CN117960421B - Uniform gluing equipment for rock wool board production - Google Patents

Abstract

The invention relates to the technical field of rock wool board production, and particularly discloses uniform gluing equipment for rock wool board production. The spray head is of a fixed structure, and the problems that excessive spraying glue or splashing and the like are easy to occur when the rock wool boards with different widths are glued are solved. The spray head is fixedly connected with a spray pipe which is uniformly distributed, the spray head is fixedly connected with a first electric push rod, a square telescopic rod is fixedly connected with the telescopic end of the first electric push rod, and a plugging block is fixedly connected with the telescopic end of the square telescopic rod. According to the invention, through the cooperation between the blocking blocks and the spray pipes, the glue spraying range of the rock wool boards with different widths is adjusted, so that the negative effects caused by changing the moving speed of the spray head and the rock wool boards in the traditional mode are avoided while the uniform glue spraying is ensured, and only one spray pipe is blocked each time, so that the spray pipes are prevented from being blocked by glue.

Description

Uniform gluing equipment for rock wool board production

Technical Field

The invention relates to the technical field of rock wool board production, and particularly discloses uniform gluing equipment for rock wool board production.

Background

The rock wool board is a material with good heat insulation and sound insulation performance, is commonly used in the field of building decoration, and is generally required to be glued in the process of producing the rock wool board so as to bond other decoration boards on the outer layer of the rock wool board, thereby enhancing the comprehensive service performance of the rock wool board.

The utility model provides a glue spreader of rock wool board divide into roll coating formula glue spreader and spray type glue spreader generally, current spray type glue spreader utilizes the shower nozzle to follow the horizontal of rock wool board and reciprocates, simultaneously control the vertical removal of rock wool board, make the shower nozzle glue spreading along the zigzag route for the rock wool board, so as to reach the purpose of even rubber coating, but current shower nozzle is fixed structure, but the scope relatively fixed of spraying when leading to the shower nozzle sideslip at every turn, when needing to carry out the rubber coating to the rock wool board of different width, the velocity of movement of shower nozzle and rock wool board needs to be synthesized to adjust, when adjusting the shower nozzle velocity, the shower nozzle velocity of movement is too fast easily to lead to glue to be thrown to fly to in the frame, increase unnecessary clearance burden, the shower nozzle velocity of movement is too slow easily to lead to too much glue of spraying on the rock wool board, and then lead to glue overflow, and adjust the velocity of movement of rock wool board easily leads to the efficiency of rock wool board rubber coating to fluctuate, and influence the continuity between rock wool board rubber coating process and other processes, therefore the velocity of movement of purely adjusting shower nozzle and rock wool board is difficult to guarantee the homogeneity of spraying.

Therefore, it is necessary to design a uniform gluing device for rock wool board production aiming at the defects of the prior art.

Disclosure of Invention

The invention provides uniform gluing equipment for rock wool board production, which aims to overcome the defects that the existing spray heads are of fixed structures, and excessive spraying glue or splashing and the like are easy to occur when different widths of rock wool boards are glued.

The technical scheme of the invention is as follows: the utility model provides a even rubber coating equipment of rock wool board production usefulness, includes the frame, be provided with a plurality of driving roller in the frame, there is first electronic slide rail through the support rigid coupling in the frame, first electronic slide rail sliding connection has electronic slider, first electronic slide rail is installed the spraying head through electronic slider, the downside rigid coupling of spraying head and intercommunication have evenly distributed's shower, the spraying head is kept away from one side rigid coupling of first electronic slide rail has first electric putter, the flexible end rigid coupling of first electric putter has square telescopic link, the flexible end rigid coupling of square telescopic link has with adjacent shower sealing fit's shutoff piece, the shutoff piece with the sealing sliding connection of spraying head, the shutoff piece with the rigid coupling has first elastic component between the fixed part of square telescopic link, the spraying head is close to one side rigid coupling of square telescopic link has the spacing complex elastic limiting component of spacing post, be provided with in the frame and carry out clamping mechanism to the rock wool board.

Preferably, the spacing post is provided with evenly distributed's spacing groove, the spacing post through evenly distributed's spacing groove with spacing cooperation of elastic limiting piece, the distance between the adjacent spacing groove is the same with the distance between the adjacent shower.

Preferably, the clamping mechanism comprises second electric sliding rails distributed at equal intervals, the second electric sliding rails distributed at equal intervals are fixedly connected to the upper side of the frame, electric sliding blocks distributed at equal intervals are connected to the second electric sliding rails in a sliding mode, symmetrical annular electric sliding rails are connected between the second electric sliding rails in a sliding mode through the electric sliding blocks, the symmetrical annular electric sliding rails are located on two sides of the frame, first sliding blocks distributed uniformly are connected to the annular electric sliding rails in a sliding mode, elastic telescopic rods are fixedly connected to one sides of the first sliding blocks, far away from the adjacent annular electric sliding rails, friction claws and fixing plates are fixedly connected to telescopic ends of the elastic telescopic rods, extruding plates which are in extrusion fit with the adjacent fixing plates are connected to one side of the spraying head in a sliding mode through supports, second elastic pieces are fixedly connected between the supports of the annular electric sliding rails and the adjacent extruding plates, and auxiliary fixing components for controlling transverse moving components of rock wool plates and assisting the auxiliary fixing components, wherein the auxiliary fixing components are used for fixing the rock wool plates and are not transversely moving.

Preferably, the elastic coefficient of the second elastic member is larger than the elastic coefficient of the adjacent elastic telescopic rod.

Preferably, the sideslip subassembly is including E shape mount, E shape mount rigid coupling in annular electronic slide rail is close to one side of first electronic slide rail, E shape mount sliding connection have with spraying head extrusion complex removes the post, E shape mount with adjacent stripper plate sliding connection, E shape mount rotates and is connected with double-end telescopic link, one of them telescopic link is adjacent remove the post rotation connection, another telescopic link of double-end telescopic link is adjacent the stripper plate rotation connection.

Preferably, the rotation connection part of the double-end telescopic rod and the E-shaped fixing frame is the symmetrical axis position of the double-end telescopic rod.

Preferably, the auxiliary fixing assembly comprises a reset rotating shaft which is uniformly distributed, the reset rotating shaft is rotationally connected to one side, away from the adjacent elastic telescopic rod, of the friction claw, the reset rotating shaft is rotationally connected with clamping jaws, the clamping jaws are provided with symmetrically distributed sliding grooves, the clamping jaws are slidably connected with sliding shafts through the symmetrically distributed sliding grooves, the sliding shafts are rotationally connected with sliding columns, the sliding columns are in sliding connection with the adjacent friction claws, and the annular electric sliding rail is fixedly connected with an extrusion block which is in extrusion fit with the adjacent sliding columns.

Preferably, the device further comprises a pushing mechanism for pushing different rock wool boards to be tightly attached, the pushing mechanism is arranged on one side, away from the first electric sliding rail, of the annular electric sliding rail, the pushing mechanism comprises a fixing block, the fixing block is fixedly connected to one side, away from the first electric sliding rail, of the annular electric sliding rail, the fixing block is rotationally connected with an electric rotating shaft, the electric rotating shaft is fixedly connected with a cross fixing frame on one side, away from the fixing block, of the cross fixing frame, evenly distributed sliding grooves are formed in the cross fixing frame, sliding frames are slidably connected with sliding frames, third elastic pieces are fixedly connected between the sliding frames and the cross fixing frame, second sliding blocks are slidably connected with second sliding blocks, the second sliding blocks are fixedly connected with fourth elastic pieces through supporting rods, one side, away from the adjacent third elastic pieces, of the second sliding blocks is rotationally connected with friction plates, and fifth elastic pieces are fixedly connected between the friction plates and the adjacent second sliding blocks.

Preferably, the friction plate is inclined with respect to the sliding frame, so that friction force is increased by the elastic force of the fifth elastic member.

Preferably, the sealing mechanism for sealing the spray pipe is further arranged on one side of the spray head, away from the electric sliding block on the first electric sliding rail, and comprises a second electric push rod fixedly connected to one side of the spray head, away from the electric sliding block on the first electric sliding rail, a diaphragm fixing frame is fixedly connected to the telescopic end of the second electric push rod, a belt group is arranged on the lower side of the diaphragm fixing frame, and a baffle plate which is uniformly distributed is arranged on the belt group and in sealing fit with the adjacent spray pipe.

The beneficial effects of the invention are as follows: according to the invention, through the cooperation between the blocking blocks and the spray pipes, the glue spraying range of the rock wool boards with different widths is adjusted, so that the negative effects caused by changing the moving speed of the spray head and the rock wool boards in the traditional mode are avoided while the uniform glue spraying is ensured, and only one spray pipe is blocked each time, so that the spray pipes are prevented from being blocked by glue.

According to the invention, the adjacent friction claws are assisted by the clamping claws to clamp the rock wool board which is not glued, so that the rock wool board is ensured to be stably conveyed, uneven gluing of the rock wool board caused by slipping of the rock wool board is avoided, and meanwhile, the clamping claws are automatically opened when approaching to the spraying head, and the area of the rock wool board glued is prevented from being shielded.

According to the invention, through the mutual matching among the spraying head, the E-shaped fixing frame and the moving column, when the spraying head approaches the side edge of the rock wool board, the moving speed of the spraying head is slowed down, the splashing of glue solution is avoided, and meanwhile, the relative moving speed between the rock wool board and the spraying head is kept by enabling the rock wool board and the spraying head to move oppositely, so that the uniformity of glue coating is maintained.

According to the invention, the friction plate is tightly attached to the rock wool plates in advance, and the rock wool plates are pushed to move towards the spraying head, so that the two rock wool plates are tightly attached to each other, gaps between the two rock wool plates are avoided, the spraying effect on the rock wool plates is influenced, and meanwhile, glue solution is prevented from dripping onto the frame from the gaps.

According to the invention, the adjacent spray pipes are shielded by the baffle plates, all baffle plates are rotated along a fixed sequence by the belt group, and all spray pipes are sequentially closed or sequentially opened at a specific position, so that the initial position of the initial rock wool plate and the tail part of the last rock wool plate are more uniformly coated with glue.

Drawings

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

FIG. 2 is a schematic perspective view of the frame, the first motorized slide rail and the spray head of the present invention;

fig. 3 is a schematic perspective view of a first electric sliding rail, a spray head and a first electric push rod according to the present invention;

FIG. 4 is a cross-sectional view of a first power push rod, square telescoping rod and block of the present invention;

FIG. 5 is a cross-sectional view of a first resilient member, a spacing post, and a resilient spacing member of the present invention;

FIG. 6 is a schematic perspective view of a clamping mechanism according to the present invention;

FIG. 7 is a cross-sectional view of the auxiliary fixing assembly of the present invention;

FIG. 8 is an exploded view of the auxiliary fastening assembly of the present invention;

FIG. 9 is a schematic perspective view of a pushing mechanism according to the present invention;

FIG. 10 is a cross-sectional view of the pushing mechanism of the present invention;

FIG. 11 is a schematic perspective view of a plugging mechanism of the present invention shown in FIG. 1;

fig. 12 is a schematic perspective view of a plugging mechanism according to the present invention 2.

Marked in the figure as: 1. the device comprises a frame, 2, a first electric sliding rail, 3, a spraying head, 4, a first electric push rod, 5, a square telescopic rod, 6, a plugging block, 7, a first elastic piece, 8, a limit column, 9, an elastic limit piece, 10, a second electric sliding rail, 11, an annular electric sliding rail, 12, a first sliding block, 13, an elastic telescopic rod, 14, a friction claw, 15, a fixed plate, 16, a squeeze plate, 17, a second elastic piece, 18, an E-shaped fixed frame, 19, a movable column, 20, a double-head telescopic rod, 21, a reset rotating shaft, 22, a clamping jaw, 221, a sliding shaft, 23, a sliding column, 24, a squeeze block, 25, a fixed block, 26, an electric rotating shaft, 27, a cross fixed frame, 28, a sliding frame, 29, a third elastic piece, 30, a second sliding block, 31, a fourth elastic piece, 32, a friction plate, 33, a fifth elastic piece, 34, a second electric push rod, 35, a transverse plate fixed frame, 36, pi Daizu, 37 and a baffle.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without making any creative effort, such as changing the positions and shapes of parts such as "spray heads", "annular electric sliding rails", etc., and different embodiments with the same functions, are all within the protection scope of the present invention. It should be noted that, unless explicitly stated or limited otherwise, the terms "mounted" and "adjacent" should be construed broadly, and for example, the mounted may be fixed or removable, and the adjacent may be directly contacted or spatially similar components. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

Example 1: the uniform gluing equipment for rock wool board production comprises a frame 1 and an externally connected control terminal, wherein the frame 1 is provided with a plurality of driving rollers (which are existing devices) for supporting the rock wool board in an auxiliary way, the frame 1 is fixedly connected with a first electric sliding rail 2 electrically connected with the control terminal through a bracket, the first electric sliding rail 2 is slidingly connected with an electric sliding block, the first electric sliding rail 2 is provided with a spraying head 3 through the electric sliding block, the spraying head 3 is connected with a glue supplying device (existing device), the lower side of the spraying head 3 is fixedly connected and communicated with a plurality of spraying pipes which are uniformly distributed, the front side of the spraying head 3 is fixedly connected with a first electric push rod 4 electrically connected with the control terminal, the telescopic end of the first electric push rod 4 stretches leftwards (opposite to the moving direction of the rock wool board), the telescopic end of the first electric push rod 4 is fixedly connected with a square telescopic rod 5, the telescopic end of the square telescopic rod 5 stretches out rightwards, the telescopic end of the square telescopic rod 5 is fixedly connected with a blocking block 6, the blocking block 6 is inserted into the spraying head 3 and is in sealing fit with an adjacent spraying pipe, the adjacent spraying pipe is used for blocking the adjacent spraying pipe, the moving speed does not need to be changed when the spraying head 3 sprays rock wool boards with different widths, a first elastic piece 7 is fixedly connected between the blocking block 6 and the fixed part of the square telescopic rod 5, the first elastic piece 7 is a spring, the left side of the spraying head 3 is fixedly connected with a limiting column 8, an elastic limiting piece 9 is connected in the blocking block 6 in a sliding way, the elastic limiting piece 9 consists of a limiting ball and a limiting spring, limiting grooves which are uniformly distributed are formed in the limiting column 8, and the distance between the adjacent limiting grooves is the same as the distance between the adjacent spraying pipes, when the elastic limiting piece 9 is inserted into the adjacent limiting groove on the limiting column 8, and when the elastic force of the first elastic piece 7 is smaller than the elastic force of the elastic limiting piece 9, the blocking block 6 cannot move left and right, when the elastic force of the first elastic piece 7 is larger than the elastic force of the elastic limiting piece 9, and limiting of the blocking block 6 is released, the first elastic piece 7 can push the blocking block 6 to move by a distance larger than the distance between the adjacent limiting grooves, so that the elastic limiting piece 9 can be matched with the adjacent limiting groove on the limiting column 8 continuously, the blocking block 6 is prevented from being blocked by a half spray pipe due to continuous movement, a clamping mechanism for clamping and fixing a rock wool plate is arranged on the frame 1, and the clamping mechanism is electrically connected with a control terminal.

Referring to fig. 1-4, the clamping mechanism comprises two second electric sliding rails 10 distributed at equal intervals, the two second electric sliding rails 10 are electrically connected with the control terminal, the two second electric sliding rails 10 are fixedly connected to the upper side of the frame 1, two symmetrical electric sliding blocks are slidingly connected to the second electric sliding rails 10, two adjacent electric sliding blocks on different second electric sliding rails 10 are slidingly connected with an annular electric sliding rail 11, when the two electric sliding blocks on the second electric sliding rails 10 move oppositely, the two annular electric sliding rails 11 also move forwards and backwards, so that the clamps on the annular electric sliding rails 11 are controlled to automatically clamp rock wool boards with different widths and automatically convey the rock wool boards to the right, the annular electric sliding rails 11 are slidingly connected with a plurality of first sliding blocks 12 which are uniformly distributed, the opposite sides of the symmetrically distributed first sliding blocks 12 are fixedly connected with elastic telescopic rods 13, the telescopic ends of the elastic telescopic rods 13 are fixedly connected with friction claws 14 and fixing plates 15, the friction claws 14 are used for fixing rock wool plates so as to drag the rock wool plates to move rightwards, the upper sides of the annular electric sliding rails 11 are slidably connected with extrusion plates 16 through brackets, the extrusion plates 16 are provided with two inclined surfaces which are symmetrically distributed leftwards and rightwards, the opposite sides of the two extrusion plates 16 are vertical planes which are parallel to each other, the fixing plates 15 are in extrusion fit with the inclined surfaces of the extrusion plates 16 and the vertical planes, when the fixing plates 15 are extruded, the telescopic ends of the elastic telescopic rods 13 and the friction claws 14 are driven to move together so as to clamp the rock wool plates, a second elastic piece 17 is fixedly connected between the brackets of the annular electric sliding rails 11 and the adjacent extrusion plates 16, the second elastic piece 17 is a spring, and the elastic coefficient of the second elastic piece 17 is larger than that of the adjacent elastic telescopic rods 13, the elastic telescopic rod 13 can not drive the second elastic piece 17 to stretch when being stressed and stretched, the transverse moving assembly for controlling the transverse moving of the rock wool board is arranged on the upper side of the annular electric sliding rail 11, and the annular electric sliding rail 11 is provided with an auxiliary fixing assembly for assisting the adjacent friction claws 14 to fix the rock wool board which is not coated with the adhesive.

Referring to fig. 3 and fig. 4, the traversing assembly includes an E-shaped fixing frame 18 fixedly connected to the upper side of the annular electric sliding rail 11, a moving column 19 is slidingly connected to the upper side of the E-shaped fixing frame 18, the left side of the moving column 19 is located at the left side of the adjacent friction claw 14, the moving column 19 is in extrusion fit with the spray head 3, so that the spray head 3 pushes the extrusion plate 16 to move, when the spray head 3 extrudes the moving column 19, the extrusion plate 16 moves in the opposite direction to the spray head 3, the E-shaped fixing frame 18 is slidingly connected with the adjacent extrusion plate 16, the E-shaped fixing frame 18 is rotationally connected with a double-end telescopic rod 20, and the rotationally connected position of the two telescopic ends are located at the symmetrical axis of the double-end telescopic rod 20, so that when the double-end telescopic rod 20 rotates, the distances of the upper telescopic ends of the double-end telescopic rod 20 pulling the upper and lower adjacent moving parts are equal, and the telescopic ends of the upper sides of the double-end telescopic rod 20 are rotationally connected with the adjacent moving column 19.

Referring to fig. 6 to 8, the auxiliary fixing assembly includes reset rotating shafts 21 which are uniformly distributed and respectively rotatably connected to adjacent friction claws 14, two rotating shafts of the reset rotating shafts 21 and a reset torsion spring, the reset torsion spring enables the reset rotating shafts 21 to automatically return to an initial state when no external force is applied, one rotating shaft of the reset rotating shafts 21 is rotatably connected with the friction claws 14, the other rotating shaft of the reset rotating shafts 21 is rotatably connected with clamping claws 22, the clamping claws 22 are made of rubber materials and are used for compressing rock wool boards, the adjacent friction claws 14 are assisted to provide more clamping force for the rock wool boards, the clamping claws 22 are provided with two sliding grooves which are symmetrically distributed left and right, the clamping claws 22 are slidably connected with sliding shafts 221 through the two sliding grooves, the sliding shaft 221 is rotationally connected with the sliding column 23, when the sliding column 23 moves up and down, the sliding column 23 drives the adjacent clamping jaw 22 to rotate along the adjacent reset rotating shaft 21 through the adjacent sliding shaft 221, the sliding column 23 is in sliding connection with the adjacent friction jaw 14, the annular electric sliding rail 11 is fixedly connected with the extrusion block 24, an inclined surface is arranged on the left side of the extrusion block 24, the extrusion block 24 is in extrusion fit with the adjacent sliding column 23 through the inclined surface, the adjacent sliding column 23 moves upwards, the extrusion block 24 is positioned on the left side of the spray head 3, so that the clamping jaw 22 can turn over and reset before entering the spray range of the spray head 3, and the clamping jaw 22 is prevented from shielding the spray range of the spray head 3.

The existing shower nozzle is fixed structure, the width that can spray when leading to the shower nozzle sideslip at every turn is relatively fixed, when needing to carry out the rubber coating to the rock wool board of different width, need to adjust the moving speed of shower nozzle and rock wool board comprehensively, when adjusting the shower nozzle speed, the shower nozzle moving speed is too fast easily to lead to glue to be thrown to fly to the frame, increases unnecessary clearance burden, and the shower nozzle moving speed is too slow easily to lead to too much glue of spraying on the rock wool board, and then leads to the glue overflow, the invention is as follows to the solution mode of above-mentioned problem:

When a worker uses the device to glue a rock wool board, the worker firstly adjusts the device according to the width of the rock wool board to be produced, the worker controls the electric sliders on the two second electric sliding rails 10 through the control terminal, so that the symmetrically distributed electric sliders drive adjacent parts to move oppositely together, the electric sliders on the front side and the rear side drive adjacent friction claws 14 to move together through the adjacent two second electric sliding rails 10 until the distance between the friction claws 14 on the upper parts of the two sides is equal to the width of the rock wool board, when the friction claws 14 on the left side and the right side can clamp together and drive the rock wool board to move rightwards, the worker closes the electric sliders on the two second electric sliding rails 10 through the control terminal, and simultaneously adjusts the distance of the front-rear transverse movement of the electric sliders on the first electric sliding rail 2 through the control terminal, so that the worker is always positioned on the upper side of the rock wool board when the spray head 3 moves transversely, and the worker retracts a certain distance through the telescopic end of the control terminal control first electric push rod 4, so as to adjust the glue spraying quantity of the spray head 3, and enable the glue spraying range of the spray head 3 to be suitable for the moving speed of the spray head.

When the telescopic end of the first electric push rod 4 is retracted, the total retraction distance of the telescopic end of the first electric push rod 4 is in a certain proportion with the width of the rock wool board, at the moment, the telescopic end of the first electric push rod 4 drives the square telescopic rod 5 to move rightwards, the square telescopic rod 5 extrudes the plugging block 6 through the first elastic piece 7, when the plugging block 6 drives the elastic limiting piece 9 to move rightwards, the elastic limiting piece 9 limits the plugging block 6 through the cooperation with the limiting post 8, at the moment, the elastic force of the first elastic piece 7 is smaller than the resistance applied by the elastic limiting piece 9 to the plugging block 6, so that the telescopic end of the square telescopic rod 5 is retracted inwards, meanwhile, the first elastic piece 7 compresses and stores force, when the elastic force of the first elastic piece 7 is larger than the resistance applied by the elastic limiting piece 9 to the plugging block 6, the telescopic end of the square telescopic rod 5 drives the elastic limiting piece 9 to move rightwards together through the plugging block 6, the elastic limiting piece 9 is gradually retracted into the plugging block 6 under the extrusion of the limiting groove of the limiting column 8, the elastic limiting piece 9 and the adjacent limiting groove on the limiting column 8 are gradually released from the limiting fit state, after the elastic limiting piece 9 is completely retracted into the plugging block 6, the first elastic piece 7 drives the plugging block 6 to move rightwards relative to the square telescopic rod 5 through elastic force, the telescopic end of the square telescopic rod 5 stretches out together until the elastic limiting piece 9 passes through the other limiting groove on the limiting column 8, the elastic limiting piece 9 stretches out of the plugging block 6 and is matched with the adjacent limiting groove on the limiting column 8 again, the plugging block 6 is limited, then in the retracting process of the telescopic end of the first electric push rod 4, the total retracting distance of the telescopic end of the first electric push rod 4 is determined according to the width of the rock wool plate, when the telescopic end of the first electric push rod 4 is retracted to a determined distance, the flexible end of first electric putter 4 stops to retract, and shutoff piece 6 stops moving in step, blocks up the quantity of shower through adjusting shutoff piece 6, and the scope of spraying when directly adjusting the single lateral shifting of spraying head 3 to make spraying head 3 spray to the rock wool board of different width, block up the shower on the spraying head 3 through making shutoff piece 6 intermittent type formula remove, and only block up a shower at every turn, avoid only blocking up a part of shower, lead to shower through-gel area reduction to finally be blocked by glue.

After the staff finishes the adjustment of the first electric sliding rail 2, the first electric push rod 4 and the second electric sliding rail 10 through the remote control terminal, the device opens the annular electric sliding rail 11 through the control terminal after the adaptability adjustment is carried out on the width of the rock wool board, the annular electric sliding rail 11 drives the adjacent first sliding block 12 to rotate clockwise (in the front-to-back direction of fig. 1), the staff simultaneously continuously conveys the rock wool board with the same width to the driving roller through the existing transmission device, and the staff controls the electric sliding blocks of the first electric sliding rail 2 to drive the spray head 3 to repeatedly move back and forth through the control terminal and continuously supply glue to the spray head 3 to carry out gluing work on the rock wool board.

After being conveyed onto the driving roller, the rock wool board is clamped by a friction claw 14 rotating from the left side to the upper side to be conveyed rightward, and the concrete conveying process is as follows: taking the annular electric sliding rail 11 at the front side and adjacent parts as an example, in the process of rotating along the annular electric sliding rail 11, the fixed plate 15 contacts the extrusion plate 16, the fixed plate 15 is extruded and moves backwards by the left side inclined angle of the extrusion plate 16 in the process of continuing to move along with the first sliding block 12, at the moment, the fixed plate 15 drives the telescopic ends of the adjacent elastic telescopic rods 13 to stretch out, when the fixed plate 15 moves to the rear side of the extrusion plate 16, the telescopic ends of the elastic telescopic rods 13 drive the adjacent friction claws 14 to extrude the rock wool plate, a backward force is applied to the rock wool plate, the rock wool plate is clamped under the combined action of the friction claws 14 at the rear side, and then the two parts together drive the rock wool plate to move rightwards.

In the process that the friction claw 14 clamps the rock wool plate and drives the rock wool plate to move rightwards, the adjacent sliding columns 23 of the friction claw 14 are gradually contacted with the adjacent extrusion blocks 24, then the sliding columns 23 are extruded and move upwards by the left inclined sides of the adjacent extrusion blocks 24 in the process of following the right movement of the adjacent friction claw 14, the adjacent clamping claws 22 are driven to rotate along the adjacent reset rotating shafts 21 by the adjacent sliding shafts 221 in the upward movement process of the sliding columns 23, torsion springs in the reset rotating shafts 21 twist and store force, when the sliding columns 23 move to the upper sides of the adjacent extrusion blocks 24, the clamping claws 22 stop overturning, and at the moment, the clamping claws 22 fix the rock wool plate by extrusion so as to further improve the stability of the movement of the rock wool plate driven by the friction claw 14, and the gap between the rock wool plate and the friction claw 14 on the left side of the spray head 3 is avoided.

In the process that the friction claw 14 moves rightwards, before the friction claw 14 approaches the spraying range of the spraying head 3, the sliding column 23 is separated from extrusion fit with the adjacent extrusion blocks 24, the clamping jaw 22 rotates to reset under the action of the elastic force of the reset spring in the adjacent reset rotating shaft 21, the sliding column 23 moves downwards synchronously to reset, at the moment, the clamping jaw 22 loosens the clamping of the adjacent rock wool boards, the spraying head 3 is prevented from spraying glue solution on the rock wool boards, and the sprayed rock wool boards always receive extrusion force from the left rock wool boards to the right direction in the process of moving rightwards, so that the sprayed rock wool boards always keep a bonding state without an additional fixing mode.

In the process that the spraying head 3 glues the rock wool board along the zigzag route, when the spraying head 3 is close to the edge of the front and back sides of the rock wool board, taking the spraying head 3 as an example to be close to the edge of the front side of the rock wool board: when the spraying head 3 contacts with the moving column 19 at the front side, the control terminal controls the electric sliding blocks on the first electric sliding rail 2 to slow down half of the moving speed, so that when the spraying head 3 reaches the front side edge of the rock wool board and moves backwards fast, the glue solution is thrown away towards the front side, the speed of the spraying head 3 following the electric sliding blocks on the first electric sliding rail 2 and moving together is also slowed down, but the spraying head 3 can squeeze the moving column 19 to move forwards synchronously in the process of continuing to move forwards, the moving column 19 drives the double-end telescopic rod 20 to rotate clockwise (from left to right in fig. 1), the double-end telescopic rod 20 drives the adjacent pressing plate 16 to move backwards in the rotating process of the double-end telescopic rod 20, the two telescopic ends of the double-end telescopic rod 20 synchronously stretch and store force, the pressing plate 16 drives the adjacent friction claw 14 to move backwards synchronously through the adjacent fixed plate 15, so that the rock wool board moves backwards, the friction claw 14 at the moment is pressed by the same principle, the two second elastic pieces 17 at the back side compress and store force, and the spraying head 3 is slowed down, and the distance of the rock wool board is kept to move backwards synchronously with the rock wool board 3, and the moving speed of the rock wool board is kept at the same, and the opposite speed is kept to the same, and the spraying speed of the spraying head moves forwards, and the rock wool board is kept at the same, and the distance, and the opposite speed is kept at the speed, and the distance of the opposite to the moving speed of the rock wool board.

After the spray coating head 3 moves to the front side edge of the rock wool board, the spray coating head 3 moves backwards under the drive of the electric sliding block on the first electric sliding rail 2, the second elastic piece 17 drives the extrusion plate 16 and adjacent parts to reset gradually through self elastic force until the spray coating head 3 is separated from contact with the front side moving column 19, the spray coating head 3 resumes normal moving speed and moves backwards under the drive of the electric sliding block on the first electric sliding rail 2, and then the above processes are repeated repeatedly to avoid the glue solution from being thrown.

After the coating is finished, the worker stops supplying glue to the spray head 3, closes the annular electric sliding rail 11 through the control terminal, and controls the electric sliding blocks such as the first electric sliding rail 2 and the second electric sliding rail 10 to drive the adjacent parts to reset, and then the worker carries out comprehensive cleaning on the device.

Example 2: on the basis of embodiment 1, referring to fig. 1, fig. 9 and fig. 10, the device further comprises a pushing mechanism arranged on the left side of the annular electric sliding rail 11, the pushing mechanism is used for pushing different rock wool boards to be tightly attached, the pushing mechanism comprises a fixed block 25, the fixed block 25 is fixedly connected on the left side of the adjacent annular electric sliding rail 11, the left side of the fixed block 25 is rotationally connected with an electric rotating shaft 26 electrically connected with a control terminal, the upper side of the electric rotating shaft 26 is fixedly connected with a cross fixing frame 27, the cross fixing frame 27 is provided with four sliding grooves which are uniformly distributed, the four sliding grooves on the cross fixing frame 27 are all slidingly connected with a sliding frame 28, a third elastic piece 29 is fixedly connected between the sliding frame 28 and the cross fixing frame 27, the third elastic piece 29 is a spring, a second sliding block 30 is slidingly connected in the sliding frame 28, because the rotating speed of the electric rotating shaft 26 is faster, therefore, the second sliding block 30 slides relative to the sliding frame 28 during the process of dragging the rock wool board by the friction plate 32, the second sliding block 30 is fixedly connected with a fourth elastic member 31 between the supporting rod and the sliding frame 28, the fourth elastic member 31 is a tension spring, the lower side of the second sliding block 30 is rotationally connected with the friction plate 32, a fifth elastic member 33 is fixedly connected between the friction plate 32 and the adjacent second sliding block 30, the fifth elastic member 33 is a torsion spring, the friction plate 32 is inclined relative to the sliding frame 28, for example, the friction plate 32 at the leftmost end of the front side is inclined to the left and the rear, so that the friction plate is in contact with the rock wool board in a nearly parallel state, and the fifth elastic member 33 is rotated by accumulating force in advance, so that the extrusion force between the friction plate 32 and the rock wool board is increased, the friction force between the friction plate 32 and the rock wool board is increased, and the rock wool board is facilitated to push the rock wool board to move rightwards.

Because the staff utilizes current device when carrying the rock wool board to this device, adopt bottom driving roller to convey generally, the driving roller is mainly through frictional force right transmission rock wool board when transmitting the rock wool board, consequently if there is the clearance between two adjacent rock wool boards, current driving roller can't remove two rock wool boards to closely laminating state, if there is the clearance in the middle of two rock wool boards when placing, the glue solution falls to the below frame when easily resulting in the rubber coating, lead to follow-up needs to carry out extra clearance work, to above-mentioned problem, the invention provides following means of solving:

When a worker regulates and controls the gaps of friction claws 14 on two sides through electric sliding blocks on two second electric sliding rails 10, the annular electric sliding rails 11 drive adjacent electric rotating shafts 26 and parts on the adjacent electric rotating shafts to move together through fixing blocks 25, when the worker conveys a rock wool board to the right through a transmission roller, the worker starts the two electric rotating shafts 26 to rotate oppositely through a control terminal, the electric rotating shafts 26 on the front side and the adjacent parts are taken as an example, the electric rotating shafts 26 rotate clockwise (from top to bottom in fig. 1), the electric rotating shafts 26 drive cross fixing frames 27 to rotate together, the cross fixing frames 27 drive four sliding frames 28 to rotate together, when friction plates 32 on the rear sliding frames 28 contact the rock wool board, the friction plates 32 are extruded by the rock wool board and rotate to be in a state of being attached to the rock wool board, and at the moment, adjacent fifth elastic pieces 33 twist and accumulate force, in the process that the friction plates 32 keep being attached to the rock wool board, the friction plate 32 and the adjacent second sliding block 30 continuously rotate along the electric rotating shaft 26, but at this time, the friction plate 32 and the adjacent second sliding block 30 are limited by the rock wool plate in the front-rear direction and can only move rightward, at this time, the adjacent third elastic piece 29 compresses the accumulated force for increasing the extrusion force between the friction plate 32 and the rock wool plate, in the process that the friction plate 32 is kept attached to the rock wool plate, because the speed of the electric rotating shaft 26 driving the friction plate 32 to move is faster than the speed of the friction claw 14 driving the rock wool plate to move rightward, if a gap exists between the two rock wool plates, the friction plate 32 driving the rock wool plate to move rightward to eliminate the gap between the two rock wool plates, and if no gap exists between the two rock wool plates, the friction plate 32 cannot move rightward faster than the speed of the friction claw 14 driving the rock wool plate, so the movement speed of the friction plate 32 is slowed down at this time, causing it to move leftwards relative to the adjacent second slider 30, the fourth elastic member 31 stretches the stored force, thereby ensuring that the two rock wool plates are tightly attached.

When the friction plate 32 is separated from the extrusion fit with the rock wool plate in the process of rotating along with the electric rotating shaft 26, the friction plate 32 and adjacent parts are moved to reset under the elastic force of the third elastic member 29, the fourth elastic member 31 and the fifth elastic member 33. After the gluing operation is completed, the worker closes the two annular electric slide rails 11 while simultaneously closing the two electric rotating shafts 26.

Example 3: based on embodiment 1 and embodiment 2, refer to fig. 3, fig. 11 and fig. 12, the utility model further comprises a blocking mechanism arranged at the lower side of the spray head 3, the blocking mechanism is used for blocking spray pipes, the blocking mechanism comprises a second electric push rod 34 fixedly connected at the lower side of the spray head 3, the telescopic end of the second electric push rod 34 is fixedly connected with a transverse plate fixing frame 35, a belt group 36 is arranged at the lower side of the transverse plate fixing frame 35, the belt group 36 is an existing device and consists of two belt pulleys and a belt, the belt pulleys are power parts and are electrically connected with a control terminal, the belt of the belt group 36 is provided with evenly distributed baffle plates 37, the adjacent baffle plates 37 are mutually attached, the baffle plates 37 are in sealing fit with the adjacent spray pipes, and the effect that all spray pipes are sequentially closed and sequentially opened is realized by enabling all the baffle plates 37 to follow the belt on the belt group 36, so that repeated gluing of the spray head 3 on rock wool boards is avoided.

When the spray coating head 3 is used for coating the initial and final rock wool boards in the coating process, the conventional coating mode in the prior art is as follows: the spray head 3 is moved repeatedly transversely, but the rock wool boards are not moved, and finally, the glue spreading of the leftmost end of the last rock wool board and the rightmost end of the first rock wool board is completed, which results in that when the spray head 3 is switched from the working mode to the working mode along the zigzag path in the embodiment 1, glue sprayed by the spray head 3 along the zigzag path is overlapped with glue sprayed by the spray head along the front-back direction, glue is wasted, and glue spreading of the rightmost part of the first rock wool board and the leftmost part of the last rock wool board is easily caused to overflow outwards, so the spray head 3 is further optimized according to the problems:

When the spraying head 3 finishes gluing the rightmost end of the first rock wool board in the process, a worker controls the second electric push rod 34 to retract through the control terminal, the telescopic end of the second electric push rod 34 drives the belt group 36 and all the baffles 37 to move forwards together through the transverse plate fixing frame 35, the lower sides of adjacent spraying pipes are gradually shielded in the moving process of the baffles 37, glue solution is prevented from continuously flowing out, then the worker controls the belt group 36 to rotate, the leftmost baffles 37 are positioned on the lower sides of the spraying pipes which are not blocked and positioned on the leftmost sides, in the process that the worker controls the two annular electric sliding rails 11 to enable the friction claws 14 to drive the rock wool board to move rightwards, the worker controls the belt group 36 to drive all the baffles 37 to rotate anticlockwise (in the direction from top to bottom in fig. 1), the rotating speed of the belt group 36 is the same as the rightwards moving speed of the friction claws 14, and when the leftmost baffles 37 leave the lower sides of the adjacent spraying pipes, the spraying pipes start to spray downwards glue, the spraying pipes are sequentially opened from the left to the right directions in the mode, and the situation that the leftmost side parts of the spraying head 3 overlap the glue solution along the front and the backward directions of the glue solution are overlapped with each other, and the leftmost sides of the side parts of the glue solution are prevented from overflowing outwards.

When the spray head 3 is used for gluing the leftmost side of the last rock wool board, a worker determines the opportunity through the existing detection mechanism, controls the belt group 36 to rotate through the control terminal, enables the belt group 36 to drive all the baffles 37 to rotate anticlockwise (from top to bottom in fig. 1), sequentially closes the spray pipes from left to right according to the same principle, controls the telescopic end of the second electric push rod 34 to extend through the control terminal in the process of controlling the spray head 3 to move back and forth after the spray pipes are completely closed, and drives the belt group 36 and all the baffles 37 to move back together through the transverse plate fixing frame 35 to enable all the spray pipes to be synchronously opened, and then gluing the leftmost side of the last rock wool board according to the traditional steps.

The foregoing is merely illustrative embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily think about variations or substitutions within the technical scope of the present invention, and the invention should be covered.

Claims (6)

1. The utility model provides a even rubber coating equipment of rock wool board production usefulness, includes frame (1), be provided with a plurality of driving roller on frame (1), there is first electronic slide rail (2) through the support rigid coupling on frame (1), first electronic slide rail (2) sliding connection has electronic slider, first electronic slide rail (2) are installed spraying head (3) through electronic slider, the downside rigid coupling of spraying head (3) and intercommunication have evenly distributed's shower, its characterized in that: the spraying device comprises a first electric push rod (4), wherein the first electric push rod (4) is fixedly connected to one side, far away from a first electric sliding rail (2), of a spraying head (3), a square telescopic rod (5) is fixedly connected to the telescopic end of the first electric push rod (4), a sealing block (6) in sealing fit with an adjacent spraying pipe is fixedly connected to the telescopic end of the square telescopic rod (5), the sealing block (6) is in sealing sliding connection with the spraying head (3), a first elastic piece (7) is fixedly connected between the sealing block (6) and a fixing part of the square telescopic rod (5), a limit column (8) is fixedly connected to one side, close to the square telescopic rod (5), of the spraying head (3), an elastic limit piece (9) in limiting fit with the limit column (8) is fixedly connected to the sealing block (6), and a clamping mechanism for clamping and fixing a rock wool plate is arranged on a rack (1).

The clamping mechanism comprises second electric sliding rails (10) which are distributed at equal intervals, wherein the second electric sliding rails (10) which are distributed at equal intervals are fixedly connected to the upper side of the frame (1), the second electric sliding rails (10) are connected with symmetrical electric sliding blocks in a sliding manner, symmetrical annular electric sliding rails (11) are connected between the second electric sliding rails (10) which are distributed at equal intervals in a sliding manner through the electric sliding blocks, the symmetrical annular electric sliding rails (11) are positioned on two sides of the frame (1), first sliding blocks (12) which are uniformly distributed are connected in a sliding manner, one side, far away from the adjacent annular electric sliding rails (11), of each first sliding block (12) is fixedly connected with an elastic telescopic rod (13), the telescopic end of each elastic telescopic rod (13) is fixedly connected with a friction claw (14) and a fixed plate (15), one side, close to the spraying head (3), of each annular electric sliding rail (11) is connected with an extrusion plate (16) which is in an extrusion fit with the adjacent fixed plate (15) in a sliding manner through a bracket, the side, and the adjacent bracket of each annular electric sliding rail (11) is fixedly connected with an auxiliary sliding assembly (17) which is provided with an elastic sliding assembly;

The elastic coefficient of the second elastic piece (17) is larger than that of the adjacent elastic telescopic rod (13);

The transverse moving assembly comprises an E-shaped fixing frame (18), wherein the E-shaped fixing frame (18) is fixedly connected to one side, close to the first electric sliding rail (2), of the annular electric sliding rail (11), a moving column (19) which is in extrusion fit with the spraying head (3) is slidably connected with the E-shaped fixing frame (18), the E-shaped fixing frame (18) is slidably connected with the adjacent extrusion plate (16), a double-head telescopic rod (20) is rotatably connected with the E-shaped fixing frame (18), one telescopic end of the double-head telescopic rod (20) is rotatably connected with the adjacent moving column (19), and the other telescopic end of the double-head telescopic rod (20) is rotatably connected with the adjacent extrusion plate (16);

The auxiliary fixing assembly comprises a reset rotating shaft (21) which is uniformly distributed, the reset rotating shaft (21) is rotationally connected to the adjacent friction claws (14) and is far away from the adjacent one side of the elastic telescopic rod (13), the reset rotating shaft (21) is rotationally connected with clamping jaws (22), the clamping jaws (22) are provided with symmetrically distributed sliding grooves, the clamping jaws (22) are slidably connected with sliding shafts (221) through the symmetrically distributed sliding grooves, the sliding shafts (221) are rotationally connected with sliding columns (23), the sliding columns (23) are in sliding connection with the adjacent friction claws (14), and the annular electric sliding rail (11) is fixedly connected with extrusion blocks (24) which are in extrusion fit with the adjacent sliding columns (23).

2. A uniform gluing device for rock wool board production according to claim 1, characterized in that: the limiting columns (8) are provided with uniformly distributed limiting grooves, the limiting columns (8) are in limiting fit with the elastic limiting pieces (9) through the uniformly distributed limiting grooves, and the distance between the adjacent limiting grooves is the same as the distance between the adjacent spraying pipes.

3. A uniform gluing device for rock wool board production according to claim 1, characterized in that: the rotating connection part of the double-head telescopic rod (20) and the E-shaped fixing frame (18) is the symmetrical axis position of the double-head telescopic rod (20).

4. A uniform gluing device for rock wool board production according to claim 1, characterized in that: the novel elastic friction plate pushing device is characterized by further comprising a pushing mechanism for pushing different rock wool plates to be tightly attached, wherein the pushing mechanism is arranged on one side of the annular electric sliding rail (11) away from the first electric sliding rail (2), the pushing mechanism comprises a fixing block (25), the fixing block (25) is fixedly connected to the adjacent annular electric sliding rail (11) away from one side of the first electric sliding rail (2), the fixing block (25) is rotationally connected with an electric rotating shaft (26), the electric rotating shaft (26) is far away from one side of the fixing block (25) and fixedly connected with a cross fixing frame (27), the cross fixing frame (27) is provided with evenly distributed sliding grooves, the sliding grooves of the cross fixing frame (27) are fixedly connected with a sliding frame (28), the sliding frame (28) is fixedly connected with a second sliding block (30) in a sliding manner, the second sliding block (30) is fixedly connected with a fourth elastic piece (31) between the sliding frame (28) through a supporting rod, and the second sliding block (30) is fixedly connected with a fifth friction plate (32) which is fixedly connected with the adjacent sliding frame (27).

5. The uniform gluing device for rock wool board production according to claim 4, wherein: the friction plate (32) is inclined relative to the carriage (28) so as to increase friction by the elastic force of the fifth elastic member (33).

6. A uniform gluing device for rock wool board production according to claim 1, characterized in that: the sealing device is characterized by further comprising a sealing mechanism for sealing the spray pipe, wherein the sealing mechanism is arranged on one side of the spray head (3) away from the electric sliding block on the first electric sliding rail (2), the sealing mechanism comprises a second electric push rod (34), the second electric push rod (34) is fixedly connected to one side of the spray head (3) away from the electric sliding block on the first electric sliding rail (2), a transverse plate fixing frame (35) is fixedly connected to the telescopic end of the second electric push rod (34), a belt group (36) is arranged on the lower side of the transverse plate fixing frame (35), a baffle (37) which is uniformly distributed is arranged on the belt group (36), and the baffle (37) is in sealing fit with the adjacent spray pipe.