CN110670859B - Frame type wall surface ceramic tile gap processor - Google Patents

Abstract

The invention discloses a frame type wall surface ceramic tile gap processor which comprises a vehicle body frame, a frame bottom plate, a lifting motor, a worm gear reducer, an idler sprocket, a driving sprocket, a chain, a frame guide rail, a lifting frame, a working guide rail, a screw rod, a second motor, a working module and a driving module. The extrusion leveling device is provided with two transverse extrusion leveling modules, can simultaneously extrude two wall brick gaps parallel to the wall surface direction, and can level after extrusion is finished; the extruding and leveling module is provided, can extrude a wall brick gap vertical to the wall surface direction, and can level after extrusion is finished; and can adapt to the wall bricks with different sizes by adjusting the distance between the two extrusion leveling modules.

Description

Frame type wall surface ceramic tile gap processor

Technical Field

The invention relates to the technical field of ceramic tile gap filling, in particular to a frame type wall surface ceramic tile gap processor.

Background

With the increasing demand of home decoration, the laying demand of the wall bricks is relatively increased. The gap extrusion of the crack beautifying agent between the wall bricks becomes an indispensable link, and the extrusion workload is quite huge. The extrusion work of the seam beautifying agent is also completed manually, the efficiency is low, and the consistency is poor. There are also some related devices, such as the hand-push type sewing machine [ CN 108374545 a ], which still need to be operated manually; for example, the seam beautifying machine (CN 207377072U) only has a function of extruding a seam, and the function is single, so that more requirements cannot be met.

Disclosure of Invention

In order to solve the problems, the invention provides a frame type wall surface tile gap processor which is provided with a transversely moving vehicle body frame, wherein a lifting frame can move up and down on the vehicle body frame through chain driving, and a working module can get in and out in the lifting frame so that the working module can be close to a gap. The working module is provided with two transverse extrusion modules and a strickling module, can extrude the ground tile gap vertical to the advancing direction and strickling after the extrusion is finished; the tile scraping device is provided with an extrusion module and a scraping module, can extrude the gaps of the tiles parallel to the advancing direction, and can scrape the gaps after extrusion is finished; and can be adapted to floor tiles of different sizes by adjusting the distance between the two extrusion scraping fixing seats. Not only has high efficiency, but also has good effect.

The technical scheme adopted by the invention is as follows: the utility model provides a frame-type wall ceramic tile gap processor, includes vehicle body frame, frame bottom plate, elevator motor, worm gear reduction unit, idler sprocket, drive sprocket, chain, frame guide rail, lifting frame, work guide rail, lead screw, second motor, work module, drive module. A frame bottom plate is fixed below the vehicle body frame, two chain wheel seats are arranged on the frame bottom plate, and two driving chain wheels are respectively fixed on the two chain wheel seats. The middle of the frame bottom plate is provided with a worm gear speed reducer which is input by a lifting motor and output by a driving shaft, the two ends of the driving shaft are respectively connected with a driving chain wheel, the driving chain wheel is provided with a chain, and the other end of the chain is arranged on an idler chain wheel. The idler sprocket is arranged at the upper end of the vehicle body frame and is connected with an idler sprocket seat, and the idler sprocket seat is fixed at the upper end of the vehicle body frame. One side of the chain is fixed with the lifting frame. Four frame guide rails are arranged on the periphery of the vehicle body frame, and the lifting frame moves up and down on the frame guide rails. Four working guide rails are fixed inside the lifting frame, the working module freely moves on the working guide rails, a lead screw is arranged below the lifting frame, the lead screw is driven by a second motor and drives a nut to move on the lead screw, the nut is fixed on a nut mounting seat, and the nut mounting seat is fixed at the bottom of the working module.

The working module comprises an extrusion module, a scraping module, an extrusion scraping fixing plate, a long guide shaft, a third motor, a lifting belt wheel, a lifting synchronous belt, a double-end ball screw, a guide rod seat, an upper base plate, a lower base plate, a reciprocating motor, a small guide rail, a synchronous belt wheel and a synchronous belt. The extrusion module, the strickle-off module, the synchronous belt pulley, the synchronous belt, the reciprocating motor and the small guide rail are positioned on the extrusion strickle-off fixing plate to form a movable extrusion strickle-off module. The extrusion module is fixed on the extrusion strickle fixing plate through a small guide rail, freely slides along the direction of the small guide rail and is driven by a synchronous belt. The strickle module is fixed on the extrusion strickle fixing plate through a small guide rail, freely slides along the direction of the small guide rail and is driven by a synchronous belt. The synchronous belt is driven by a reciprocating motor through the synchronous wheel to drive the extrusion module and the strickle module to do reciprocating motion and always present opposite directions. The extrusion module and the strickling module are positioned at the upper end of the working module, and the other extrusion module and the strickling module are positioned at the lower end of the working module. The movable extrusion strickling module slides freely on the long guide shaft, the guide rod seat is positioned in the middle of the working module and used for fixing the long guide shaft, and the other extrusion module is fixed on one side above the guide rod seat. The other scraping module is fixed on one side of the lower surface of the guide rod seat.

The extrusion module comprises a seam beautifying agent, a seam beautifying agent fixing bin, a fixing seat, a gear, a rack, a gear driving shaft, a coupler, an extrusion motor, a motor fixing seat, a linear bearing fixing seat, a bearing seat, a small guide rod, a linear bearing and a synchronous belt fixing block. The seam beautifying agent is placed in the seam beautifying agent fixing bin, and the seam beautifying agent fixing bin is fixed on the fixing seat. The motor fixing seat, the bearing seat and one end of the small guide rod are fixed on the fixing seat. The linear bearing fixing seat is connected with a linear bearing and can freely slide up and down on the small guide rod, and the other end of the rack is fixed on the linear bearing fixing seat. The extrusion motor drives a gear driving shaft through a coupler, a gear is fixed on the gear driving shaft, and a driving rack moves up and down to extrude the seam beautifying agent. The synchronous belt fixing block is fixed on one side of the fixing seat.

The scraping module comprises a scraping ball, a spring fixing plate, a fixing seat, a rack, a gear driving shaft, a coupler, an extrusion motor, a motor fixing seat, a linear bearing fixing seat, a bearing seat, a small guide rod, a linear bearing and a synchronous belt fixing seat. The scraping ball is fixed on the spring, and the spring is fixed on the spring fixing plate and is obliquely arranged at a certain angle. One end of each rack is fixed on the linear bearing fixing seat, and the other end of each rack is fixed on the spring fixing seat. The motor fixing seat and the bearing seat are fixed on the fixing seat. The linear bearing fixing seat is connected with a linear bearing and can freely slide up and down on the small guide rod. The extrusion motor drives a gear driving shaft through a coupler, a gear is fixed on the gear driving shaft, and the gear drives a rack to move up and down.

The double-end ball screw is a screw with two sections of opposite rotating directions, one end of the screw is fixed on the upper bottom plate, the other end of the screw is fixed on the lower bottom plate, and the lifting synchronizing wheel is driven by the third motor to drive the lifting synchronizing wheel fixed on the double-end ball screw to drive the movable extrusion scraping modules to move oppositely or oppositely.

One end of the long guide shaft is fixed on the upper bottom plate, the other end of the long guide shaft is fixed on the lower bottom plate, and the movable extrusion strickle module freely slides on the long guide shaft through the linear bearing.

The automobile body frame below possess two sets of drive units, including driving motor, drive wheel axle, driving wheel seat, driving pulley, drive hold-in range, driving motor drives the driving pulley who fixes in the drive axle through driving the hold-in range, drives the drive wheel and rotates to same direction for automobile body frame transversely advances.

Due to the adoption of the technical scheme, the invention has the following advantages: the invention has 2 transverse extrusion and strickling modules, can extrude 2 wall brick gaps parallel to the wall surface direction at the same time, and strickling after extrusion is finished; the extrusion leveling module is provided with 1 extrusion leveling module, can extrude a wall brick gap vertical to the wall surface direction, and can level after extrusion is finished; and can be adapted to wall bricks with different sizes by adjusting the distance between the two extrusion leveling modules. Not only has high efficiency, but also has good effect.

Drawings

Fig. 1 and 2 are schematic overall structural diagrams of the present invention.

Fig. 3 is a schematic structural diagram of the working module of the present invention.

Fig. 4 is a schematic structural diagram of one side of an extrusion module of the extrusion screeding fixing plate of the invention.

Fig. 5 is a schematic structural diagram of one side of a strickle module of the extrusion strickle fixing plate of the invention.

Reference numerals: 1-a lifting motor; 2-a drive module; 3-driving chain wheel fixing seat; 4-a frame floor; 5-a drive sprocket; 6-a drive shaft; 7-a frame rail; 8-a chain; 9-worm gear reducer; 10-a lifting frame; 11-idler sprocket; 12-a nut; 13-nut fixing seat; 14-a second electric machine; 15-a screw rod; 16. 18-a drive pulley; 17-driving a synchronous belt; 19-a drive motor mount; 20-a drive motor; 21-driving the wheel shaft; 22-driving wheel seat; 23-a drive wheel; 24-an extrusion module; 25-a screed module; 26-idler sprocket seat; 27-a vehicle body frame; 28-a working module; 29-a working rail; 102-extruding and scraping the fixed plate; 103-linear bearings; 104-long guide bar; 105-a guide bar seat; 106-double-ended ball screw; 107-upper base plate; 108-a third motor; 109. 110-lifting synchronizing wheel; 111-lifting synchronous belts; 112-a reciprocating motor; 113-a timing pulley; 114-a synchronous belt; 115. 116-a small rail; 118-a lower base plate; 2401-a seam beautifying agent fixing bin; 2402-a crack sealer; 2403-a fixed seat; 2404-a bearing seat; 2405-linear bearings; 2406-Small guide rods; 2407-a rack; 2408-linear bearing fixing seats; 2409-a gear; 2410-gear drive shaft; 2411-a coupler; 2412-motor fixing seat; 2413-extruding motor; 2501-scraping the ball; 2502-spring; 2503-spring holder; 2504-fixed seat; 2505-bearing block; 2506-linear bearing; 2507-small guide bar; 2508-rack bar; 2509-linear bearing fixing seat; 2510-gear; 2511-gear drive shaft; 2512-extrusion motor; 2513-motor fixing seat; 2514-coupling.

Detailed Description

The present invention will be further described with reference to specific examples, which are illustrative of the invention and are not to be construed as limiting the invention.

Example (b): a frame type wall surface tile gap treating machine as shown in fig. 1, 2, 3, 4 and 5. A frame bottom plate 4 is fixed below the vehicle body frame 27, two chain wheel seats 3 are arranged on the frame bottom plate 4, and two driving chain wheels 5 are respectively fixed on the two chain wheel seats. The middle of the frame bottom plate 4 is provided with a worm gear speed reducer 9 which is input by the lifting motor 1 and output by the driving shaft 6, the two ends of the driving shaft 6 are respectively connected with the driving chain wheel 5, the driving chain wheel 5 is provided with a chain 8, and the other end of the chain 8 is arranged on the idler chain wheel 11. The idler sprocket 11 is mounted on the upper end of the body frame 27 and connected to the idler sprocket seat 26, and the idler sprocket seat 26 is fixed on the upper end of the body frame 27. One side of the chain 8 is fixed with the lifting frame 10. Four frame rails 7 are installed around the vehicle body frame 27, and the lifting frame 10 moves up and down on the frame rails 7. Four working guide rails 29 are fixed inside the lifting frame 10, the working module 28 freely moves on the working guide rails 29, a screw rod 15 is arranged below the lifting frame 10 and driven by a second motor 14 to drive the nut 12 to move on the screw rod 15, the nut 12 is fixed on the nut mounting seat 13, and the nut mounting seat is fixed at the bottom of the working module 28.

The extrusion module 24, the strickle module 25, the synchronous pulley 115, the synchronous belt 114, the reciprocating motor 112 and the small guide rail 115 of the working module 28 are positioned on the extrusion strickle fixing plate 102 to form a movable extrusion strickle module. The extrusion module 24 is fixed on the extrusion strickle fixing plate 102 through a small guide rail 115, freely slides along the direction of the small guide rail 115, and is driven by a synchronous belt 114. The strickle module 25 is fixed on the extrusion strickle fixing plate 102 through a small guide rail 116, freely slides along the small guide rail 116, and is driven by a synchronous belt 114. The timing belt 114 is driven by the reciprocating motor 112 through the timing wheel 113, and drives the extrusion module 24 and the strickle module 25 to reciprocate and always present opposite directions. An extrusion module 24 and a screed module 25 are located at an upper end of the work module 28, and another extrusion module 24 and screed module 25 are located at a lower end of the work module 28. The movable extrusion screed module is freely slidable on a long guide shaft 104, a guide bar base 105 is located in the middle of the working module 28 for fixing the long guide shaft 103, and the further extrusion module 24 is fixed to the upper side of the guide bar base 105. A further screed module 25 is secured to the underside of the guide bar housing 105.

The seam beautifying agent 2402 of the extrusion module 24 is placed in the seam beautifying agent fixing bin 2401, and the seam beautifying agent fixing bin 2401 is fixed on the fixing seat 2403. One end of the motor fixing seat 2412, the bearing seat 2404 and the small guide rod 2406 is fixed on the fixing seat 2403. The linear bearing fixing seat 2408 is connected with a linear bearing 2405 and slides up and down freely on the small guide rod 2406, and the other end of the rack 2407 is fixed on the linear bearing fixing seat 2408. The extrusion motor 2413 drives a gear driving shaft 2410 through a coupler 2411, a gear 2409 is fixed on the gear driving shaft 2410, and a driving rack 2407 moves up and down to extrude the seam beautifying agent 2402. The synchronous belt fixing block is fixed on one side of the fixing seat 2403. The length of the small guide rod 2406 can be increased according to actual needs so as to expand the specification of the crack sealer 2402.

The strike-off ball 2501 of the strike-off module 25 is fixed to a spring 2502, and the spring 2502 is fixed to a spring fixing plate 2503 and is inclined at a certain angle. One end of each of the two racks 2508 is fixed to the linear bearing fixing seat 2509, and the other end is fixed to the spring fixing seat 2509. The motor fixing base 2513 and the bearing base 2505 are fixed on the fixing base 2504. The linear bearing fixing base 2509 is connected to a linear bearing 2506 and slides up and down on a small guide rod 2507. The extrusion motor 2511 drives the gear driving shaft 2511 through the coupler 2514, the gear 2510 is fixed on the gear driving shaft 2511, and the gear 2510 drives the rack 2508 to move up and down. Different initial tilt angles may be used to improve the stability of the strike-off ball 2501 in the gap.

The double-end ball screw 106 is a screw with two sections of opposite rotating directions, one end of the double-end ball screw is fixed on the upper bottom plate 107, the other end of the double-end ball screw is fixed on the lower bottom plate 118, and the lifting synchronizing wheel 109 is driven by the third motor 108 to drive the lifting synchronizing wheel 110 fixed on the double-end ball screw 106 to drive the movable extrusion scraping modules to move oppositely or oppositely. The double-ended ball screw 106 may vary in length as desired.

One end of the long guide shaft 104 is fixed on the upper bottom plate 107, the other end is fixed on the lower bottom plate 118, and the movable extrusion slicking module slides freely on the long guide shaft 104 through the linear bearing 103. The long guide shaft 104 may be varied in length as needed.

Two sets of driving units 2 are arranged below the vehicle body frame 27 and comprise a driving motor 20, a driving wheel 23, a driving wheel shaft 21, a driving wheel seat 22, driving belt wheels 16 and 18 and a driving synchronous belt 17. The driving motor 20 drives the driving pulley 16 fixed on the driving shaft 21 by driving the timing belt 17, and drives the driving wheel 23 to rotate in the same direction, so that the vehicle body frame 27 advances transversely. The distance between the two groups of driving wheel modules 2 can be adjusted according to the requirement.

According to the invention, the lifting frame moves up and down, and the working module enters and exits in the lifting frame, so that the working module can be close to the gap. Then, the seam beautifying agent is extruded out of the gap parallel to the wall brick and the wall surface direction through the transverse extrusion module, the extrusion is finished, the lifting frame is lifted for a certain distance, the extruded gap is flattened through the strickling module, and the extrusion module and the strickling module move back and forth on the same fixing plate through the synchronous belt. The two extrusion leveling modules work simultaneously to extrude and level the upper and lower gaps of the wall brick simultaneously. And the other extrusion and strickling module is used for extruding and strickling a gap in the vertical direction of the wall surface when the lifting frame rises. The two extrusion leveling modules can adjust the distance between the two extrusion leveling modules through the double-end ball screw, so that the two extrusion leveling modules can be adapted to wall bricks of different sizes.

Claims (6)

1. The utility model provides a frame-type wall ceramic tile gap processor, includes vehicle body frame, frame bottom plate, elevator motor, worm gear reduction unit, idler sprocket, driving sprocket, chain, frame guide rail, lifting frame, work guide rail, lead screw, second motor, work module, drive module, its characterized in that: a frame bottom plate is fixed below the vehicle body frame, two chain wheel seats are arranged on the frame bottom plate, two driving chain wheels are respectively fixed on the frame bottom plate, a worm gear reducer is installed in the middle of the frame bottom plate, the worm gear reducer is input by a lifting motor and output by a driving shaft, two ends of the driving shaft are respectively connected with the driving chain wheels, a chain is installed on the driving chain wheels, and the other end of the chain is installed on an idler chain wheel; the chain wheel of the idler is arranged at the upper end of the vehicle body frame and connected with the chain wheel seat of the idler, the chain wheel seat of the idler is fixed at the upper end of the vehicle body frame, one side of the chain is fixed with the lifting frame, four frame guide rails are arranged on the periphery of the vehicle body frame, and the lifting frame moves up and down on the frame guide rails;

four working guide rails are fixed inside the lifting frame, the working module freely moves on the working guide rails, a lead screw is arranged below the lifting frame, the lead screw is driven by a second motor and drives a nut to move on the lead screw, the nut is fixed on a nut mounting seat, and the nut mounting seat is fixed at the bottom of the working module;

the working module comprises an extrusion module, a strickle module, an extrusion strickle fixing plate, a long guide shaft, a third motor, a lifting belt wheel, a lifting synchronous belt, a double-end ball screw, a guide rod seat, an upper base plate, a lower base plate, a reciprocating motor, a small guide rail, a synchronous belt wheel and a synchronous belt, wherein the extrusion module, the strickle module, the synchronous belt wheel, the synchronous belt, the reciprocating motor and the small guide rail are positioned on the extrusion strickle fixing plate to form a movable extrusion strickle module; the strickle module is fixed on the extrusion strickle fixing plate through a small guide rail, freely slides along the direction of the small guide rail and is driven by a synchronous belt; the synchronous belt is driven by a reciprocating motor through the synchronous wheel to drive the extrusion module and the strickle module to do reciprocating motion and always present opposite directions; the extrusion module and the strickling module are positioned at the upper end of the working module, and the other extrusion module and the strickling module are positioned at the lower end of the working module; the movable extrusion strickling module freely slides on the long guide shaft, the guide rod seat is positioned in the middle of the working module and used for fixing the long guide shaft, the other extrusion module is fixed on one side above the guide rod seat, and the other strickling module is fixed on one side below the guide rod seat.

2. A frame-type wall tile gap treating machine as claimed in claim 1, wherein: the extrusion module comprises a seam beautifying agent, a seam beautifying agent fixing bin, a fixing seat, a gear, a rack, a gear driving shaft, a coupler, an extrusion motor, a motor fixing seat, a linear bearing fixing seat, a bearing seat, a small guide rod, a linear bearing and a synchronous belt fixing block, wherein the seam beautifying agent is placed in the seam beautifying agent fixing bin, and the seam beautifying agent fixing bin is fixed on the fixing seat; one end of the motor fixing seat, one end of the bearing seat and one end of the small guide rod are fixed on the fixing seat, the linear bearing fixing seat is connected with a linear bearing and can freely slide up and down on the small guide rod, and the other end of the rack is fixed on the linear bearing fixing seat; the extrusion motor drives a gear driving shaft through a coupler, a gear is fixed on the gear driving shaft, a driving rack moves up and down to be used for extruding a seam beautifying agent, and a synchronous belt fixing block is fixed on one side of the fixing base.

3. A frame-type wall tile gap treating machine as claimed in claim 1, wherein: the scraping module comprises a scraping ball, a spring fixing plate, a fixing seat, a rack, a gear driving shaft, a coupler, an extrusion motor, a motor fixing seat, a linear bearing fixing seat, a bearing seat, a small guide rod, a linear bearing and a synchronous belt fixing seat, wherein the scraping ball is fixed on the spring, and the spring is fixed on the spring fixing plate and is obliquely arranged at a certain angle; one end of each rack is fixed on the linear bearing fixing seat, and the other end of each rack is fixed on the spring fixing seat; the motor fixing seat is fixed on the bearing seat; the linear bearing fixing seat is connected with a linear bearing and can freely slide up and down on the small guide rod; the extrusion motor drives a gear driving shaft through a coupler, a gear is fixed on the gear driving shaft, and the gear drives a rack to move up and down.

4. A frame-type wall tile gap treating machine as claimed in claim 1, wherein: the double-end ball screw is a screw with two sections of opposite rotating directions, one end of the screw is fixed on the upper bottom plate, the other end of the screw is fixed on the lower bottom plate, and the lifting synchronizing wheel is driven by the third motor to drive the lifting synchronizing wheel fixed on the double-end ball screw to drive the movable extrusion scraping modules to move oppositely or oppositely.

5. A frame-type wall tile gap treating machine as claimed in claim 1, wherein: one end of the long guide shaft is fixed on the upper bottom plate, the other end of the long guide shaft is fixed on the lower bottom plate, and the movable extrusion strickle module freely slides on the long guide shaft through the linear bearing.

6. A frame-type wall tile gap treating machine as claimed in claim 1, wherein: the automobile body frame below set up two sets of drive unit, including driving motor, drive wheel axle, drive wheel seat, drive band pulley, drive hold-in range, driving motor drives the drive band pulley of fixing in the drive shaft through the drive hold-in range, drives the drive wheel and rotates to same direction for automobile body frame transversely advances.

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