Automatic gluing mechanism for glass wool board

By designing an automatic adhesive applicator for glass wool boards, the problem of uneven glue application and waste during the cutting process of glass wool boards was solved, achieving uniform glue application and efficient production, and improving the ease of operation and equipment reliability.

CN118991209BActive Publication Date: 2026-07-10ANHUI JIYAO GLASS MICROFIBER CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Patents(China)
Current Assignee / Owner
ANHUI JIYAO GLASS MICROFIBER CO LTD
Filing Date
2024-09-27
Publication Date
2026-07-10

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    Figure CN118991209B_ABST
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Abstract

This invention discloses an automatic adhesive application mechanism for glass wool boards, including an installation frame, a conveyor belt, a fixing mechanism, an adjustment mechanism, an auxiliary mechanism one, a cutting mechanism, and an auxiliary mechanism two. A hydraulic cylinder is activated to drive a telescopic rod, bringing the clamping plates of the two fixing mechanisms closer together to clamp and fix the glass wool board. The height of the cutting mechanism is adjusted by a cylinder in the adjustment mechanism, and the cutting mechanism is driven by a drive mechanism to cut the glass wool board. The feed inlet is connected to a latex feed pipe, allowing latex to enter the feed cavity of the feed block through the feed inlet, then through the connecting port into the connecting groove. The latex flows through the connecting groove into the overflow groove, and then through the overflow groove to spread to the uniform groove, contacting the cut surface of the glass wool board. Adhesive application to the glass wool board is completed during the cutting process, ensuring uniform application and improving production efficiency. It also reduces chipping during glass wool board cutting, improving the working environment in the workshop.
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Description

Technical Field

[0001] This invention relates to the field of glass wool board processing equipment technology, specifically to an automatic adhesive applicator for glass wool boards. Background Technology

[0002] Glass wool board is a material formed by applying adhesive to glass wool and then curing it. It has good thermal insulation, shock absorption and sound absorption properties and is widely used in construction, refrigeration equipment, transportation and other fields. When producing glass wool board, foil needs to be attached. The existing foil attaching process is to apply adhesive or to use heat-sealing foil. The adhesive application process is to use a brush to apply adhesive to the foil, and the foil and glass wool are bonded together to form glass wool board.

[0003] Chinese Patent CN205701208U discloses a device for applying adhesive to glass wool sheet material, comprising a conveying platform, a foil conveying mechanism, and an adhesive spraying mechanism. The conveying platform is equipped with a conveyor belt to transport the glass wool sheet material. The adhesive spraying mechanism is located below the conveying platform and includes a glue tank, a glue delivery pipe, an air pipe, and several glue spray guns. The glue spray guns are arranged transversely along the foil, and the glue delivery pipe and air pipe are respectively connected to the glue spray guns. This device can uniformly spray adhesive onto the foil, bonding the foil and glass wool to form a glass wool felt board. It features rapid bonding, convenient operation, energy saving, and no damage to the surface of the surface to be bonded.

[0004] The shortcomings of the above-mentioned existing technical solutions are: by first spraying adhesive on the foil and then pasting the foil onto the glass wool board, when manually applying the foil to the customized irregular glass wool board, it is inconvenient for workers to operate because the foil is covered with adhesive and it is easy to waste adhesive. Summary of the Invention

[0005] The purpose of this invention is to provide an automatic adhesive applicator for glass wool boards, which solves the technical problem in the prior art where adhesive is sprayed onto the foil first and then pasted onto the glass wool board. When manually applying the foil to custom-made irregular glass wool boards, the glue on the foil is inconvenient for workers and easily leads to glue waste.

[0006] The technical problem to be solved by this invention can be achieved through the following technical solution:

[0007] An automatic adhesive applicator for glass wool boards includes:

[0008] Auxiliary mechanism one includes mechanism body one, a connecting groove is provided along the length direction of mechanism body one, overflow grooves are evenly distributed along the length direction of connecting grooves, the overflow grooves are connected to the connecting grooves, the overflow grooves are provided on mechanism body one, feeding blocks are symmetrically distributed and fixedly connected on mechanism body one, feeding inner cavity is provided in the feeding block, and a connecting port is provided on the connecting groove, the connecting port is connected to the feeding inner cavity.

[0009] Auxiliary mechanism 2 includes mechanism body 2, which has an overflow channel corresponding to the overflow channel. Connecting side plates 2 are symmetrically distributed and fixedly connected at both ends of mechanism body 2. Connecting side plates 2 have connecting grooves, which are corresponding to the connecting openings. Connecting side plates 2 are located on one end face of mechanism body 1 with the connecting groove. A uniform groove is located on the end face of connecting side plate 2 away from mechanism body 1. The uniform groove is connected to the overflow channel.

[0010] The cutting mechanism includes a cutting mounting plate, on which the cutting body is fixedly connected. The cutting mounting plate is snapped between auxiliary mechanism one and auxiliary mechanism two.

[0011] The installation frames are symmetrically arranged, with conveyor belts fixedly installed between them. Each installation frame is fixedly connected to an installation plate, and the installation plate is equipped with a fixing mechanism for fixing the glass wool board. Columns are symmetrically distributed and fixedly connected to the installation plates, and a top frame is fixedly connected to the columns. An adjustment mechanism for driving the cutting mechanism to cut is fixedly installed on the top frame. An auxiliary mechanism is set on the adjustment mechanism.

[0012] As a further aspect of the present invention, the cutter mounting plate and the cutter body are arranged in a stepped manner.

[0013] As a further embodiment of the present invention: a connecting strip plate 1 is fixedly connected to one side along the length direction of the main body of the mechanism 1, and a connecting strip plate 2 is fixedly connected to the other side along the length direction of the main body of the mechanism 1. A connecting through hole 1 is evenly distributed and penetrated on the connecting strip plate 1, and a connecting through hole 2 is evenly distributed and penetrated on the connecting strip plate 2. A limiting strip is evenly distributed and fixedly connected on the connecting strip plate 2. A connecting side plate 1 is fixedly connected to both ends of the main body of the mechanism 1, and a connecting through hole 3 is opened on the connecting side plate 1.

[0014] As a further embodiment of the present invention: a connecting post 1 corresponding to the connecting through hole 1 is fixedly connected to the main body 2 of the mechanism; a connecting post 2 corresponding to the connecting through hole 2 is fixedly connected to the main body 2 of the mechanism; a connecting post 3 corresponding to the connecting through hole 3 is fixedly connected to the main body 2 of the mechanism; the connecting post 1 is fitted into the connecting through hole 1; the connecting post 2 is fitted into the connecting through hole 2; and the connecting post 3 is fitted into the connecting through hole 3.

[0015] As a further aspect of the present invention: connecting post one, connecting post two, and connecting post three are all provided with connecting post threaded holes, and a screw rod one is threadedly connected into the connecting post threaded holes of connecting post one, connecting post two, and connecting post three. The nut end of the screw rod one abuts against the main body of the mechanism one, and the connection gaps of auxiliary mechanism one and auxiliary mechanism two are filled with sealing cotton sheets.

[0016] As a further embodiment of the present invention: a limiting strip through groove corresponding to the limiting strip is provided on the cutting blade mounting plate, and a mounting plate through hole corresponding to the connecting through hole two is provided on the cutting blade mounting plate. The mounting plate through hole is sleeved on the connecting post two, and the limiting strip through groove is sleeved on the limiting strip.

[0017] As a further embodiment of the present invention: the adjustment mechanism includes two symmetrically arranged slide rails, each slide rail having a slider slidably arranged on it, and each slider having a connecting plate fixedly connected to its lower end. Two cylinder mounting plates are symmetrically distributed and fixedly connected to the lower end of the connecting plates.

[0018] As a further embodiment of the present invention: cylinders are fixedly connected to each cylinder mounting plate, cylinder telescopic rods are fixedly connected to the driving end of the cylinders, and connecting plates are fixedly connected to the lower ends of the two cylinder telescopic rods. Two fixing brackets are symmetrically distributed and fixedly connected to the lower ends of the connecting plates, and mechanism mounting plates are fixedly connected to the lower ends of the fixing brackets. Threaded holes are opened on the mechanism mounting plates.

[0019] As a further embodiment of the present invention: the feed block is provided with a feed port for communicating with the feed pipe, the feed port is connected to the feed cavity, a mechanism mounting plate two is fixedly connected to the feed block, the mechanism mounting plate two is provided with a connecting through hole four corresponding to the threaded hole, a connecting screw two is connected between the mechanism mounting plate one and the mechanism mounting plate two, the screw two passes through the connecting through hole four and is threadedly connected to the threaded hole.

[0020] As a further embodiment of the present invention: the fixing mechanism includes a mechanism fixing plate, a hydraulic cylinder mounting seat is fixedly connected to the mechanism fixing plate, a hydraulic cylinder is fixedly connected to the hydraulic cylinder mounting seat, a hydraulic cylinder telescopic rod is fixedly connected to the driving end of the hydraulic cylinder, a clamping plate is fixedly connected to the hydraulic cylinder telescopic rod, and the mechanism fixing plate is fixedly connected to the mounting plate.

[0021] The beneficial effects of this invention are:

[0022] 1. This invention places glass wool boards on a conveyor belt, which transports the glass wool boards between two fixed mechanisms. A hydraulic cylinder is activated to drive the hydraulic cylinder extension rod, bringing the clamping plates of the two fixed mechanisms closer together to clamp and fix the glass wool boards. The height of the cutting mechanism is adjusted by the cylinder of the adjusting mechanism, and the cutting mechanism is driven by the driving mechanism to cut the glass wool boards. The feed inlet is connected to the latex feed pipe. The latex enters the feed cavity of the feed block through the feed inlet, and then enters the connecting groove through the connecting port. The latex flows into the overflow groove through the connecting groove, and then diffuses into the uniform groove through the overflow groove to contact the cut surface of the glass wool board. The glass wool boards are coated with adhesive during the cutting process, ensuring uniform application of the latex and improving production efficiency. It also reduces chipping during the glass wool board cutting process, improving the working environment in the workshop.

[0023] 2. The main body of the present invention has two symmetrically distributed and fixedly connected connecting side plates at both ends. The connecting side plates are provided with connecting grooves, and the connecting grooves are correspondingly provided with connecting openings. When latex is injected into the connecting groove through the connecting opening, the space formed by the connecting groove can provide a buffer zone for the latex, thereby improving the fluidity of the latex and preventing it from overflowing at the overflow groove, causing uneven application of the latex and waste of the latex.

[0024] 3. Auxiliary mechanism one has multiple connecting through holes that correspond to multiple connecting posts on auxiliary mechanism two. This ensures a tight connection between auxiliary mechanism one and auxiliary mechanism two while allowing for detachable installation between them. This facilitates maintenance and replacement of the cutting mechanism. The stepped arrangement between the cutting mounting plate and the cutting body allows the cutting mechanism to be snapped between auxiliary mechanism one and auxiliary mechanism two while ensuring the structural strength of the cutting mechanism itself and improving the reliability of the device. Attached Figure Description

[0025] The invention will now be further described with reference to the accompanying drawings.

[0026] Figure 1 This is a three-dimensional structural schematic diagram of the present invention;

[0027] Figure 2 This is a schematic diagram of the connection structure between auxiliary mechanism one, the cutting mechanism, and auxiliary mechanism two of the present invention. Figure 1 ;

[0028] Figure 3 This is a schematic diagram of the connection structure between auxiliary mechanism one, the cutting mechanism, and auxiliary mechanism two of the present invention. Figure 2 ;

[0029] Figure 4 This is a three-dimensional structural diagram of the auxiliary mechanism of the present invention;

[0030] Figure 5 This is a schematic diagram of the three-dimensional structure of the cutting mechanism of the present invention. Figure 1 ;

[0031] Figure 6 This is a schematic diagram of the three-dimensional structure of the cutting mechanism of the present invention. Figure 2 ;

[0032] Figure 7 This is a schematic diagram of the two-dimensional structure of the auxiliary mechanism of the present invention. Figure 1 ;

[0033] Figure 8 This is a schematic diagram of the two-dimensional structure of the auxiliary mechanism of the present invention. Figure 2 ;

[0034] Figure 9 This is a three-dimensional structural diagram of the adjustment mechanism of the present invention;

[0035] Figure 10 This is a three-dimensional structural diagram of the fixing mechanism of the present invention.

[0036] In the diagram: 1. Mounting frame; 2. Conveyor belt; 3. Mounting plate; 4. Column; 5. Top frame; 6. Fixing mechanism; 61. Mechanism fixing plate; 62. Hydraulic cylinder mounting seat; 63. Hydraulic cylinder; 64. Hydraulic cylinder telescopic rod; 65. Clamping plate; 7. Adjusting mechanism; 71. Slide rail; 72. Slider; 73. Connecting plate one; 74. Cylinder mounting plate; 75. Cylinder; 76. Cylinder telescopic rod; 77. Connecting plate two; 78. Fixing frame; 79. Mechanism mounting plate one; 710. Threaded hole; 8. Auxiliary mechanism one; 81. Mechanism body one; 82. Connecting groove; 83. Overflow groove; 84. Connecting strip plate one; 85. Connecting through hole one; 86. Connecting strip plate two; 87. Connecting through hole two; 88. Limiting strip; 89. Connecting side plate one; 810. Connecting through hole three; 811. Feed block; 812. Connecting port; 813. Feed port; 814. Mechanism mounting plate two; 815. Connecting through hole four; 9. Cutting mechanism; 91. Cutting mounting plate; 92. Mounting plate through hole; 93. Limiting strip through groove; 94. Cutting body; 10. Auxiliary mechanism two; 101. Mechanism body two; 102. Overflow through groove; 103. Uniform groove; 104. Connecting side plate two; 105. Connecting groove; 106. Connecting column one; 107. Connecting column two; 108. Connecting column three. Detailed Implementation

[0037] The technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of the present invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of the present invention.

[0038] like Figures 1-10As shown, an automatic adhesive applicator for glass wool boards includes a symmetrically arranged mounting frame 1, an auxiliary mechanism 1 8, an auxiliary mechanism 2 10, and a cutting mechanism 9. The auxiliary mechanism 1 8 includes a main body 81 with a connecting groove 82 along its length. Overflow grooves 83 are evenly distributed along the length of the connecting groove 82, communicating with the connecting groove 82. The overflow grooves 83 are located on the main body 81. Feed blocks 811 are symmetrically distributed and fixedly connected to the main body 81, each containing a feeding cavity. A connecting port 812 is located on the connecting groove 82, communicating with the feeding cavity. The auxiliary mechanism 2 10 includes a main body 2 101 with an overflow groove 102 corresponding to the overflow groove 83. Connecting side plates 2 104 are symmetrically distributed and fixedly connected to both ends of the main body 2 101, each containing a connecting groove 105. 105 is correspondingly set with the connecting port 812. The connecting side plate 2 104 is set on the end face of the main body 1 81 of the mechanism with the connecting groove 82. The end face of the connecting side plate 2 104 away from the main body 1 81 of the mechanism has a uniform groove 103. The uniform groove 103 is connected to the overflow groove 102. The cutting mechanism 9 includes a cutting mounting plate 91. The cutting body 94 is fixedly connected to the cutting mounting plate 91. The cutting mounting plate 91 and the cutting body 94 are set in a stepped manner. The cutting mounting plate 91 is snapped between the auxiliary mechanism 1 8 and the auxiliary mechanism 2 10. The conveyor belt 2 is fixedly installed between the symmetrically arranged mounting frames 1. The mounting frames 1 are all fixedly connected with mounting plates 3. The mounting plates 3 are provided with a fixing mechanism 6 for fixing the glass wool board. The mounting plates 3 are symmetrically distributed and fixedly connected with columns 4. The columns 4 are fixedly connected with top frames 5. The top frames 5 are fixedly installed with an adjustment mechanism 7 for driving the cutting mechanism 9 to cut. The auxiliary mechanism 1 8 is set on the adjustment mechanism 7.

[0039] A connecting strip 84 is fixedly connected to one side along the length of the main body 81, and a connecting strip 86 is fixedly connected to the other side along the length of the main body 81. Connecting through holes 85 are evenly distributed and penetrated on the connecting strip 84. Connecting through holes 87 are evenly distributed and penetrated on the connecting strip 86. Limiting strips 88 are evenly distributed and fixedly connected on the connecting strip 86. Connecting side plates 89 are fixedly connected to both ends of the main body 81, and connecting through holes 810 are opened on the connecting side plates 89.

[0040] A connecting post 106 corresponding to the connecting through hole 85 is fixedly connected to the main body 2 101 of the mechanism. A connecting post 107 corresponding to the connecting through hole 87 is fixedly connected to the main body 2 101 of the mechanism. A connecting post 108 corresponding to the connecting through hole 810 is fixedly connected to the main body 2 101 of the mechanism. The connecting post 106 is fitted into the connecting through hole 85, the connecting post 107 is fitted into the connecting through hole 87, and the connecting post 108 is fitted into the connecting through hole 810. The connecting posts 106, 107, and 108 are all provided with threaded holes. A screw rod is threaded into the threaded holes of the connecting posts 106, 107, and 108. The nut end of the screw rod abuts against the main body 1 81 of the mechanism. The gaps between the auxiliary mechanism 1 8 and the auxiliary mechanism 2 10 are filled with sealing cotton sheets.

[0041] The cutter mounting plate 91 has a limiting strip through groove 93 corresponding to the limiting strip 88, and the cutter mounting plate 91 has a mounting plate through hole 92 corresponding to the connecting through hole 87. The mounting plate through hole 92 is fitted onto the connecting post 107, and the limiting strip through groove 93 is fitted onto the limiting strip 88.

[0042] The adjusting mechanism 7 includes two symmetrically arranged slide rails 71, each slide rail 71 having a slider 72 slidably mounted on it. The lower ends of the two sliders 72 are fixedly connected to a connecting plate 73. The lower ends of the connecting plate 73 have two cylinder mounting plates 74 symmetrically distributed and fixedly connected to them. Each cylinder mounting plate 74 has a cylinder 75 fixedly connected to it. The driving end of each cylinder 75 has a cylinder telescopic rod 76 fixedly connected to it. The lower ends of the two cylinder telescopic rods 76 are fixedly connected to a connecting plate 77. The lower ends of the connecting plate 77 have two fixing brackets 78 symmetrically distributed and fixedly connected to them. The lower ends of each fixing bracket 78 have a mechanism mounting plate 79 fixedly connected to it. The mechanism mounting plate 79 has a threaded hole 710.

[0043] The feed block 811 has a feed port 813 for connecting to the feed pipe. The feed port 813 is connected to the feed cavity. A mechanism mounting plate 2 814 is fixedly connected to the feed block 811. The mechanism mounting plate 2 814 has a connecting through hole 4 815 corresponding to the threaded hole 710. A connecting screw 2 is connected between the mechanism mounting plate 1 79 and the mechanism mounting plate 2 814. The screw 2 passes through the connecting through hole 4 815 and is threadedly connected to the threaded hole 710.

[0044] The fixing mechanism 6 includes a mechanism fixing plate 61, a hydraulic cylinder mounting seat 62 is fixedly connected to the mechanism fixing plate 61, a hydraulic cylinder 63 is fixedly connected to the hydraulic cylinder mounting seat 62, a hydraulic cylinder telescopic rod 64 is fixedly connected to the drive end of the hydraulic cylinder 63, a clamping plate 65 is fixedly connected to the hydraulic cylinder telescopic rod 64, and the mechanism fixing plate 61 is fixedly connected to the mounting plate 3.

[0045] A drive mechanism for driving the slider 72 to slide along the slide rail 71 is fixedly connected to the top frame 5. The drive mechanism can be a slide rod cylinder.

[0046] To facilitate understanding of the embodiments of this solution by those skilled in the art, the working principle of this solution will now be briefly explained in conjunction with specific application scenarios:

[0047] In use, the glass wool board is placed on the conveyor belt 2, which transports it between two fixed mechanisms 6. The hydraulic cylinder 63 is activated to drive the hydraulic cylinder extension rod 64, bringing the clamping plates 65 of the two fixed mechanisms 6 closer together to clamp and fix the glass wool board. The height of the cutting mechanism 9 is adjusted by the cylinder 75 of the adjusting mechanism 7, and the cutting mechanism 9 is driven by the driving mechanism to cut the glass wool board. The feed inlet 813 is connected to the latex feed pipe. The latex enters the feed cavity of the feed block 811 through the feed inlet 813, and then enters the connecting groove 82 through the connecting port 812. The latex flows into the overflow groove 83 through the connecting groove 82, and then diffuses through the overflow groove 102 to the uniform groove 103, contacting the cut surface of the glass wool board. The glass wool board is coated with adhesive during the cutting process, ensuring uniform application and improving production efficiency. It also reduces chipping during glass wool board cutting, improving the working environment in the workshop. (Mechanism body 2 10) 1. Two connecting side plates 104 are symmetrically distributed and fixedly connected at both ends. Connecting side plates 104 are provided with connecting grooves 105, which correspond to connecting ports 812. When latex is injected into the connecting grooves 105 through the connecting ports 812, the space formed by the connecting grooves 105 can provide a buffer zone for the latex, thereby improving the flowability of the latex and preventing it from overflowing at the overflow grooves 83, which would cause uneven application of the latex and waste of the latex. Auxiliary mechanism 1 8 is provided with multiple connecting through holes that correspond to multiple connecting posts on auxiliary mechanism 2 10. While ensuring the tight connection between auxiliary mechanism 1 8 and auxiliary mechanism 2 10, it also enables the detachable installation of auxiliary mechanism 1 8 and auxiliary mechanism 2 10, which facilitates the maintenance and replacement of the cutting mechanism 9. The cutting mounting plate 91 and the cutting body 94 are set in a stepped manner, which enables the cutting mechanism 9 to be snapped between auxiliary mechanism 1 8 and auxiliary mechanism 2 10, while ensuring the structural strength of the cutting mechanism 9 itself and improving the reliability of the device.

[0048] The foregoing has described several embodiments of the present invention in detail, but these embodiments are not limited thereto and should not be considered as limiting the scope of the invention. All equivalent variations and improvements made within the scope of the claims of this invention should still fall within the patent coverage of this invention.

Claims

1. An automatic adhesive applicator for glass wool boards, characterized in that, include: Auxiliary mechanism 1 (8) includes mechanism body 1 (81), a connecting groove (82) is provided along the length direction of mechanism body 1 (81), overflow grooves (83) are evenly distributed along the length direction of connecting groove (82), the overflow grooves (83) are connected to the connecting grooves (82), the overflow grooves (83) are provided on mechanism body 1 (81), feeding blocks (811) are symmetrically distributed and fixedly connected on mechanism body 1 (81), a feeding cavity is provided in the feeding block (811), a connecting port (812) is provided on the connecting groove (82), and the connecting port (812) is connected to the feeding cavity; Auxiliary mechanism two (10) includes mechanism body two (101), mechanism body two (101) is provided with overflow channel (102) corresponding to overflow channel (83), mechanism body two (101) is symmetrically distributed and fixedly connected with connecting side plate two (104) at both ends, connecting side plate two (104) is provided with connecting groove (105), connecting groove (105) is provided with corresponding connecting port (812), connecting side plate two (104) is provided on one side end face of mechanism body one (81) where the connecting groove (82) is provided, connecting side plate two (104) is provided with uniform groove (103) on one side end face of connecting side plate two (104) away from mechanism body one (81), and uniform groove (103) is connected to overflow channel (102); The cutting mechanism (9) includes a cutting mounting plate (91), on which a cutting body (94) is fixedly connected. The cutting mounting plate (91) is snapped between auxiliary mechanism one (8) and auxiliary mechanism two (10). A symmetrically arranged installation frame (1) is provided, and a conveyor belt (2) is fixedly installed between the symmetrically arranged installation frames (1). An installation plate (3) is fixedly connected to each of the installation frames (1). A fixing mechanism (6) for fixing glass wool board is provided on the installation plate (3). Columns (4) are symmetrically distributed and fixedly connected on the installation plate (3). A top frame (5) is fixedly connected to the column (4). An adjustment mechanism (7) for driving the cutting mechanism (9) to cut is fixedly installed on the top frame (5). An auxiliary mechanism (8) is set on the adjustment mechanism (7). The cutter mounting plate (91) and the cutter body (94) are arranged in a stepped manner.

2. The automatic adhesive applicator for glass wool board according to claim 1, characterized in that, A connecting strip plate 1 (84) is fixedly connected to one side along the length direction of the main body 1 (81), and a connecting strip plate 2 (86) is fixedly connected to the other side along the length direction of the main body 1 (81). A connecting through hole 1 (85) is evenly distributed and penetrated on the connecting strip plate 1 (84), and a connecting through hole 2 (87) is evenly distributed and penetrated on the connecting strip plate 2 (86). A limit strip (88) is evenly distributed and fixedly connected on the connecting strip plate 2 (86). A connecting side plate 1 (89) is fixedly connected to both ends of the main body 1 (81), and a connecting through hole 3 (810) is opened on the connecting side plate 1 (89).

3. The automatic adhesive applicator for glass wool board according to claim 2, characterized in that, The main body of the mechanism (101) is fixedly connected to a connecting post (106) corresponding to the connecting through hole (85), the main body of the mechanism (101) is fixedly connected to a connecting post (107) corresponding to the connecting through hole (87), the main body of the mechanism (101) is fixedly connected to a connecting post (108) corresponding to the connecting through hole (810), the connecting post (106) is sleeved in the connecting through hole (85), the connecting post (107) is sleeved in the connecting through hole (87), and the connecting post (108) is sleeved in the connecting through hole (810).

4. The automatic adhesive applicator for glass wool board according to claim 3, characterized in that, Connecting post one (106), connecting post two (107) and connecting post three (108) are all provided with connecting post thread holes. A screw rod one is threaded into the connecting post thread holes of connecting post one (106), connecting post two (107) and connecting post three (108). The nut end of the screw rod one abuts against the main body of the mechanism one (81). The connection gaps of auxiliary mechanism one (8) and auxiliary mechanism two (10) are filled with sealing cotton sheets.

5. The automatic adhesive applicator for glass wool board according to claim 4, characterized in that, The cutter mounting plate (91) has a limiting strip through groove (93) corresponding to the limiting strip (88), and the cutter mounting plate (91) has a mounting plate through hole (92) corresponding to the connecting through hole two (87). The mounting plate through hole (92) is fitted onto the connecting post two (107), and the limiting strip through groove (93) is fitted onto the limiting strip (88).

6. The automatic adhesive applicator for glass wool board according to claim 1, characterized in that, The adjustment mechanism (7) includes two symmetrically arranged slide rails (71), each slide rail (71) has a slider (72) slidably arranged on it, and each slider (72) has a connecting plate (73) fixedly connected to its lower end. The lower end of the connecting plate (73) has two cylinder mounting plates (74) symmetrically distributed and fixedly connected.

7. The automatic adhesive applicator for glass wool board according to claim 6, characterized in that, Cylinders (75) are fixedly connected to the cylinder mounting plate (74). Cylinder telescopic rods (76) are fixedly connected to the drive end of the cylinders (75). Connecting plate two (77) is fixedly connected to the lower end of the two cylinder telescopic rods (76). Two fixing brackets (78) are symmetrically distributed and fixedly connected to the lower end of the connecting plate two (77). Mechanism mounting plate one (79) is fixedly connected to the lower end of the fixing brackets (78). Threaded holes (710) are opened on mechanism mounting plate one (79).

8. The automatic adhesive applicator for glass wool board according to claim 7, characterized in that, The feed block (811) is provided with a feed port (813) for connecting with the feed pipe. The feed port (813) is connected to the feed cavity. The feed block (811) is fixedly connected with a mechanism mounting plate two (814). The mechanism mounting plate two (814) is provided with a connecting through hole four (815) corresponding to the threaded hole (710). The mechanism mounting plate one (79) and the mechanism mounting plate two (814) are connected by a screw two. The screw two passes through the connecting through hole four (815) and is threadedly connected to the threaded hole (710).

9. The automatic adhesive applicator for glass wool board according to claim 1, characterized in that, The fixing mechanism (6) includes a mechanism fixing plate (61), a hydraulic cylinder mounting seat (62) is fixedly connected to the mechanism fixing plate (61), a hydraulic cylinder (63) is fixedly connected to the hydraulic cylinder mounting seat (62), a hydraulic cylinder telescopic rod (64) is fixedly connected to the drive end of the hydraulic cylinder (63), a clamping plate (65) is fixedly connected to the hydraulic cylinder telescopic rod (64), and the mechanism fixing plate (61) is fixedly connected to the mounting plate (3).