CN111701799A

CN111701799A - Rubber coating device is used in stone material processing

Info

Publication number: CN111701799A
Application number: CN202010522612.2A
Authority: CN
Inventors: 张建川; 张庆钗
Original assignee: Huian Luoqiang Decoration Design Center
Current assignee: Hunan Leihong Stone Processing Co.,Ltd.
Priority date: 2020-06-10
Filing date: 2020-06-10
Publication date: 2020-09-25
Anticipated expiration: 2040-06-10
Also published as: CN111701799B

Abstract

The invention relates to the technical field of stone machining equipment, in particular to a glue coating device for stone machining. The invention has the beneficial effects that: set up the riser, the straight flute, first arc wall, the second arc wall, set up straight flute length into rubber coating length, drive assembly drive removes the post at the second arc wall in proper order like this, the straight flute, first arc wall inner wall slides, corresponding messenger's rubber coating head moves down and is close to the stone material, rubber coating head bottom supports the stone material and rubber coating, the rubber coating finishes the back and shifts up and keep away from the stone material, directly reached and need adopt the action that various power component and sensor could accomplish among the prior art, the structure is simpler, the precision of rubber coating length can be ensured.

Description

Rubber coating device is used in stone material processing

Technical Field

The invention relates to the technical field of stone machining equipment, in particular to a glue coating device for stone machining.

Background

Stone material, for example marble, granite, in the course of working, can be through the rubberizing process, during the rubberizing, carry out the rubber coating by rubber coating mechanism (this application is called the rubber coating head) to the marble surface, but current rubber coating equipment structure is complicated, need drive rubber coating mechanism through a plurality of power component and remove, accomplish the rubber coating, the structure is complicated to have leaded to the cost higher, the fault rate is higher, still need set up sensor or spacing component in addition and guarantee rubber coating length, guarantee the precision of rubber coating length, it is higher all to have led to the rubber coating equipment cost among the prior art above, it is inconvenient to use.

Disclosure of Invention

The invention aims to overcome the problems in the prior art and provides a gluing device for stone processing, which can solve the problems in the prior art to at least a certain extent.

In order to achieve the technical purpose and achieve the technical effect, the invention is realized by the following technical scheme:

a gluing device for stone processing comprises a base, wherein a placing seat for placing stones is arranged on the base, a clamping assembly for clamping and limiting the stones is arranged on the base, two vertical plates are vertically arranged at one end of the base, straight grooves in a through hole form and parallel to the length direction of the base are arranged on the vertical plates, arc-shaped grooves in a through hole form and extending upwards are respectively arranged at two ends of the straight grooves in the length direction, the two arc-shaped grooves are respectively defined as a first arc-shaped groove and a second arc-shaped groove, the length of each straight groove is consistent with that of a position to be glued with the stones, a moving column is arranged between the two vertical plates, two axial ends of the moving column are inserted into the straight grooves of the two vertical plates and driven by a driving assembly to slide in the straight grooves, the first arc-shaped grooves and the second arc-shaped grooves, one end of the moving column, which is adjacent to the placing seat, penetrates, the gluing head corresponds to the position of the stone to be glued.

As above technical scheme's further optimization, the centre gripping subassembly is including locating base length direction and two sliding seats of horizontal sliding connection on the base, two respectively be equipped with on the sliding seat and span the grip block of placing a width direction, two be equipped with on the lateral wall opposite to the grip block with stone material appearance adaptation, and be used for the centre gripping groove of centre gripping stone material, the horizontal rotation is connected with the pivot that spans its length direction on the base, the pivot both ends are equipped with first silk pole portion, the second silk pole portion that the screw thread revolves to opposite respectively, the sliding seat bottom is equipped with the fixing base, two each level inlays on the fixing base and is equipped with screw-nut, two screw-nut is threaded suit respectively on first silk pole portion, second silk pole portion, the pivot is rotated by the servo motor drive of installing on the base.

As a further optimization of the technical scheme, the sliding seat is connected to the base in a sliding mode through a mounting sliding rail and a sliding block.

As a further optimization of the above technical solution, the rotating shaft is rotatably connected to the base through a mounting bearing seat.

As a further optimization of the above technical solution, a plurality of rotatable balls are embedded in the top surface of the placing seat.

As the further optimization of the technical scheme, the movable column is sleeved with a rotatable ground roller, and the roller is clamped on the straight groove in a clearance manner and can roll in the straight groove and the two arc-shaped grooves.

As a further optimization of the above technical solution, the driving assembly includes a support disposed at one end of the base in the length direction, the support is provided with a fixed hinged support, the fixed hinged support is hinged with a movable hinged support, the movable hinged support is provided with a driving element, and the driving element is in driving connection with the movable column.

As a further optimization of the above technical solution, the driving element is a telescopic cylinder.

The working method of the gluing device for stone processing comprises the following steps:

step 1) placing the stone on the top surface of a placing seat in a flat manner, and clamping and limiting the stone on the placing seat by the action of a clamping assembly;

step 2) in an initial state, inserting the moving column into a second arc-shaped groove, wherein the top surface of the gluing head is higher than the surface to be glued of the stone, driving the moving column to move along the second arc-shaped groove by the driving assembly, so that the gluing head gradually moves downwards, when the moving column moves into the straight groove, the bottom surface of the gluing head contacts the surface to be glued of the stone, the gluing head works to glue the stone, the driving assembly continuously drives the moving column to move in the straight groove, when the moving column moves into the first arc-shaped groove, the gluing head finishes gluing the stone, and the gluing length is consistent with the length of the straight groove;

step 3), after the gluing is finished, the driving assembly drives the moving column to move, so that the moving column slides along the inner wall of the first arc-shaped groove and moves upwards, the gluing head is far away from the stone, and a gluing step is finished;

and 4) the clamping assembly acts and resets, so that the stone can be taken down from the placing seat, and unloading is completed.

The invention has the beneficial effects that: the vertical plate, the straight groove, the first arc-shaped groove and the second arc-shaped groove are arranged, the length of the straight groove is set to be the gluing length, the driving assembly drives the moving column to sequentially slide on the inner walls of the second arc-shaped groove, the straight groove and the first arc-shaped groove, the gluing head correspondingly moves downwards to be close to the stone, the bottom end of the gluing head butts against the stone, gluing is carried out, the gluing head moves upwards after the gluing is finished, and the stone is far away from the gluing head, so that the actions which can be finished only by adopting various power elements and sensors in the prior art are directly achieved, the structure is simpler;

the clamping assembly is arranged, the two clamping plates are relatively close to each other through rotation of the rotating shaft on the clamping assembly, and the clamping grooves on the two clamping plates are clamped with the two opposite end parts of the stone, so that the structure is simple, the operation is convenient and fast, and meanwhile, the two clamping plates can synchronously move, so that the positioning precision of the stone is high;

the driving component is arranged, and the driving component rotates along the hinged part of the fixed hinged support and the movable hinged support, so that the moving column can slide in the straight groove and the two arc-shaped grooves, the structure is simple, the operation is convenient and fast, and the cost is lower;

the ball on the placing seat is arranged, so that the position of the stone can be adjusted on the placing seat, and the stone can be clamped in the clamping groove better;

the rollers are arranged, so that the contact mode of the moving column and the inner wall of the straight groove/arc-shaped groove is converted into rolling contact, the abrasion of the moving column is reduced, the service life is prolonged, and the gluing precision is ensured.

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 the drawings without creative efforts.

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic bottom view of the three-dimensional structure of FIG. 1;

FIG. 3 is a schematic side view of the three-dimensional structure of FIG. 1;

FIG. 4 is a schematic top view of the perspective structure of FIG. 1;

the reference numerals are explained below:

1-bracket, 2-fixed hinged support, 3-movable hinged support, 4-telescopic cylinder, 5-first screw rod part, 6-screw nut, 7-fixed support, 8-ball, 9-gluing head, 10-roller, 11-moving column, 12-placing support, 13-straight groove, 14-first arc groove, 15-vertical plate, 16-second screw rod part, 17-servo motor, 18-base, 19-sliding support, 20-clamping plate, 21-clamping groove and 22-second arc groove.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, but not all the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-4, fig. 1-4 show a glue spreading device for processing stone, which comprises a base 18, wherein a placing seat 12 for placing stone is arranged on the base 18, a plurality of rotatable balls 8 are embedded on the top surface of the placing seat 12, a clamping assembly for clamping and limiting the stone is arranged on the base 18, two vertical plates 15 are vertically arranged at one end of the base 18, straight grooves 13 in the form of through holes are arranged on the vertical plates 15, the straight grooves 13 are parallel to the length direction of the base 18, arc-shaped grooves in the form of through holes and extending upwards are respectively arranged at two ends of the straight grooves 13 in the length direction, the two arc-shaped grooves are respectively defined as a first arc-shaped groove 14 and a second arc-shaped groove 22, the length of the straight groove 13 is consistent with the length of a position for gluing the stone, a moving column 11 is arranged between the two vertical plates 13, two axial ends of the moving column 11 are inserted into the, and the driving component drives the vertical plate to slide in the straight groove 13, the first arc-shaped groove 14 and the second arc-shaped groove 22, one end of the vertical plate, which is close to the placing seat 12, penetrates through the vertical plate 15 and is provided with a gluing head 9, and the gluing head 9 corresponds to the position of the stone to be glued.

The clamping component comprises two sliding seats 19 which are arranged in the length direction of a base 18 and are horizontally and slidably connected with the base 18 through mounting sliding rails and sliding blocks, clamping plates 20 which stretch across the width direction of the placing seat 12 are respectively arranged on the two sliding seats 19, clamping grooves 21 which are matched with the shape of the stone and are used for clamping the stone are arranged on the outer walls of the two clamping plates 20 at the opposite sides, the base 18 is horizontally and rotatably connected with a rotating shaft crossing the length direction of the base through a mounting bearing seat, a first screw rod part 5 and a second screw rod part 16 with opposite thread turning directions are respectively arranged at the two ends of the rotating shaft, the bottom of the sliding seat 19 is provided with a fixed seat 7, two lead screw nuts 6 are horizontally embedded on the two fixed seats 7 respectively, the two lead screw nuts 6 are respectively sheathed on the first lead screw part 5 and the second lead screw part 16 in a threaded manner, and the rotating shaft is driven to rotate by a servo motor 17 arranged on a base 18.

The movable column 11 is sleeved with a rotatable roller 10, and the roller 10 is clamped on the straight groove 13 in a clearance manner and can roll in the straight groove 13 and the two arc-shaped grooves.

The driving assembly comprises a support 1 arranged at one end of the base 18 in the length direction, a fixed hinged support 2 is arranged on the support 1, a movable hinged support 3 is hinged to the fixed hinged support 2, a telescopic cylinder 4 is mounted on the movable hinged support 3, and the telescopic cylinder 4 is in driving connection with the movable column 11.

The embodiment also discloses a working method of the gluing device for stone processing, which comprises the following steps:

step 1, placing the stone on the top surface of a placing seat 12 in a flat manner, electrifying and rotating a servo motor 17 in a clamping assembly to enable a rotating shaft to rotate, wherein the thread turning directions of a first screw rod part 5 and a second screw rod part 16 on the rotating shaft are opposite, at the moment, two screw rod nuts 6 respectively drive two sliding seats 19 to relatively approach, and further two clamping plates 20 are relatively approached, so that the inner wall of a clamping groove 21 is clamped with the end part of the stone, and the stone is clamped and limited on the placing seat 12;

step 2, in an initial state, the moving column 11 is inserted into the second arc-shaped groove 22, at the moment, the top surface of the gluing head 9 is higher than the surface of the stone to be glued, then the telescopic cylinder 4 in the driving assembly acts, the telescopic rod extends to drive the roller 10 on the moving column 11 to roll along the second arc-shaped groove 22 and on the inner wall of the second arc-shaped groove 22, so that the gluing head 9 gradually moves downwards, when the movable column 11 moves into the straight groove 13, the bottom surface of the gluing head 9 contacts with the surface of the stone to be glued, at the moment, the gluing head 9 works by the prior art, gluing the stone, continuously extending the telescopic rod of the telescopic cylinder 4 to drive the moving column 11 to move in the straight groove 13, and when the moving column 11 moves into the first arc-shaped groove 14, at the moment, the gluing head 9 finishes gluing the stone, and the gluing length is consistent with the length of the straight groove 13;

step 3, after the gluing is finished, the telescopic cylinder 4 drives the moving column 11 to move, so that the roller 10 on the moving column 11 rolls along the inner wall of the first arc-shaped groove 14, the gluing head 9 moves upwards, the gluing head 9 is far away from the stone, and a gluing step is finished;

and 4, reversely rotating the servo motor 17 in the clamping assembly to further relatively keep the two clamping plates away from each other, so that the clamping groove 21 is separated from the clamping state with the stone, the stone can be taken down from the placing seat 12, and unloading is completed.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. 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 the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims

1. The gluing device for stone processing is characterized by comprising a base (18), wherein a placing seat (12) for placing stone is arranged on the base (18), a clamping assembly for clamping and limiting the stone is arranged on the base (18), two vertical plates (15) are vertically arranged at one end of the base (18), straight grooves (13) which are parallel to the length direction of the base (18) and in a through hole form are arranged on the vertical plates (15), arc-shaped grooves which extend upwards and are in a through hole form are respectively arranged at two ends of the straight grooves (13) in the length direction, the two arc-shaped grooves are respectively defined as a first arc-shaped groove (14) and a second arc-shaped groove (22), the length of the straight grooves (13) is consistent with the length of a position to be glued with the stone, a moving column (11) is arranged between the two vertical plates (13), and the axial two ends of the moving column (11) are inserted into the straight grooves (13) of the two vertical plates (13), and the driving component drives the vertical plate to slide in the straight groove (13), the first arc-shaped groove (14) and the second arc-shaped groove (22), one end of the vertical plate, which is close to the placing seat (12), penetrates out of the vertical plate (15) and is provided with a gluing head (9), and the gluing head (9) corresponds to the position of the stone to be glued.

2. The gluing device for stone processing as claimed in claim 1, wherein the clamping assembly comprises two sliding seats (19) arranged in the length direction of the base (18) and horizontally and slidably connected to the base (18), each of the two sliding seats (19) is provided with a clamping plate (20) crossing the width direction of the placing seat (12), the outer walls of the two opposite sides of the two clamping plates (20) are provided with a clamping groove (21) matched with the stone shape and used for clamping the stone, the base (18) is horizontally and rotatably connected with a rotating shaft crossing the length direction of the base, two ends of the rotating shaft are respectively provided with a first screw rod part (5) and a second screw rod part (16) with opposite screw thread directions, the bottom of the sliding seat (19) is provided with a fixed seat (7), each of the two fixed seats (7) is horizontally embedded with a screw rod nut (6), and the two screw rod nuts (6) are respectively and threadedly sleeved on the first screw rod part (5), On the second screw rod part (16), the rotating shaft is driven to rotate by a servo motor (17) arranged on a base (18).

3. Rubber coating device for stone working according to claim 2, characterized in that said sliding seat (19) is slidingly connected to the base (18) by means of mounting rails, slides.

4. Rubber coating device for stone working according to claim 2, characterized in that said rotating shaft is rotatably connected to the base (18) through a mounting bearing block.

5. Glue spreading device for stone working according to claim 1 characterised in that said resting base (12) is fitted on its top with a plurality of rotatable balls (8).

6. The gluing device for stone processing as claimed in claim 1, wherein the movable column (11) is sleeved with a rotatable ground roller (10), and the roller (10) is engaged with the straight groove (13) at a gap and can roll in the straight groove (13) and the two arc-shaped grooves.

7. The gluing device for stone processing according to claim 1, wherein the driving assembly comprises a support (1) arranged at one end of the base (18) in the length direction, a fixed hinge base (2) is arranged on the support (1), a movable hinge base (3) is hinged on the fixed hinge base (2), and a driving element is arranged on the movable hinge base (3) and is in driving connection with the movable column (11).

8. Gluing device for stone working, according to claim 7, characterised in that said driving element is a telescopic cylinder (4).

9. The gluing device for stone processing as claimed in claim 1, wherein the working method comprises:

step 1), placing the stone on the top surface of a placing seat (12) in a flat manner, and clamping and limiting the stone on the placing seat (12) by the action of a clamping assembly;

step 2) in an initial state, inserting the movable column (11) into a second arc-shaped groove (22), wherein the top surface of the gluing head (9) is higher than a surface to be glued of the stone, driving the movable column (11) to move along the second arc-shaped groove (22) by the driving assembly, so that the gluing head (9) gradually moves downwards, when the movable column (11) moves into the straight groove (13), the bottom surface of the gluing head (9) contacts the surface to be glued of the stone, at the moment, the gluing head (9) works to glue the stone, the driving assembly continuously drives the movable column (11) to move in the straight groove (13), when the movable column (11) moves into the first arc-shaped groove (14), the gluing head (9) finishes gluing the stone, and the gluing length is consistent with the length of the straight groove (13);

step 3), after the gluing is finished, the driving assembly drives the moving column (11) to move, so that the moving column (11) slides along the inner wall of the first arc-shaped groove (14) and moves upwards, the gluing head (9) is far away from the stone, and a gluing step is finished;

and 4) the clamping assembly acts and resets, so that the stone can be taken down from the placing seat (12), and unloading is completed.