CN215882133U - Rock plate is to strength beveler - Google Patents

Abstract

The utility model provides a rock plate directional force chamfering machine which comprises a machining device, a rack for bearing the machining device and a first driving device for driving the machining device to overturn, wherein the rack comprises a rack body and a first driving device; the processing device comprises a cutting mechanism, a grinding mechanism and a bearing seat for bearing the cutting mechanism and the grinding mechanism; the bearing seat is rotatably connected with the frame through a rotating shaft. When the cutting blade and the grinding disc need to be replaced, the first driving device drives the rotating shaft to rotate relative to the rack so as to turn over the bearing seat, so that the cutting blade of the cutting mechanism and the grinding disc of the grinding mechanism move relative to the processing plane, the angle of the cutting blade and the grinding disc relative to the processing plane changes, and the cutting blade and the grinding disc are replaced after being turned over to the angle convenient to replace; then, the bearing seat is driven to turn over again through the first driving device, and the bearing seat returns to the original state; the efficiency of changing the cutting blade and the grinding disc can be effectively accelerated, the time for changing the cutting blade and the grinding disc is saved, and the processing efficiency is improved.

Description

Rock plate is to strength beveler

Technical Field

The utility model relates to the technical field of rock plate processing, in particular to a rock plate directional force chamfering machine.

Background

The rock plate is mainly used in the field of household and kitchen plates. Compared with other household products, the rock plate household has the characteristics of large specification, strong plasticity, various colors, high temperature resistance, wear resistance, scraping resistance, seepage prevention, acid and alkali resistance, zero formaldehyde, environmental protection, health and the like. Compared with the traditional decorative material, the rock plate has large specification and higher requirements on cutting and processing quality, the processing and application of the rock plate can be realized only by means of more professional processing services, meanwhile, the problems of processing and cutting of the rock plate must be solved in time in consideration of the fact that the rock plate enters the field of customized home and furniture, and otherwise, seamless butt joint with the requirements of consumers all over the country is difficult to realize. When the rock plate is applied to the cabinet body, the edge of the rock plate is required to be chamfered by 45 degrees, so that the rock plate is convenient to assemble. However, in the processing process, because the cutting blade and the grinding disc in the processing device form an angle of 45 degrees with the processing plane of the frame, the cutting blade and the grinding disc are inconvenient to replace after being worn.

Accordingly, the present inventors have made extensive studies to solve the above problems and have made the present invention.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a rock plate directional chamfering machine which is convenient for replacing a cutting blade and a grinding disc; to solve the problems of the background art.

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

a rock plate directional force chamfering machine comprises a machining device, a rack for bearing the machining device, and a first driving device for driving the machining device to overturn; the processing device comprises a cutting mechanism, a grinding mechanism and a bearing seat for bearing the cutting mechanism and the grinding mechanism; the bearing seat is rotatably connected with the frame through a rotating shaft.

The first driving device comprises a first driving cylinder; the first driving cylinder is provided with a first connecting end part connected with the bearing seat and a second connecting end part connected with the rack; the first connecting end is positioned at one side of the rotating shaft.

The frame comprises a processing plane for bearing the rock plate; the bearing seat is provided with a bearing surface for bearing the cutting mechanism and the grinding mechanism; an included angle is formed between the processing plane and the bearing surface.

The cutting mechanism comprises a first driving motor in sliding connection with the bearing surface, a cutting blade arranged on an output shaft of the first driving motor, and a second driving device for driving the first driving motor to slide up and down along the bearing surface.

The grinding mechanism comprises a second driving motor in sliding connection with the bearing surface, a grinding disc arranged on an output shaft of the second driving motor, and a third driving device for driving the second driving motor to slide up and down along the bearing surface.

The processing device comprises two grinding mechanisms.

The rack comprises a conveying frame for conveying rock plates; the conveying frame comprises a first conveying belt positioned below, a second conveying belt positioned above and a fourth driving device for driving the second conveying belt to move up and down; and a gap for the rock plate to pass through is formed between the first conveying belt and the second conveying belt.

The frame further comprises a guide mechanism upstream of the second conveyor belt; the guide mechanism comprises a guide conveying belt positioned on one side of the rock plate.

The first conveyor belt comprises a first belt segment cooperating with the guiding conveyor belt and a second belt segment cooperating with the second conveyor belt.

The rack also comprises an auxiliary frame matched with the conveying frame; the auxiliary frame comprises an auxiliary conveying belt for assisting in conveying the rock plate.

After the technical scheme is adopted, the rock plate directional force chamfering machine disclosed by the utility model at least has the following beneficial effects:

in the actual implementation process, the first driving device drives the processing device to overturn, so that the relative position of the processing device and the rack changes, and the cutting blade and the grinding disc are convenient to replace; specifically, when the cutting blade and the grinding disc need to be replaced, the first driving device drives the rotating shaft to rotate relative to the rack so that the bearing seat is turned over, the cutting mechanism and the grinding mechanism on the bearing seat turn over along with the bearing seat, so that the cutting blade of the cutting mechanism and the grinding disc of the grinding mechanism move relative to the processing plane, the angle of the cutting blade and the grinding disc relative to the processing plane changes, and the cutting blade and the grinding disc are replaced after being turned over to the angle convenient to replace; then, the bearing seat is driven to turn over again through the first driving device, and the bearing seat returns to the original state; the efficiency of changing the cutting blade and the grinding disc can be effectively accelerated, the time for changing the cutting blade and the grinding disc is saved, and the processing efficiency is improved.

Drawings

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

FIG. 2 is a schematic view of the structure of the processing apparatus of the present invention;

FIG. 3 is a schematic view of a second viewing angle configuration according to the present invention;

in the figure:

a processing device 1; a frame 2; a first drive device 3; a cutting mechanism 11; a grinding mechanism 12; a carrying seat 13; a rotating shaft 14; a processing plane a 1; a bearing surface 131; a cutting blade 111; a second drive device 112; a grinding disc 121; a third driving device 122; a conveyance rack 21; the first conveying belt 211; a second conveyor belt 212; a guide conveyor belt 22; a first band segment 2111; a second band segment 2112; and a sub-frame 23.

Detailed Description

In order to further explain the technical solution of the present invention, the following detailed description is given by way of specific examples.

As shown in fig. 1-3, a rock plate radial chamfering machine comprises a processing device 1, a frame 2 for carrying the processing device 1, and a first driving device 3 for driving the processing device 1 to overturn; the processing device 1 comprises a cutting mechanism 11, a grinding mechanism 12 and a bearing seat 13 for bearing the cutting mechanism 11 and the grinding mechanism 12; the bearing seat 13 is rotatably connected with the frame 2 through a rotating shaft 14. In the actual implementation process, the first driving device 3 drives the processing device 1 to overturn, so that the relative position of the processing device 1 and the rack 2 changes, and the cutting blade 111 and the grinding disc 121 are convenient to replace; specifically, when the cutting blade 111 and the grinding disc 121 need to be replaced, the first driving device 3 drives the rotating shaft 14 to rotate relative to the frame 2 so that the bearing seat 13 is turned over, the cutting mechanism 11 and the grinding mechanism 12 on the bearing seat 13 are turned over along with the bearing seat 13, so that the cutting blade 111 of the cutting mechanism 11 and the grinding disc 121 of the grinding mechanism 12 move relative to the processing plane a1, the angles of the cutting blade 111 and the grinding disc 121 relative to the processing plane a1 are changed, and the cutting blade 111 and the grinding disc 121 are replaced after being turned over to the angles convenient to replace; then, the first driving device 3 drives the bearing seat 13 to turn over again to return to the original state; the efficiency of changing the cutting blade 111 and the grinding disc 121 can be effectively accelerated, the time for changing the cutting blade 111 and the grinding disc 121 is saved, and the processing efficiency is improved.

Preferably, the first driving means 3 comprise a first driving cylinder; the first driving cylinder is provided with a first connecting end part connected with the bearing seat 13 and a second connecting end part connected with the frame 2; the first connection end is located at one side of the rotation shaft 14. In the actual implementation process, when the cutting blade 111 and the grinding disc 121 need to be replaced, the bearing seat 13 is driven to overturn by the extension of the first driving cylinder, so that the bearing seat 13 can be overturned efficiently; when processing the chamfer, exert the effort through first actuating cylinder to bearing seat 13, make bearing seat 13 and frame 2 fixed together, avoid bearing seat 13 in the course of working and take place the upset, improve machining efficiency and quality.

Preferably, the frame 2 comprises a working plane a1 carrying the rock plate; the bearing seat 13 has a bearing surface 131 for bearing the cutting mechanism 11 and the grinding mechanism 12; the processing plane a1 and the carrying surface 131 form an included angle. In practical implementation, the installation of the cutting mechanism 11 and the grinding mechanism 12 is facilitated by setting the included angle. Preferably, the included angle is 45 °.

Preferably, the cutting mechanism 11 includes a first driving motor slidably connected to the carrying surface 131, a cutting blade 111 disposed on an output shaft of the first driving motor, and a second driving device 112 for driving the first driving motor to slide up and down along the carrying surface 131. In the practical implementation process, rock plates with different thicknesses need to be processed, and the second driving device 112 drives the first driving motor to lift so as to change the distance between the cutting blade 111 and the processing plane a1 and adjust the cutting depth. Specifically, the second driving device 112 includes a first lead screw and a first lead screw driving a lead screw to rotate.

Preferably, the grinding mechanism 12 includes a second driving motor slidably connected to the bearing surface 131, a grinding disc 121 disposed on an output shaft of the second driving motor, and a third driving device 122 for driving the second driving motor to slide up and down along the bearing surface 131. In practical implementation, rock plates with different thicknesses need to be processed, and the third driving device 122 drives the second driving motor to ascend and descend so as to change the distance between the grinding disc 121 and the processing plane a1 and adjust the grinding depth. Specifically, the third driving device 122 includes a second adjusting screw and a second adjusting motor for driving the second adjusting screw to rotate.

Preferably, the processing device 1 comprises two grinding devices 12. In practical implementation, the two grinding mechanisms 12 are provided with different grinding discs 121, the chamfer is firstly subjected to rough grinding and then is subjected to fine grinding, and therefore the processing quality is improved.

Preferably, the frame 2 comprises a carriage 21 for conveying the rock plate; the conveying frame 21 comprises a first conveying belt 211 positioned at the lower part, a second conveying belt 212 positioned at the upper part and a fourth driving device for driving the second conveying belt 212 to move up and down; a gap for the rock plate to pass through is formed between the first conveyor belt 211 and the second conveyor belt 212. In the practical implementation process, the fourth driving device drives the second conveying belt 212 to move up and down to adjust the size of the gap between the first conveying belt 211 and the second conveying belt 212, so that the rock plate is pressed to stably advance, the processing efficiency can be effectively improved, the production line type production can be realized, and the labor cost is saved. Specifically, the fourth driving device comprises a third adjusting screw rod and a third adjusting motor for driving the third adjusting screw rod to rotate.

Preferably, the frame 2 further comprises a guide mechanism upstream of the second conveyor belt 212; the guiding mechanism comprises a guiding conveyor belt 22 on one side of the rock plate. In the actual implementation process, carry on spacingly through guiding mechanism to the rock plate, in the course of working, the direction conveyer belt 22 is hugged closely to the processing edge of rock plate and is carried downstream, can effectually avoid in the processing edge too gos deep into processingequipment 1, and direction conveyer belt 22 can provide the helping hand for advancing of rock plate simultaneously, and the location of the rock plate of being convenient for can effectual improvement machining efficiency.

Preferably, the first conveyor belt 211 includes a first belt segment 2111 cooperating with the guide conveyor belt 22 and a second belt segment 2112 cooperating with the second conveyor belt 212. In the actual implementation process, carry out the bearing through first conveyer belt 211 and carry the effectual improvement conveying efficiency that can carry to the rock plate, simultaneously when the rock plate got into first band portion 2111, first band portion 2111 carried to the cooperation with direction conveyer belt 22, and the conveying speed of direction conveyer belt 22 is the same with the conveying speed of first conveyer belt 211.

Preferably, the frame 2 further comprises an auxiliary frame 23 cooperating with the carriage 21; the sub-frame 23 includes an auxiliary conveyor belt for assisting in conveying the rock plate. In the actual implementation process, the rock plate is processed to the edge of rock plate to strength beveler, and the rock plate is not processed the region when carrying, supports through supplementary conveyer belt and carries, can effectual improvement machining efficiency and processingquality.

The product form of the present invention is not limited to the embodiments and examples shown in the present application, and any suitable changes or modifications of the similar ideas should be made without departing from the patent scope of the present invention.

Claims (10)

1. The utility model provides a rock plate is to strength beveler which characterized in that: the device comprises a processing device, a rack for bearing the processing device and a first driving device for driving the processing device to overturn; the processing device comprises a cutting mechanism, a grinding mechanism and a bearing seat for bearing the cutting mechanism and the grinding mechanism; the bearing seat is rotatably connected with the frame through a rotating shaft.

2. The rock plate rib chamfering machine according to claim 1, wherein: the first driving device comprises a first driving cylinder; the first driving cylinder is provided with a first connecting end part connected with the bearing seat and a second connecting end part connected with the rack; the first connecting end is positioned at one side of the rotating shaft.

3. The rock plate rib chamfering machine according to claim 2, wherein: the frame comprises a processing plane for bearing the rock plate; the bearing seat is provided with a bearing surface for bearing the cutting mechanism and the grinding mechanism; an included angle is formed between the processing plane and the bearing surface.

4. The rock plate rib chamfering machine according to claim 3, wherein: the cutting mechanism comprises a first driving motor in sliding connection with the bearing surface, a cutting blade arranged on an output shaft of the first driving motor, and a second driving device for driving the first driving motor to slide up and down along the bearing surface.

5. The rock plate rib chamfering machine according to claim 4, wherein: the grinding mechanism comprises a second driving motor in sliding connection with the bearing surface, a grinding disc arranged on an output shaft of the second driving motor, and a third driving device for driving the second driving motor to slide up and down along the bearing surface.

6. The rock plate rib chamfering machine according to claim 5, wherein: the processing device comprises two grinding mechanisms.

7. The rock plate pocket-width chamfering machine according to any one of claims 1 to 6, wherein: the rack comprises a conveying frame for conveying rock plates; the conveying frame comprises a first conveying belt positioned below, a second conveying belt positioned above and a fourth driving device for driving the second conveying belt to move up and down; and a gap for the rock plate to pass through is formed between the first conveying belt and the second conveying belt.

8. The rock plate rib chamfering machine according to claim 7, wherein: the frame further comprises a guide mechanism upstream of the second conveyor belt; the guide mechanism comprises a guide conveying belt positioned on one side of the rock plate.

9. The rock plate rib chamfering machine according to claim 8, wherein: the first conveyor belt comprises a first belt segment cooperating with the guiding conveyor belt and a second belt segment cooperating with the second conveyor belt.

10. The rock plate rib chamfering machine according to claim 9, wherein: the rack also comprises an auxiliary frame matched with the conveying frame; the auxiliary frame comprises an auxiliary conveying belt for assisting in conveying the rock plate.

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