阅读说明：本技术 一种基于智慧建筑铺设保温板设备 (Based on wisdom building lays heated board equipment ) 是由 郑帅 于 2021-09-03 设计创作，主要内容包括：一种基于智慧建筑铺设保温板设备,包括悬挂升降机构、调节机构、装板机构、推板涂胶机构和保温板铺设机构；所述悬挂升降机构用于支撑整个设备和悬挂其他机构；调节机构通过吊绳悬挂在悬挂升降机构上,实现了水平调节保温板的铺设位置的功能；所述装板机构通过滑槽滑动安装在调节机构的箱体内,实现了通过弹簧将放入箱内的保温板组到达顶部位置的功能,便于下一步的操作；所述推板涂胶机构滑动安装在调节机构上,实现了将调节机构的箱体内的保温板推出和在保温板上涂胶的功能；所述保温板铺设机构活动安装在推板涂胶机构上,实现了自动保温板的铺设功能,避免了人工铺设保温板的不安全因素。(An equipment for paving heat-insulation boards based on an intelligent building comprises a suspension lifting mechanism, an adjusting mechanism, a board loading mechanism, a push board gluing mechanism and a heat-insulation board paving mechanism; the suspension lifting mechanism is used for supporting the whole equipment and suspending other mechanisms; the adjusting mechanism is hung on the suspension lifting mechanism through a lifting rope, so that the function of horizontally adjusting the laying position of the heat-insulation plate is realized; the plate loading mechanism is slidably arranged in the box body of the adjusting mechanism through the sliding chute, so that the function of enabling the heat insulation plate group placed in the box to reach the top position through the spring is realized, and the next operation is facilitated; the push plate gluing mechanism is slidably mounted on the adjusting mechanism, so that the functions of pushing out the insulation board in the box body of the adjusting mechanism and gluing the insulation board are realized; heated board laying mechanism movable mounting has realized the function of laying of automatic heated board on push pedal rubber coating mechanism, has avoided the artifical unsafe factor of laying the heated board.)

1. An intelligent building-based insulation board laying device is characterized by comprising a suspension lifting mechanism (1), an adjusting mechanism (2), a board loading mechanism (3), a push board gluing mechanism (4) and an insulation board laying mechanism (5); the suspension lifting mechanism (1) is used for supporting the whole equipment and suspending other mechanisms; the adjusting mechanism (2) is hung on the hanging lifting mechanism (1) through a lifting rope (105), so that the function of horizontally adjusting the laying position of the heat-insulation plate is realized; the plate loading mechanism (3) is slidably mounted in the box body of the adjusting mechanism (2) through a sliding groove, so that the function of enabling the heat insulation plate group placed in the box to reach the top position through the spring (303) is realized, and the next operation is facilitated; the push plate gluing mechanism (4) is slidably mounted on the adjusting mechanism (2), so that the functions of pushing out the insulation board in the box body of the adjusting mechanism (2) and gluing the insulation board are realized; the insulation board laying mechanism (5) is movably arranged on the push plate gluing mechanism (4), so that the laying function of an automatic insulation board is realized, and unsafe factors of manually laying the insulation board are avoided; the suspension lifting mechanism (1) comprises a support frame (101), a suspension rod (102), a balancing weight (103), a pulley mechanism (14), a suspension rope (105) and a rope winding rod (106); the support frame (101) is fixedly arranged on the top of a building; the suspension rod (102) is rotatably arranged on the support frame (101); the counterweight block (103) is fixedly arranged on the counterweight containing plate on the suspension rod (102); the pulley mechanism (104) is arranged on the suspension rod (102) in a sliding way; one end of a lifting rope (105) is wound on the rope winding rod (106), and the other end of the lifting rope (105) is fixedly connected with the adjusting mechanism (2); the rope rolling rod (16) is rotatably arranged on the suspension rod (102); the push plate gluing mechanism (4) comprises an inserting plate (401), a push plate sliding block (402) and a gluing roller (404); the inserting plates (401) are slidably arranged in sliding grooves on two sides inside the front end face of the plate containing box (201); the push plate sliding block (402) is arranged on the sliding groove of the inserting plate (401) in a sliding manner; the gluing roller (404) is rotatably arranged in gluing bar fixing holes at two sides of the gluing plate box (202); the insulation board laying mechanism (5) comprises a laying board (501), a lead screw D (502), a sucker (507) and a conical gear (508); the paving plate (501) is used for pushing the heat insulation plate to the wall surface; the lower end face of the lead screw D (502) is fixedly connected with the upper end face of the laying plate (501); the lead screw D (502) is slidably arranged on a conical gear (508) fixing frame on the inserting plate (401); (ii) a The suction cup (507) is fixedly arranged on the lower end surface of the laying plate (501); the conical gear (508) is rotatably mounted on a conical gear (508) fixing frame on the inserting plate (401).

2. The equipment for paving the heat-insulation boards based on the intelligent building is characterized in that the suspension lifting mechanism (1) further comprises a lead screw A (107), a gear set A (108), a motor A (109), a gear set B (110), a control switch (111), a cylindrical gear A (112) and a cylindrical gear B (113);

one end of the screw A (107) is rotatably arranged in a threaded hole on the pulley mechanism (104), the other end of the screw A is arranged on the suspender (102), and the right end of the screw A (107) is fixedly provided with a conical gear (508); the gear set A (108), the gear set B (110) and the cylindrical gear B (113) are rotatably arranged on a gear fixing frame on the suspension rod (102); the motor A (109) is fixedly arranged on a motor fixing frame on the suspension rod (102); a rotating shaft of the motor A (109) is fixedly connected with the cylindrical gear B (113); the control switch (111) is arranged in a sliding groove arranged on the suspender (102) in a sliding way; the cylindrical gear A (112) is rotatably mounted on the control switch (111).

3. The equipment for paving the heat-insulation boards based on the intelligent building is characterized in that the adjusting mechanism (2) comprises a board containing box (201), a board gluing box (202), an adjusting board (203), an adjusting slider (204), a lead screw B (205), a motor B (206) and a box cover (207);

the adjusting plate (203) is hung on the lifting rope (105) through hanging rings arranged at four corners; the plate containing box (201) is slidably mounted in a sliding groove on the adjusting plate (203) through an adjusting sliding block (204) on the plate containing box, the sliding groove and the fixed round block are arranged on two sides of the plate containing box (201), and the sliding groove is arranged on two sides inside the front end face of the plate containing box; a threaded hole is formed in the adjusting sliding block (204); the glue plate box (202) is fixedly connected with the plate containing box (201), and glue coating rod fixing holes are formed in the two sides of the glue plate box (202); the screw B (205) is rotatably arranged on a screw fixing frame on the adjusting plate (203), and the screw B (205) passes through the adjusting slide block (204); the motor B (206) is fixedly arranged on a motor fixing frame on the adjusting plate (203); a rotating shaft on the motor B (206) is fixedly connected with the screw rod B (205); the glue box cover (207) is slidably mounted at the rear end of the glue board box (202).

4. The equipment for paving the heat-insulation boards based on the intelligent building is characterized in that the board-mounting mechanism (3) comprises a supporting bottom board (301), a hook (302) and a spring (303);

the supporting bottom plate (301) is slidably arranged in grooves at two sides of the plate containing box (201) through cylindrical sliding blocks at two ends; the hook (302) is rotatably arranged on the cylindrical sliding blocks at the two sides of the supporting base plate (301); the upper end of the spring (303) is fixedly connected with the supporting bottom plate (301), and the lower end of the spring (303) is fixedly connected with the bottom of the plate containing box (201).

5. The equipment for paving the heat-insulation boards based on the intelligent building is characterized in that the push plate gluing mechanism (4) further comprises a lead screw C (403), a motor C (405), an incomplete gear (406), a gear set C (407), a gear set D (408) and a gear set E (409);

the lead screw C (403) is rotatably arranged on a lead screw fixing frame on the inserting plate (401); the motor C (405) is fixedly arranged on a motor fixing frame on the plug board (401); the incomplete gear (406), the gear set C (407) and the gear set D (408) are rotatably mounted on a gear set fixing plate on the inserting plate (401); the gear set E (409) is rotatably arranged on a gear fixing frame on the inserting plate (401).

6. The intelligent building-based insulation board paving equipment as claimed in claim 1, wherein the insulation board paving mechanism (5) further comprises a gear set F (503), a gear set G (504), a gear set H (505) and a gear set I (506);

the gear set F (503) and the gear set G (504) are rotatably arranged on a gear set fixing plate on the inserting plate (401); the gear set H (505) and the gear set I (506) are rotatably arranged on a conical gear (508) fixing frame on the inserting plate (401).

Technical Field

The invention relates to the field of building instruments, in particular to equipment for paving an insulation board based on an intelligent building.

Background

In recent years, the country requires energy conservation and environmental protection of buildings, so that the requirements on environmental protection and energy conservation are upgraded, and more external walls of the buildings are coated with a layer of heat-insulating material; at present, most of insulation boards are laid manually, a sticky board rubber cylinder is required to be arranged, and potential safety hazards to personnel can be caused by laying the insulation boards at high altitude; therefore, we need to invent a device for paving heat-insulation boards based on an intelligent building to solve the technical problems.

Disclosure of Invention

Aiming at the problems, the invention provides equipment for paving the heat-insulation boards based on the intelligent building, which realizes the function of automatically adjusting the paving positions of the heat-insulation boards through a suspension lifting mechanism and an adjusting mechanism of the equipment, and saves labor; the push plate gluing mechanism of the equipment realizes the function of automatically gluing on the heat preservation plate and avoids the complicated operation of artificial gluing; the insulation board laying mechanism of the equipment realizes the laying function of the automatic insulation board and avoids unsafe factors of manually laying the insulation board.

The technical scheme adopted by the invention is as follows: an equipment for paving heat-insulation boards based on an intelligent building comprises a suspension lifting mechanism, an adjusting mechanism, a board loading mechanism, a push board gluing mechanism and a heat-insulation board paving mechanism; the suspension lifting mechanism is used for supporting the whole equipment and suspending other mechanisms; the adjusting mechanism is hung on the suspension lifting mechanism through a lifting rope, so that the function of horizontally adjusting the laying position of the heat-insulation plate is realized; the plate loading mechanism is slidably arranged in the box body of the adjusting mechanism through the sliding chute, so that the function of enabling the heat insulation plate group placed in the box to reach the top position through the spring is realized, and the next operation is facilitated; the push plate gluing mechanism is slidably mounted on the adjusting mechanism, so that the functions of pushing out the insulation board in the box body of the adjusting mechanism and gluing the insulation board are realized; heated board laying mechanism movable mounting has realized the function of laying of automatic heated board on push pedal rubber coating mechanism, has avoided the artifical unsafe factor of laying the heated board.

Further, the suspension lifting mechanism comprises a support frame, a hanging rod, a balancing weight, a pulley mechanism, a hanging rope, a rope winding rod, a screw rod A, a gear set A, a motor A, a gear set B, a control switch, a cylindrical gear A and a cylindrical gear B; the support frame is fixedly arranged on the top of the building; the suspender is rotatably arranged on the supporting frame; the balancing weight is fixedly arranged on the balancing weight containing plate on the hanging rod; the pulley mechanism is arranged on the hanging rod in a sliding way; one end of the lifting rope is wound on the rope winding rod, and the other end of the lifting rope is fixedly connected with the adjusting mechanism; the rope winding rod is rotatably arranged on the hanging rod; one end of a screw rod A is rotatably arranged in a threaded hole on the pulley mechanism, the other end of the screw rod A is arranged on the hanging rod, and a conical gear is fixedly arranged at the right end of the screw rod A; the gear set A, the gear set B and the cylindrical gear B are rotatably arranged on a gear fixing frame on the hanging rod; the motor A is fixedly arranged on a motor fixing frame on the suspender; a rotating shaft of the motor A is fixedly connected with the cylindrical gear B; the control switch is slidably arranged in a chute arranged on the suspender; the cylindrical gear A is rotatably arranged on the control switch.

Further, the adjusting mechanism comprises a plate containing box, a plate gluing box, an adjusting plate, an adjusting slider, a lead screw B, a motor B and a glue box cover; the adjusting plate is hung on the lifting rope through lifting rings arranged at four corners; the plate containing box is slidably arranged in a sliding groove on the adjusting plate through an adjusting sliding block on the plate containing box, the sliding groove and the fixed round block are arranged on two sides of the plate containing box, and the sliding groove is arranged on two sides inside the front end surface of the plate containing box; the adjusting slide block is provided with a threaded hole; the glue plate box is fixedly connected with the plate containing box, and glue coating rod fixing holes are formed in two sides of the glue plate box; the screw B is rotatably arranged on a screw fixing frame on the adjusting plate and penetrates through the adjusting slide block; the motor B is fixedly arranged on a motor fixing frame on the adjusting plate; a rotating shaft on the motor B is fixedly connected with the screw rod B; the rubber box cover is slidably arranged at the rear end of the sticky board rubber box.

Further, the plate loading mechanism comprises a supporting bottom plate, a hook and a spring; the supporting bottom plate is slidably arranged in the grooves at the two sides of the plate containing box through cylindrical sliding blocks at the two ends; the hook is rotatably arranged on the cylindrical sliding blocks at the two sides of the supporting bottom plate; the upper end of the spring is fixedly connected with the supporting bottom plate, and the lower end of the spring is fixedly connected with the bottom of the plate containing box.

Further, the push plate gluing mechanism comprises an inserting plate, a push plate sliding block, a lead screw C, a gluing roller, a motor C, an incomplete gear, a gear set C, a gear set D and a gear set E; the inserting plates are slidably arranged in the sliding grooves on two sides inside the front end surface of the plate containing box; the push plate sliding block is slidably arranged on a sliding groove on the inserting plate; the screw C is rotatably arranged on a screw fixing frame on the inserting plate, and one side of the screw C is fixedly provided with a driving wheel; the gluing roller is rotatably arranged in gluing bar fixing holes at two sides of the gluing plate glue box; the motor C is fixedly arranged on the motor fixing frame on the plug board; the incomplete gear, the gear set C and the gear set D are rotatably arranged on a gear set fixing plate on the inserting plate; the gear set E is rotatably arranged on a gear fixing frame on the inserting plate.

Further, the insulation board laying mechanism comprises a laying board, a screw D, a gear set F, a gear set G, a gear set H, a gear set I, a sucker and a conical gear; the paving plate is used for pushing the heat insulation plate to the wall surface; the lower end face of the lead screw D is fixedly connected with the upper end face of the laying plate; the lead screw D is slidably arranged on a conical gear fixing frame on the inserting plate; the gear set F and the gear set G are rotatably arranged on a gear set fixing plate on the inserting plate; the gear set H and the gear set I are rotatably arranged on a conical gear fixing frame on the inserting plate; the sucking disc is fixedly arranged on the lower end surface of the laying plate; the conical gear is rotatably arranged on the conical gear fixing frame on the inserting plate.

Due to the adoption of the technical scheme, the invention has the following advantages:

(1) according to the device, the function of automatically adjusting the laying position of the insulation board is realized through the suspension lifting mechanism and the adjusting mechanism of the device, and the labor is saved;

(2) according to the invention, through the push plate gluing mechanism of the equipment, the function of automatically gluing on the heat preservation plate is realized, and the complicated operation of manual gluing is avoided;

(3) according to the invention, the insulation board laying mechanism of the equipment realizes the laying function of the automatic insulation board and avoids unsafe factors of manually laying the insulation board.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the suspension support frame structure of the present invention.

Fig. 3 is a schematic structural diagram of the suspension lifting mechanism of the present invention.

Fig. 4 is an enlarged schematic view of a portion a in fig. 3.

Fig. 5-6 are schematic views of the adjusting mechanism of the present invention.

FIG. 7 is a schematic structural diagram of a plate loading mechanism according to the present invention.

Fig. 8 and 10 are schematic structural diagrams of the push plate gluing mechanism and the insulation board laying mechanism of the invention.

Fig. 9 is an enlarged schematic view of a portion B in fig. 8.

Reference numerals:

1-hanging a lifting mechanism; 2-an adjustment mechanism; 3-a plate loading mechanism; 4-a push plate gluing mechanism; 5-a heat insulation plate laying mechanism; 101-a support frame; 102-a boom; 103-a balancing weight; 104-a pulley mechanism; 105-a lifting rope; 106-rope winding rod; 107-screw A; 108-gear set a; 109-motor a; 110-gear set B; 111-control switch; 112-cylindrical gear a; 113-cylindrical gear B; 201-plate containing box; 202-glue box; 203-adjusting plate; 204-adjusting the slide block; 205-lead screw B; 206-motor B; 207-glue box cover; 301-a support floor; 302-hooking; 303-a spring; 401-plug board; 402-a pusher block; 403-lead screw C; 404-a glue roller; 405-Motor C; 406-incomplete gear; 407-gear set C; 408-gear set D; 409-gear set E; 501-paving a board; 502-lead screw D; 503-gear set F; 504-gear set G; 505 — gear set H; 506-Gear set I; 507-a sucker; 508-conical gear.

Detailed Description

The technical scheme of the invention is further specifically described by the following embodiments and the accompanying drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be practiced in many ways other than those described herein, and it will be apparent to those skilled in the art that similar modifications can be made without departing from the spirit of the invention, and therefore the invention is not limited to the specific embodiments disclosed below.

In the description of the present invention, it should be noted that the terms "upper", "lower", "front", "back", "left", "right", and the like indicate orientations or positional relationships based on orientations or positional relationships shown in the drawings or orientations or positional relationships that the products of the present invention are conventionally placed in use, and are only used for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the devices or elements referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

In the embodiment, as shown in fig. 1-10, an apparatus for paving insulation boards based on an intelligent building comprises a suspension lifting mechanism 1, an adjusting mechanism 2, a board loading mechanism 3, a push board gluing mechanism 4 and an insulation board paving mechanism 5; the suspension lifting mechanism 1 is used for supporting the whole equipment and suspending other mechanisms; the adjusting mechanism 2 is hung on the hanging lifting mechanism 1 through a lifting rope 105, so that the function of horizontally adjusting the laying position of the heat-insulation plate is realized; the plate loading mechanism 3 is slidably mounted in the box body of the adjusting mechanism 2 through a sliding chute, so that the function of enabling the heat insulation plate group placed in the box to reach the top position through the spring 303 is realized, and the next operation is facilitated; the push plate gluing mechanism 4 is slidably mounted on the adjusting mechanism 2, so that the functions of pushing out the insulation board in the box body of the adjusting mechanism 2 and gluing the insulation board are realized; heated board laying mechanism 5 movable mounting has realized the function of laying of automatic heated board on push pedal rubber coating mechanism 4, has avoided the artifical unsafe factor of laying the heated board.

In an optional implementation manner of the embodiment of the present invention, the suspension lifting mechanism 1 includes a support frame 101, a suspension rod 102, a counterweight 103, a pulley mechanism 104, a suspension rope 105, a rope winding rod 106, a lead screw a107, a gear set a108, a motor a109, a gear set B110, a control switch 111, a cylindrical gear a112, and a cylindrical gear B113; the support frame 101 is fixedly arranged on the top of a building; the suspender 102 is rotatably arranged on the supporting frame 101, the suspender 102 is an L-shaped long rod, and the bottom end of the suspender is provided with a counterweight holding plate; the balancing weight 103 is fixedly arranged on a balancing weight containing plate on the suspension rod 102, and the balancing weight 103 is provided with a groove which can support the stacking of a plurality of balancing weights 103 according to the weight of the balancing weight 103 at the other end; the pulley mechanism 104 is slidably mounted on the suspension rod 102, and the pulley mechanism 104 comprises a fixed pulley and a fixed pulley fixed block, wherein the fixed pulley is rotatably mounted on the fixed pulley fixed block, and the fixed pulley fixed block is provided with a threaded hole;

one end of a lifting rope 105 is wound on the rope winding rod 106, and the other end of the lifting rope is fixedly connected with the adjusting mechanism 2; the rope rolling rod 106 is rotatably arranged on the suspension rod 102; one end of a screw rod A107 is rotatably arranged in a threaded hole on the pulley mechanism 104, the other end of the screw rod A107 is arranged on the suspender 102, and a conical gear 508 is fixedly arranged at the right end of the screw rod A107; the gear set A108, the gear set B110 and the cylindrical gear B113 are rotatably arranged on a gear fixing frame on the suspender 102; gear set a108 includes a bevel gear 508 and a drive wheel; the gear set B110 comprises a cylindrical gear and a transmission wheel; the driving wheel on the gear set A108 is matched with the driving wheel on the gear set B110 through a belt; the motor A109 is fixedly arranged on a motor fixing frame on the suspension rod 102; a rotating shaft of the motor A109 is fixedly connected with the cylindrical gear B113; the control switch 111 is slidably mounted in a chute arranged on the suspender 102; the cylindrical gear A112 is rotatably arranged on the control switch 111; specifically, when the equipment needs to be moved horizontally, the movement control switch 111 enables the cylindrical gear A112 to be meshed with the gear set B110 and the cylindrical gear B113 simultaneously; the motor A109 drives the cylindrical gear B113; the cylindrical gear B113 drives the cylindrical gear A112; the cylindrical gear A112 drives the cylindrical gear on the gear group B110; the driving wheel on the gear set B110 drives the driving wheel on the gear set A108 through a belt; the bevel gear 508 on the gear group A108 drives the bevel gear 508 on the screw rod A107; the screw rod A107 is in threaded fit with a threaded hole in a fixed pulley fixing block on the pulley mechanism 104, and the screw rod A107 drives the pulley mechanism 104 to move horizontally; when the lifting device is needed, the control switch 111 is moved again to enable the cylindrical gear A112 to be meshed with the cylindrical gear and the cylindrical gear B113 on the rope winding rod 106 simultaneously; the motor A109 drives the cylindrical gear B113; the cylindrical gear B113 drives the cylindrical gear A112; the cylindrical gear A112 drives a cylindrical gear on the rope winding rod 106; rotation of the rope winding rod 106 causes the lifting rope 105 to elongate or contract to perform the lifting function of the apparatus.

In an optional implementation manner of the embodiment of the present invention, the adjusting mechanism 2 includes a plate containing box 201, a plate gluing box 202, an adjusting plate 203, an adjusting slider 204, a lead screw B205, a motor B206, and a box cover 207; the adjusting plate 203 is hung on the lifting rope 105 through hanging rings arranged at four corners; the plate containing box 201 is slidably mounted in a sliding groove on the adjusting plate 203 through an adjusting sliding block 204 on the plate containing box, the sliding groove and the fixed round block are arranged on two sides of the plate containing box 201, and the sliding groove is arranged on two sides inside the front end surface of the plate containing box; the adjusting slide block 204 is provided with a threaded hole; the glue plate box 202 is fixedly connected with the plate containing box 201, and glue coating rod fixing holes are formed in the two sides of the glue plate box 202; the lead screw B205 is rotatably arranged on a lead screw fixing frame on the adjusting plate 203, and the lead screw B205 penetrates through the adjusting slide block 204; the motor B206 is fixedly arranged on a motor fixing frame on the adjusting plate 203; a rotating shaft on the motor B206 is fixedly connected with the screw rod B205; the glue box cover 207 is slidably mounted at the rear end of the glue board box 202; specifically, when the laying position of the insulation board needs to be horizontally adjusted, the motor B206 drives the screw rod B205; the lead screw B205 drives the adjusting slide block 204; the adjusting slide block 204 enables the board containing box 201 and the board gluing box 202 to move to proper positions to prepare for laying of the heat insulation boards.

In an alternative implementation manner of the embodiment of the present invention, the plate loading mechanism 3 includes a supporting base plate 301, a hook 302 and a spring 303; the supporting bottom plate 301 is slidably mounted in grooves at two sides of the plate containing box 201 through cylindrical sliding blocks at two ends; the hook 302 is rotatably arranged on the cylindrical sliding blocks at the two sides of the supporting bottom plate 301; the upper end of the spring 303 is fixedly connected with the supporting bottom plate 301, and the lower end of the spring 303 is fixedly connected with the bottom of the plate containing box 201; specifically, when the heat insulation plate group needs to be put into the plate containing box 201, the hook 302 is hooked on the fixed round blocks on the two sides of the plate containing box 201, the heat insulation plate group is put in, after the hook 302 is opened from the fixed round blocks on the two sides of the plate containing box 201, due to the effect of the spring 303, when the heat insulation plate group is pushed out one by one, the uppermost heat insulation plate is always in contact with the adjusting plate 203, so that the heat insulation plates can be pushed out conveniently.

In an optional implementation manner of the embodiment of the present invention, the push plate gluing mechanism 4 includes an inserting plate 401, a push plate slider 402, a lead screw C403, a gluing roller 404, a motor C405, an incomplete gear 406, a gear set C407, a gear set D408, and a gear set E409; the inserting plates 401 are slidably arranged in sliding grooves on two sides inside the front end face of the plate containing box 201; the push plate sliding block 402 is slidably mounted on a sliding groove of the inserting plate 401; the lead screw C403 is rotatably arranged on a lead screw fixing frame on the inserting plate 401, and one side of the lead screw C403 is fixedly provided with a driving wheel; the gluing roller 404 is rotatably mounted in gluing bar fixing holes on both sides of the glue box 202; the motor C405 is fixedly arranged on a motor fixing frame on the plug board 401; the incomplete gear 406, the gear set C407 and the gear set D408 are rotatably mounted on a gear set fixing plate on the inserting plate 401, and the gear set C407 and the gear set D408 both comprise a cylindrical gear and an incomplete gear 406; the gear set E409 is rotatably arranged on a gear fixing frame on the inserting plate 401, the gear set E409 comprises two transmission wheels and a cylindrical gear, and the two transmission wheels on the gear set E409 are respectively matched with transmission wheels on the lead screws C403 on two sides through belts; specifically, after the board containing box 201 is installed in the heat insulation board group, the motor C405 drives the incomplete gear 406; the incomplete gear 406 is meshed with the cylindrical gear at the front end of the gear set C407 at the moment, and the incomplete gear 406 drives the cylindrical gear at the front end of the gear set C407; when the incomplete gear 406 at the rear end of the gear set C407 is meshed with the cylindrical gear on the gear set E409, the incomplete gear 406 at the rear end of the gear set D408 is disengaged from the cylindrical gear on the gear set E409; the incomplete gear 406 at the rear end of the gear set C407 drives a cylindrical gear on the gear set E409; the transmission wheel on the gear group E409 drives the transmission wheel on the lead screw C403 through a belt so as to drive the lead screw C403 to rotate; the screw rod C403 drives the push plate sliding block 402 to slide from right to left, the push plate sliding block 402 pushes the uppermost insulation board on the insulation board group at the lower end of the push plate sliding block 402 out to the laying mechanism, the insulation board and the gluing roller 404 rub to enable the gluing roller 404 to rotate, and the glue on the gluing roller 404 is coated on the pushed insulation board; at this time, when the incomplete gear 406 at the rear end of the gear set D408 is meshed with the cylindrical gear on the gear set E409, the incomplete gear 406 at the rear end of the gear set C407 is disengaged from the cylindrical gear on the gear set E409, and the incomplete gear 406 at the rear end of the gear set D408 drives the cylindrical gear on the gear set E409 to rotate the gear set E409 in the opposite rotation direction; the transmission wheel on the gear group E409 drives the transmission wheel on the lead screw C403 through a belt so as to drive the lead screw C403 to rotate; the lead screw C403 drives the push plate sliding block 402 to slide from right to right, and the next insulation board is pushed.

In an optional implementation manner of the embodiment of the present invention, the insulation board laying mechanism 5 includes a laying board 501, a lead screw D502, a gear set F503, a gear set G504, a gear set H505, a gear set I506, a suction cup 507, and a conical gear 508; the paving plate 501 is used for pushing the heat insulation plate to the wall surface; the lower end face of the lead screw D502 is fixedly connected with the upper end face of the laying plate 501; the lead screw D502 is slidably mounted on a conical gear 508 fixing frame on the inserting plate 401; the gear set F503 and the gear set G504 are rotatably arranged on a gear set fixing plate on the inserting plate 401, and both the gear set F503 and the gear set G504 comprise a cylindrical gear and an incomplete gear 406; the gear set H505 and the gear set I506 are rotatably arranged on a conical gear 508 fixing frame on the inserting plate 401, and the gear set H505 comprises a cylindrical gear, a transmission wheel and a conical gear 508; gear set I506 includes a drive wheel and a bevel gear 508; suction cup 507 is fixedly installed on the lower end surface of laying plate 501; the conical gear 508 is rotatably arranged on a conical gear 508 fixing frame on the inserting plate 401; specifically, when the insulation board is glued by the push plate and then is conveyed to the lower end of the laying plate 501, the insulation board is adsorbed by the suction cup 507, and the motor C405 drives the incomplete gear 406; the incomplete gear 406 is meshed with the cylindrical gear at the front end of the gear set F503 and is disengaged from the cylindrical gear at the front end of the gear set C407; the incomplete gear 406 drives a cylindrical gear at the front end of the gear set F503; the cylindrical gear at the front end of the gear group F503 drives the cylindrical gear at the front end of the gear group G504; the incomplete gear 406 at the rear end of the gear set F503 is meshed with the cylindrical gear on the gear set H505, and the incomplete gear 406 at the rear end of the gear set G504 is disengaged from the cylindrical gear on the gear set H505; the incomplete gear 406 at the rear end of the gear set F503 drives the cylindrical gear on the gear set H505; the driving wheel on the gear set H505 drives the gear set I506; the conical gear 508 at the front end of the gear set I506 and the conical gear 508 on the gear set H505 drive the conical gear 508; the bevel gear 508 drives the screw D502 to move the screw D502 downwards; paving the heat-insulation board coated with the board-sticking glue on the wall surface; then the incomplete gear 406 at the rear end of the gear set F503 is disengaged from the cylindrical gear on the gear set H505, and the incomplete gear 406 at the rear end of the gear set G504 is engaged with the cylindrical gear on the gear set H505; the incomplete gear 406 at the rear end of the gear set F503 drives the cylindrical gear on the gear set H505 to rotate in the opposite direction to the previous direction; the driving wheel on the gear set H505 drives the gear set I506; the conical gear 508 at the front end of the gear set I506 and the conical gear 508 on the gear set H505 drive the conical gear 508; the bevel gear 508 drives the lead screw D502 to move the lead screw D502 upwards to the original position.

The working principle of the invention is as follows: when the device is used, the hook 302 is hooked on the fixed round blocks on the two sides of the board containing box 201, then the heat insulation board group is placed, after the hook 302 is opened from the fixed round blocks on the two sides of the board containing box 201, due to the action of the spring 303, when the heat insulation board group is pushed out one by one, the uppermost heat insulation board is always in contact with the adjusting plate 203, so that the heat insulation boards can be pushed out conveniently; putting the plate bonding glue into a plate bonding glue box 202; then, the whole mechanism for containing and laying the insulation boards is hung on the hanging lifting mechanism 1 by using a lifting rope 105;

when the equipment needs to be moved horizontally, the movement control switch 111 enables the cylindrical gear A112 to be meshed with the gear set B110 and the cylindrical gear B113 simultaneously; the motor A109 drives the cylindrical gear B113; the cylindrical gear B113 drives the cylindrical gear A112; the cylindrical gear A112 drives the cylindrical gear on the gear group B110; the driving wheel on the gear set B110 drives the driving wheel on the gear set A108 through a belt; the bevel gear 508 on the gear group A108 drives the bevel gear 508 on the screw rod A107; the screw rod A107 is in threaded fit with a threaded hole in a fixed pulley fixing block on the pulley mechanism 104, and the screw rod A107 drives the pulley mechanism 104 to move horizontally; when the lifting device is needed, the control switch 111 is moved again to enable the cylindrical gear A112 to be meshed with the cylindrical gear and the cylindrical gear B113 on the rope winding rod 106 simultaneously; the motor A109 drives the cylindrical gear B113; the cylindrical gear B113 drives the cylindrical gear A112; the cylindrical gear A112 drives a cylindrical gear on the rope winding rod 106; the rotation of the rope winding rod 106 causes the lifting rope 105 to be lengthened or contracted so as to realize the lifting function of the equipment;

when the equipment moves to a proper height, the motor B206 drives the screw rod B205; the lead screw B205 drives the adjusting slide block 204; the plate containing box 201 and the plate gluing box 202 are moved to appropriate positions by adjusting the sliding block 204, and the laying position of the heat insulation plate is horizontally adjusted to prepare for laying of the heat insulation plate;

when the heat insulation plate is to be operated, the motor C405 drives the incomplete gear 406; the incomplete gear 406 is meshed with the cylindrical gear at the front end of the gear set C407 at the moment, and the incomplete gear 406 drives the cylindrical gear at the front end of the gear set C407; when the incomplete gear 406 at the rear end of the gear set C407 is meshed with the cylindrical gear on the gear set E409, the incomplete gear 406 at the rear end of the gear set D408 is disengaged from the cylindrical gear on the gear set E409; the incomplete gear 406 at the rear end of the gear set C407 drives a cylindrical gear on the gear set E409; the transmission wheel on the gear group E409 drives the transmission wheel on the lead screw C403 through a belt so as to drive the lead screw C403 to rotate; the screw rod C403 drives the push plate sliding block 402 to slide from right to left, the push plate sliding block 402 pushes the uppermost insulation board on the insulation board group at the lower end of the push plate sliding block 402 out to the laying mechanism, the insulation board and the gluing roller 404 rub to enable the gluing roller 404 to rotate, and the glue on the gluing roller 404 is coated on the pushed insulation board; at this time, when the incomplete gear 406 at the rear end of the gear set D408 is meshed with the cylindrical gear on the gear set E409, the incomplete gear 406 at the rear end of the gear set C407 is disengaged from the cylindrical gear on the gear set E409, and the incomplete gear 406 at the rear end of the gear set D408 drives the cylindrical gear on the gear set E409 to rotate the gear set E409 in the opposite rotation direction; the transmission wheel on the gear group E409 drives the transmission wheel on the lead screw C403 through a belt so as to drive the lead screw C403 to rotate; the screw rod C403 drives the push plate sliding block 402 to slide from right to right, and the next insulation board is pushed;

when the insulation board is glued by the push plate and then is sent to the lower end of the laying plate 501, the suction cup 507 adsorbs the insulation board, and the motor C405 drives the incomplete gear 406; the incomplete gear 406 is meshed with the cylindrical gear at the front end of the gear set F503 and is disengaged from the cylindrical gear at the front end of the gear set C407; the incomplete gear 406 drives a cylindrical gear at the front end of the gear set F503; the cylindrical gear at the front end of the gear group F503 drives the cylindrical gear at the front end of the gear group G504; the incomplete gear 406 at the rear end of the gear set F503 is meshed with the cylindrical gear on the gear set H505, and the incomplete gear 406 at the rear end of the gear set G504 is disengaged from the cylindrical gear on the gear set H505; the incomplete gear 406 at the rear end of the gear set F503 drives the cylindrical gear on the gear set H505; the driving wheel on the gear set H505 drives the gear set I506; the conical gear 508 at the front end of the gear set I506 and the conical gear 508 on the gear set H505 drive the conical gear 508; the bevel gear 508 drives the screw D502 to move the screw D502 downwards; paving the heat-insulation board coated with the board-sticking glue on the wall surface; then the incomplete gear 406 at the rear end of the gear set F503 is disengaged from the cylindrical gear on the gear set H505, and the incomplete gear 406 at the rear end of the gear set G504 is engaged with the cylindrical gear on the gear set H505; the incomplete gear 406 at the rear end of the gear set F503 drives the cylindrical gear on the gear set H505 to rotate in the opposite direction to the previous direction; the driving wheel on the gear set H505 drives the gear set I506; the conical gear 508 at the front end of the gear set I506 and the conical gear 508 on the gear set H505 drive the conical gear 508; the bevel gear 508 drives the lead screw D502 to move the lead screw D502 upwards to the original position.