CN113062622A

CN113062622A - Automatic ceramic tile removing equipment

Info

Publication number: CN113062622A
Application number: CN202110385129.9A
Authority: CN
Inventors: 邓智维
Original assignee: Yangzhou Tengzhu Construction Engineering Co ltd
Current assignee: Hunan Zhongpang Construction Group Co ltd
Priority date: 2021-04-09
Filing date: 2021-04-09
Publication date: 2021-07-02
Anticipated expiration: 2041-04-09
Also published as: CN113062622B

Abstract

The invention relates to the related field of building materials, in particular to automatic ceramic tile dismantling equipment which comprises a base, wherein two symmetrical vertical plates are arranged at the upper end of the base, a swinging block is rotatably connected between the two vertical plates, a threaded cylinder is rotatably connected in the swinging block, and a through frame which is through just opposite to the two vertical plates is arranged in the swinging block. According to the multifunctional integrated floor tile cleaning machine, the cutting wheel and the tool apron of the prying knife can be switched to extend out of corresponding tool bits according to conditions, the tool apron is driven to act on joint seams of floor tiles through the transverse arm capable of transversely extending and vertically swinging, the floor tiles are pried up through the prying knife after cement is cut through the cutting wheel, the floor tiles are automatically cleaned in a multifunctional integrated mode, multiple tools are not needed to be manually used, and time, labor and convenience are achieved.

Description

Automatic ceramic tile removing equipment

Technical Field

The invention relates to the field of building materials, in particular to automatic ceramic tile dismantling equipment.

Background

Ground ceramic tile is at first need getting rid of old ceramic tile when having the damage or need laying again, and old ceramic tile is cement joint with ground, very firm, often relies on the staff to use a little to prize after the multiple instrument cuts the ceramic tile at present and gets rid of, and the instrument that needs to use is numerous and operation process needs higher technical, otherwise can harm peripheral ceramic tile to manual handling is more to take physical power and efficiency is not high.

Disclosure of Invention

The invention provides an automatic ceramic tile dismantling device for solving the technical problems.

The above object of the present invention is achieved by the following technical solutions: the automatic ceramic tile dismantling device comprises a base, wherein two symmetrical vertical plates are arranged at the upper end of the base, a swing block is rotatably connected between the two vertical plates, a threaded cylinder is connected in the swing block in a rotating mode, a through frame which is just communicated with the two vertical plates is arranged in the swing block, a driving mechanism is arranged in the through frame, a cross arm is connected in the threaded cylinder through threads, the cross arm is connected to the swing block in a sliding mode, and a cutting and chiseling mechanism is fixedly connected to one end of the cross arm.

Preferably, a through groove is formed between the through frame and the threaded cylinder, a driven shaft is rotatably connected between two opposite walls of the through groove, a driven wheel is fixedly connected to the driven shaft, and the driven wheel is meshed with the lower end of the threaded cylinder.

Preferably, the driving mechanism comprises a push rod, an inner cavity is arranged in the lower end of the push rod, a transmission shaft is connected to the lower end of the push rod in a vertically through mode, the transmission shaft penetrates through the inner cavity, a driving motor is fixedly connected to one wall of the inner cavity, a driving bevel gear is rotatably connected to one end of the driving motor, a connecting bevel gear fixedly connected to the transmission shaft is arranged in the inner cavity, the driving bevel gear is meshed with the connecting bevel gear, a driving bevel gear is fixedly connected to the upper end of the transmission shaft, a driven bevel gear is fixedly connected to the driven shaft, and the driving bevel gear is meshed with the driven bevel gear.

Preferably, the lower wall of the through frame is rotatably connected with a swing bevel gear, one side wall of the vertical plate on one side, which is opposite to the swing block, is provided with an arc gear with the rotation center of the swing block as a circle center, and the swing bevel gear is meshed with the arc gear.

As preferred, the transmission shaft lower extreme has linked firmly the plug, the symmetry jack that link up about swing awl tooth uses the axle center to be equipped with as symmetry center symmetry, two symmetry jack downside links to each other to be a ring channel, ring channel inner wall is equipped with the latch, it is just right to link up the frame lower wall symmetrical blind hole that is equipped with of symmetry jack downside, sliding connection has the slide bar about in the blind hole, the slide bar upper end has linked firmly the tight pulley, the tight pulley can be blocked block in the ring channel and block the unable rotation of swing awl tooth, the slide bar with the inner spring has been linked firmly between the blind hole lower wall.

Preferably, the cutting and excavating mechanism comprises a cutter holder fixedly connected to the cross arm, a cutting wheel groove is formed in the cutter holder in a vertically through mode, a motor groove is formed in one side wall of the cutting wheel groove in a communicated mode, a cutting motor is connected in the motor groove in a vertically sliding mode, one end of the cutting motor is in power connection with a motor shaft, a cutting wheel is fixedly connected to the motor shaft, and the cutting wheel moves up and down in the cutting wheel groove.

Preferably, a push-pull groove is formed in the tool apron, a push-pull rod is fixedly connected to the upper wall of the push-pull groove, one end of a motor shaft extends into the push-pull groove, the motor shaft is rotatably connected to the lower end of the push-pull rod, two guide rods are symmetrically and rotatably connected to the motor shaft, a prying tool cavity with a downward opening is formed in the tool apron, a prying tool is arranged in the prying tool cavity in a vertically sliding mode, a tension spring is fixedly connected between the prying tool and the upper wall of the prying tool cavity, the upper ends of the two guide rods are respectively and rotatably connected with a pressure rod, an arc groove is symmetrically communicated between the prying tool cavity and the push-pull groove, the pressure rod penetrates through the arc groove and extends into the prying.

Preferably, four wheels are arranged on two sides of the base, and the wheels drive the base to move and stop.

The invention has the beneficial effects that: according to the multifunctional integrated floor tile cleaning machine, the cutting wheel and the tool apron of the prying knife can be switched to extend out of corresponding tool bits according to conditions, the tool apron is driven to act on joint seams of floor tiles through the transverse arm capable of transversely extending and vertically swinging, the floor tiles are pried up through the prying knife after cement is cut through the cutting wheel, the floor tiles are automatically cleaned in a multifunctional integrated mode, multiple tools are not needed to be manually used, and time, labor and convenience are achieved.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

The invention is further illustrated with reference to the following figures and examples.

Figure 1 is a schematic view of the structure of an automatic tile removing apparatus of the present invention.

Fig. 2 is a schematic structural diagram of a of fig. 1.

Fig. 3 is a schematic structural view of B of fig. 1.

Fig. 4 is a schematic view of the structure of C-C of fig. 3.

In the figure: 11-base, 12-vertical plate, 13-circular arc tooth, 14-cross arm, 15-screw cylinder, 16-swinging block, 17-motor groove, 18-cutting wheel groove, 19-push-pull groove, 20-push-pull rod, 21-knife seat, 22-cutting wheel, 23-pressure rod, 24-driven bevel gear, 25-driven shaft, 26-through groove, 27-driven wheel, 28-transmission bevel gear, 29-connecting bevel gear, 30-inner cavity, 31-through frame, 32-symmetrical jack, 33-fastening wheel, 34-blind hole, 35-internal spring, 36-sliding rod, 37-swinging bevel gear, 38-plug, 39-driving motor, 40-driving bevel gear, 41-top rod, 42-transmission shaft and 43-tension spring, 44-prying knife, 45-prying knife cavity, 46-guide rod, 47-motor shaft, 48-cutting motor, 49-sliding groove, 50-arc groove and 51-wheel.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings. The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications of the present embodiment without inventive contribution as required after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present invention.

The automatic ceramic tile removing equipment comprises a base 11, wherein two symmetrical vertical plates 12 are arranged at the upper end of the base 11, a swing block 16 is rotatably connected between the two vertical plates 12, a threaded cylinder 15 is rotatably connected in the swing block 16, a through frame 31 which is through from the two vertical plates 12 is arranged in the swing block 16, a driving mechanism is arranged in the through frame 31, a cross arm 14 is connected in the threaded cylinder 15 through threads, the cross arm 14 is connected to the swing block 16 in a sliding mode, and a cutting and chiseling mechanism is fixedly connected to one end of the cross arm 14.

Advantageously, a through groove 26 is arranged between the through frame 31 and the threaded cylinder 15, a driven shaft 25 is rotatably connected between two opposite walls of the through groove 26, a driven wheel 27 is fixedly connected to the driven shaft 25, and the driven wheel 27 is engaged with the lower end of the threaded cylinder 15.

Beneficially, actuating mechanism includes ejector pin 41, be equipped with inner chamber 30 in the ejector pin 41 lower extreme, the rotation that link up from top to bottom of ejector pin 41 lower extreme is connected with transmission shaft 42, transmission shaft 42 passes inner chamber 30, a wall of inner chamber 30 has linked firmly driving motor 39, driving motor 39 one end power is rotated and is connected with drive awl tooth 40, be equipped with in the inner chamber 30 link firmly in the connection awl tooth 29 of transmission shaft 42, drive awl tooth 40 mesh in connect awl tooth 29, transmission awl tooth 28 has been linked firmly to the transmission shaft 42 upper end, driven shaft 25 is last to be linked firmly driven awl tooth 24, drive awl tooth 28 mesh in driven awl tooth 24.

Beneficially, the lower wall of the through frame 31 is rotatably connected with a swinging bevel gear 37, a side wall of the vertical plate 12 on one side, which faces the swinging block 16, is provided with an arc gear 13 taking the rotation center of the swinging block 16 as a circle center, and the swinging bevel gear 37 is engaged with the arc gear 13.

Beneficially, transmission shaft 42 lower extreme has linked firmly plug 38, swing awl tooth 37 uses the axle center to be equipped with the symmetry jack 32 that link up from top to bottom as symmetry center symmetry, two symmetry jack 32 downside links up to be an annular groove, the annular groove inner wall is equipped with the latch, it is just right to link up frame 31 lower wall symmetrical being equipped with blind hole 34 of symmetry jack 32 downside, sliding connection has slide bar 36 from top to bottom in the blind hole 34, slide bar 36 upper end has linked firmly fastening wheel 33, fastening wheel 33 can block into in the annular groove and block swing awl tooth 37 can not rotate, slide bar 36 with link firmly interior spring 35 between the blind hole 34 lower wall.

Beneficially, the cutting and excavating mechanism includes a cutter holder 21 fixedly connected to the crossbar 14, a cutting wheel groove 18 is vertically arranged in the cutter holder 21, a motor groove 17 is communicated with one side wall of the cutting wheel groove 18, a cutting motor 48 is vertically and slidably connected in the motor groove 17, one end of the cutting motor 48 is power connected with a motor shaft 47, the motor shaft 47 is fixedly connected with a cutting wheel 22, and the cutting wheel 22 moves up and down in the cutting wheel groove 18.

Beneficially, a push-pull groove 19 is formed in the tool apron 21, the upper wall of the push-pull groove 19 is fixedly connected with a push-pull rod 20, one end of a motor shaft 47 extends into the push-pull groove 19, the motor shaft 47 is rotatably connected to the lower end of the push-pull rod 20, two guide rods 46 are symmetrically and rotatably connected to the motor shaft 47, a prying tool cavity 45 with a downward opening is formed in the tool apron 21, prying tools 44 are arranged in the prying tool cavity 45 in a vertically sliding mode, tension springs 43 are fixedly connected between the prying tools 44 and the upper wall of the prying tool cavity 45, the upper ends of the two guide rods 46 are respectively and rotatably connected with compression rods 23, arc grooves 50 are symmetrically communicated between the prying tool cavity 45 and the push-pull groove 19, the compression rods 23 penetrate through the arc grooves 50 and extend into the prying tool cavity 45, and the compression.

Advantageously, four wheels 51 are provided on both sides of the base 11, and the wheels 51 drive the base 11 to travel and park.

The steps of use of an automatic tile removing apparatus herein are described in detail below with reference to figures 1 to 4:

initially, the tightening wheel 33 is located in the symmetrical receptacle 32 to capture the rocking bevel 37, the pry blade 44 is located in the pry blade cavity 45, and the cutting wheel 22 is located on the underside of the cutting wheel slot 18.

When in use, the base 11 moves on the ground under the drive of the wheel 51 and stops at a proper position, the driving motor 39 is started to drive the driving bevel gear 40 to rotate, the driving shaft 42 is driven to rotate by the connecting bevel gear 29, the driven bevel gear 24 is driven to rotate by the driving bevel gear 28, the driven shaft 25 is driven to rotate the driven wheel 27, the cross arm 14 is driven to transversely move by the rotation of the threaded barrel 15, the cutting wheel 22 is aligned above the ground tile joint seam by the tool apron 21 to adjust the position of the cutting wheel 22, the cutting motor 48 is started to drive the cutting wheel 22 to rotate, the ejector rod 41 drives the driving shaft 42 to move downwards, the driving bevel gear 28 is driven to move downwards to be disengaged with the driven bevel gear 24, the driving shaft 42 drives the plug 38 to move downwards, the lower end of the plug 38 extends downwards into the symmetrical insertion hole 32, the plug 38 pushes the fastening wheel 33 to be disengaged downwards with the symmetrical insertion, then the fastening wheel 33 is separated from the swinging bevel gear 37, the plug 38 is connected with the swinging bevel gear 37, the transmission shaft 42 rotates to drive the plug 38 to rotate, further the swinging bevel gear 37 is driven to rotate, further the swinging block 16 is driven to rotate through the meshing relation of the circular arc gear 13 and the swinging bevel gear 37, further the cross arm 14 drives the tool apron 21 to rotate by taking the circle center of the circular arc gear 13 as the center of rotation, further the cutting wheel 22 is driven to cut the joint of the ceramic tile downwards, the base 11 is driven to operate through the wheel 51 to drive the cutting wheel 22 to cut around the ceramic tile, then the push-pull rod 20 drives the motor shaft 47 to move upwards, further the cutting wheel 22 is driven to extend into the cutting wheel groove 18, the lower ends of the two guide rods 46 are driven to move upwards, further the upper ends of the guide rods 46 are driven by the combined action of the arc grooves 50 to drive the pressing rod 23 to slide downwards along the arc grooves 50, at this time, the prying knife 44 is driven by the knife holder 21 to be inserted downwards into the gap cut by the cutting wheel 22 in the same driving manner as described above, and the wheel 51 drives the base 11 to move so as to drive the prying knife 44 to pry apart the tiles on the ground.

Claims

1. An automatic tile removing apparatus, comprising a base (11), characterized in that: the cutting and chiseling machine is characterized in that two symmetrical vertical plates (12) are arranged at the upper end of the base (11), a swing block (16) is rotatably connected between the two vertical plates (12), a threaded cylinder (15) is rotatably connected in the swing block (16), a through frame (31) which is just opposite to the two vertical plates (12) and penetrates through is arranged in the swing block (16), a driving mechanism is arranged in the through frame (31), a cross arm (14) is connected in the threaded cylinder (15) through threads, the cross arm (14) is slidably connected to the swing block (16), and a cutting and chiseling mechanism is fixedly connected to one end of the cross arm (14).

2. An automatic tile removal apparatus according to claim 1, wherein: a through groove (26) is formed between the through frame (31) and the threaded cylinder (15) in a communicated manner, a driven shaft (25) is rotatably connected between two opposite walls of the through groove (26), a driven wheel (27) is fixedly connected onto the driven shaft (25), and the driven wheel (27) is meshed with the lower end of the threaded cylinder (15).

3. An automatic tile removal apparatus according to claim 2, wherein: actuating mechanism includes ejector pin (41), be equipped with inner chamber (30) in ejector pin (41) lower extreme, the rotation that link up from top to bottom of ejector pin (41) lower extreme is connected with transmission shaft (42), transmission shaft (42) pass inner chamber (30), inner chamber (30) wall has linked firmly driving motor (39), driving motor (39) one end power is rotated and is connected with drive awl tooth (40), be equipped with in inner chamber (30) link firmly in connection awl tooth (29) of transmission shaft (42), drive awl tooth (40) mesh in connect awl tooth (29), transmission shaft (42) upper end has linked firmly transmission awl tooth (28), driven shaft (25) are gone up and have linked firmly driven awl tooth (24), transmission awl tooth (28) mesh in driven awl tooth (24).

4. An automatic tile removal apparatus according to claim 3, wherein: the lower wall of the through frame (31) is rotatably connected with swing conical teeth (37), one side wall, opposite to the swing block (16), of the vertical plate (12) on one side is provided with arc teeth (13) with the rotation center of the swing block (16) as the center of circle, and the swing conical teeth (37) are meshed with the arc teeth (13).

5. An automatic tile removal apparatus according to claim 4, wherein: transmission shaft (42) lower extreme has linked firmly plug (38), symmetrical jack (32) that link up about swing awl tooth (37) use the axle center to be equipped with as the symmetry center symmetry, two symmetrical jack (32) downside links to each other to be an annular groove, the annular groove inner wall is equipped with the latch, it is just right to link up frame (31) lower wall symmetrical being equipped with blind hole (34) of symmetrical jack (32) downside, sliding connection has slide bar (36) about in blind hole (34), tight pulley (33) have been linked firmly on slide bar (36), slide bar (36) with interior spring (35) have been linked firmly between blind hole (34) lower wall.

6. An automatic tile removal apparatus according to claim 5, wherein: cutting mechanism including link firmly in blade holder (21) of xarm (14), what link up about in blade holder (21) is equipped with cutting race (18), what be linked together on cutting race (18) a lateral wall is equipped with motor groove (17), sliding connection has cutting motor (48) about in motor groove (17), cutting motor (48) one end power connection has motor shaft (47), cutting wheel (22) have been linked firmly on motor shaft (47).

7. An automatic tile removal apparatus according to claim 6, wherein: a push-pull groove (19) is arranged in the tool apron (21), the upper wall of the push-pull groove (19) is fixedly connected with a push-pull rod (20), one end of a motor shaft (47) extends into the push-pull groove (19), the motor shaft (47) is rotatably connected to the lower end of the push-pull rod (20), the motor shaft (47) is symmetrically and rotatably connected with two guide rods (46), a prying tool cavity (45) with a downward opening is arranged in the tool apron (21), prying tools (44) are vertically and slidably arranged in the prying tool cavity (45), tension springs (43) are fixedly connected between the prying tools (44) and the upper wall of the prying tool cavity (45), the upper ends of the two guide rods (46) are respectively and rotatably connected with a compression rod (23), an arc groove (50) is symmetrically communicated between the prying tool cavity (45) and the push-pull groove (19), and the compression rod (23) penetrates through the arc groove (50) and extends into the pry, the pressure lever (23) is abutted against the upper end of the prying knife (44).

8. An automatic tile removal apparatus according to claim 1, wherein: four wheels (51) are arranged on two sides of the base (11).