CN110173097B - Ceramic tile cement paving device - Google Patents

Abstract

The invention relates to a cement paving device, in particular to a cement paving device for ceramic tiles. Therefore, the technical problem of the invention is as follows: provided is a tile cement paving device which can reduce the workload and improve the cement paving efficiency. The technical scheme is as follows: a tile cement paving device comprises a rack, a first motor, a carrier roller, a conveyor belt, a stop block, a guide rod, a first spring, a guide sleeve, a first mounting plate and the like; the lower side of the right part of the front side surface of the rack is provided with a first motor capable of driving the carrier roller to rotate, the front end of an output shaft of the first motor is fixedly connected with the carrier roller, and the lower side of the left part of the front side surface of the rack is also connected with the carrier roller in a rotating manner. The invention can uniformly scatter cement on the ceramic tile through the swing mechanism, thus the cement does not need to be placed on the ceramic tile by a user, and the workload of the user can be reduced; can pave the cement on the ceramic tile through paving the mechanism, so do not need the user to pave the cement on the ceramic tile to can improve the efficiency that the cement was spread to the ceramic tile.

Description

Ceramic tile cement paving device

Technical Field

The invention relates to a cement paving device, in particular to a cement paving device for ceramic tiles.

Background

When laying the ceramic tile, need lay cement at the back of ceramic tile, at present when laying cement to the ceramic tile, it is usually that people place cement on the ceramic tile, pave the cement on the ceramic tile afterwards, then people lay the ceramic tile, so people's work load is great, and the efficiency of laying cement is lower, in order to reduce people's intensity of labour, for this people can many people cooperate and spread cement to the ceramic tile, so can increase the labour.

Disclosure of Invention

In order to overcome the defects that the workload of people is large and the cement paving efficiency is low when people pave cement on ceramic tiles, the technical problem of the invention is as follows: provided is a tile cement paving device which can reduce the workload and improve the cement paving efficiency.

The technical scheme is as follows: a tile cement paving device comprises a frame, a first motor, a carrier roller, a conveyor belt, stop blocks, guide rods, a first spring, a guide sleeve, a first mounting plate, a second spring, a fixed block, a hopper, a vibration motor, a fixed plate, a second motor, a shaft lever, a helical blade, a telescopic pipe, an injection head and a swing mechanism, wherein the first motor capable of driving the carrier roller to rotate is installed on the lower right side of the front side surface of the frame, the carrier roller is fixedly connected with the front end of an output shaft of the first motor, the lower left side of the front side surface of the frame is also rotatably connected with the carrier roller, the conveyor belt playing a transmission role is wound between the left carrier roller and the right carrier roller, the outer side surface of the conveyor belt is connected with a plurality of stop blocks, the guide rods are arranged on the left side and the right side of the top of the frame, the first spring is wound on the guide rods, the bottom end, a first mounting plate is connected between the rear side surfaces of the left guide sleeve and the right guide sleeve, a second spring is wound on the guide rod, the bottom end of the second spring is connected with the top of the guide sleeve, the top end of the guide rod is fixedly connected with a fixed block with a limiting effect, the top end of the second spring is fixedly connected with the bottom of the fixed block, the hopper is arranged on the front side surface of the first mounting plate, a vibrating motor is arranged on the lower part of the left side surface of the hopper, a fixed plate is connected on the upper part of the front side surface of the first mounting plate, a second motor capable of driving a shaft lever to rotate is arranged at the bottom of the fixed plate, a shaft lever is fixedly connected with the bottom end of an output shaft of the second motor, a helical blade with a conveying effect is arranged on the lower part of the shaft lever, a telescopic pipe with a conveying effect is arranged at, the swing mechanism is matched with the injection head.

In addition, it is especially preferred that, the wabbler mechanism is including the second mounting panel, the third motor, the swinging arms, the cylinder piece, a word orifice plate and the lantern ring, the right part at the frame leading flank is installed to the second mounting panel, the right side at second mounting panel top is installed to the third motor, the second mounting panel is passed to the bottom of third motor output shaft, the swinging arms is installed to the bottom of third motor output shaft, the cylinder piece is installed to the rear side of swinging arms bottom, the left side in second mounting panel bottom is connected to a word orifice plate rotary type, cylinder piece slidingtype sets up in a word orifice plate, the lantern ring is installed to the right part of a word orifice plate.

In addition, it is particularly preferred that the device further comprises a leveling mechanism, the leveling mechanism comprises a sliding sleeve, a sliding block, a pin rod, a third spring, a sliding rod and a leveling plate, the sliding sleeve is installed on the right portion of the front side face of the rack, the sliding sleeve is located on the right side of the second installation plate, a through hole is formed in the left portion of the sliding sleeve, the sliding block is arranged in the through hole in a sliding mode, the pin rod is arranged on the left portion of the sliding sleeve in a sliding mode, the sliding block penetrates through the right portion of the pin rod, the third spring is wound on the pin rod, the right end of the third spring is connected with the left side face of the sliding block, the left end of the third spring is fixedly connected with the left wall of the through hole, the sliding sleeve is internally provided with the sliding rod, the left side face of the sliding rod is provided with.

In addition, especially preferred is, still including first limiting plate, round hole board, screw rod, nut and second limiting plate, first limiting plate rigid coupling is in the left part of frame leading flank, and the round hole board is two, all sets up the leading flank at the frame, and the round hole board is located the left side of first limiting plate, is equipped with the screw rod in the round hole board, is equipped with two nuts with threaded connection's mode on the screw rod, and the round hole board is located between two nuts about, installs the second limiting plate between the right-hand member of two upper and lower screw rods.

In addition, it is especially preferred that the stirring device further comprises a fixing sleeve, a stirring rod and stirring blades, wherein the fixing sleeve is installed on the upper portion of the front side face of the shaft rod, the stirring rod is arranged in the fixing sleeve, and the stirring rod is provided with a plurality of stirring blades for mixing.

The invention has the beneficial effects that: the invention can uniformly scatter cement on the ceramic tile through the swing mechanism, thus the cement does not need to be placed on the ceramic tile by a user, and the workload of the user can be reduced; the cement on the ceramic tile can be paved through the paving mechanism, so that a user does not need to pave the cement on the ceramic tile, and the cement paving efficiency of the ceramic tile can be improved; the conveying belt rotates clockwise, the ceramic tiles at the lowest side can be conveyed rightwards through the stop blocks, so that a user does not need to place the ceramic tiles, and the labor intensity of the user can be reduced; can stir cement through stirring the piece rotation, so can prevent that cement from solidifying, cause the hindrance for follow-up work.

Drawings

Fig. 1 is a schematic front view of the present invention.

Fig. 2 is a schematic bottom view of the rocking mechanism of the present invention.

Fig. 3 is a schematic front view of the paving mechanism of the present invention.

In the figure: 1 rack, 2 first motor, 3 carrier roller, 4 conveyor belt, 5 stoppers, 6 guide rods, 7 first spring, 8 guide sleeve, 9 first mounting plate, 10 second spring, 11 fixed block, 12 hopper, 121 vibrating motor, 13 fixed plate, 14 second motor, 15 shaft rod, 16 helical blade, 17 telescopic tube, 18 injection head, 19 swing mechanism, 191 second mounting plate, 192 third motor, 193 swing rod, 194 cylindrical block, 195 slotted plate, 196 lantern ring, 20 paving mechanism, 201 sliding sleeve, 202 through hole, 203 slider, 204 pin rod, 205 third spring, 206 sliding rod, 207 groove, 208 paving plate, 21 first limit plate, 22 circular hole plate, 23 screw rod, 24 nut, 25 second limit plate, 26 fixed sleeve, 27 stirring rod and 28 stirring piece.

Detailed Description

Embodiments of the present invention will be described below with reference to the drawings.

Example 1

A tile cement paving device is shown in figure 1-2, and comprises a frame 1, a first motor 2, a carrier roller 3, a conveyor belt 4, a stop block 5, a guide rod 6, a first spring 7, a guide sleeve 8, a first mounting plate 9, a second spring 10, a fixed block 11, a hopper 12, a vibration motor 121, a fixed plate 13, a second motor 14, a shaft rod 15, a helical blade 16, a telescopic pipe 17, an injection head 18 and a swing mechanism 19, wherein the first motor 2 capable of driving the carrier roller 3 to rotate is arranged on the lower right side of the front side surface of the frame 1, the frame 1 is connected with the first motor 2 in a bolt connection mode, the front end of an output shaft of the first motor 2 is fixedly connected with the carrier roller 3, the carrier roller 3 is also rotatably connected on the lower left side of the front side surface of the frame 1, the conveyor belt 4 playing a transmission role is wound between the left carrier roller 3 and the right carrier roller 3, the outer side surface of the conveyor belt 4 is connected, the machine frame 1 is connected with a guide rod 6 in a welding connection mode, a first spring 7 is wound on the guide rod 6, the bottom end of the first spring 7 is fixedly connected with the top of the machine frame 1, a guide sleeve 8 is arranged on the guide rod 6 in a sliding mode, the bottom of the guide sleeve 8 is connected with the top end of the first spring 7, a first mounting plate 9 is connected between the rear side surfaces of a left guide sleeve 8 and a right guide sleeve 8, a second spring 10 is wound on the guide rod 6, the bottom end of the second spring 10 is connected with the top of the guide sleeve 8, a fixing block 11 playing a limiting role is fixedly connected with the top end of the guide rod 6, the guide rod 6 is connected with the fixing block 11 in a welding connection mode, the top end of the second spring 10 is fixedly connected with the bottom of the fixing block 11, a hopper 12 is arranged on the front side surface of the first mounting plate 9, a vibration motor 121 is arranged on the lower portion of the left side surface, the bottom of the fixed plate 13 is provided with a second motor 14 which can drive the shaft lever 15 to rotate, the bottom end of an output shaft of the second motor 14 is fixedly connected with the shaft lever 15, the lower part of the shaft lever 15 is provided with a helical blade 16 which plays a role in conveying, the bottom of the hopper 12 is provided with an extension pipe 17 which plays a role in conveying, the bottom end of the extension pipe 17 is fixedly provided with an injection head 18, a swing mechanism 19 which can control the injection head 18 to move is arranged at the right part of the front side surface of the frame 1, the swing mechanism 19 is positioned at the left side of the injection head 18, and.

Example 2

A tile cement paving device is shown in figure 1-2, and comprises a frame 1, a first motor 2, a carrier roller 3, a conveyor belt 4, a stop block 5, a guide rod 6, a first spring 7, a guide sleeve 8, a first mounting plate 9, a second spring 10, a fixed block 11, a hopper 12, a vibration motor 121, a fixed plate 13, a second motor 14, a shaft rod 15, a helical blade 16, a telescopic pipe 17, an injection head 18 and a swing mechanism 19, wherein the first motor 2 capable of driving the carrier roller 3 to rotate is arranged on the lower right side of the front side surface of the frame 1, the carrier roller 3 is fixedly connected with the front end of the output shaft of the first motor 2, the carrier roller 3 is also rotatably connected with the lower left side of the front side surface of the frame 1, the conveyor belt 4 playing a transmission role is wound between the left carrier roller 3 and the right roller 3, the outer side surface of the conveyor belt 4 is connected with a plurality of stop blocks 5, the guide rods 6 are, the bottom end of a first spring 7 is fixedly connected with the top of a frame 1, a guide sleeve 8 is slidably arranged on a guide rod 6, the bottom of the guide sleeve 8 is connected with the top end of the first spring 7, a first mounting plate 9 is connected between the rear side surfaces of a left guide sleeve 8 and a right guide sleeve 8, a second spring 10 is wound on the guide rod 6, the bottom end of the second spring 10 is connected with the top end of the guide sleeve 8, a fixed block 11 with a limiting effect is fixedly connected with the top end of the guide rod 6, the top end of the second spring 10 is fixedly connected with the bottom of the fixed block 11, a hopper 12 is arranged on the front side surface of the first mounting plate 9, a vibration motor 121 is arranged on the lower portion of the left side surface of the hopper 12, a fixed plate 13 is connected with the upper portion of the front side surface of the first mounting plate 9, a second motor 14 capable of driving the shaft lever 15 to rotate is arranged, an extension tube 17 for conveying is arranged at the bottom of the hopper 12, an injection head 18 is fixed at the bottom end of the extension tube 17, a swing mechanism 19 for controlling the movement of the injection head 18 is arranged at the right part of the front side surface of the frame 1, the swing mechanism 19 is positioned at the left side of the injection head 18, and the swing mechanism 19 is matched with the injection head 18.

The swing mechanism 19 comprises a second mounting plate 191, a third motor 192 and a swing rod 193, cylindrical block 194, a word orifice plate 195 and lantern ring 196, the right part at frame 1 front side is installed to second mounting panel 191, second mounting panel 191 is connected with frame 1 through welded connection's mode, third motor 192 is installed on the right side at second mounting panel 191 top, third motor 192 is connected with second mounting panel 191 through bolted connection's mode, second mounting panel 191 is passed through to the bottom of third motor 192 output shaft, swinging arms 193 is installed to the bottom of third motor 192 output shaft, cylindrical block 194 is installed to the rear side of swinging arms 193 bottom, swinging arms 193 is connected with cylindrical block 194 through welded connection's mode, a word orifice plate 195 rotary type is connected on the left side of second mounting panel 191 bottom, cylindrical block 194 slidable formula sets up in a word orifice plate 195, the lantern ring 196 is installed to the right part of a word orifice plate 195.

Example 3

A tile cement paving device is shown in figures 1-3 and comprises a frame 1, a first motor 2, a carrier roller 3, a conveyor belt 4, a stop block 5, a guide rod 6, a first spring 7, a guide sleeve 8, a first mounting plate 9, a second spring 10, a fixed block 11, a hopper 12, a vibration motor 121, a fixed plate 13, a second motor 14, a shaft rod 15, a helical blade 16, a telescopic pipe 17, an injection head 18 and a swing mechanism 19, wherein the first motor 2 capable of driving the carrier roller 3 to rotate is arranged on the lower right side of the front side surface of the frame 1, the carrier roller 3 is fixedly connected with the front end of an output shaft of the first motor 2, the carrier roller 3 is also rotatably connected with the lower left side of the front side surface of the frame 1, the conveyor belt 4 playing a transmission role is wound between the left carrier roller 3 and the right carrier roller 3, the outer side surface of the conveyor belt 4 is connected with a plurality of stop blocks 5, the guide rods 6 are, the bottom end of a first spring 7 is fixedly connected with the top of a frame 1, a guide sleeve 8 is slidably arranged on a guide rod 6, the bottom of the guide sleeve 8 is connected with the top end of the first spring 7, a first mounting plate 9 is connected between the rear side surfaces of a left guide sleeve 8 and a right guide sleeve 8, a second spring 10 is wound on the guide rod 6, the bottom end of the second spring 10 is connected with the top end of the guide sleeve 8, a fixed block 11 with a limiting effect is fixedly connected with the top end of the guide rod 6, the top end of the second spring 10 is fixedly connected with the bottom of the fixed block 11, a hopper 12 is arranged on the front side surface of the first mounting plate 9, a vibration motor 121 is arranged on the lower portion of the left side surface of the hopper 12, a fixed plate 13 is connected with the upper portion of the front side surface of the first mounting plate 9, a second motor 14 capable of driving the shaft lever 15 to rotate is arranged, an extension tube 17 for conveying is arranged at the bottom of the hopper 12, an injection head 18 is fixed at the bottom end of the extension tube 17, a swing mechanism 19 for controlling the movement of the injection head 18 is arranged at the right part of the front side surface of the frame 1, the swing mechanism 19 is positioned at the left side of the injection head 18, and the swing mechanism 19 is matched with the injection head 18.

The swing mechanism 19 comprises a second mounting plate 191, a third motor 192, a swing rod 193, a cylindrical block 194, a linear hole plate 195 and a collar 196, the second mounting plate 191 is mounted at the right part of the front side surface of the rack 1, the third motor 192 is mounted at the right side of the top of the second mounting plate 191, the bottom end of the output shaft of the third motor 192 penetrates through the second mounting plate 191, the swing rod 193 is mounted at the bottom end of the output shaft of the third motor 192, the cylindrical block 194 is mounted at the rear side of the bottom of the swing rod 193, the linear hole plate 195 is rotatably connected to the left side of the bottom of the second mounting plate 191, the cylindrical block 194 is slidably arranged in the linear hole plate 195, and the collar 196 is mounted at the right part.

The paving mechanism 20 further comprises a paving mechanism 20, the paving mechanism 20 comprises a sliding sleeve 201, a sliding block 203, a pin rod 204, a third spring 205, a sliding rod 206 and a paving plate 208, the sliding sleeve 201 is installed at the right part of the front side surface of the frame 1, the sliding sleeve 201 is connected with the frame 1 in a welding connection mode, the sliding sleeve 201 is positioned at the right side of the second mounting plate 191, the left part of the sliding sleeve 201 is provided with a through hole 202, the sliding block 203 is arranged in the through hole 202 in a sliding mode, the pin rod 204 is arranged at the left part of the sliding sleeve 201 in a sliding mode, the right part of the pin rod 204 penetrates through the sliding block 203, the pin rod 204 is wound with the third spring 205, the right end of the third spring 205 is connected with the left side surface of the sliding block 203, the left end of the third spring 205 is fixedly connected with the left wall of the through hole 202, the sliding sleeve 201 is internally provided with the sliding rod 206, the left side surface of the sliding rod 206 is provided with, the slide bar 206 is connected to the decking 208 by means of a welded connection.

Example 4

A tile cement paving device is shown in figures 1-3 and comprises a frame 1, a first motor 2, a carrier roller 3, a conveyor belt 4, a stop block 5, a guide rod 6, a first spring 7, a guide sleeve 8, a first mounting plate 9, a second spring 10, a fixed block 11, a hopper 12, a vibration motor 121, a fixed plate 13, a second motor 14, a shaft rod 15, a helical blade 16, a telescopic pipe 17, an injection head 18 and a swing mechanism 19, wherein the first motor 2 capable of driving the carrier roller 3 to rotate is arranged on the lower right side of the front side surface of the frame 1, the carrier roller 3 is fixedly connected with the front end of an output shaft of the first motor 2, the carrier roller 3 is also rotatably connected with the lower left side of the front side surface of the frame 1, the conveyor belt 4 playing a transmission role is wound between the left carrier roller 3 and the right carrier roller 3, the outer side surface of the conveyor belt 4 is connected with a plurality of stop blocks 5, the guide rods 6 are, the bottom end of a first spring 7 is fixedly connected with the top of a frame 1, a guide sleeve 8 is slidably arranged on a guide rod 6, the bottom of the guide sleeve 8 is connected with the top end of the first spring 7, a first mounting plate 9 is connected between the rear side surfaces of a left guide sleeve 8 and a right guide sleeve 8, a second spring 10 is wound on the guide rod 6, the bottom end of the second spring 10 is connected with the top end of the guide sleeve 8, a fixed block 11 with a limiting effect is fixedly connected with the top end of the guide rod 6, the top end of the second spring 10 is fixedly connected with the bottom of the fixed block 11, a hopper 12 is arranged on the front side surface of the first mounting plate 9, a vibration motor 121 is arranged on the lower portion of the left side surface of the hopper 12, a fixed plate 13 is connected with the upper portion of the front side surface of the first mounting plate 9, a second motor 14 capable of driving the shaft lever 15 to rotate is arranged, an extension tube 17 for conveying is arranged at the bottom of the hopper 12, an injection head 18 is fixed at the bottom end of the extension tube 17, a swing mechanism 19 for controlling the movement of the injection head 18 is arranged at the right part of the front side surface of the frame 1, the swing mechanism 19 is positioned at the left side of the injection head 18, and the swing mechanism 19 is matched with the injection head 18.

The swing mechanism 19 comprises a second mounting plate 191, a third motor 192, a swing rod 193, a cylindrical block 194, a linear hole plate 195 and a collar 196, the second mounting plate 191 is mounted at the right part of the front side surface of the rack 1, the third motor 192 is mounted at the right side of the top of the second mounting plate 191, the bottom end of the output shaft of the third motor 192 penetrates through the second mounting plate 191, the swing rod 193 is mounted at the bottom end of the output shaft of the third motor 192, the cylindrical block 194 is mounted at the rear side of the bottom of the swing rod 193, the linear hole plate 195 is rotatably connected to the left side of the bottom of the second mounting plate 191, the cylindrical block 194 is slidably arranged in the linear hole plate 195, and the collar 196 is mounted at the right part.

The paving mechanism 20 further comprises a paving mechanism 20, the paving mechanism 20 comprises a sliding sleeve 201, a sliding block 203, a pin 204, a third spring 205, a sliding rod 206 and a paving plate 208, the sliding sleeve 201 is installed at the right part of the front side face of the rack 1, the sliding sleeve 201 is located at the right side of the second installation plate 191, a through hole 202 is formed in the left part of the sliding sleeve 201, the sliding block 203 is arranged in the through hole 202 in a sliding mode, the pin 204 is arranged at the left part of the sliding sleeve 201 in a sliding mode, the right part of the pin 204 penetrates through the sliding block 203, the third spring 205 is wound on the pin 204, the right end of the third spring 205 is connected with the left side face of the sliding block 203, the left end of the third spring 205 is fixedly connected with the left wall of the through hole 202, a sliding rod 206 is arranged in the sliding sleeve 201, a plurality of grooves 207 which play a role in fixing are formed in the left side face of the sliding.

Still including first limiting plate 21, the round hole board 22, the screw rod 23, nut 24 and second limiting plate 25, the left part of first limiting plate 21 rigid coupling in 1 leading flank of frame, first limiting plate 21 is connected with frame 1 through welded connection's mode, round hole board 22 is two, all set up the leading flank in frame 1, round hole board 22 is located the left side of first limiting plate 21, be equipped with screw rod 23 in the round hole board 22, be equipped with two nuts 24 with threaded connection's mode on the screw rod 23, round hole board 22 is located about between two nuts 24, install second limiting plate 25 between the right-hand member of two upper and lower screw rods 23, screw rod 23 is connected with second limiting plate 25 through welded connection's mode.

Example 5

A tile cement paving device is shown in figures 1-3 and comprises a frame 1, a first motor 2, a carrier roller 3, a conveyor belt 4, a stop block 5, a guide rod 6, a first spring 7, a guide sleeve 8, a first mounting plate 9, a second spring 10, a fixed block 11, a hopper 12, a vibration motor 121, a fixed plate 13, a second motor 14, a shaft rod 15, a helical blade 16, a telescopic pipe 17, an injection head 18 and a swing mechanism 19, wherein the first motor 2 capable of driving the carrier roller 3 to rotate is arranged on the lower right side of the front side surface of the frame 1, the carrier roller 3 is fixedly connected with the front end of an output shaft of the first motor 2, the carrier roller 3 is also rotatably connected with the lower left side of the front side surface of the frame 1, the conveyor belt 4 playing a transmission role is wound between the left carrier roller 3 and the right carrier roller 3, the outer side surface of the conveyor belt 4 is connected with a plurality of stop blocks 5, the guide rods 6 are, the bottom end of a first spring 7 is fixedly connected with the top of a frame 1, a guide sleeve 8 is slidably arranged on a guide rod 6, the bottom of the guide sleeve 8 is connected with the top end of the first spring 7, a first mounting plate 9 is connected between the rear side surfaces of a left guide sleeve 8 and a right guide sleeve 8, a second spring 10 is wound on the guide rod 6, the bottom end of the second spring 10 is connected with the top end of the guide sleeve 8, a fixed block 11 with a limiting effect is fixedly connected with the top end of the guide rod 6, the top end of the second spring 10 is fixedly connected with the bottom of the fixed block 11, a hopper 12 is arranged on the front side surface of the first mounting plate 9, a vibration motor 121 is arranged on the lower portion of the left side surface of the hopper 12, a fixed plate 13 is connected with the upper portion of the front side surface of the first mounting plate 9, a second motor 14 capable of driving the shaft lever 15 to rotate is arranged, an extension tube 17 for conveying is arranged at the bottom of the hopper 12, an injection head 18 is fixed at the bottom end of the extension tube 17, a swing mechanism 19 for controlling the movement of the injection head 18 is arranged at the right part of the front side surface of the frame 1, the swing mechanism 19 is positioned at the left side of the injection head 18, and the swing mechanism 19 is matched with the injection head 18.

The swing mechanism 19 comprises a second mounting plate 191, a third motor 192, a swing rod 193, a cylindrical block 194, a linear hole plate 195 and a collar 196, the second mounting plate 191 is mounted at the right part of the front side surface of the rack 1, the third motor 192 is mounted at the right side of the top of the second mounting plate 191, the bottom end of the output shaft of the third motor 192 penetrates through the second mounting plate 191, the swing rod 193 is mounted at the bottom end of the output shaft of the third motor 192, the cylindrical block 194 is mounted at the rear side of the bottom of the swing rod 193, the linear hole plate 195 is rotatably connected to the left side of the bottom of the second mounting plate 191, the cylindrical block 194 is slidably arranged in the linear hole plate 195, and the collar 196 is mounted at the right part.

The paving mechanism 20 further comprises a paving mechanism 20, the paving mechanism 20 comprises a sliding sleeve 201, a sliding block 203, a pin 204, a third spring 205, a sliding rod 206 and a paving plate 208, the sliding sleeve 201 is installed at the right part of the front side face of the rack 1, the sliding sleeve 201 is located at the right side of the second installation plate 191, a through hole 202 is formed in the left part of the sliding sleeve 201, the sliding block 203 is arranged in the through hole 202 in a sliding mode, the pin 204 is arranged at the left part of the sliding sleeve 201 in a sliding mode, the right part of the pin 204 penetrates through the sliding block 203, the third spring 205 is wound on the pin 204, the right end of the third spring 205 is connected with the left side face of the sliding block 203, the left end of the third spring 205 is fixedly connected with the left wall of the through hole 202, a sliding rod 206 is arranged in the sliding sleeve 201, a plurality of grooves 207 which play a role in fixing are formed in the left side face of the sliding.

Still including first limiting plate 21, the round hole board 22, the screw rod 23, nut 24 and second limiting plate 25, the left part of first limiting plate 21 rigid coupling in 1 leading flank of frame, round hole board 22 is two, all set up the leading flank in frame 1, round hole board 22 is located the left side of first limiting plate 21, be equipped with screw rod 23 in the round hole board 22, the mode with threaded connection is equipped with two nuts 24 on the screw rod 23, round hole board 22 is located about between two nuts 24, install second limiting plate 25 between the right-hand member of two upper and lower screw rods 23.

Still including fixed cover 26, puddler 27 and stirring piece 28, the upper portion at axostylus axostyle 15 leading flank is installed to fixed cover 26, and fixed cover 26 is connected with axostylus axostyle 15 through welded connection's mode, is equipped with puddler 27 in the fixed cover 26, installs a plurality of stirring pieces 28 that play the mixed action on the puddler 27, and puddler 27 is connected with stirring piece 28 through welded connection's mode.

When the ceramic tile paving machine is used, a user pours a proper amount of cement into the hopper 12, then places a ceramic tile on the right side of the upper side stop block 5, places the injection head 18 into the swing mechanism 19, when the ceramic tile needs to be paved with cement, the user starts the first motor 2 to enable the carrier roller 3 on the right side to rotate clockwise, meanwhile, the user starts the vibration motor 121, the vibration motor 121 enables the cement in the hopper 12 to vibrate, so that the cement can be prevented from being stuck on the inner wall of the hopper 12, the carrier roller 3 on the right side can enable the carrier roller 3 on the left side to rotate clockwise through the conveyor belt 4, so that the conveyor belt 4 can enable the conveyor belt 4 to rotate clockwise, the conveyor belt 4 can enable the ceramic tile to be conveyed rightwards through the stop block 5 clockwise, when the ceramic tile is conveyed rightwards to a proper position, the user starts the second motor 14 to enable the shaft lever 15 to rotate, the cement in the extension tube 17 flows downwards into the injection head 18, and simultaneously the user starts the swing mechanism 19 to drive the injection head 18 to swing, so that the cement can be laid on the tile, the cement does not need to be placed on the tile by the user, the workload of the user can be reduced, and after the cement is laid on the tile, the user turns off the first motor 2, the vibration motor 121 and the second motor 14.

When cement needs to be laid, a user puts the injection head 18 into the sleeve ring 196, then the user starts the third motor 192 to enable the swing rod 193 to rotate, the sleeve ring 196 can swing back and forth through the matching of the cylindrical block 194 and the slotted hole plate 195, the sleeve ring 196 can swing back and forth, the cement can be scattered on the ceramic tile through the continuous back and forth swinging of the injection head 18, and after a proper amount of cement is laid on the ceramic tile, the user closes the third motor 192.

When the cement height on the tile needs to be adjusted, a user pulls the pin rod 204 leftwards to move out of the groove 207, so that the fixing of the leveling plate 208 can be released, the pin rod 204 moves leftwards to drive the sliding block 203 to move leftwards, the third spring 205 is compressed along with the pin rod, then the user moves the sliding rod 206 upwards and downwards, the sliding rod 206 moves upwards and downwards to drive the leveling plate 208 to move upwards and downwards, after the leveling plate 208 moves upwards and downwards to a proper position, the user loosens the pin rod 204, the pin rod 204 can be clamped rightwards into the corresponding groove 207 under the action of the elastic force of the third spring 205, so that the leveling plate 208 can be fixed, the cement height on the tile can be adjusted conveniently by the user through adjusting the height of the leveling plate 208, when the tile is conveyed rightwards to be in contact with the leveling plate 208, the tile continues to move rightwards, the cement on the tile can be leveled through the leveling plate 208, thereby improving the efficiency of paving the cement on the ceramic tiles.

When the tile is large, the user rotates the right nut 24 to move right to a proper position, then the user moves the second limit plate 25 left, the second limit plate 25 moves left to drive the screw 23 to move left, the screw 23 moves left to enable the nut 24 to move left, when the right nut 24 moves left to contact with the right side surface of the round hole plate 22, the user stops moving the second limit plate 25, then the user rotates the left nut 24 to move right to contact with the left side surface of the round hole plate 22, when the tile is small, the user rotates the left nut 24 to move left to a proper position, then the user pushes the screw 23 right to enable the second limit plate 25 to move right, the screw 23 moves right to enable the nut 24 to move right, when the left nut 24 moves right to contact with the left side surface of the round hole plate 22, the user stops pushing the screw 23, then the user rotates the right nut 24 to move left to contact with the, so can convenience of customers use the ceramic tile of equidimension not, when needs carry out the ceramic tile and spread cement, the user with the orderly first limiting plate 21 of putting into of ceramic tile and second limiting plate 25 between, conveyer belt 4 clockwise turning can carry the ceramic tile of downside right through dog 5, so do not need the user to put the ceramic tile to can reduce user's intensity of labour.

The shaft lever 15 rotates to drive the fixing sleeve 26 to rotate, the fixing sleeve 26 rotates to drive the stirring rod 27 to rotate, the stirring rod 27 rotates to drive the stirring sheet 28 to rotate, cement can be stirred through the rotation of the stirring sheet 28, and therefore cement can be prevented from solidifying and hindering subsequent work.

The embodiments described above are provided to enable persons skilled in the art to make or use the invention and that modifications or variations can be made to the embodiments described above by persons skilled in the art without departing from the inventive concept of the present invention, so that the scope of protection of the present invention is not limited by the embodiments described above but should be accorded the widest scope consistent with the innovative features set forth in the claims.

Claims (1)

1. A cement paving device for ceramic tiles comprises a frame, a first motor, a carrier roller, a conveyor belt and stop blocks, wherein the first motor capable of driving the carrier roller to rotate is arranged at the lower right part of the front side surface of the frame, the carrier roller is fixedly connected at the front end of an output shaft of the first motor, the carrier roller is rotatably connected at the lower left part of the front side surface of the frame, the conveyor belt playing a role of transmission is wound between the left carrier roller and the right carrier roller, and a plurality of stop blocks are connected with the outer side surface of the conveyor belt. A first mounting plate is connected between the rear side surfaces of the left guide sleeve and the right guide sleeve, a second spring is wound on the guide rod, the bottom end of the second spring is connected with the top of the guide sleeve, the top end of the guide rod is fixedly connected with a fixed block with a limiting effect, the top end of the second spring is fixedly connected with the bottom of the fixed block, the hopper is arranged on the front side surface of the first mounting plate, a vibrating motor is arranged on the lower part of the left side surface of the hopper, a fixed plate is connected on the upper part of the front side surface of the first mounting plate, a second motor capable of driving a shaft lever to rotate is arranged at the bottom of the fixed plate, a shaft lever is fixedly connected with the bottom end of an output shaft of the second motor, a helical blade with a conveying effect is arranged on the lower part of the shaft lever, a telescopic pipe with a conveying effect is arranged at, the swing mechanism is matched with the injection head; the swing mechanism comprises a second mounting plate, a third motor, a swing rod, a cylindrical block, a linear pore plate and a lantern ring, the second mounting plate is mounted at the right part of the front side face of the rack, the third motor is mounted at the right side of the top of the second mounting plate, the bottom end of an output shaft of the third motor penetrates through the second mounting plate, the swing rod is mounted at the bottom end of the output shaft of the third motor, the cylindrical block is mounted at the rear side of the bottom of the swing rod, the linear pore plate is rotatably connected to the left side of the bottom of the second mounting plate, the cylindrical block is slidably arranged in the linear pore plate, and the lantern ring is mounted at the; the paving mechanism comprises a sliding sleeve, a sliding block, a pin rod, a third spring, a sliding rod and a paving plate, the sliding sleeve is arranged at the right part of the front side face of the rack, the sliding sleeve is positioned at the right side of the second mounting plate, a through hole is formed in the left part of the sliding sleeve, the sliding block is arranged in the through hole in a sliding manner, the pin rod is arranged at the left part of the sliding sleeve in a sliding manner, the right part of the pin rod penetrates through the sliding block, the third spring is wound on the pin rod, the right end of the third spring is connected with the left side face of the sliding block, the left end of the third spring is fixedly connected with the left wall of the through hole, the sliding sleeve is internally provided with the sliding rod, the left side face of the sliding rod is provided with a plurality of grooves for fixing, the right; the rack is characterized by further comprising a first limiting plate, two circular hole plates, a screw rod, nuts and a second limiting plate, wherein the first limiting plate is fixedly connected to the left part of the front side face of the rack; still including fixed cover, puddler and stirring piece, fixed cover is installed on the upper portion of axostylus axostyle leading flank, is equipped with the puddler in the fixed cover, installs a plurality of stirring pieces that play the mixing action on the puddler.

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