CN212635354U - Natural simulation negative oxygen ion quartz stone polishing device - Google Patents

Abstract

The utility model discloses a natural simulation negative oxygen ion quartz burnishing device, include band conveyer, install the first polishing mechanism directly over the band conveyer. The first polishing mechanism comprises a supporting disc, a first motor arranged on the supporting disc, a rotating disc in driving connection with the first motor, and a plurality of second motors arranged on the rotating disc. Each second motor is connected with a first polishing disc in a driving mode, the working surface of the first polishing disc is parallel to the horizontal plane, and the first polishing disc is used for polishing plates. The plurality of first polishing disks are uniformly arranged in a circumferential array centered on the rotation axis of the rotating disk. The utility model discloses a natural simulation negative oxygen ion quartz polishing device has further improved the polishing effect of quartz stone panel.

Description

Natural simulation negative oxygen ion quartz stone polishing device

Technical Field

The utility model relates to a quartz processing equipment technical field especially relates to natural simulation negative oxygen ion quartz burnishing device.

Background

The artificial quartz stone plate manufacturing process generally comprises the following steps: collecting raw materials → selecting materials → mixing → stirring → distributing → vacuum high-frequency vibration pressing → heat curing and shaping → thickening and grinding → polishing → cutting plate → packaging and warehousing. However, the polishing effect of the quartz stone plate needs to be further improved during the polishing process.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model aims to provide a natural simulation negative oxygen ion quartz polishing device, which can further improve the polishing effect of quartz stone plates.

The purpose of the utility model is realized by adopting the following technical scheme:

the natural simulation negative oxygen ion quartz polishing device comprises a belt conveyor and a first polishing mechanism arranged right above the belt conveyor;

the first polishing mechanism comprises a supporting disc, a first motor arranged on the supporting disc, a rotating disc in driving connection with the first motor, and a plurality of second motors arranged on the rotating disc; each second motor is connected with a first polishing disc in a driving mode, the working surface of each first polishing disc is parallel to the horizontal plane, and each first polishing disc is used for polishing a plate; the plurality of first polishing plates are arranged in a uniform circumferential array centered on the rotational axis of the rotating disk.

Furthermore, a guide rod is arranged on the belt conveyor, and the supporting disc is matched with the guide rod and can lift along the axial direction of the guide rod; the belt conveyor is fixedly provided with a first rack, the supporting disc is provided with a first gear, and the first rack is in meshing transmission with the first gear.

Furthermore, four guide rods are arranged and are uniformly distributed on two sides of the width of the belt conveyor.

Further, the natural simulation negative oxygen ion quartz polishing device further comprises a second polishing mechanism arranged right above the belt conveyor, wherein the second polishing mechanism comprises a linear driving mechanism, a moving bracket in driving connection with the linear driving mechanism, a second polishing disc arranged on the moving bracket and located right below the moving bracket, and a third motor arranged on the moving bracket and in driving connection with the second polishing disc; the working surface of the second polishing disk is parallel to the horizontal plane, and the second polishing disk is used for polishing the plate; the linear driving mechanism is used for driving the movable support to move along the width direction of the belt conveyor; the second polishing mechanism and the first polishing mechanism are sequentially arranged along the conveying direction of the belt conveyor.

Further, a guide rail is mounted on the belt conveyor, is positioned right above a conveying belt of the belt conveyor and extends along the width direction of the belt conveyor; the movable support is connected with a roller, and the roller is matched with the guide rail.

Compared with the prior art, the beneficial effects of the utility model reside in that:

when the quartz stone plate conveying device works, the belt conveyor works continuously, so that the quartz stone plate continuously moves on the conveying belt of the belt conveyor, and the working hours are saved. And under the condition that a plurality of first polishing disks of the first polishing mechanism rotate around the rotating shaft of the rotating ring, the quartz stone plate can be polished without dead angles, and the polishing effect is better. In addition, because the first polishing disk has a circumferential rotating speed under the rotation of the rotating disk, the first polishing disk has a better effect of removing the raised particles in the layout.

Drawings

FIG. 1 is a schematic structural view of a natural simulation negative oxygen ion quartz polishing device according to the present invention;

FIG. 2 is an enlarged view of a portion of FIG. 1 at A;

fig. 3 is a partially enlarged view of fig. 1 at B.

In the figure: 1. a belt conveyor; 11. a guide bar; 12. a guide rail; 13. a conveyor belt; 2. a first polishing mechanism; 21. a support tray; 22. a first motor; 23. rotating the disc; 24. a second motor; 25. a first polishing pad; 3. a second polishing mechanism; 31. moving the support; 32. a second polishing pad; 33. a third motor; 34. and a roller.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description, and it should be noted that the embodiments or technical features described below can be arbitrarily combined to form a new embodiment without conflict.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may be present. As used herein, "vertical," "horizontal," "left," "right," and similar expressions are for purposes of illustration only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1-3, a natural simulation negative oxygen ion quartz polishing apparatus according to a preferred embodiment of the present invention includes a belt conveyor 1 and a first polishing mechanism 2 installed directly above the belt conveyor 1.

The first polishing mechanism 2 comprises a supporting disc 21, a first motor 22 arranged on the supporting disc 21, a rotating disc 23 in driving connection with the first motor 22, and a plurality of second motors 24 arranged on the rotating disc 23. Each second motor 24 is connected with a first polishing disk 25 in a driving mode, the working surface of the first polishing disk 25 is parallel to the horizontal plane, and the first polishing disk 25 is used for polishing the quartz stone plate. The plurality of first polishing plates 25 are arranged in a uniform (i.e., equi-angular) circumferential array centered on the rotation axis of the rotating plate 23. When the first motor 22 drives the rotating disc 23 to rotate, the plurality of first polishing discs 25 rotate around the rotating shaft of the rotating disc 23; and the second motor 24 drives the first polishing disc 25 to rotate, so that the quartz stone plate can be polished. In operation, the belt conveyor 1 is continuously operated, and thus the quartz stone plate material is continuously moved on the conveyor belt 13 of the belt conveyor 1 to save man-hours. And under the condition that the plurality of first polishing disks 25 of the first polishing mechanism 2 rotate around the rotating shaft of the rotating disk 23, the quartz stone plate can be polished without dead angles, and the polishing effect is better. In addition, since the first polishing disk 25 has a circumferential rotation speed under the rotation of the rotating disk 23, the first polishing disk 25 has a better effect of removing the distribution convex particles. For example, since the conveyor belt 13 continuously runs and the rotating disc 23 rotates, there must be a first polishing disc 25 moving direction the same as the conveying direction of the conveyor belt 13 and a first polishing disc 25 moving direction opposite to the conveying direction of the conveyor belt 13, so that the all-directional feeding type polishing of the quartz stone plate by the first polishing disc 25 can be further improved (i.e. the feeding direction of the first polishing disc 25 and the feeding direction of the quartz stone plate generates a speed difference, and the polishing effect can be further improved).

Preferably, the belt conveyor 1 is provided with a guide rod 11, and the support disc 21 is matched with the guide rod 11 and can be lifted along the axial direction of the guide rod 11, namely, the support disc 21 is guided by the guide rod 11. A first rack (not shown in the figure) is fixed on the belt conveyor 1, and a first gear (not shown in the figure) is installed on the supporting disc 21 and is in meshing transmission with the first gear. Thus, the first rack and the first gear are meshed for transmission, so that the first polishing mechanism 2 can be lifted, the height of the first polishing disk 25 can be adjusted, and cutter switching or the required polishing thickness can be adjusted.

Preferably, for smooth operation of the apparatus, four guide rods 11 are provided, the four guide rods 11 being evenly distributed on both sides of the width of the belt conveyor 1.

Preferably, the natural simulation negative oxygen ion quartz polishing device further comprises a second polishing mechanism 3 installed right above the belt conveyor 1, wherein the second polishing mechanism 3 comprises a linear driving mechanism, a moving bracket 31 in driving connection with the linear driving mechanism, a second polishing disc 32 installed on the moving bracket 31 and located right below the moving bracket 31, and a third motor 33 installed on the moving bracket 31 and in driving connection with the second polishing disc 32; the working surface of the second polishing disk 32 is parallel to the horizontal plane, and the second polishing disk 32 is used for polishing the plate material. The linear drive mechanism is used to drive the moving bracket 31 to move in the width direction of the belt conveyor 1 (wherein, according to the common knowledge, the width direction of the belt conveyor 1 is perpendicular to the running direction of the conveyor belt 13). The second polishing mechanism 3 and the first polishing mechanism 2 are arranged in sequence along the conveying direction of the belt conveyor 1. Therefore, the quartz stone plate is polished by the second polishing disk 32, and the preliminary polishing can be completed. When the second polishing disk 32 polishes the quartz stone plate, the friction between the two is small, so that the phenomenon of violent collision caused by the fact that the second polishing disk 32 and the quartz stone plate are opposite in running direction is avoided, and the dangerous situation is avoided. It will be appreciated that the linear drive mechanism may be a combination of a motor and a lead screw, or alternatively, the linear drive mechanism may be a second rack and a second gear.

Preferably, a guide rail 12 is installed on the belt conveyor 1, and the guide rail 12 is located right above a conveying belt 13 of the belt conveyor 1 and extends in the width direction of the belt conveyor 1; the moving bracket 31 is connected with a roller 34, and the roller 34 is matched with the guide rail 12. Thus, by the cooperation of the roller 34 and the guide rail 12, the roller 34 can be used to support the second polishing mechanism 3. Wherein the guide rail 12 may be an elongated groove to provide a safety limit for the roller 34.

The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention cannot be limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are all within the protection scope of the present invention.

Claims (5)

1. Nature emulation negative oxygen ion quartz burnishing device, its characterized in that: comprises a belt conveyor and a first polishing mechanism arranged right above the belt conveyor;

the first polishing mechanism comprises a supporting disc, a first motor arranged on the supporting disc, a rotating disc in driving connection with the first motor, and a plurality of second motors arranged on the rotating disc; each second motor is connected with a first polishing disc in a driving mode, the working surface of each first polishing disc is parallel to the horizontal plane, and each first polishing disc is used for polishing a plate; the plurality of first polishing plates are arranged in a uniform circumferential array centered on the rotational axis of the rotating disk.

2. The natural simulation negative oxygen ion quartz polishing device of claim 1, wherein: the belt conveyor is provided with a guide rod, and the supporting disc is matched with the guide rod and can lift along the axial direction of the guide rod; the belt conveyor is fixedly provided with a first rack, the supporting disc is provided with a first gear, and the first rack is in meshing transmission with the first gear.

3. The natural simulation negative oxygen ion quartz polishing device of claim 2, wherein: four guide rods are arranged and are uniformly distributed on two sides of the width of the belt conveyor.

4. The natural simulation negative oxygen ion quartz polishing device of claim 1, wherein: the natural simulation negative oxygen ion quartz polishing device also comprises a second polishing mechanism arranged right above the belt conveyor, wherein the second polishing mechanism comprises a linear driving mechanism, a moving bracket in driving connection with the linear driving mechanism, a second polishing disc arranged on the moving bracket and positioned right below the moving bracket, and a third motor arranged on the moving bracket and in driving connection with the second polishing disc; the working surface of the second polishing disk is parallel to the horizontal plane, and the second polishing disk is used for polishing the plate; the linear driving mechanism is used for driving the movable support to move along the width direction of the belt conveyor; the second polishing mechanism and the first polishing mechanism are sequentially arranged along the conveying direction of the belt conveyor.

5. The natural simulation negative oxygen ion quartz polishing device of claim 4, wherein: the belt conveyor is provided with a guide rail, and the guide rail is positioned right above a conveying belt of the belt conveyor and extends along the width direction of the belt conveyor; the movable support is connected with a roller, and the roller is matched with the guide rail.

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