Manufacturing equipment of sandwich thermal insulation rock wool board

By designing the conveying, cleaning, and adhesive application mechanisms for sandwich insulation rock wool board manufacturing equipment, the problem of low efficiency in manual cleaning was solved, and automated dust cleaning and improved adhesive application effects were achieved.

CN117885266BActive Publication Date: 2026-06-23SUZHOU LIFENG TECHNOLOGY IND CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Patents(China)
Current Assignee / Owner
SUZHOU LIFENG TECHNOLOGY IND CO LTD
Filing Date
2024-02-29
Publication Date
2026-06-23

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    Figure CN117885266B_ABST
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Abstract

The application discloses a kind of manufacturing equipment of sandwich thermal insulation rock wool board, including conveying mechanism, protective cover, cleaning mechanism and glue spraying mechanism;Conveying mechanism includes conveyor belt, and a plurality of conveying plates are fixed on conveyor belt, and the top of conveying plate is provided with positioning groove;Protective cover is arranged above conveyor belt;Cleaning mechanism and glue spraying mechanism are sequentially arranged along the conveying direction of conveyor belt, and cleaning mechanism includes motor, horizontal shaft, brush roller, dust suction cover, dust suction pipe and dust collection box, horizontal shaft is rotatably installed in the inside of protective cover, one end of horizontal shaft is connected with motor, brush roller is fixedly sleeved on horizontal shaft, dust suction cover is arranged above brush roller, dust collection box is fixed on the top of protective cover, one end of dust suction pipe is connected with dust collection box, and the other end of dust suction pipe is connected with dust suction cover.The application discloses a kind of manufacturing equipment of sandwich thermal insulation rock wool board, can clean dust and impurities on the surface of board during the conveying process of board, to guarantee the subsequent glue spraying effect of board.
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Description

Technical Field

[0001] This invention relates to a manufacturing equipment for sandwich insulation rock wool boards. Background Technology

[0002] Common surface materials for sandwich panels include plywood, fiberboard, plastic sheets, and thin metal sheets. Core materials include balsa wood, rubber, cellulose acetate, plastics, resin-impregnated paper or fabric, and metal honeycomb structures. Rock wool is also a common core material. Rock wool products, with their excellent fireproof and thermal insulation properties, are internationally recognized as a major energy-saving material among the "fifth conventional energy sources." For every ton of rock wool used for insulation in buildings, at least the equivalent of one ton of oil can be saved annually, aligning with the trends of low carbon, energy conservation, and emission reduction. Therefore, as an ideal building insulation material, rock wool is facing unprecedented development opportunities and challenges.

[0003] In the actual manufacturing process, existing sandwich rock wool insulation boards require adhesive coating on their surface. Since dust and impurities adhere to the surface of the boards during storage and transportation, manual cleaning by workers is usually necessary before adhesive coating. However, manual cleaning increases the labor intensity of workers and is inefficient, hindering companies from improving production efficiency. Summary of the Invention

[0004] The purpose of this invention is to provide a manufacturing equipment for sandwich insulation rock wool boards. The equipment has a reasonable structure and can clean the dust and impurities on the surface of the boards during the board conveying process, so as to ensure the subsequent glue application effect of the boards.

[0005] To achieve the above objectives, the technical solution of the present invention is to design a manufacturing equipment for sandwich insulation rock wool boards, including a conveying mechanism, a protective cover, a cleaning mechanism, and a glue-applying mechanism;

[0006] The conveying mechanism includes a conveyor belt, with side plates on both sides of the conveyor belt, and several conveyor plates fixed on the conveyor belt. The top of each conveyor plate is provided with a positioning groove for placing the plate.

[0007] The protective cover is installed above the conveyor belt and is fixedly connected to the side plate;

[0008] The cleaning mechanism and the adhesive coating mechanism are arranged sequentially along the conveyor belt's conveying direction. The cleaning mechanism includes a motor, a horizontal rotating shaft, a brush roller, a dust suction hood, a dust suction pipe, and a dust collection box. The horizontal rotating shaft is rotatably installed inside the protective cover. One end of the horizontal rotating shaft passes through the side wall of the protective cover and is connected to the motor. The rotation direction of the horizontal rotating shaft is opposite to the conveyor belt's conveying direction. The brush roller is fixedly mounted on the horizontal rotating shaft. The dust suction hood is positioned above the brush roller. The dust collection box is fixed to the top of the protective cover. One end of the dust suction pipe is connected to the dust collection box, and the other end of the dust suction pipe passes through the top wall of the protective cover and is connected to the dust suction hood. A suction pump is installed on the dust suction pipe.

[0009] Preferably, the glue-applying mechanism includes a glue storage container disposed inside a protective cover. The glue storage container is fixedly connected to the top wall of the protective cover, and a plurality of glue-guiding tubes are connected to the bottom of the glue storage container. The plurality of glue-guiding tubes are arranged at equal intervals along the width direction of the conveyor belt. The middle section of each glue-guiding tube has a large-diameter section, and the bottom end of each glue-guiding tube has a movable sealing plug. A first return spring is connected between the top of the movable sealing plug and the glue storage container. A lifting plate is disposed below the glue storage container, and a plurality of glue-applying tubes corresponding one-to-one with the glue-guiding tubes are fixed in the lifting plate. Each glue-applying tube can be inserted into the corresponding glue-guiding tube, and the tube wall of the glue-applying tube has a glue-guiding opening. Two support blocks are symmetrically arranged below the lifting plate. The two support blocks are fixedly connected to the two side walls of the protective cover. The top of the support block is provided with a guide rod that penetrates the lifting plate. The top of the guide rod is provided with a stop block. A second return spring sleeved on the guide rod is connected between the stop block and the lifting plate. The top of the conveyor plate is provided with two top plates. The two top plates are located on both sides of the positioning groove. The end of the top plate near the output end of the conveyor belt is provided with a driving inclined surface. The bottom of the lifting plate is provided with two driven plates that correspond one-to-one with the top plates. The end of the driven plate away from the output end of the conveyor belt is provided with a driven inclined surface that corresponds to the driving inclined surface.

[0010] Preferably, the outer diameter of the glue-coating tube is the same as the inner diameter of the bottom end of the glue-guiding tube.

[0011] Preferably, the bottom of the movable sealing plug is provided with a positioning boss, and the top of the glue-applying tube can be fitted onto the outside of the positioning boss.

[0012] Preferably, the outer circumferential surface of the movable sealing plug is provided with an annular sealing groove, and a sealing ring is provided in the annular sealing groove.

[0013] Preferably, the glue application mechanism further includes a glue filling box, which is fixed to the top of the protective cover by a bracket, and a glue filling tube is connected to the bottom of the glue filling box. The bottom end of the glue filling tube penetrates the top wall of the protective cover and is connected to the glue storage container.

[0014] Preferably, the motor is fixedly connected to the side wall of the protective cover via a mounting plate.

[0015] The advantages and beneficial effects of this invention are as follows: It provides a manufacturing device for sandwich insulation rock wool boards, which has a reasonable structure. By setting up a cleaning mechanism, it can clean dust and impurities on the surface of the boards during the board conveying process, so as to ensure the subsequent glue application effect. Furthermore, the glue application mechanism in this invention can apply glue to the entire surface of the board, achieving a good glue application effect. Attached Figure Description

[0016] Figure 1 This is a schematic diagram of the present invention.

[0017] Figure 2 This is a schematic diagram of the cleaning mechanism in this invention.

[0018] Figure 3 This is a schematic diagram of the gelling mechanism in this invention.

[0019] Figure 4 yes Figure 3 Enlarged view of point A in the middle.

[0020] Figure 5 yes Figure 3 Enlarged view of point B in the middle.

[0021] Figure 6 This is a schematic diagram of the movable sealing plug in this invention. Detailed Implementation

[0022] The specific embodiments of the present invention will be further described below with reference to the accompanying drawings and examples. The following examples are only used to more clearly illustrate the technical solutions of the present invention and should not be construed as limiting the scope of protection of the present invention.

[0023] The specific technical solution of this invention is as follows:

[0024] like Figures 1 to 6 As shown, a manufacturing equipment for sandwich insulation rock wool panels includes a conveying mechanism, a protective cover 1, a cleaning mechanism, and a glue-applying mechanism.

[0025] The conveying mechanism includes a conveyor belt 2, with side plates 3 on both sides of the conveyor belt 2, and a plurality of conveyor plates 4 fixed on the conveyor belt 2. The top of the conveyor plate 4 is provided with a positioning groove for placing the plate 100.

[0026] The protective cover 1 is disposed above the conveyor belt 2, and the protective cover 1 is fixedly connected to the side plate 3;

[0027] The cleaning mechanism and the glue-applying mechanism are arranged sequentially along the conveying direction of the conveyor belt 2. The cleaning mechanism includes a motor 5, a horizontal rotating shaft 6, a brush roller 7, a dust suction hood 8, a dust suction pipe 9, and a dust collection box 10. The horizontal rotating shaft 6 is rotatably installed inside the protective cover 1. One end of the horizontal rotating shaft 6 passes through the side wall of the protective cover 1 and is connected to the motor 5. The rotation direction of the horizontal rotating shaft 6 is opposite to the conveying direction of the conveyor belt 2. The brush roller 7 is fixedly mounted on the horizontal rotating shaft 6. The dust suction hood 8 is located above the brush roller 7. The dust collection box 10 is fixed to the top of the protective cover 1. One end of the dust suction pipe 9 is connected to the dust collection box 10. The other end of the dust suction pipe 9 passes through the top wall of the protective cover 1 and is connected to the dust suction hood 8. A suction pump 11 is provided on the dust suction pipe 9.

[0028] Furthermore, the glue-applying mechanism includes a glue storage container 12 disposed inside the protective cover 1. The glue storage container 12 is fixedly connected to the top wall of the protective cover 1, and a plurality of glue guide tubes 13 are connected to the bottom of the glue storage container 12. The plurality of glue guide tubes 13 are arranged at equal intervals along the width direction of the conveyor belt 2. A large-diameter section 14 is provided in the middle of the glue guide tube 13, and a movable sealing plug 15 is provided inside the bottom end of the glue guide tube 13. A first return spring 16 is connected between the top of the movable sealing plug 15 and the glue storage container 12. A lifting plate 17 is provided below the glue storage container 12. A plurality of glue-applying tubes 18 corresponding one-to-one with the glue guide tubes 13 are fixed in the lifting plate 17. The glue-applying tubes 18 can be inserted into the corresponding glue guide tubes 13, and the tube wall of the glue-applying tube 18 is provided with a glue-applying opening 19. Two support blocks 20 are symmetrically arranged below the lifting plate 17. The two support blocks 20 are fixedly connected to the two side walls of the protective cover 1, respectively. The top of the support block 20 is provided with a guide rod 21 that passes through the lifting plate 17. The top of the guide rod 21 is provided with a stop block 22. A second return spring 23 sleeved on the guide rod 21 is connected between the stop block 22 and the lifting plate 17. The top of the conveyor plate 4 is provided with two top plates 24. The two top plates 24 are located on both sides of the positioning groove. The end of the top plate 24 near the output end of the conveyor belt 2 is provided with a driving inclined surface 25. The bottom of the lifting plate 17 is provided with two driven plates 26 that correspond one-to-one with the top plates 24. The end of the driven plate 26 away from the output end of the conveyor belt 2 is provided with a driven inclined surface 27 that corresponds to the driving inclined surface 25.

[0029] Furthermore, the outer diameter of the glue-coating tube 18 is consistent with the inner diameter of the bottom end of the glue-guiding tube 13.

[0030] Furthermore, the bottom of the movable sealing plug 15 is provided with a positioning boss 28, and the top of the glue-applying tube 18 can be fitted onto the outside of the positioning boss 28.

[0031] Furthermore, the outer circumferential surface of the movable sealing plug 15 is provided with an annular sealing groove 29, and a sealing ring 30 is provided in the annular sealing groove 29.

[0032] Furthermore, the glue application mechanism also includes a glue filling box 31, which is fixed to the top of the protective cover 1 by a bracket 32, and a glue filling tube 33 is connected to the bottom of the glue filling box 31. The bottom end of the glue filling tube 33 penetrates the top wall of the protective cover 1 and is connected to the glue storage container 12.

[0033] Furthermore, the motor 5 is fixedly connected to the side wall of the protective cover 1 via the mounting plate 34.

[0034] The working principle of the manufacturing equipment for sandwich insulation rock wool board of the present invention is as follows: When in use, the board 100 is placed in the positioning groove of the conveyor plate 4, and the conveyor belt 2 drives the conveyor plate 4 and the board 100 to move. When the board 100 enters the protective cover 1 and passes through the cleaning mechanism, the motor 5 drives the brush roller 7 to rotate through the horizontal rotating shaft 6, so that the brush roller 7 brushes off the dust and impurities adhering to the surface of the board 100. Then, the dust and impurities are sucked into the dust suction pipe 9 through the dust suction cover 8 and discharged into the dust collection box 10, thereby completing the cleaning operation of the surface of the board 100. After cleaning, the sheet material 100 continues to move with the conveyor belt 2. When the sheet material 100 reaches the glue-applying mechanism, the driving inclined surface 25 of the top plate 24 on the conveyor plate 4 will contact the driven inclined surface 27 of the corresponding driven plate 26. Through the contact cooperation between the driving inclined surface 25 and the driven inclined surface 27, the driven plate 26 is lifted up, thereby driving the lifting plate 17 to move upward and compress the second return spring 23. During the upward movement of the lifting plate 17, the glue-applying pipe 18 will also move upward, so that the glue-applying pipe 18 is inserted into the corresponding glue guide pipe 13. The glue-applying pipe 18 will contact the bottom of the movable sealing plug 15 and push the movable sealing plug 15 upward. In the large-diameter end 14, when the movable sealing plug 15 moves upward, it will compress the first return spring 16. When the glue-spraying tube 18 moves upward to the position, the glue-guiding opening 19 of the glue-spraying tube 18 is located in the large-diameter section 14 of the glue-guiding tube 13. At this time, the glue-spraying tube 18 will be connected to the large-diameter section 14 of the glue-guiding tube 13 through the glue-guiding opening 19. The glue in the glue storage container 12 will be introduced into the glue-spraying tube 18 through the large-diameter section 14 of the glue-guiding tube 13 and then flow out and be sprayed onto the surface of the board 100. During the process of the board 100 passing through the glue-spraying mechanism, the glue-spraying tube 18 and the large-diameter section 14 of the glue-guiding tube 13 remain connected to ensure that the surface of the board 100 is fully coated with glue. When the sheet 100 is removed from the glue-applying mechanism, the top plate 24 will separate from the driven plate 26. At this time, the lifting plate 17 will drive the glue-applying tube 18 to return to its original position under the elastic force of the second return spring 23. The movable sealing plug 15 will also return to its original position under the elastic force of the first return spring 16, sealing the bottom end of the glue-guide tube 13 to prevent glue from flowing out. Furthermore, by providing a positioning boss 28 at the bottom of the movable sealing plug 15, when the glue-applying tube 18 contacts the bottom of the movable sealing plug 15, the glue-applying tube 18 will be fitted onto the outside of the positioning boss 28, thus achieving positioning between the movable sealing plug 15 and the glue-applying tube 18. In addition, by providing a glue replenishment box 31 and a glue replenishment tube 33, the glue replenishment box 31 replenishes the consumed glue to the glue storage container 12 through the glue replenishment tube 33.

[0035] The above description is only a preferred embodiment of the present invention. It should be noted that for those skilled in the art, several improvements and modifications can be made without departing from the technical principles of the present invention, and these improvements and modifications should also be considered within the scope of protection of the present invention.

Claims

1. A manufacturing equipment for sandwich insulation rock wool panels, characterized in that, Includes a conveying mechanism, protective cover, cleaning mechanism, and adhesive application mechanism; The conveying mechanism includes a conveyor belt, with side plates on both sides of the conveyor belt, and several conveyor plates fixed on the conveyor belt. The top of each conveyor plate is provided with a positioning groove for placing the plate. The protective cover is installed above the conveyor belt and is fixedly connected to the side plate; The cleaning mechanism and the glue-applying mechanism are arranged sequentially along the conveyor belt's conveying direction. The cleaning mechanism includes a motor, a horizontal rotating shaft, a brush roller, a dust suction hood, a dust suction pipe, and a dust collection box. The horizontal rotating shaft is rotatably installed inside the protective cover. One end of the horizontal rotating shaft passes through the side wall of the protective cover and is connected to the motor. The rotation direction of the horizontal rotating shaft is opposite to the conveyor belt's conveying direction. The brush roller is fixedly mounted on the horizontal rotating shaft. The dust suction hood is positioned above the brush roller. The dust collection box is fixed to the top of the protective cover. One end of the dust suction pipe is connected to the dust collection box, and the other end of the dust suction pipe passes through the top wall of the protective cover and is connected to the dust suction hood. A suction pump is provided on the dust suction pipe. The glue-applying mechanism includes a glue storage container inside a protective cover, which is fixedly connected to the top wall of the protective cover. Several glue-guide tubes are connected to the bottom of the glue storage container, and these tubes are arranged at equal intervals along the width of the conveyor belt. Each glue-guide tube has a large-diameter section in its middle, and a movable sealing plug is located inside its bottom end. A first return spring connects the top of the movable sealing plug to the glue storage container. A lifting plate is located below the glue storage container, and several glue-applying tubes corresponding one-to-one with the glue-guide tubes are fixed in the lifting plate. Each glue-applying tube can be inserted into its corresponding glue-guide tube, and the tube wall has a glue-guided opening. Two support blocks are symmetrically arranged below the lifting plate. The two support blocks are fixedly connected to the two side walls of the protective cover. The top of the support block is provided with a guide rod that penetrates the lifting plate. The top of the guide rod is provided with a stop block. A second return spring sleeved on the guide rod is connected between the stop block and the lifting plate. The top of the conveyor plate is provided with two top plates. The two top plates are located on both sides of the positioning groove. The end of the top plate near the output end of the conveyor belt is provided with a driving inclined surface. The bottom of the lifting plate is provided with two driven plates that correspond one-to-one with the top plates. The end of the driven plate away from the output end of the conveyor belt is provided with a driven inclined surface that corresponds to the driving inclined surface.

2. The manufacturing equipment for sandwich insulation rock wool boards according to claim 1, characterized in that, The outer diameter of the glue-coating tube is the same as the inner diameter of the bottom end of the glue-guiding tube.

3. The manufacturing equipment for sandwich insulation rock wool boards according to claim 2, characterized in that, The bottom of the movable sealing plug is provided with a positioning boss, and the top of the glue-applying tube can be fitted onto the outside of the positioning boss.

4. The manufacturing equipment for sandwich insulation rock wool boards according to claim 3, characterized in that, The outer circumferential surface of the movable sealing plug is provided with an annular sealing groove, and a sealing ring is provided in the annular sealing groove.

5. The manufacturing equipment for sandwich insulation rock wool boards according to claim 4, characterized in that, The glue application mechanism also includes a glue filling box, which is fixed to the top of the protective cover by a bracket, and a glue filling tube is connected to the bottom of the glue filling box. The bottom end of the glue filling tube penetrates the top wall of the protective cover and is connected to the glue storage container.

6. The manufacturing equipment for sandwich insulation rock wool boards according to claim 1, characterized in that, The motor is fixedly connected to the side wall of the protective cover via a mounting plate.