阅读说明：本技术 一种刨花板生产用网带固体介质隔离结构 (Mesh belt solid medium isolation structure for shaving board production ) 是由 胡立明 熊艳辉 于 2019-11-28 设计创作，主要内容包括：本发明公开了一种刨花板生产用网带固体介质隔离结构,所述网带上方铺设一层牛皮纸,所述牛皮纸可随网带同步进给,承载牛皮纸卷的辅助辊旋转连接于网带下方底座的进料一端,所述网带的传送面进料端下方设置牛皮纸吸附件,所述网带的传送面上方设置用于切断牛皮纸的切断组件,所述切断组件位于的网带上方的铺粉机和压板组件之间,本发明本中的刨花板生产用网带固体介质隔离结构用于隔开网带与木板原料,防止在压板过程中木板与网带产生粘连,防止粘连对刨花板的表面质量产生影响以及减少网带的清理步骤,提高生产质量和效率,本刨花板生产用网带固体介质隔离结构中承载牛皮纸卷的辅助辊与传送轮共用一个驱动源,整机结构紧凑。(The invention discloses a mesh belt solid medium isolation structure for producing shaving boards, wherein a layer of kraft paper is laid above a mesh belt, the kraft paper can be synchronously fed along with the mesh belt, an auxiliary roller for bearing kraft paper rolls is rotationally connected to the feeding end of a base below the mesh belt, a kraft paper adsorption part is arranged below the feeding end of a conveying surface of the mesh belt, a cutting assembly for cutting the kraft paper is arranged above the conveying surface of the mesh belt, and the cutting assembly is positioned between a powder spreading machine and a pressing plate assembly above the mesh belt. The whole machine has compact structure.)

1. The utility model provides a guipure solid medium isolating structure for shaving board production, its characterized in that, one deck kraft paper is laid to guipure (1) top, the kraft paper can be along with guipure (1) synchronous feed.

2. The mesh belt solid medium isolation structure for the particle board production according to claim 1, which comprises an auxiliary roller (6) and a kraft paper roll (7) installed on the auxiliary roller (6), wherein the auxiliary roller (6) is rotatably connected to the feeding end of the base (2) below the mesh belt (1), a kraft paper adsorption member is arranged below the feeding end of the conveying surface of the mesh belt (1), a cutting assembly for cutting kraft paper is arranged above the conveying surface of the mesh belt (1), and the cutting assembly is positioned between a powder spreading machine (13) and a pressing plate assembly (16) above the mesh belt (1).

3. The mesh belt solid medium isolation structure for particle board production according to claim 2, wherein a driving component is arranged at one end of the auxiliary roller (6), the driving component comprises a driving pulley (5), a driven pulley (8) and a transmission belt (9), the driven pulley (8) is fixedly sleeved on an extending shaft at one end of the auxiliary roller (6), the driving pulley (5) is fixedly sleeved on a driving shaft (4) at one end of the transmission wheel (3) of the mesh belt (1), and the driving pulley (5) is connected with the driven pulley (8) through the transmission belt (9).

4. The mesh-belt solid medium isolation structure for particle board production according to claim 3, further comprising a power generation assembly, wherein the power generation assembly comprises a connecting shaft (18), a power generation box (19), and a driving gear (20), a driven gear (21), an auxiliary shaft (22), a rotor (23), a fixed cylinder (24) and a stator (25) which are located inside the power generation box (19), one end of the connecting shaft (18) is coaxially and fixedly connected with the transmission wheel (3), the other end of the connecting shaft (18) penetrates through the power generation box (19) and is fixedly sleeved with the driving gear (20), the driving gear (20) is meshed with the driven gear (21), the auxiliary shaft (22) is rotatably arranged inside the power generation box (19), the driven gear (21) is fixedly sleeved on the auxiliary shaft (22), and the fixed cylinder (24) is further fixedly arranged inside the power generation box (19), the fixed cylinder (24) is coaxially sleeved outside the auxiliary shaft (22) in a non-contact manner, one end of the auxiliary shaft (22) is provided with a rotor (23) for power generation, and the inner wall of the fixed cylinder (24) is provided with a stator (25) matched with the rotor (23) for power generation.

5. The mesh belt solid medium isolation structure for particle board production according to claim 4, wherein the number of the driving gears (20) sleeved on the auxiliary rotating shaft (22) is at least one, and the driving gear (20) is meshed with at least one driven gear (21).

6. The mesh belt solid medium isolation structure for particle board production according to claim 4, wherein the adsorption member is an adsorption fan (10), an energy storage unit is arranged inside a power supply (17) for driving the adsorption fan (10), and the energy storage unit is electrically connected with a power generation assembly in the power generation box (19).

7. The mesh belt solid medium isolation structure for particle board production according to claim 6, further comprising a booster fan (11), wherein the booster fan (11) is located below the conveying surface of the mesh belt (1) near the discharge end, the booster fan (11) and the adsorption fan (10) rotate in a reverse manner, and the booster fan (11) and the adsorption fan (10) share one power source (17).

8. The solid medium isolation structure of claim 2, wherein the cutting assembly comprises a cutter (15) and a cutting cylinder (14) for driving the cutter (15) to cut kraft paper.

9. A mesh belt, characterized in that said mesh belt is provided with a mesh belt solid medium insulation structure for particle board production according to claims 1-7.

Technical Field

The invention relates to the technical field of plate production equipment, in particular to a mesh belt solid medium isolation structure for shaving board production.

Background

Particle board is an artificial board made of particles made of wood or other lignocellulose materials, which are glued under the action of heat and pressure after adhesive is applied, and is also called particle board. It is mainly used for furniture manufacture, building industry and train and automobile carriage manufacture.

The particle board, when being laminated, needs to be transported through the belt, and the laminating process is also carried out on the belt. In the prior art, the powder paving machine can uniformly spread glued wood particles on a mesh belt, the tiled shape of the wood particles is similar to that of a target wood plate, the passing mesh belt is conveyed to a pressing machine, a pressing component in the pressing machine presses the wood particles, the wood particles are mutually glued, a plate prototype is formed, the plate is further processed, but the wood particles are pressed and glued in the process, the wood particles can be stuck on the mesh belt, the discharging of the plate is influenced, the surface quality of the plate can be influenced, the adhered mesh belt is required to be cleaned in the later period, and the quality efficiency of plate production is seriously influenced. Particularly for formaldehyde-free boards, the MDI used in the method has high adhesive property and is easy to adhere to the mesh belt.

Disclosure of Invention

The invention aims to solve the problem of adhesion of wood particles and a mesh belt in the prior art, and provides a mesh belt solid medium isolation structure for particle board production.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides a guipure solid medium isolating structure for shaving board production, one deck kraft paper is laid to the guipure top, the kraft paper can be along with guipure synchronous feed.

The kraft paper cutting machine comprises an auxiliary roller and a kraft paper roll installed on the auxiliary roller, wherein the auxiliary roller is rotatably connected to one end of a feeding portion of a base below a mesh belt, a kraft paper adsorption piece is arranged below a feeding end of a conveying surface of the mesh belt, a cutting assembly used for cutting off kraft paper is arranged above the conveying surface of the mesh belt, and the cutting assembly is located between a powder spreading machine and a pressing plate assembly above the mesh belt.

Further, the one end of auxiliary roller sets up drive assembly, drive assembly includes drive pulley, driven pulley and driving belt, the fixed cover of driven pulley connects in auxiliary roller one end extension axle, the fixed cover of drive pulley connects in the drive shaft of the transfer gear one end of guipure, drive pulley passes through driving belt with driven pulley and is connected.

Further, still include the electricity generation subassembly, the electricity generation subassembly includes connecting axle, power generation box and is located inside driving gear, driven gear, auxiliary shaft, rotor, fixed drum and the stator of power generation box, the coaxial fixed connection transfer gear of one end of connecting axle, the other end of connecting axle run through the power generation box and fixedly cup joint the driving gear, driving gear and driven gear meshing, the inside rotation of power generation box sets up the auxiliary shaft, driven gear is fixed cup jointed in the auxiliary shaft, the inside fixed drum that sets up of power generation box, the coaxial contactless cover of fixed drum is in the outside of auxiliary shaft, the one end of auxiliary shaft sets up the rotor that the electricity generation was used, the inner wall setting of fixed drum with the stator that rotor assorted electricity generation was used.

Furthermore, the number of the driving gears sleeved on the auxiliary rotating shaft is at least one, and one driving gear is meshed with at least one driven gear.

Furthermore, the adsorption part is an adsorption fan, an energy storage unit is arranged inside a power supply for driving the adsorption fan, and the energy storage unit is electrically connected with a power generation assembly in the power generation box.

The net belt conveying device further comprises a boosting fan, the boosting fan is located below a conveying surface, close to the discharge end, of the net belt, the boosting fan and the adsorption fan rotate in an opposite mode, and the boosting fan and the adsorption fan share one power source.

Further, the cutting assembly comprises a cutter and a cutting cylinder for driving the cutter to cut kraft paper.

A mesh belt is provided with the mesh belt solid medium isolation structure for shaving board production.

The invention has the beneficial effects that:

1. this guipure solid medium isolating structure is used for keeping apart guipure and plank raw materials for shaving board production, prevents to produce the adhesion at clamp plate in-process plank and guipure, prevents that the adhesion from influencing the surface quality of shaving board and reducing the clearance step of guipure, improves production quality and efficiency.

2. The auxiliary roller bearing the kraft paper roll in the mesh belt solid medium isolation structure for producing the shaving board and the transmission wheel share one driving source, and the whole machine is compact in structure.

3. This guipure solid medium isolation structure for shaving board production adsorbs the kraft paper on the guipure through adsorbing the fan, and the power generation component of the driving source one end that some electric energy of adsorption fan passed through provides, can realize the cyclic utilization of resource, and is energy-concerving and environment-protective.

Drawings

FIG. 1 is a schematic view of an installation structure of an isolation structure according to the present invention;

FIG. 2 is a schematic view of the structure of a belt portion of the present invention;

FIG. 3 is a cross-sectional view of the side of a belt of the present invention;

FIG. 4 is an enlarged view of a cross-sectional side view A of a mesh belt according to the present invention;

FIG. 5 is a schematic view of the structure of the power generation module according to the present invention;

FIG. 6 is a schematic view of the gear transmission of the power generation module of the present invention.

In the figure: 1. a mesh belt; 2. a base; 3. a transfer wheel; 4. a drive shaft; 5. a drive pulley; 6. an auxiliary roller; 7. kraft paper roll; 8. a driven pulley; 9. a drive belt; 10. an adsorption fan; 11. a booster fan; 12. a plate material; 13. spreading a powder machine; 14. cutting off the air cylinder; 15. a cutter; 16. a platen assembly; 17. a power source; 18. a connecting shaft; 19. a power generation box; 20. a driving gear; 21. a driven gear; 22. an auxiliary shaft; 23. a rotor; 24. a fixed cylinder; 25. a stator; 26. the motor is driven.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.