CN114346859A - Inorganic artificial stone glazing machine - Google Patents

Abstract

The application relates to an inorganic artificial stone glazing machine, which belongs to the technical field of stone polishing and glazing and comprises a conveyor belt, a glazing mechanism and a polishing mechanism, wherein a top plate is arranged on a mounting plate, a driving assembly for driving the mounting plate to move upwards or upwards is arranged on the top plate, the glazing mechanism comprises a first glazing assembly and a first drip assembly, the first glazing assembly comprises a first motor and a first turntable, and a first friction piece is connected to the first turntable; the device comprises a first dripping component, a glazing agent storage box, a guide pipe and a valve, wherein one end of the guide pipe is fixed with the glazing agent storage box, and the other end of the guide pipe faces a conveyor belt; the grinding mechanism comprises a plurality of grinding assemblies, each grinding assembly comprises a second motor and a rotating plate, a plurality of third motors are installed on the rotating plates and evenly arranged along the circumferential direction of the rotating plates, a second rotating disc is fixed on an output shaft of each third motor, and a second friction piece is connected onto the second rotating disc. This application has the effect that conveniently carries out glazing to the stone material.

Description

Inorganic artificial stone glazing machine

Technical Field

The application relates to the technical field of stone polishing, in particular to an inorganic artificial stone glazing machine.

Background

The principle of stone crystal face treatment is as follows: the stone crystal face processor processes the surface of the plate through the crystal face processor at a certain rotating speed and a certain balance weight, adds a medicament on the surface of the plate, and then reaches a certain temperature to crystallize the medicament on the surface of the stone to form a protective layer.

At present, a multifunctional stone retreading machine used in the market performs crystal face treatment on paved stones, but the stones on a wall are difficult to perform glazing treatment by using the stone retreading machine, so that the stones need to be installed on the wall after being treated in a factory, and a stone glazing machine needs to be arranged to perform glazing treatment on the stones.

Disclosure of Invention

In order to conveniently polish the stone, the application provides an inorganic artificial time polisher.

The application provides an inorganic rostone glazing machine adopts following technical scheme:

an inorganic artificial stone glazing machine comprises a conveying belt, a glazing mechanism and a polishing mechanism, wherein a mounting plate is arranged above the conveying belt, a top plate is arranged on the mounting plate, a driving assembly for driving the mounting plate to move upwards or upwards is arranged on the top plate, the glazing mechanism comprises a first glazing assembly and a first drip assembly, the first glazing assembly is arranged on the mounting plate and is positioned on one side of the first drip assembly, the first glazing assembly comprises a first motor and a first turntable, the first motor is fixed on the top surface of the mounting plate, an output shaft of the first motor penetrates through the mounting plate and is fixed with the first turntable, and a first friction piece is connected onto the first turntable;

the first dripping assembly comprises a glazing agent storage box, a guide pipe and a valve, the glazing agent storage box is fixed on the upper surface of the top plate, one end of the guide pipe is fixed with the glazing agent storage box, the valve is installed on the guide pipe, and the other end of the guide pipe faces the conveyor belt;

grinding machanism includes a plurality of grinding assembly, grinding assembly includes second motor and rotor plate, the second motor is fixed on the mounting panel, the output shaft of second motor run through the mounting panel and with the rotor plate is fixed, install a plurality of third motors on the rotor plate, it is a plurality of the third motor along the circumferencial direction of rotor plate evenly sets up, every all be fixed with the second carousel on the output shaft of third motor, be connected with the second friction piece on the second carousel.

By adopting the technical scheme, when the glazing treatment is carried out on the crystal face of the stone, the stone is firstly placed at the starting end of the conveyor belt, one end of the conveyor belt, which is close to the first dripping component, is the starting end, then the valve is opened, the glazing agent drips on the surface of the stone, the drive component drives the mounting plate to move downwards, so that the first friction piece is contacted with the surface of the stone, the first motor drives the first rotary disc to rotate, the first rotary disc drives the first friction piece to rotate, the first friction piece uniformly polishes the glazing agent on the surface of the stone, the first friction piece generates heat in a friction process with the surface of the stone, then the stone passes through the lower part of the polishing component, the second motor drives the rotary plate to rotate, the rotary plate drives the third motor and the second rotary disc to rotate, the second rotary disc drives the second friction piece to rotate, the second friction piece can revolve along the axis of the second motor and can also rotate along the axis of the third motor, thereby make the second friction spare better to the effect that the stone material surface was polished, the second friction spare rubs the stone material surface for increase the heat, make it reach suitable temperature, thereby make the stone material surface form compact brilliant hard processing layer, be convenient for carry out glazing to the stone material.

Optionally, the first friction member is steel wool, and the second friction member is a sponge.

Through adopting above-mentioned technical scheme, when will polish the agent and drip on the stone material surface, first carousel drives steel wool and stone material surface contact, evenly paints the polish agent on the stone material surface, can not use sponge and stone material surface contact this moment, because the sponge can produce a pressure with the polish agent contact of just drippaging, some polish agent can directly be printed on the stone material surface, and the sponge is softer can not get rid of the seal of a government organization in old china, and steel wool is harder, at the rotatory in-process of first carousel drive steel wool, can get rid of the seal of a government organization in old china. The sponge is arranged on the second rotating disc, and the cost is saved because the sponge is cheaper.

Optionally, an air pressure control valve is installed on the polish storage box, a placing plate is arranged above the conveyor belt, one end, far away from the polish storage box, of the guide pipe is fixed on the placing plate, a plurality of liquid outlet pipes are fixed on the guide pipe, and the liquid outlet pipes face the conveyor belt.

Through adopting above-mentioned technical scheme, the air pressure control valve can guarantee that the pressure in the glazing agent storage box is stable, can adjust the pressure in the glazing agent storage box, and the pressure in the glazing agent storage box is big more, and the speed of the glazing agent that flows out from the drain pipe is big more, and a plurality of drain pipes have accelerated the speed of dripping of glazing agent to the stone material surface simultaneously.

Optionally, the glazing mechanism further comprises a plurality of second glazing assemblies and second drop assemblies mounted on the mounting plate, the second glazing assemblies being identical to the first glazing assemblies, the second drop assemblies being identical to the first drop assemblies.

Through adopting above-mentioned technical scheme, install a plurality of second on the mounting panel and polish subassembly and second dropping liquid subassembly, increased the glazing effect of stone material, reduced the condition emergence that the glazing agent glazing is not obvious.

Optionally, a first mounting groove is formed in one end, close to the steel wool, of the first rotary disc, a first mounting block matched with the first mounting groove in an inserting mode is fixed to one end, close to the first rotary disc, of the steel wool, a first magnet is fixed in the first mounting groove, and a second magnet attracted with the first magnet is fixed to the first mounting block.

Through adopting above-mentioned technical side, when installing the steel wool, first installation piece inserts first mounting groove, and first magnet and the mutual actuation of second magnet are fixed to it is fixed with steel wool and first carousel, it is fixed with the mutual actuation of second magnet through first magnet, be convenient for install and dismantle the steel wool.

Optionally, two moving blocks are fixed at both ends of the mounting plate, and two driving assemblies are provided, wherein one driving assembly drives one moving block, and the other driving assembly drives the other moving block;

the driving assembly comprises a fourth motor and a screw rod, the fourth motor is fixed on the top plate, an output shaft of the fourth motor penetrates through the top plate and is fixed with the screw rod, and the screw rod penetrates through the moving block and is in threaded connection with the moving block.

By adopting the technical scheme, when the mounting plate moves upwards or downwards, the fourth motor drives the lead screw to rotate, the lead screw drives the moving block to move, and the moving block drives the mounting plate to move.

Optionally, a guide rod is fixed in the middle of the top surface of the mounting plate, and the guide rod penetrates through the top plate upwards.

Through adopting above-mentioned technical scheme, when moving the movable plate, the guide bar plays the effect of direction to the mounting panel, makes the mounting panel steady movement.

Optionally, a connecting plate is arranged on one side of the third motor, which is far away from the second turntable, and an output shaft of each third motor penetrates through the connecting plate.

Through adopting above-mentioned technical scheme, evenly fixed a plurality of third motors on the rotor plate, the output shaft of every third motor all runs through the connecting plate, and the connecting plate has increased the stability of a plurality of third motors.

In summary, the present application includes at least one of the following beneficial technical effects:

1. in the process that the stone moves along with the conveyor belt, the first friction piece and the second friction piece rub the surface of the stone to reach a proper temperature, so that a compact crystal hard treatment layer is formed on the surface of the stone;

2. when the glazing agent is dripped on the surface of the stone, the first rotary disc drives the steel wool to be in contact with the surface of the stone, the glazing agent is uniformly coated on the surface of the stone, marks cannot be left, and the second rotary disc is provided with the sponge, so that the cost is saved because the sponge is cheaper;

3. through first magnet and the mutual actuation of second magnet fixed, be convenient for install and dismantle the steel wool.

Drawings

Fig. 1 is a schematic view of the overall structure embodying the present application.

FIG. 2 is a schematic view of a drive assembly and a first drip assembly embodying the present application.

Figure 3 is a schematic view of a placement plate and drain tube embodying the present application.

FIG. 4 is a schematic view of a first mounting slot and a first mounting block embodying the present application.

Figure 5 is a schematic view of a grinding assembly embodying the present application.

Figure 6 is a schematic representation of a second rotating disc and sponge embodying the present application.

Description of reference numerals: 1. a conveyor belt; 2. a glazing mechanism; 21. a first glazing assembly; 211. a first motor; 212. a first turntable; 2121. a first mounting groove; 2122. a first magnet; 213. steel wool; 2131. a first mounting block; 2132. a second magnet; 22. a second glazing assembly; 23. a first drip member; 231. a polish storage tank; 232. a conduit; 2321. a liquid outlet pipe; 233. a valve; 234. an air pressure control valve; 24. a second drip assembly; 3. a polishing mechanism; 31. polishing the assembly; 311. a second motor; 312. a rotating plate; 313. a third motor; 314. a second turntable; 3141. a second mounting groove; 3142. a second mounting block; 315. a sponge; 3151. a third magnet; 3152. a fourth magnet; 4. mounting a plate; 41. a moving block; 42. a guide bar; 5. a top plate; 51. a first support bar; 52. a second support bar; 6. a drive assembly; 61. a fourth motor; 62. a screw rod; 7. placing the plate; 71. a connecting rod; 8. a connecting plate.

Detailed Description

The present application is described in further detail below with reference to figures 1-6.

The embodiment of the application discloses inorganic rostone glazing machine. Referring to fig. 1, the inorganic artificial stone glazing machine comprises a conveyor belt 1, a glazing mechanism 2 and a polishing mechanism 3, wherein the glazing mechanism 2 and the polishing mechanism 3 are both positioned above the conveyor belt 1. The stone is placed on a conveyor belt 1, and after the conveyor belt 1 passes through a polishing mechanism 2 and a polishing mechanism 3, a compact crystal hard treatment layer is formed on the surface of the stone.

The conveyer belt 1 top is provided with mounting panel 4, and mounting panel 4 sets up along the length direction of conveyer belt 1, and mounting panel 4 top is provided with roof 5, all is fixed with first bracing piece 51 on four angles in the bottom of roof 5, and the bottom mounting of the intermediate position of roof 5 has two second bracing pieces 52.

Referring to fig. 1 and 2, two sets of driving assemblies 6 are arranged on the top plate 5, moving blocks 41 are fixed at both ends of the mounting plate 4, one set of driving assemblies 6 drives one moving block 41 to move up and down, the other driving assembly 6 drives the other moving block 41 to move up and down, and the two sets of driving assemblies 6 move simultaneously, so that the mounting plate 4 moves up and down.

The driving assembly 6 comprises a fourth motor 61 and a screw rod 62, the fourth motor 61 is fixed on the upper surface of the top plate 5, an output shaft of the fourth motor 61 penetrates through the top plate 5 and is fixed with the screw rod 62, and the screw rod 62 penetrates through the corresponding moving block 41 and is in threaded connection with the moving block 41. A guide rod 42 is fixed at the middle position of the upper surface of the mounting plate 4, and the guide rod 42 penetrates the top plate 5 upwards.

The fourth motor 61 drives the lead screw 62 to rotate, the lead screw 62 rotates to drive the moving block 41 to move upwards or downwards, the moving block 41 drives the mounting plate 4 to move, and when the mounting plate 4 moves, the guide rod 42 plays a role in guiding, so that the stability of the mounting plate 4 is improved.

The glazing mechanism 2 includes a first glazing assembly 21, three second glazing assemblies 22, and a first drip assembly 23, and the first glazing assembly 21, the second glazing assembly 22, and the first drip assembly 23 are all mounted on the top plate 5. The first glazing assembly 21 comprises a first motor 211 and a first rotating disc 212, wherein a first friction member is connected to the first rotating disc 212, and the first friction member is steel wool 213. The steel wool 213 is hard, the steel wool 213 can uniformly coat the glazing agent on the surface of the stone, and no mark can be generated on the surface of the stone.

One end of the conveyor belt 1, which is close to the first dripping assembly 23, is a starting end, and the stone to be polished sequentially passes through the first dripping assembly 23, the first polishing assembly 21 and the three second polishing assemblies 22. The second varnishing assembly 22 is identical in structure to the first varnishing assembly 21.

Referring to fig. 3 and 4, the first motor 211 is fixed on the upper surface of the mounting plate 4, an output shaft of the first motor 211 penetrates through the mounting plate 4 and is fixed to the first rotary plate 212, a first mounting groove 2121 is formed in one side of the first rotary plate 212, which is far away from the first motor 211, and a first magnet 2122 is fixed in the first mounting groove 2121. A first mounting block 2131 is fixed on one side of the steel wool 213 close to the first turntable 212, a second magnet 2132 is fixed on the first mounting block 2131, the first mounting block 2131 is in inserting fit with the first mounting groove 2121, and the second magnet 2132 and the first magnet 2122 are mutually attracted and fixed.

When the steel wool 213 is installed, the first installation block 2131 on the steel wool 213 is aligned with the first installation groove 2121 on the first rotary table 212, and the first installation block 2131 is inserted into the first installation groove 2121, so that the first magnet 2122 and the second magnet 2132 are attracted and fixed, and the steel wool 213 and the first rotary table 212 are fixed, thereby facilitating the installation and the disassembly of the steel wool 213.

Referring to fig. 2 and 3, the first dripping module 23 includes a lustering agent storage tank 231, a conduit 232 and a valve 233, the lustering agent storage tank 231 is fixed on the upper surface of the top plate 5, the lustering agent is in a liquid state, an air pressure control valve 234 is installed on the lustering agent storage tank 231, and the air pressure control valve 234 can control the pressure in the lustering agent storage tank 231, so as to ensure that the liquid can smoothly flow down and control the flow rate. A valve 233 is mounted on the conduit 232, the valve 233 controlling the opening and closing of the conduit 232.

The placing plate 7 is arranged above the conveyor belt 1, the length direction of the placing plate 7 is perpendicular to the conveying direction of the conveyor belt 1, connecting rods 71 are fixed at two ends of the placing plate 7, the connecting rods 71 support the placing plate 7, and the two connecting rods 71 are respectively located on two sides of the conveyor belt 1. The stone passes through the lower part of the placing plate 7, one end of the guide pipe 232 far away from the polish storage box 231 is arranged along the length direction of the placing plate 7, the guide pipe 232 is fixed with the placing plate 7, a plurality of liquid outlet pipes 2321 are fixed on the guide pipe 232, the liquid outlet pipes 2321 are obliquely arranged, and one end of the liquid outlet pipe 2321 far away from the guide pipe 232 faces the conveyor belt 1.

The varnishing mechanism 2 further comprises two second drop assemblies 24, the second drop assemblies 24 being identical to the first drop assemblies 23. One of the second drop assemblies 24 is positioned between the first glazing assembly 21 and the adjacent second glazing assembly 22, and the other second drop assembly 24 is positioned between two second glazing assemblies 22 remote from the first glazing assembly 21.

When the stone is polished, the stone is placed on the conveyor belt 1, the valve 233 is opened, the air control valve 234 is adjusted, and the polishing agent in the polishing agent storage tank 231 flows out from the conduit 232 to the surface of the stone. The first motor 211 drives the first rotating disc 212 and the steel wool 213 to rotate, and the steel wool 213 polishes the polishing agent. The fourth motor 61 drives the screw rod 62 to rotate, the screw rod 62 drives the moving block 41 to move downwards, and the mounting plate 4 drives the first rotating disc 212 and the steel wool 213 to move downwards, so that the pressure of the steel wool 213 on the surface of the stone is increased, and the stone generates heat through friction in the process of high-speed rotation.

The two second dripping assemblies 24 and the three second glazing assemblies 22 are started, so that the glazing efficiency of the stone can be increased, and the situation that the glazing agent is not obvious in glazing is reduced.

Referring to fig. 1 and 5, the polishing mechanism 3 includes eight polishing assemblies 31, the eight polishing assemblies 31 are uniformly arranged along the length direction of the conveyor belt 1, the polishing assemblies 31 include a second motor 311 and a rotating plate 312, the second motor 311 is fixed on the mounting plate 4, and the rotating plate 312 is located below the mounting plate 4.

Referring to fig. 5 and 6, an output shaft of the second motor 311 penetrates through the mounting plate 4 and is fixed to the rotating plate 312, six third motors 313 are arranged below the rotating plate 312, a second rotating disc 314 is fixed to an output shaft of each third motor 313, and a second friction member 315 is connected to the second rotating disc 314. The sponge 315 is relatively inexpensive and can save costs.

The connecting plate 8 is installed at one end of the third motor 313 far away from the rotating plate 312, the output shafts of the six third motors 313 penetrate through the connecting plate 8, and the connecting plate 8 increases the stability of the third motor 313.

A second mounting groove 3141 is formed in one end, close to the sponge 315, of the second turntable 314, a second mounting block 3142 is fixed on one side, close to the second turntable 314, of the sponge 315, a third magnet 3151 is fixed in the second mounting groove 3141, a fourth magnet 3152 is fixed on the second mounting block 3142, and the third magnet 3151 and the fourth magnet 3152 are attracted and fixed to each other.

After the stone passes through the last second glazing assembly 22, the stone passes through the polishing assembly 31, the second motor 311 drives the rotating plate 312 to rotate, the rotating plate 312 drives six third motors 313 to rotate, the third motors 313 drive the second rotating disc 314 to rotate, the second rotating disc 314 drives the sponge 315 to rotate, the sponge 315 is driven by the second motor 311 to revolve, the sponge 315 is driven by the third motors 313 to rotate, the sponge 315 rotates while revolving, so that the friction effect of the sponge 315 on the surface of the stone is better, the time for the stone to reach a proper temperature is shortened, and a compact crystal hard treatment layer is formed on the surface of the stone.

The implementation principle of inorganic rostone glazing machine of this application embodiment does: when crystal face treatment is carried out on the stone, the stone is placed on the conveying belt 1, the glazing agent flows to the surface of the stone from the guide pipe 232, the first motor 211 drives the first rotating disc 212 to rotate, so that the steel wool 213 polishes the surface of the stone, the stone passes through the first glazing assembly 21 and the second glazing assembly 22, the second motor 311 drives the rotating plate 312 to rotate, the rotating plate 312 drives the third motor 313 to rotate, the third motor 313 drives the second rotating disc 314 and the sponge 315 to rotate, and therefore the stone is continuously polished, and a compact crystal hard treatment layer is formed on the surface of the stone.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides an inorganic rostone glazing machine which characterized in that: including conveyer belt (1), glazing mechanism (2) and grinding machanism (3), conveyer belt (1) top is provided with mounting panel (4), be provided with roof (5) on mounting panel (4), install the drive on roof (5) mounting panel (4) make progress or drive assembly (6) of rebound, glazing mechanism (2) is including setting up first glazing subassembly (21) and first drip subassembly (23) on mounting panel (4), first glazing subassembly (21) are located first drip subassembly (23) one side, first glazing subassembly (21) include first motor (211) and first carousel (212), first motor (211) are fixed the top surface of mounting panel (4), the output shaft of first motor (211) run through mounting panel (4) and with first carousel (212) are fixed, the first rotating disc (212) is connected with a first friction piece;

the first dripping module (23) comprises a glazing agent storage tank (231), a guide pipe (232) and a valve (233), wherein the glazing agent storage tank (231) is fixed on the upper surface of the top plate (5), one end of the guide pipe (232) is fixed with the glazing agent storage tank (231), the valve (233) is installed on the guide pipe (232), and the other end of the guide pipe (232) faces the conveyor belt (1);

grinding machanism (3) are including a plurality of subassemblies of polishing (31), the subassembly of polishing (31) are including second motor (311) and rotor plate (312), second motor (311) are fixed on mounting panel (4), the output shaft of second motor (311) run through mounting panel (4) and with rotor plate (312) are fixed, install a plurality of third motor (313) on rotor plate (312), and is a plurality of third motor (313) are along the circumferencial direction of rotor plate (312) evenly sets up, every all be fixed with second carousel (314) on the output shaft of third motor (313), be connected with the second friction piece on second carousel (314).

2. The inorganic artificial stone polisher according to claim 1, wherein: the first friction piece is steel wool (213), and the second friction piece is sponge (315).

3. An inorganic artificial stone polisher according to claim 2 with the following characteristics: the polishing agent storage box (231) is provided with an air pressure control valve (234), a placing plate (7) is arranged above the conveyor belt (1), one end, far away from the polishing agent storage box (231), of the guide pipe (232) is fixed on the placing plate (7), a plurality of liquid outlet pipes (2321) are fixed on the guide pipe (232), and the liquid outlet pipes (2321) face the conveyor belt (1).

4. The inorganic artificial stone polisher according to claim 1, wherein: glazing mechanism (2) still includes a plurality of installations second glazing subassembly (22) and second drip subassembly (24) on mounting panel (4), second glazing subassembly (22) with first glazing subassembly (21) is the same, second drip subassembly (24) with first drip subassembly (23) is the same.

5. An inorganic artificial stone polisher according to claim 2 with the following characteristics: the steel wool fixing device is characterized in that one end, close to the steel wool (213), of the first rotating disc (212) is provided with a first mounting groove (2121), one end, close to the first rotating disc (212), of the steel wool (213) is fixedly provided with a first mounting block (2131) matched with the first mounting groove (2121) in an inserted mode, a first magnet (2122) is fixed in the first mounting groove (2121), and a second magnet (2132) attracted with the first magnet (2122) is fixed on the first mounting block (2131).

6. The inorganic artificial stone polisher according to claim 1, wherein: moving blocks (41) are fixed at two ends of the mounting plate (4), two driving assemblies (6) are arranged, one driving assembly (6) drives one moving block (41), and the other driving assembly (6) drives the other moving block (41);

the driving assembly (6) comprises a fourth motor (61) and a screw rod (62), the fourth motor (61) is fixed on the top plate (5), an output shaft of the fourth motor (61) penetrates through the top plate (5) and is fixed with the screw rod (62), and the screw rod (62) penetrates through the moving block (41) and is in threaded connection with the moving block (41).

7. An inorganic artificial stone polisher according to claim 6 with the following characteristics: the middle position of mounting panel (4) top surface is fixed with guide bar (42), guide bar (42) upwards run through roof (5).

8. The inorganic artificial stone polisher according to claim 1, wherein: and a connecting plate (8) is fixedly arranged on one side of the third motor (313) far away from the second rotating disc (314), and an output shaft of each third motor (313) penetrates through the connecting plate (8).

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