Floor tile sticking equipment for indoor building decoration
Technical Field
The invention belongs to the technical field of floor tile pasting structures for decoration, and particularly relates to floor tile pasting equipment for indoor building decoration.
Background
The floor tile is a ground decoration material, also called floor tile, and is made up by firing clay, and has several specifications, strong quality, pressure-resisting and wear-resisting property, and can resist moisture, and some floor tiles are glazed, so that it possesses the decorative effect, and can be used for floor and floor of public building and civil building, and the floor tile has very many kinds of design and colour, and can be selected greatly, and can be divided into glazed tile, whole body tile, polished tile and vitrified tile, etc. according to the material, and the floor tile made up by using different materials can be applicable to different occasions. Based on the above description, the existing tile paving machine completes paving of the tiles by using a multipurpose integral line, but the tile paving machine does not have a tile positioning component, so that the tiles are easily staggered, air bubbles and cavities exist in the tiles, and the tile paving effect is poor.
Disclosure of Invention
In order to solve the technical problems, the invention provides floor tile sticking equipment for indoor building decoration, which aims to solve the problem that the existing floor tile sticking equipment for indoor building decoration does not have a floor tile positioning component.
The invention relates to a floor tile pasting device for indoor building decoration, which is achieved by the following specific technical means:
a floor tile sticking device for indoor building decoration comprises a guide rail frame, a pressing plate, a pressing block, a positioning inserting plate, a rotating shaft groove, a plate collecting tooth, an inserting plate groove, a positioning column, a pressing ring, a throwing ring, a brick guide frame, a connecting rod, a storage box, a conveying belt, a box body fixing frame, a supporting plate, a supporting tooth, a pushing plate and a pushing tooth; one side of the guide rail frame is provided with a pressing plate, one side of the pressing plate is fixedly provided with a pressing block, one side of the pressing plate close to the guide rail frame is movably provided with a positioning inserting plate, the inside of the pressing plate is provided with a rotating shaft groove, one side of the positioning inserting plate is movably provided with a plate retracting tooth, the inside of the pressing plate is provided with an inserting plate groove, one side of the guide rail frame far away from the pressing plate is fixedly provided with a positioning column, one side of the positioning column is movably provided with a pressing ring, two sides of the pressing ring are movably provided with a swinging ring, the inside of the guide rail frame is movably provided with a brick guide frame, one side of the brick guide frame far away from the positioning column is fixedly provided with a connecting rod, one side of the guide rail frame far away from the pressing ring is fixedly provided with a box body fixing frame, one side, the bottom surface of the push plate is fixedly provided with a push tooth.
Furthermore, the two guide rail frames are arranged symmetrically in parallel, the central lines of the pressing plate, the pressing ring, the brick guide frame, the storage box and the push plate and the central line of the guide rail frame are positioned on the same plane, the storage box is a box body with an opening at the top, the interior of the storage box is hollow, the bottom of the storage box is provided with an opening, the size of the box body is matched with that of a floor tile, and the height of the guide rail frame is matched with that of the floor or cement mortar.
Furthermore, the pressing plate is a cuboid plate, an opening matched with the positioning insertion plate is formed in the lower portion of the pressing plate, the pressing block is evenly arranged on one side, close to the storage box, of the pressing plate, the width of the positioning insertion plate is matched with the gap between the floor tiles, the length of the positioning insertion plate is matched with the length of the floor tiles, the positioning insertion plate is matched with the rotating shaft groove through the movable shaft, and a clamping groove matched with the plate receiving teeth is formed in the side edge of the positioning insertion plate.
Furthermore, the reference column sets up as the symmetry that fig. 2 is shown, and the clamping ring activity sets up in the central point of reference column and puts, and the clamping ring is cyclic annular with throwing the ring as shown in fig. 6, and throws the ring and be connected with the clamping ring through the pivot, and the clamping ring has the soft material of one deck cover with the periphery parcel of throwing the ring.
Furthermore, lead the brick frame and be provided with two, and lead the brick frame and be the symmetry setting, lead the arc that the brick frame is elongated, lead the inboard top surface of brick frame and seted up the right angle groove as shown in fig. 7, lead the bottom surface of brick frame and laminate the top surface of guide rail frame as shown in fig. 2, and lead the width of brick frame and the supporting setting of ceramic tile.
Furthermore, the conveying belts are arranged on two sides in the storage box, the supporting plates are fixedly arranged on the surfaces of the conveying belts, the conveying belts on the two sides are symmetrically arranged, the supporting teeth are fixedly arranged on the top surfaces of the supporting plates, the distance between the supporting plates and the width of the floor tiles are matched, the supporting teeth are staggered and parallel sharp teeth as shown in fig. 9, the supporting teeth are linearly arranged, the length of the supporting teeth is consistent with that of the supporting plates, the number of the supporting teeth is consistent with that of the supporting plates, and the distance between the supporting teeth and the thickness of the floor tiles are matched.
Further, the push plate is shown in fig. 5 as an elongated 7 shape with right-angle sides at the inner side, the push teeth are uniformly distributed on the bottom surface of the push plate, and the push plate is in clearance fit with the width of the guide rail frame.
Furthermore, a first rotating motor is arranged on one side of the rotating shaft groove, a second rotating motor matched with the rotating shaft groove is meshed on one side of the plate retracting tooth, a third rotating motor is arranged on one side of the material conveying belt, a first telescopic motor is arranged on one side of the pressing plate, the pressing ring, the brick guide frame, the storage box and the pushing plate, which is far away from the pressing plate, a second telescopic motor is arranged on one side of the brick guide frame, which is far away from the pressing plate, a third telescopic motor is arranged on one side of the pushing plate, which is far away from the pressing plate, a fourth telescopic motor is arranged on the top end of the pressing ring, and the first rotating motor, the second rotating motor, the third rotating motor, the first telescopic motor, the second telescopic motor, the, and the first rotating motor, the second rotating motor, the third rotating motor, the first telescopic motor, the second telescopic motor, the third telescopic motor and the fourth telescopic motor respectively comprise control buttons matched with the first rotating motor, the second rotating motor, the third rotating motor, the first telescopic motor, the second telescopic motor, the third telescopic motor and the fourth telescopic motor.
Compared with the prior art, the invention has the following beneficial effects:
the pressing plate provided by the invention is a cuboid plate, an opening matched with the positioning insertion plate is arranged below the pressing plate, the pressing block is uniformly arranged on one side of the pressing plate close to the storage box, the width of the positioning insertion plate is matched with the clearance between the floor tiles, the length of the positioning insertion plate is matched with the length of the floor tiles, the positioning insertion plate is matched with the rotating shaft groove through the movable shaft, the side edge of the positioning insertion plate is provided with a clamping groove matched with the plate-retracting teeth, the moving position of the floor tiles can be limited through the positioning insertion plate, the floor tiles are limited before the laid floor tiles after moving, the floor tiles can move to a specified position, the floor tiles which are not laid are prevented from being aligned with the laid floor tiles, most parts of the floor tiles can be covered through the pressing plate, the pressing plate can exert force in a large range when being compacted, the floor tiles are prevented from being pressed downwards to be provided with cavities to reduce the laying effect of the, the push teeth are uniformly distributed on the bottom surface of the push plate, the push plate is in clearance fit with the guide rail frame in width, mortar on the ground can be shoveled through the push plate, the grooves are pushed out through the push teeth, the connecting area of the floor tile and the ground is enlarged, and when the push plate is pushed back, the inner side of the push plate can abut against one side, away from the positioning insertion plate, of the floor tile, so that the displacement of the floor tile due to vibration generated by pressing is reduced while the floor tile is positioned, and the stable pressing of the floor tile is kept.
Drawings
FIG. 1 is a schematic cross-sectional view of the structure of the present invention.
Fig. 2 is a schematic cross-sectional view taken along line a-a of fig. 1.
FIG. 3 is a schematic view of the platen of the present invention taken from FIG. 1.
FIG. 4 is a schematic cross-sectional view of the platen of the present invention taken from FIG. 1.
FIG. 5 is a schematic diagram of the push plate structure of the present invention, which is derived from FIG. 1.
Fig. 6 is a schematic view of the pressure ring structure extracted from fig. 1.
Fig. 7 is a schematic structural view of the brick guide frame extracted from fig. 1.
Fig. 8 is a schematic cross-sectional view of the storage case of the present invention taken from fig. 1.
Fig. 9 is a schematic view of the inventive tooth arrangement derived from fig. 8.
In the drawings, the corresponding relationship between the component names and the reference numbers is as follows:
1-guide rail frame, 2-pressing plate, 201-pressing block, 202-positioning inserting plate, 203-rotating shaft groove, 204-plate collecting tooth, 205-inserting plate groove, 3-positioning column, 301-pressing ring, 302-throwing ring, 4-brick guide frame, 401-connecting rod, 5-storage box, 501-conveying belt, 502-box body fixing frame, 503-supporting plate, 504-supporting tooth, 6-pushing plate and 601-pushing tooth.
Detailed Description
Example (b):
as shown in figures 1 to 9:
the invention provides a floor tile pasting device for indoor building decoration, which comprises: the automatic feeding device comprises a guide rail frame 1, a pressing plate 2, a pressing block 201, a positioning inserting plate 202, a rotating shaft groove 203, a plate collecting tooth 204, an inserting plate groove 205, a positioning column 3, a pressing ring 301, a throwing ring 302, a brick guide frame 4, a connecting rod 401, a storage box 5, a conveying belt 501, a box body fixing frame 502, a supporting plate 503, a supporting tooth 504, a pushing plate 6 and a pushing tooth 601; one side of a guide rail frame 1 is provided with a pressing plate 2, one side of the pressing plate 2 is fixedly provided with a pressing block 201, one side of the pressing plate 2 close to the guide rail frame 1 is movably provided with a positioning insertion plate 202, the inside of the pressing plate 2 is provided with a rotating shaft groove 203, one side of the positioning insertion plate 202 is movably provided with a plate retracting tooth 204, the inside of the pressing plate 2 is provided with an insertion plate groove 205, one side of the guide rail frame 1 far away from the pressing plate 2 is fixedly provided with a positioning column 3, one side of the positioning column 3 is movably provided with a pressing ring 301, two sides of the pressing ring 301 are movably provided with a swinging ring 302, the inside of the guide rail frame 1 is movably provided with a brick guide frame 4, one side of the brick guide frame 4 far away from the positioning column 3 is fixedly provided with a connecting rod 401, one side of the guide rail frame 1 far away from the pressing ring 301 is fixedly, the top surface of the supporting plate 503 is fixedly provided with supporting teeth 504, the inner side of the brick guide frame 4 is provided with a push plate 6, and the bottom surface of the push plate 6 is fixedly provided with pushing teeth 601.
Wherein, the guide rail frame 1 is provided with two, and the parallel symmetry of guide rail frame 1 sets up, and clamp plate 2, clamping ring 301, lead the brick frame 4, deposit the central line of case 5 and push pedal 6 and the central line of guide rail frame 1 and be in the coplanar, deposit case 5 and be open-top, inside cavity, bottom open-ended and the supporting box of ceramic tile size, the height of guide rail frame 1 sets up with the high supporting of floor ground or cement mortar.
Wherein the pressing plate 2 is a cuboid plate, an opening matched with the positioning insertion plate 202 is arranged below the pressing plate 2, the pressing blocks 201 are uniformly arranged on one side of the pressing plate 2 close to the storage box 5, the width of the positioning insertion plate 202 is matched with the clearance between the floor tiles, the length of the positioning insertion plate 202 is matched with the length of the floor tiles, the positioning insertion plate 202 is matched with the rotating shaft groove 203 through the movable shaft, and the side edge of the positioning insertion plate 202 is provided with a clamping groove matched with the plate-retracting tooth 204, the movable position of the floor tile can be limited through the positioning insertion plate 202, the floor tile is limited in front of the laid floor tile after being moved, the displacement of the floor tile reaches the designated position, the alignment error of the non-laid floor tile and the laid floor tile is avoided, the large part of the floor tile can be covered through the pressing plate 2, the pressing plate 2 can exert force on a large scale when the floor tile is compacted, and the condition that the floor tile is pressed downwards to form a cavity so as to reduce the floor tile laying effect is avoided.
Wherein, reference column 3 sets up as the symmetry shown in fig. 2, and clamping ring 301 activity sets up in the central point of reference column 3 and puts, and clamping ring 301 and throwing ring 302 are cyclic annular as shown in fig. 6, and throwing ring 302 is connected with clamping ring 301 through the pivot, and clamping ring 301 has the soft material of one deck cover with the periphery parcel of throwing ring 302, can constantly strike the ceramic tile through clamping ring 301, when clamping ring 301 reciprocates the striking simultaneously, can throw away throwing ring 302 from clamping ring 301, increase the striking area of clamping ring 301, accelerate the compaction speed of ceramic tile.
Wherein, lead brick frame 4 and be provided with two, and lead brick frame 4 and be the symmetry setting, lead brick frame 4 and be elongated arc, the right angle groove has been seted up as shown in fig. 7 to the inboard top surface of leading brick frame 4, the bottom surface of leading brick frame 4 is as the top surface of the guide rail frame 1 of laminating shown in fig. 2, and the width that leads brick frame 4 sets up with the ceramic tile is supporting, when the ceramic tile falls to leading brick frame 4, the accessible leads brick frame 4 and provides the location to the ceramic tile, make the ceramic tile have certain impact force and dash location picture peg 202 department, make the ceramic tile can stably move to the one side that the ceramic tile was laid, improve the accuracy that the ceramic tile was laid.
The material conveying belts 501 are arranged on two sides in the storage box 5, the support plates 503 are fixedly arranged on the surfaces of the material conveying belts 501, the material conveying belts 501 on the two sides are symmetrically arranged, the support teeth 504 are fixedly arranged on the top surfaces of the support plates 503, the space between the support plates 503 is matched with the width of the floor tiles, the support teeth 504 are staggered and parallel sharp teeth as shown in fig. 9, the support teeth 504 are linearly arranged, the length of the support teeth 504 is consistent with that of the support plates 503, the number of the support teeth 504 is consistent with that of the support plates 503, the space between the support teeth 504 is matched with the thickness of the floor tiles, the floor tiles can be supported from two sides of the floor tiles through the support teeth 504, and meanwhile, a part of mortar can be kept on two sides of the bottom surface of the floor tiles when the floor tiles are supported through the high.
Wherein, the push plate 6 is shown in fig. 5 as an elongated '7' shape with right-angle side at the inner side, and the push teeth 601 are uniformly distributed on the bottom surface of the push plate 6, the push plate 6 is in clearance fit with the guide rail frame 1 in width, the mortar on the ground can be shoveled by the push plate 6, and the grooves are pushed out by the push teeth 601, so as to increase the connection area between the floor tile and the ground, when the push plate 6 is pushed back, the inner side of the push plate 6 can be propped against the side of the floor tile far away from the positioning insertion plate 202, the floor tile can be positioned, meanwhile, the displacement of the floor tile caused by the vibration generated by pressing is reduced.
Wherein, one side of the rotating shaft slot 203 is provided with a first rotating motor, one side of the plate collecting tooth 204 is engaged with a second rotating motor which is arranged in a matching way, one side of the material conveying belt 501 is provided with a third rotating motor, one side of the pressing plate 2, the pressing ring 301, the brick guide frame 4, the storage box 5 and the pushing plate 6 which are far away from the pressing plate 2 are provided with first telescopic motors, one side of the brick guide frame 4 which is far away from the pressing plate 2 is provided with a second telescopic motor, one side of the pushing plate 6 which is far away from the pressing plate 2 is provided with a third telescopic motor, the top end of the pressing ring 301 is provided with a fourth telescopic motor, the first rotating motor, the second rotating motor, the third rotating motor, the first telescopic motor, the second telescopic motor, the third telescopic motor and the fourth, and the first rotating motor, the second rotating motor, the third rotating motor, the first telescopic motor, the second telescopic motor, the third telescopic motor and the fourth telescopic motor respectively comprise control buttons matched with the first rotating motor, the second rotating motor, the third rotating motor, the first telescopic motor, the second telescopic motor, the third telescopic motor and the fourth telescopic motor.
When in use: firstly, a first rotating motor, a second rotating motor, a third rotating motor, a first telescopic motor, a second telescopic motor, a third telescopic motor and a fourth telescopic motor are respectively connected with a power supply through leads, then a guide rail frame 1 is arranged at two sides of the ground where the floor tiles need to be laid, then mortar is evenly smeared on the bottom surface of the floor tiles, the floor tiles are placed on a supporting tooth 504, then a user manually starts control buttons of the second rotating motor and the third telescopic motor to enable a plate collecting tooth 204 to rotate to lower a positioning insertion plate 202 and limit the moving position of the floor tiles, meanwhile, the mortar on the ground can be flatly shoveled through a push plate 6, grooves are pushed out through a push tooth 601, then the user manually starts a control button of the third rotating motor to enable a material conveying belt 501 to rotate, the floor tiles vertically descend from the material conveying belt 501 to a tile guide frame 4, and the user manually starts the control button of the second telescopic motor, pulling the tile guide frame 4 to the side far away from the pressing plate 2 to enable the tile guide frame 4 to position the floor tile, enabling the floor tile to have a certain impact force to impact the positioning insertion plate 202 and stably move to the side where the floor tile is laid, enabling the floor tile to move and be limited in front of the laid floor tile through the positioning insertion plate 202 to enable the displacement of the floor tile to reach a specified position, avoiding the error in alignment between the non-laid floor tile and the laid floor tile, enabling the pushing plate 6 to push back and abut against the side, far away from the positioning insertion plate 202, of the floor tile through the inner side of the pushing plate 6 by manually starting a control button of a third telescopic motor by a user, positioning the floor tile, enabling the pressing plate 2 to rotate towards the side of the floor tile by manually starting the control button of a fourth telescopic motor by the user, enabling the pressing ring 301 to continuously impact the back side of the pressing plate 2 by moving up and down, simultaneously can throw away from clamping ring 301 with throwing ring 302 when clamping ring 301 striking, increase the striking area of clamping ring 301 for the compaction speed of ceramic tile, user's manual control button who starts second rotating electrical machines after that makes receipts trigger 204 rotate and withdraws location picture peg 202, and finally, user's manual control button who starts first flexible motor pulls clamp plate 2, clamping ring 301, lead brick frame 4, deposit case 5 and push pedal 6 one side of keeping away from clamp plate 2.