CN211140813U - A loading attachment for ceramic tile production - Google Patents

Abstract

The utility model discloses a loading attachment for ceramic tile production relates to ceramic tile production technical field. The utility model discloses a spacing subassembly that support body, adsorption component, conveyer belt subassembly and a set of symmetry set up, the support body includes a set of crossbeam, and the crossbeam bottom surface is fixed with first pillar, second pillar and third pillar from the right side to a left side in proper order, and the crossbeam medial surface is fixed with a slide rail, and the lower part is fixed with the base plate between first pillar on a set of crossbeam and the second pillar, and a base plate fixed surface has elevating gear. The utility model discloses a be equipped with elevating gear and fagging and can promote the ceramic tile, can follow the fagging with the ceramic tile and shift to conveyer belt one end through being equipped with drive assembly and adsorption component, can realize material loading work through being equipped with the conveyer belt subassembly, can restrict the material loading level of ceramic tile material through setting up spacing subassembly in conveyer belt both sides, the material loading that is not convenient for when having solved current ceramic tile production and the material loading level problem of being difficult to control.

Description

A loading attachment for ceramic tile production

Technical Field

The utility model belongs to the technical field of the ceramic tile production, especially, relate to a loading attachment for ceramic tile production.

Background

Among the current ceramic tile processing equipment, the staff's of not being convenient for material loading, the use of extravagant manpower and materials uses conveyer belt or manipulator when carrying out the pay-off, because the material initial position can't guarantee, then can cause the unable effectively definite condition in angle and the position of material to cause the problem that processing equipment work efficiency is low.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a loading attachment for ceramic tile production can promote the ceramic tile through being equipped with elevating gear and fagging, can follow the fagging with the ceramic tile through being equipped with drive assembly and adsorption component and shift to conveyer belt one end, can realize the material loading work through being equipped with the conveyer belt subassembly, can restrict the material loading level of ceramic tile material through setting up spacing subassembly in conveyer belt both sides, has solved the material loading that is not convenient for when current ceramic tile production and has gone up material level uncontrollable problem.

In order to solve the technical problem, the utility model discloses a realize through following technical scheme:

the utility model relates to a feeding device for ceramic tile production, which comprises a frame body, an adsorption component, a conveyor belt component and a group of symmetrically arranged limiting components;

the frame body comprises a group of cross beams, a first support, a second support and a third support are sequentially fixed on the bottom surfaces of the cross beams from right to left, and a sliding rail is fixed on the inner side surface of each cross beam;

a base plate is fixed at the lower part between the first support column and the second support column on the group of cross beams, a lifting device is fixed on one surface of the base plate, and a supporting plate is fixed at the top of the lifting device;

a U-shaped shell is fixed in the middle between a second support column and a third support column on the group of cross beams, and the conveyor belt assembly is fixed in the U-shaped shell;

the adsorption component comprises a top plate, two sides of the top plate are respectively positioned in the slide rails on the two cross beams and are in sliding fit with the slide rails, a plurality of first electric push rods are fixed on the bottom surface of the top plate, a pneumatic sucker is fixed at one end of each first electric push rod, and the top plate is in transmission connection with one group of cross beams through a transmission component;

the limiting assembly comprises an L-shaped plate, the L-shaped plate is fixed at the top of one side wall of the U-shaped shell through a bolt, a plurality of guide rods penetrate through the L-shaped plate and are in sliding fit with the guide plate, one end of each guide rod is fixedly provided with a limiting ring, the other end of each guide rod is fixedly provided with a U-shaped plate, and a plurality of first rubber rollers are rotatably connected in the U-shaped plate;

an inclined U-shaped plate is fixed on one end face of the U-shaped plate, and a plurality of second rubber rollers are rotatably connected in the inclined U-shaped plate;

l shaped plate top surface is fixed with a arch, run through and threaded connection has a threaded rod on the arch, threaded rod one end is fixed with the leader, the threaded rod other end is connected with a surface rotation of U-shaped plate.

The conveying belt assembly is characterized by further comprising a material guide block, arc-shaped grooves are formed in the opposite sides of the material guide block, the arc-shaped grooves are in clearance fit with one side of the conveying belt assembly, a mounting plate is fixed to the bottom surface of the material guide block, and the material guide block is fixedly connected with the front side face of the U-shaped shell through the mounting plate and a bolt.

Further, the transmission assembly comprises a fixing plate, the fixing plate is fixed at one end, close to the supporting plate, of the cross beam, a second electric push rod is fixed on one surface of the fixing plate, a vertical plate is fixed on the top surface of the top plate, and the output end of the second electric push rod is fixedly connected with one surface of the vertical plate.

Further, the conveyer belt subassembly includes a plurality of driving rollers and a motor, and is a plurality of the driving roller passes through the bearing and is connected with a relative inner wall rotation of U-shaped shell, the motor passes through the mount pad to be fixed at U-shaped shell lateral surface, motor output shaft one end run through U-shaped shell one side and with a driving roller one end fixed connection, it is a plurality of the transmission is connected with the conveyer belt on the driving roller.

Furthermore, a fixed sleeve is fixed on the peripheral side face of the second electric push rod, a group of fixed rods is fixed on the peripheral side face of the fixed sleeve, and one end of each fixed rod is fixedly connected with one surface of the cross beam through a flange support lug and a bolt.

Further, an air pump and a control device are fixed on the top surface of the top plate, and the plurality of pneumatic suckers are communicated with an air outlet of the air pump through hoses.

Further, controlling means includes singlechip and a plurality of the control unit, first electric push rod, second electric push rod, air pump and elevating gear all with singlechip electric connection.

Further, roof bottom surface is fixed with first infrared distance measuring sensor, a U-shaped board side is fixed with the infrared distance measuring sensor of second, L shaped plate top surface is fixed with a display screen, first infrared distance measuring sensor and the infrared distance measuring sensor of second all with singlechip electric connection.

Furthermore, the lifting device is a plurality of hydraulic cylinders or a plurality of air cylinders or a lifting platform.

The utility model discloses following beneficial effect has:

the utility model discloses a be equipped with elevating gear and fagging and can promote the ceramic tile, can follow the fagging with the ceramic tile and shift to conveyer belt one end through being equipped with drive assembly and adsorption component, can realize the material loading work through being equipped with the conveyer belt subassembly, can restrict the material loading position of ceramic tile material through setting up spacing subassembly in conveyer belt both sides to realize accurate material loading, improve the degree of automation of ceramic tile material loading.

Of course, it is not necessary for any particular product to achieve all of the above-described advantages at the same time.

Drawings

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

Fig. 1 is a schematic structural view of a feeding device for ceramic tile production according to the present invention;

FIG. 2 is a schematic top view of the structure of FIG. 1;

FIG. 3 is a cross-sectional view of the structure at A-A in FIG. 2;

FIG. 4 is a schematic structural view of the frame body;

FIG. 5 is a schematic structural view of the adsorption assembly and the transmission assembly;

FIG. 6 is a schematic structural view of one side of the position limiting assembly;

FIG. 7 is a schematic structural view of the other side of the position limiting assembly;

FIG. 8 is a schematic view of a material guiding block;

in the drawings, the components represented by the respective reference numerals are listed below:

1-frame body, 2-adsorption component, 3-conveyor belt component, 4-limiting component, 5-transmission component, 6-guide block, 101-beam, 102-first support column, 103-second support column, 104-third support column, 105-slide rail, 106-base plate, 107-lifting device, 108-support plate, 109-U-shaped shell, 201-top plate, 202-first electric push rod, 203-pneumatic suction cup, 204-vertical plate, 205-air pump, 206-control device, 301-transmission roller, 302-motor, 303-conveyor belt, 401-L-shaped plate, 402-guide rod, 403-limiting ring, 404-U-shaped plate, 405-first rubber roller, 406-oblique U-shaped plate, 407-second rubber roller, 408-protrusion, 409-410-handle, 411-display screen, 501-fixing plate, 502-second electric push rod, 503-fixing sleeve, 504-fixing rod, 601-arc groove and 602-mounting plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1-7, the utility model relates to a feeding device for ceramic tile production, which comprises a frame body 1, an adsorption component 2, a conveyor belt component 3 and a group of symmetrically arranged limit components 4;

the frame body 1 comprises a group of cross beams 101, a first support column 102, a second support column 103 and a third support column 104 are sequentially fixed on the bottom surfaces of the cross beams 101 from right to left, and a slide rail 105 is fixed on the inner side surface of each cross beam 101;

a base plate 106 is fixed between the first support column 102 and the second support column 103 on the group of cross beams 101, a lifting device 107 is fixed on one surface of the base plate 106, and a supporting plate 108 is fixed on the top of the lifting device 107;

a U-shaped shell 109 is fixed in the middle between the second support 103 and the third support 104 on the group of cross beams 101, and the conveyor belt assembly 3 is fixed in the U-shaped shell 109;

the adsorption component 2 comprises a top plate 201, two sides of the top plate 201 are respectively positioned in the slide rails 105 on the two cross beams 101 and are in sliding fit with the slide rails 105, a plurality of first electric push rods 202 are fixed on the bottom surface of the top plate 201, a pneumatic sucker 203 is fixed at one end of each first electric push rod 202, and the top plate 201 is in transmission connection with one group of cross beams 101 through a transmission component 5;

the limiting assembly 4 comprises an L-shaped plate 401, wherein the L-shaped plate 401 is fixed at the top of one side wall of the U-shaped shell 109 through bolts, a plurality of guide rods 402 penetrate through and are in sliding fit with the L-shaped plate 401, a limiting ring 403 is fixed at one end of each guide rod 402, a U-shaped plate 404 is fixed at the other end of each guide rod 402, and a plurality of first rubber rollers 405 are rotatably connected in the U-shaped plate 404;

an inclined U-shaped plate 406 is fixed on one end face of the U-shaped plate 404, and a plurality of second rubber rollers 407 are rotatably connected in the inclined U-shaped plate 406;

l shaped plate 401 top surface is fixed with a arch 408, runs through and threaded connection has a threaded rod 409 on the arch 408, and threaded rod 409 one end is fixed with a handle 410, and the threaded rod 409 other end rotates with a surface of U-shaped plate 404 to be connected.

As shown in fig. 1 and 8, the conveyor belt assembly further includes a material guide block 6, an arc-shaped groove 601 is formed on each of opposite sides of the material guide block 6, the arc-shaped grooves 601 are in clearance fit with one side of the conveyor belt assembly 3, an installation plate 602 is fixed on the bottom surface of the material guide block 6, and the material guide block 6 is fixedly connected with the front side surface of the U-shaped shell 109 through the installation plate 602 and a bolt.

As shown in fig. 2 and 5, the transmission assembly 5 includes a fixing plate 501, the fixing plate 501 is fixed at one end of the cross beam 101 close to the supporting plate 108, a second electric push rod 502 is fixed on one surface of the fixing plate 501, a vertical plate 204 is fixed on the top surface of the top plate 201, and an output end of the second electric push rod 502 is fixedly connected with one surface of the vertical plate 204.

As shown in fig. 3, the conveyor belt assembly 3 includes a plurality of driving rollers 301 and a motor 302, the plurality of driving rollers 301 are rotatably connected with a relative inner wall of the U-shaped shell 109 through bearings, the motor 302 is fixed on an outer side surface of the U-shaped shell 109 through a mounting seat, one end of an output shaft of the motor 302 penetrates through one side of the U-shaped shell 109 and is fixedly connected with one end of a driving roller 301, and the plurality of driving rollers 301 are connected with a conveyor belt 303 in a driving manner.

As shown in fig. 5, a fixing sleeve 503 is fixed on the peripheral side of the second electric putter 502, a set of fixing rods 504 is fixed on the peripheral side of the fixing sleeve 503, and one end of each fixing rod 504 is fixedly connected with one surface of the cross beam 101 through a flange lug and a bolt.

As shown in fig. 5, an air pump 205 and a control device 206 are fixed on the top surface of the top plate 201, and the plurality of pneumatic suction cups 203 are all communicated with an air outlet of the air pump 205 through hoses.

The control device 206 includes a single chip microcomputer and a plurality of control units, and the first electric push rod 202, the second electric push rod 502, the air pump 205 and the lifting device 107 are all electrically connected to the single chip microcomputer.

Wherein, roof 201 bottom surface is fixed with first infrared distance measuring sensor, and a U-shaped board 404 side is fixed with the infrared distance measuring sensor of second, and L shaped plate 401 top surface is fixed with a display screen 411, and display screen 411, first infrared distance measuring sensor and the infrared distance measuring sensor of second all with singlechip electric connection.

The lifting device 107 is a plurality of hydraulic cylinders or a plurality of air cylinders or lifting platforms.

The utility model discloses a loading attachment's application method for ceramic tile production, including following step:

the SS01 detects the distance between the U-shaped plate 404 and the L-shaped plate 401 through the second infrared distance measuring sensor and displays the distance through the display screen 411, the handle 410 is rotated to drive the threaded rod 409 to rotate, so that the distance between the U-shaped plate 404 and the L-shaped plate 401 can be adjusted, and the distance between the first rubber rollers 405 on the two limiting assemblies 4 is adjusted to be the same as the width of the ceramic tile;

the SS02 accumulates the ceramic tiles to be processed on the supporting plate 108, the first infrared distance measuring sensor detects the height of the ceramic tile on the uppermost layer of the supporting plate 108 and transmits information to the single chip microcomputer, and the single chip microcomputer operates the lifting device 107 according to the information to drive the ceramic tile on the supporting plate 108 to move upwards or downwards, so that the height of the ceramic tile on the uppermost layer is adjusted to a set height;

after the SS03 is adjusted, the singlechip controls the first electric push rod 202 to operate to drive the pneumatic suction cup 203 to move to the top of the ceramic tile, and controls the air pump 205 to operate to suck the ceramic tile through the pneumatic suction cup 203;

after SS04 is completely adsorbed, the singlechip controls the second electric push rod 502 to operate to drive the top plate 201 to move to the upper part of one side of the conveyor belt 303 along the slide rail 105, controls the first electric push rod 202 to operate downwards and exhaust the gas in the pneumatic suction cup 203, and the ceramic tile falls on one end of the conveyor belt 303 and controls the top plate 201 to reset;

SS05 conveyer belt subassembly 3 drives the ceramic tile and removes to the support body 1 outside, when two spacing subassemblies 4, makes the ceramic tile remove to the positive central point of conveyer belt 303 through the direction of oblique U-shaped board 406 and second rubber roller 407 to through the direction discharge of first rubber roller 405, realize the material loading of ceramic tile.

In the description herein, references to the description of "one embodiment," "an example," "a specific example," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the present invention disclosed above are intended only to help illustrate the present invention. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and its practical applications, to thereby enable others skilled in the art to best understand the invention for and utilize the invention. The present invention is limited only by the claims and their full scope and equivalents.

Claims (9)

1. The utility model provides a loading attachment for ceramic tile production which characterized in that: comprises a frame body (1), an adsorption component (2), a conveyor belt component (3) and a group of limit components (4) which are symmetrically arranged;

the frame body (1) comprises a group of cross beams (101), a first support column (102), a second support column (103) and a third support column (104) are sequentially fixed on the bottom surface of each cross beam (101) from right to left, and a sliding rail (105) is fixed on the inner side surface of each cross beam (101);

a base plate (106) is fixed at the lower part between a first support column (102) and a second support column (103) on the group of cross beams (101), a lifting device (107) is fixed on one surface of the base plate (106), and a supporting plate (108) is fixed at the top of the lifting device (107);

a U-shaped shell (109) is fixed in the middle between a second support column (103) and a third support column (104) on the group of cross beams (101), and the conveyor belt assembly (3) is fixed inside the U-shaped shell (109);

the adsorption component (2) comprises a top plate (201), two sides of the top plate (201) are respectively located in sliding rails (105) on two cross beams (101) and are in sliding fit with the sliding rails (105), a plurality of first electric push rods (202) are fixed on the bottom surface of the top plate (201), one ends of the first electric push rods (202) are fixed with pneumatic suckers (203), and the top plate (201) is in transmission connection with a group of cross beams (101) through a transmission component (5);

the limiting assembly (4) comprises L-shaped plates (401), the L-shaped plates (401) are fixed to the top of one side wall of the U-shaped shell (109) through bolts, a plurality of guide rods (402) penetrate through and are in sliding fit with the L-shaped plates (401), one ends of the guide rods (402) are fixed with limiting rings (403), the other ends of the guide rods (402) are fixed with U-shaped plates (404), and a plurality of first rubber rollers (405) are rotationally connected into the U-shaped plates (404);

an inclined U-shaped plate (406) is fixed on one end face of the U-shaped plate (404), and a plurality of second rubber rollers (407) are rotatably connected in the inclined U-shaped plate (406);

l shaped plate (401) top surface is fixed with a arch (408), run through and threaded connection has a threaded rod (409) on arch (408), threaded rod (409) one end is fixed with a leader (410), the threaded rod (409) other end and U shaped plate (404) a surface rotation are connected.

2. The feeding device for the production of ceramic tiles as claimed in claim 1, further comprising a guide block (6), wherein an arc-shaped groove (601) is formed in each of the opposite sides of the guide block (6), the arc-shaped grooves (601) are in clearance fit with one side of the conveyor belt assembly (3), a mounting plate (602) is fixed on the bottom surface of the guide block (6), and the guide block (6) is fixedly connected with the front side surface of the U-shaped shell (109) through the mounting plate (602) and a bolt.

3. The feeding device for the tile production according to claim 1, wherein the transmission component (5) comprises a fixing plate (501), the fixing plate (501) is fixed at one end of the cross beam (101) close to the supporting plate (108), a second electric push rod (502) is fixed on one surface of the fixing plate (501), a vertical plate (204) is fixed on the top surface of the top plate (201), and the output end of the second electric push rod (502) is fixedly connected with one surface of the vertical plate (204).

4. The feeding device for tile production according to claim 1, wherein the conveyor belt assembly (3) comprises a plurality of driving rollers (301) and a motor (302), the driving rollers (301) are rotatably connected with one relative inner wall of the U-shaped shell (109) through bearings, the motor (302) is fixed on the outer side surface of the U-shaped shell (109) through a mounting seat, one end of an output shaft of the motor (302) penetrates through one side of the U-shaped shell (109) and is fixedly connected with one end of one driving roller (301), and the conveyor belt (303) is in transmission connection with the driving rollers (301).

5. A feeding device for ceramic tile production as claimed in claim 3, wherein a fixing sleeve (503) is fixed on the peripheral side of the second electric pushing rod (502), a group of fixing rods (504) is fixed on the peripheral side of the fixing sleeve (503), and one end of each fixing rod (504) is fixedly connected with one surface of the cross beam (101) through a flange support lug and a bolt.

6. A feeding device for ceramic tile production according to claim 1, wherein an air pump (205) and a control device (206) are fixed on the top surface of the top plate (201), and a plurality of pneumatic suction cups (203) are all communicated with an air outlet of the air pump (205) through hoses.

7. The feeding device for the production of ceramic tiles of claim 6, wherein the control device (206) comprises a single chip microcomputer and a plurality of control units, and the first electric push rod (202), the second electric push rod (502), the air pump (205) and the lifting device (107) are electrically connected with the single chip microcomputer.

8. The feeding device for the production of ceramic tiles as claimed in claim 7, wherein a first infrared distance measuring sensor is fixed on the bottom surface of the top plate (201), a second infrared distance measuring sensor is fixed on one side surface of the U-shaped plate (404), a display screen (411) is fixed on the top surface of the L-shaped plate (401), and the display screen (411), the first infrared distance measuring sensor and the second infrared distance measuring sensor are all electrically connected with the single chip microcomputer.

9. A loading device for ceramic tile production according to claim 1, characterized in that said lifting means (107) are hydraulic cylinders or pneumatic cylinders or lifting tables.

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