging, conveyer belt, scraper and extrusion post, the inside both sides of conveyer belt all rotate and have cup jointed the cooperation roller, and the front side and the rear side of the cooperation roller of conveyer belt one side all rotate and are connected with first material fagging, and one side that the conveyer belt is close to first material fagging is provided with the extrusion post, and one side that first material fagging was kept away from to the conveyer belt top is provided with the scraper. The utility model discloses a set up first material fagging, conveyer belt, scraper and extrusion column, solved current wear-resisting SPC floor production extrusion device and can't heat the raw materials and can't carry out the problem detached with flaw and burr on the floor in the production process at the extruded process.

Description

Wear-resisting SPC floor production high temperature extrusion device

Technical Field

The utility model belongs to the technical field of the house production, especially, relate to a wear-resisting SPC floor production high temperature extrusion device.

Background

The SPC floor is a novel material invented in response to national emission reduction, the hard SPC indoor floor is very popular in foreign home decoration markets and is very perfect for home decoration, the SPC floor takes calcium powder as a main raw material, is plasticized to extrude a sheet material, is hot-pressed on a color film decorative layer and a wear-resistant layer by four-roller calendering, does not contain harmful substances of heavy metal formaldehyde, is an environment-friendly floor which does not contain formaldehyde in percentage, is a real zero-formaldehyde floor, is formed by heating, pressurizing and pressing all material layers in the production process, and extrudes and fixes the raw materials produced by the SPC floor through an extrusion device, but still has the following defects in actual use:

1. the existing wear-resistant SPC floor production extrusion device can only extrude the SPC floor, and cannot heat the raw materials in the extrusion process;

2. the existing wear-resistant SPC floor production extrusion device directly conveys the SPC floor to the extrusion device for extrusion forming, and defects and burrs on the floor cannot be removed in the production process.

Therefore, the existing wear-resistant SPC floor production extrusion device cannot meet the requirements in practical use, so that the market urgently needs improved technology to solve the problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a wear-resisting SPC floor production high temperature extrusion device through setting up first material fagging, conveyer belt, scraper and extrusion post, has solved current wear-resisting SPC floor production extrusion device and can't heat the raw materials and can't carry out the problem detached flaw and burr on the floor in the production process at the extruded process.

In order to solve the technical problem, the utility model discloses a realize through following technical scheme:

the utility model relates to a wear-resisting SPC floor production high temperature extrusion device, including first material fagging, conveyer belt, scraper and extrusion post, the inside both sides of conveyer belt all rotate and have cup jointed the cooperation roller, the front side and the rear side of the cooperation roller of conveyer belt one side all rotate and are connected with first material fagging, one side that the conveyer belt is close to first material fagging is provided with the extrusion post, one side that first material fagging was kept away from to the conveyer belt top is provided with the scraper, the utility model discloses a SPC floor that the conveyer belt will need processing is carried extrusion post below, under the effect of the scraper that sets up above that, scrapes the burr on the SPC floor, and the material that will need compound SPC floor through first material fagging and second material fagging sets up in the conveyer belt top, heats and extrudees through the structure above that the extrusion post will need compound SPC floor.

Further, one side that the first material fagging of cooperation roller front side and rear side is close to the scraper all is provided with second material fagging, two the opposite face top of first material fagging and second material fagging all is fixed with the limiting disc, two and corresponds mutually the central authorities of the opposite face of limiting disc rotate and are connected with the winding rod, and first material fagging and second material fagging cooperate, will extrude the required raw materials setting of composite bottom plate on the conveyer belt.

Further, the leading flank and the trailing flank of the cooperation roller that the extrusion post one side was kept away from to the conveyer belt all rotate and be connected with the supporting seat, the supporting seat front side of conveyer belt front side is provided with rotating base, rotating base's top is fixed with the rotation motor, the output of rotating motor is fixed with the axis of rotation, and the conveyer belt rotates the conveyer belt drive through the power that the rotation motor produced.

Further, the one end that the rotation motor was kept away from to axis of rotation week side is cup jointed on the supporting seat of conveyer belt front side, the one end fixed connection that the rotation motor was kept away from to the front end that the conveyer belt was close to the cooperation roller that rotates motor one side and axis of rotation, the front side and the rear side of scraper all are fixed with scrapes the seat, and the conveyer belt is fixed through the axis of rotation on cooperation roller wherein and the rotation motor, will rotate the power transmission that the motor produced and to the conveyer belt, rotate the conveyer belt drive.

Further, the front side and the rear side of extrusion post all are fixed with the extrusion seat, the extrusion seat front side of extrusion post front side and the extrusion seat rear side of rear side all are provided with the drive seat, the top of drive seat all is fixed with driving motor, driving motor's output all is fixed with the drive shaft, driving motor's week side one end is kept away from to the drive shaft cup jointed on the extrusion seat, and driving motor's a terminal surface is kept away from to the drive shaft all with extrusion post and the corresponding terminal surface fixed connection of driving motor, the extrusion post rotates under driving motor's drive.

Further, be fixed with the cooperation post on the extrusion seat of extrusion post below, the heating hole has been seted up to the week side of cooperation post inside, the downthehole cup joints and is fixed with the heater of heating, week side of cooperation post has cup jointed changes the cover, and the extrusion post cooperates through changeing the cover with the cooperation post on it, will extrude through the SPC floor of extrusion post below to through the heater in the cooperation post, will heat through the SPC floor of extrusion post west.

The utility model discloses following beneficial effect has:

1. the utility model discloses a set up first material fagging, conveyer belt and extrusion column, the problem that current wear-resisting SPC floor production extrusion device can't heat the raw materials in extruded process has been solved, the extrusion column will cooperate through the commentaries on classics cover that the power that rotates the motor and produce cup jointed on the cooperation post above that, the raw and other materials on the floor of carrying on the conveyer belt are under the transport with the last raw materials of first material fagging and second material fagging, heat under the heating of the heater in the cooperation post of extrusion column below, make the combination fastening of each bed of material on SPC floor, increase its durability.

2. The utility model discloses a set up conveyer belt and scraper, solved current wear-resisting SPC floor and can't carry out the problem detached with flaw and burr on the floor in process of production. When the SPC floor is conveyed on the conveyor belt, the defects and burrs on the base plate conveyed on the conveyor belt are scraped by the scraper, so that the quality of the produced SPC floor is more perfect.

Of course, it is not necessary for any particular product to achieve all of the above-described advantages at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a perspective view of the assembly structure of the present invention;

fig. 2 is a perspective view of the first material supporting plate and the second material supporting plate of the present invention;

FIG. 3 is a perspective view of the conveyor belt structure of the present invention;

FIG. 4 is a perspective view of the scraper structure of the present invention;

fig. 5 is a perspective view of the extrusion column structure of the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

100. a first material supporting plate; 101. a confinement plate; 102. rolling the rod; 103. a second material supporting plate; 200. a conveyor belt; 201. a mating roller; 202. a supporting seat; 203. rotating the base; 204. rotating the motor; 205. a rotating shaft; 300. a scraper; 301. scraping a seat; 400. extruding the column; 401. a pressing base; 402. a drive shaft; 403. a drive motor; 404. a driving seat; 405. rotating the sleeve; 406. a mating post; 407. heating the hole; 408. a heater.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Referring to fig. 1-5, the utility model relates to a wear-resistant SPC floor production high temperature extrusion device, which comprises a first material supporting plate 100, a conveying belt 200, a scraper 300 and an extrusion column 400, wherein both sides of the inside of the conveying belt 200 are rotatably sleeved with a matching roller 201, the conveying belt 200 conveys a bottom plate to be processed to the lower part of the extrusion column 400 for extrusion, the matching roller 201 supports the conveying belt 200 and performs matching transmission with the conveying belt 200, the front side and the rear side of the matching roller 201 at one side of the conveying belt 200 are rotatably connected with the first material supporting plate 100, the first material supporting plate 100 supports the side of the conveying belt 200 close to the side of the conveying belt 200 through the supporting matching roller 201, and supports one of materials for extruding the SPC floor on the conveying belt 200, the extrusion column 400 is arranged at one side of the conveying belt 200 close to the first material supporting plate 100, the extrusion column 400 performs pressing on the raw materials for producing the SPC floor, a scraper 300 is arranged on the side, far away from the first material supporting plate 100, above the conveyer belt 200, and the scraper 300 scrapes burrs on the SPC floor on the conveyer belt 200.

As shown in fig. 1 and 2, the second material supporting plate 103 is disposed on the front side and the back side of the matching roller 201 on the side of the first material supporting plate 100 close to the scraper 300, the limiting discs 101 are fixed on the tops of the opposite surfaces of the two first material supporting plates 100 and the second material supporting plate 103, the limiting discs 101 set the raw materials of the composite SPC floor above the conveyer belt 200, the central parts of the opposite surfaces of the two mutually corresponding limiting discs 101 are rotatably connected with the winding rod 102, the winding rod 102 rotates the raw materials to be conveyed to the SPC floor on the conveyer belt 200 when the machine works, the raw materials of the composite SPC floor are supported above the conveyer belt 200 by the first material supporting plate 100 and the second material supporting plate 103, and the raw materials required for processing the SPC floor are rolled above the conveyer belt 200 by the winding rod 102 rotatably connected to the upper limiting disc 101 when the machine works.

As shown in fig. 1 and 3, the front side and the rear side of the matching roller 201 on the side of the conveyer belt 200 far from the extrusion column 400 are rotatably connected with a supporting seat 202, the supporting seat 202 is rotatably connected with the matching roller 201 on the side of the conveyer belt 200 far from the extrusion column 400, the conveyer belt 200 is supported on the ground through the supporting seat 202 and the first material supporting plate 100, the front side of the supporting seat 202 on the front side of the conveyer belt 200 is provided with a rotating base 203, the rotating base 203 supports a rotating motor 204 on the ground, the top of the rotating base 203 is fixed with a rotating motor 204, the rotating motor 204 generates power to drive the conveyer belt 200 to move, the output end of the rotating motor 204 is fixed with a rotating shaft 205, the rotating shaft 205 transmits the power generated by the rotating motor 204 to the matching roller 201 to drive the conveyer belt 200 to rotate, the conveyer belt 200 is matched with the first material supporting plate 100 through the supporting seat 202 on the conveyer belt 200 to support the ground, the conveyor belt 200 is driven to move by a rotary motor 204.

As shown in fig. 1, 3, and 4, one end of the rotation shaft 205, which is far away from the rotation motor 204, is sleeved on the support base 202 at the front side of the conveyor belt 200, the front end of the matching roller 201, which is close to one side of the rotation motor 204, of the conveyor belt 200 is fixedly connected with one end of the rotation shaft 205, which is far away from the rotation motor 204, the rotation shaft 205 is fixed with the front end of the matching roller 201, which is close to one side of the rotation motor 204, to convey power generated by the rotation motor 204 to the conveyor belt 200, the front side and the rear side of the scraper 300 are both fixed with the scraper base 301, the scraper base 301 supports the scraper 300 above the conveyor belt 200, which is far away from the extrusion column 400, the rotation motor 204 is fixed with the matching roller 201 through the rotation shaft 205, conveys power generated thereon to the conveyor belt 200, the conveyor belt 200 is driven to move, and the scraper 300 is supported above the conveyor belt 200 through the scraper base 301.

As shown in fig. 1 and 5, the front side and the rear side of the compression column 400 are both fixed with a compression seat 401, the compression seat 401 supports the compression column 400 and a matching column 406 on the ground, the front side and the rear side of the compression seat 401 at the front side of the compression column 400 are both provided with a driving seat 404, the driving seat 404 supports a driving motor 403 on the ground, the top of the driving seat 404 is both fixed with a driving motor 403, the driving motor 403 generates power to drive the compression column 400 to rotate, the output end of the driving motor 403 is both fixed with a driving shaft 402, the driving shaft 402 transmits the power generated by the driving motor 403 to the compression column 400 to drive the rotation of the compression column 400, one end of the driving shaft 402 far from the circumferential side of the driving motor 403 is sleeved on the compression seat 401, and one end surface of the driving shaft 402 far from the driving motor 403 is both fixedly connected with one end surface of the compression column 400 corresponding to the driving motor 403, the compression column 400 drives the compression column 400 to rotate under the transmission of the driving shaft 403 by the power generated by the driving motor 403, the base plate passing through the compression column 400 is compressed by the engagement of the sleeve 405 received over the engagement column 406.

As shown in fig. 1 and 5, a fitting column 406 is fixed on the extrusion seat 401 below the extrusion column 400, the fitting column 406 fixes a heater 408 inside the fitting column 406 through a heating hole 407 formed thereon, and a rotating sleeve 405 is sleeved thereon, a heating hole 407 is formed on the circumferential side inside the fitting column 406, the heater 408 is fixed inside the fitting column 406 through the heating hole 407, the heater 408 is sleeved and fixed inside the heating hole 407, the heater 408 heats the rotating sleeve 405 on the fitting column 406 to heat the SPC floor passing between the extrusion column 400 and the fitting column 406, the rotating sleeve 405 is sleeved on the circumferential side of the fitting column 406, the rotating sleeve 405 and the extrusion column 400 are matched to extrude the SPC floor passing below the extrusion column 400, and the SPC floor passing below the extrusion column 400 is heated through the heater 408 fixed inside the fitting column 406.

The above is only the preferred embodiment of the present invention, and the present invention is not limited thereto, any technical solutions recorded in the foregoing embodiments are modified, and some technical features thereof are replaced with equivalent ones, and any modification, equivalent replacement, and improvement made thereby all belong to the protection scope of the present invention.

Claims (6)

1. The utility model provides a wear-resisting SPC floor production high temperature extrusion device, includes first material fagging (100), conveyer belt (200), scraper (300) and extrusion post (400), its characterized in that: the inside both sides of conveyer belt (200) all rotate and have cup jointed cooperation roller (201), the front side and the rear side of the cooperation roller (201) of conveyer belt (200) one side all rotate and are connected with first material fagging (100), one side that conveyer belt (200) is close to first material fagging (100) is provided with extrusion post (400), one side of keeping away from first material fagging (100) in conveyer belt (200) top is provided with scraper (300).

2. The high-temperature extrusion device for manufacturing wear-resistant SPC floors as claimed in claim 1, wherein the first material supporting plates (100) at the front side and the rear side of the matching roller (201) are provided with the second material supporting plates (103) at the side close to the scraper (300), the limiting discs (101) are fixed on the tops of the opposite surfaces of the two first material supporting plates (100) and the second material supporting plates (103), and the central parts of the opposite surfaces of the two corresponding limiting discs (101) are rotatably connected with the winding rods (102).

3. The high-temperature extrusion device for wear-resistant SPC floor production according to claim 1, wherein the front side and the back side of the matching roller (201) on the side of the conveyer belt (200) far away from the extrusion column (400) are rotatably connected with a supporting seat (202), the front side of the supporting seat (202) on the front side of the conveyer belt (200) is provided with a rotating base (203), the top of the rotating base (203) is fixed with a rotating motor (204), and the output end of the rotating motor (204) is fixed with a rotating shaft (205).

4. The high-temperature extrusion device for wear-resistant SPC floor production according to claim 3, wherein one end of the circumferential side of the rotating shaft (205) far away from the rotating motor (204) is sleeved on the supporting seat (202) at the front side of the conveyer belt (200), the front end of the matching roller (201) of the conveyer belt (200) near the rotating motor (204) is fixedly connected with one end of the rotating shaft (205) far away from the rotating motor (204), and the scraping seats (301) are fixed at the front side and the rear side of the scraper (300).

5. The high-temperature extrusion device for wear-resistant SPC floor production according to claim 1, wherein the extrusion column (400) is fixed with extrusion seats (401) at the front side and the rear side, the extrusion seats (401) at the front side and the rear side of the extrusion columns (400) are provided with driving seats (404) at the rear side, the driving seats (404) are fixed with driving motors (403) at the top, the output ends of the driving motors (403) are fixed with driving shafts (402), one ends of the driving shafts (402) far away from the driving motors (403) at the circumferential side are sleeved on the extrusion seats (401), and one end faces of the driving shafts (402) far away from the driving motors (403) are fixedly connected with one end faces of the extrusion columns (400) and the driving motors (403) corresponding to each other.

6. The high-temperature extrusion device for producing wear-resistant SPC floors as claimed in claim 5, wherein a matching column (406) is fixed on the extrusion seat (401) below the extrusion column (400), a heating hole (407) is opened on the inner circumference side of the matching column (406), a heater (408) is sleeved and fixed in the heating hole (407), and a rotating sleeve (405) is sleeved and fixed on the circumference side of the matching column (406).

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