CN114607126A - Construction auxiliary device of vacuum insulated panel for building engineering - Google Patents

Abstract

The invention relates to the field of constructional engineering, in particular to a construction auxiliary device of a vacuum insulation panel for constructional engineering. The technical problem is as follows: the vacuum insulation panels are attached to the building outer walls in a manual high-altitude operation mode, concrete needs to be smeared on the surfaces of the vacuum insulation panels in the high-altitude operation mode, and metal frames with different sizes are mounted on the surfaces of the building outer walls, so that the vacuum insulation panels are more difficult to penetrate through the metal frames, and the vacuum insulation panels are difficult to joint. The technical scheme is as follows: a construction auxiliary device of a vacuum insulated panel for constructional engineering comprises a lifting system, a smearing system and the like; and a smearing system for spraying concrete is arranged at the upper part of the lifting system. According to the invention, the vacuum insulation panels are attached to the outer wall of the building in a mode that concrete is sprayed and smeared uniformly, and then the attached part between the two vacuum insulation panels moves backwards, so that gaps are conveniently filled subsequently, and other vacuum insulation panels are conveniently installed.

Description

Construction auxiliary device of vacuum insulated panel for building engineering

Technical Field

The invention relates to the field of constructional engineering, in particular to a construction auxiliary device of a vacuum insulation panel for constructional engineering.

Background

In recent years, energy saving is desired from the viewpoint of the importance of suppression of global warming, which is a global environmental problem, and measures for energy saving of various devices are being advanced; in buildings such as houses, attempts have been made to improve the heat insulating performance of the internal space in order to suppress the amount of power consumed, particularly, in order to suppress the amount of power of the air conditioner, and thereby improve the heat insulating performance against heat entering from the outside. That is, it is necessary to improve the heat insulating performance of the member for walls, ceilings, and floors of a building.

In the prior art, all adopt artifical high altitude construction's mode, laminate the vacuum insulation panels on the building outer wall, because at high altitude construction's mode, and need paint the concrete to the surface of vacuum insulation panels, because be high altitude construction, make the staff inconvenient operation, and the surface mounting not equidimension metal framework of building outer wall, make the vacuum insulation panels more difficult to pass the metal framework, and laminate on the surface of building outer wall, simultaneously behind the surface of laminating building outer wall, because the vacuum insulation panels be irregular plastic film, make inwards or outwards sunken, make to be difficult to crack between the vacuum insulation panels.

In summary, there is a need for an auxiliary device for vacuum insulation panel construction in building engineering to overcome the above problems.

Disclosure of Invention

The invention provides a construction auxiliary device of a vacuum insulation panel for building engineering, aiming at overcoming the defects that the vacuum insulation panel is attached to the outer wall of a building in a mode of manual high-altitude operation, concrete needs to be smeared on the surface of the vacuum insulation panel in the mode of high-altitude operation, workers are inconvenient to operate due to high-altitude operation, metal frames with different sizes are installed on the surface of the outer wall of the building, the vacuum insulation panel is more difficult to penetrate through the metal frames and is attached to the surface of the outer wall of the building, and the vacuum insulation panel is sunken inwards or outwards due to the fact that the vacuum insulation panel is an irregular plastic film after being attached to the surface of the outer wall of the building, so that the vacuum insulation panel is difficult to joint.

The technical implementation scheme of the invention is as follows: a construction auxiliary device of a vacuum insulated panel for constructional engineering comprises a lifting system, a smearing system and a fitting system; the upper part of the lifting system is provided with a smearing system for spraying concrete; the upper part of the lifting system is connected with a bonding system for bonding the heat insulation plate.

More preferably, the lifting system comprises a lock catch, a first connecting plate, a first mounting plate, a first electric slide rail, a first electric slide block, a second connecting plate and a second mounting plate; the upper parts of the four lock catches are respectively fixedly connected with a first connecting plate; a first mounting plate is fixedly connected among the four first connecting plates; the upper part of the first mounting plate is fixedly connected with four first electric sliding rails; the four first electric sliding rails are distributed in a rectangular shape, and the outer surfaces of the four first electric sliding rails are fixedly connected with a first electric sliding block respectively; a second connecting plate is fixedly connected between the two first electric sliding blocks positioned on the left; another second connecting plate is fixedly connected between the two first electric sliding blocks positioned on the right; the upper parts of the two second connecting plates are fixedly connected with a second mounting plate.

More preferably, the two first connection plates located on the left side are provided with notches, the fixed distance of which can be adjusted.

More preferably, the smearing system comprises a fixing column, a supporting frame, a rectangular sliding rail, a sucking disc, a first fixing frame, a first electric roller, a first fixing groove, a third connecting plate, a first spray head, a first bearing seat, a first electric push rod, a second bearing seat, a second fixing frame, a second electric roller, a second fixing groove, a fourth connecting plate, a fifth connecting plate, a scraping plate, a third bearing seat, a second electric push rod and a fourth bearing seat; the upper part of the second mounting plate is fixedly connected with a fixing column; the upper part of the fixed column is fixedly connected with a supporting frame; the outer side of the supporting frame is fixedly connected with a rectangular sliding rail; eight suckers are arranged at the upper part of the rectangular sliding rail; the outer surface of the right part of the rectangular sliding rail is connected with four first electric rollers in a sliding manner; the lower parts of the four first electric rollers are rotatably connected with a first fixing frame; the left part of the first fixing frame is fixedly connected with two first fixing grooves; the two first fixing grooves are rotationally connected with the two first electric rollers positioned on the right side; the right part of the first fixing frame is rotationally connected with a third connecting plate through a rotating shaft; the upper part of the third connecting plate is fixedly connected with a first spray head; the lower part of the third connecting plate is fixedly connected with a second bearing seat; the lower part of the first fixing frame is fixedly connected with a first bearing seat; the lower part of the first bearing seat is rotatably connected with a first electric push rod through a rotating shaft; the telescopic end of the first electric push rod is fixedly connected with the rotating shaft on the second bearing seat; the outer surface of the left part of the rectangular sliding rail is connected with four second electric rollers in a sliding manner; the lower parts of the four second electric rollers are rotatably connected with a second fixing frame; two second fixing grooves are fixedly connected to the right part of the second fixing frame; the two second fixing grooves are rotationally connected with the two second electric rollers positioned on the left side; a fourth connecting plate is fixedly connected to the left part of the second fixing frame; the left part of the fourth connecting plate is rotatably connected with a fifth connecting plate through a rotating shaft; a scraper is fixedly connected to the right part of the fifth connecting plate; the left part of the fourth connecting plate is fixedly connected with a fourth bearing seat through a rotating shaft; the lower part of the second fixing frame is fixedly connected with a third bearing seat; the lower part of the third bearing seat is rotationally connected with a second electric push rod through a rotating shaft; the telescopic rod of the second electric push rod is fixedly connected with the rotating shaft on the fourth bearing seat.

More preferably, the suction cup is made of rubber and has certain elasticity for fixing the vacuum insulation panel.

More preferably, the scraper is provided with an inverted cone shape for smoothing the concrete applied to the vacuum insulation panel.

More preferably, the fitting system comprises a fixed seat, a bidirectional screw rod, a sliding block, a motor and a fitting assembly; the upper part of the second mounting plate is fixedly connected with four fixed seats; a bidirectional screw rod is rotatably connected between the two fixed seats positioned on the left side; another two-way screw rod is rotatably connected between the two fixed seats positioned on the right; the outer surfaces of the two bidirectional screw rods are respectively and rotatably connected with two sliding blocks; the left part and the right part of the two sliding blocks positioned on the left side are in sliding connection with the two fixed seats through two limiting rods; the left part and the right part of the two sliding blocks positioned on the right are in sliding connection with the other two fixed seats through two limiting rods; the two fixed seats positioned in front are respectively fixedly connected with a motor; the output ends of the two motors are fixedly connected with the two bidirectional screw rods; the upper parts of the two sliding blocks positioned in front are fixedly connected with a fitting component; the upper parts of the two sliding blocks positioned at the rear part are fixedly connected with another laminating component.

More preferably, the laminating assembly positioned in front comprises a third mounting plate, a first limiting plate, a sixth connecting plate, an elastic piece, a fifth bearing seat, a second electric slide rail, a second electric slide block, a seventh connecting plate, an eighth connecting plate, a sixth bearing seat, a seventh bearing seat, a third electric push rod, an eighth bearing seat, a limiting block, a second limiting plate, a second spray head and a third limiting plate; the two sliding blocks positioned in front are fixedly connected with a third mounting plate; the left part of the third mounting plate is fixedly connected with a first limiting plate; the upper part of the third mounting plate is movably connected with two sixth connecting plates which are bilaterally symmetrical; the upper parts of the two sixth connecting plates are rotatably connected with a fifth bearing seat through rotating shafts; the upper parts of the two fifth bearing seats are fixedly connected with a second electric slide rail; the outer surface of the second electric sliding rail is connected with a second electric sliding block in a sliding manner; the upper part of the second electric sliding block is fixedly connected with a seventh connecting plate; a sixth bearing seat is fixedly connected to the right part of the seventh connecting plate; the right part of the sixth bearing seat is rotatably connected with an eighth connecting plate through a rotating shaft; the upper part of the third mounting plate is fixedly connected with two elastic pieces which are symmetrical left and right; the two elastic pieces are positioned between the two fifth bearing seats; the upper parts of the two elastic pieces are fixedly connected with the second electric slide rail; a seventh bearing seat is fixedly connected to the right part of the seventh connecting plate; the right part of the seventh bearing seat is rotatably connected with a third electric push rod through a rotating shaft; the extension of the third electric push rod is rotationally connected with an eighth bearing seat through a rotating shaft; the upper part of the eighth bearing seat is fixedly connected with the middle part of the eighth connecting plate; the left part of the seventh connecting plate is fixedly connected with a limiting block; the limiting block is contacted with the first limiting plate; the right part of the eighth connecting plate is rotatably connected with a second limiting plate through a rotating shaft; the right part of the eighth connecting plate is fixedly connected with a second spray head; the second spray head is positioned on the right side of the second limiting plate; the right part of the eighth connecting plate is rotatably connected with a third limiting plate through a rotating shaft; the third limiting plate is positioned at the right side of the second spray head.

More preferably, the upper portion of the first limiting plate is provided with an arc-shaped projection for clamping the limiting block.

More preferably, the surface of the second limiting plate is sleeved with a rubber leather sleeve for increasing resistance and avoiding the vacuum insulation plate from falling.

Compared with the prior art, the invention has the following advantages:

according to the invention, the vacuum insulation panels are attached to the outer wall of a building in a mode that concrete is sprayed and evenly smeared at the same time, a layer of concrete is smeared on the surfaces of the vacuum insulation panels, meanwhile, the concrete is smeared on the two vacuum insulation panels, then, the attached part between the two vacuum insulation panels moves backwards, and then, the gaps are conveniently filled subsequently, and meanwhile, the installation of other vacuum insulation panels is facilitated.

(II) in the present invention: by arranging the lifting system, the smearing system and the fitting system are lifted, and the vacuum insulation plate is moved to the corresponding position;

(III) in the present invention: the smearing system is arranged, so that the vacuum heat-insulating plate is fixed, concrete is smeared on the surface of the vacuum heat-insulating plate, and the concrete on the surface of the vacuum heat-insulating plate is smeared uniformly;

(IV) in the present invention: through having set up the laminating system, realized pasting vacuum insulation panel on the surface of building outer wall, paint the muddy earth to the gap between two vacuum insulation panels simultaneously.

Drawings

FIG. 1 is a first schematic structural diagram of the construction assisting device for vacuum insulation panels for construction engineering according to the present invention;

FIG. 2 is a second schematic structural diagram of the vacuum insulation panel construction assisting device for constructional engineering according to the present invention;

FIG. 3 is a first structural view of a lifting system of the vacuum insulation panel construction assisting device for construction engineering of the present invention;

FIG. 4 is a second schematic diagram of the lifting system of the vacuum insulation panel construction auxiliary device for building engineering according to the present invention;

FIG. 5 is a partial structural view of a lifting system of the vacuum insulation panel construction assisting device for construction engineering according to the present invention;

FIG. 6 is a schematic structural diagram of a painting system of the construction auxiliary device for vacuum insulation panels for construction engineering according to the present invention;

FIG. 7 is a first partial structural view of the painting system of the construction aid for vacuum insulation panels for construction engineering according to the present invention;

FIG. 8 is a second partial structural view of the painting system of the construction aid for vacuum insulation panels for construction engineering according to the present invention;

FIG. 9 is a schematic structural view of a bonding system of the construction aid for vacuum insulation panels for construction engineering according to the present invention;

FIG. 10 is a first partial schematic structural view of a bonding system of the construction aid for vacuum insulation panels for construction engineering according to the present invention;

FIG. 11 is a second partial schematic structural view of the bonding system of the construction assisting apparatus for vacuum insulation panels for construction engineering according to the present invention;

FIG. 12 is a schematic view of a third partial structure of the bonding system of the construction assisting apparatus for vacuum insulation panels for construction engineering according to the present invention;

fig. 13 is an enlarged view of a region a of the bonding system of the construction aid for vacuum insulation panels for construction engineering of the present invention.

Wherein the figures include the following reference numerals: 1-lifting system, 2-painting system, 3-laminating system, 101-lock catch, 102-first connecting plate, 103-first mounting plate, 104-first electric slide rail, 105-first electric slide block, 106-second connecting plate, 107-second mounting plate, 201-fixed column, 202-support frame, 203-rectangular slide rail, 204-suction cup, 205-first fixed frame, 206-first electric roller, 207-first fixed slot, 208-third connecting plate, 209-first spray head, 2010-first bearing seat, 2011-first electric push rod, 2012-second bearing seat, 2013-second fixed frame, 2014-second electric roller, 2015-second fixed slot, 2016-fourth connecting plate, 2017-fifth connecting plate, 2018-a scraper, 2019-a third bearing seat, 2020-a second electric push rod, 2021-a fourth bearing seat, 301-a fixed seat, 302-a bidirectional screw rod, 303-a sliding block, 304-a motor, 305-a third mounting plate, 306-a first limit plate, 307-a sixth connecting plate, 308-an elastic piece, 309-a fifth bearing seat, 3010-a second electric sliding rail, 3011-a second electric sliding block, 3012-a seventh connecting plate, 3013-an eighth connecting plate, 3014-a sixth bearing seat, 3015-a seventh bearing seat, 3016-a third electric push rod, 3017-an eighth bearing seat, 3018-a limit block, 3019-a second limit plate, 3020-a second spray head and 3021-a third limit plate.

Detailed Description

It is to be noted that, in the case of the different described embodiments, identical components are provided with the same reference numerals or the same component names, wherein the disclosure contained in the entire description can be transferred to identical components having the same reference numerals or the same component names in a meaningful manner. The positional references selected in the description, such as upper, lower, lateral, etc., refer also to the directly described and illustrated figures and are to be read into the new position in the sense of a change in position.

Example 1

A construction auxiliary device of a vacuum insulated panel for building engineering is shown in figures 1-13 and comprises a lifting system 1, a smearing system 2 and a fitting system 3; the upper part of the lifting system 1 is provided with a smearing system 2; the upper part of the lifting system 1 is connected with a jointing system 3.

Firstly, a worker installs the construction auxiliary device of the vacuum insulation panel for the building engineering on an external lifting device, then the auxiliary device is externally connected with a power supply, then the lifting device is controlled to drive the construction auxiliary device of the vacuum insulation panel for the building engineering to move to a position needing to be used, then the worker places the vacuum insulation panel on the upper part of the smearing system 2, then the smearing system 2 is controlled to spray concrete on the surface of the vacuum insulation panel, meanwhile, the concrete on the surface of the vacuum insulation panel is smeared uniformly, then the pasting system 3 is controlled to drive the vacuum insulation panel on the smearing system 2 to be close to the outer wall of the building, meanwhile, the lifting system 1 is controlled to lift and drive the vacuum insulation panel to move to the position needing to install the vacuum insulation panel, then the pasting system 3 is controlled to drive the vacuum insulation panel to rotate, and the vacuum insulation panel is pasted on the surface of the outer wall of the building.

Example 2

On the basis of embodiment 1, as shown in fig. 1 to 13, the lifting system 1 includes a lock catch 101, a first connecting plate 102, a first mounting plate 103, a first electric slide rail 104, a first electric slide block 105, a second connecting plate 106, and a second mounting plate 107; the upper parts of the four lock catches 101 are respectively connected with a first connecting plate 102 through bolts; a first mounting plate 103 is bolted between the four first connecting plates 102; the upper part of the first mounting plate 103 is fixedly connected with four first electric slide rails 104; the four first electric slide rails 104 are distributed in a rectangular shape, and the outer surfaces of the four first electric slide rails 104 are respectively connected with a first electric slide block 105 through bolts; a second connecting plate 106 is connected between the two first electric sliding blocks 105 positioned on the left through bolts; another second connecting plate 106 is connected between the two first electric sliding blocks 105 positioned on the right through bolts; a second mounting plate 107 is fixedly connected to the upper portions of the two second connecting plates 106.

The two first connection plates 102 located on the left side are provided with notches whose fixed distances can be adjusted.

The smearing system 2 comprises a fixing column 201, a supporting frame 202, a rectangular sliding rail 203, a sucking disc 204, a first fixing frame 205, a first electric roller 206, a first fixing groove 207, a third connecting plate 208, a first spray head 209, a first bearing seat 2010, a first electric push rod 2011, a second bearing seat 2012, a second fixing frame 2013, a second electric roller 2014, a second fixing groove 2015, a fourth connecting plate 2016, a fifth connecting plate 2017, a scraper 2018, a third bearing seat 2019, a second electric push rod 2020 and a fourth bearing seat 2021; a fixing column 201 is fixedly connected to the upper part of the second mounting plate 107; the upper part of the fixing column 201 is fixedly connected with a supporting frame 202; the outer side of the supporting frame 202 is fixedly connected with a rectangular sliding rail 203; eight suckers 204 are arranged at the upper part of the rectangular sliding rail 203; the outer surface of the right part of the rectangular sliding rail 203 is connected with four first electric rollers 206 in a sliding way; the lower parts of the four first electric rollers 206 are rotatably connected with a first fixing frame 205; two first fixing grooves 207 are fixedly connected to the left part of the first fixing frame 205; the two first fixing grooves 207 are rotatably connected with the two first electric rollers 206 positioned at the right side; the right part of the first fixing frame 205 is rotatably connected with a third connecting plate 208 through a rotating shaft; the upper part of the third connecting plate 208 is fixedly connected with a first spray head 209; a second bearing seat 2012 is fixedly connected to the lower portion of the third connecting plate 208; a first bearing seat 2010 is fixedly connected to the lower part of the first fixing frame 205; the lower part of the first bearing block 2010 is rotatably connected with a first electric push rod 2011 through a rotating shaft; the telescopic end of the first electric push rod 2011 is fixedly connected with the rotating shaft on the second bearing seat 2012; the outer surface of the left part of the rectangular sliding rail 203 is connected with four second electric rollers 2014 in a sliding manner; the lower parts of the four second electric rollers 2014 are rotatably connected with a second fixing frame 2013; two second fixing grooves 2015 are fixedly connected to the right part of the second fixing frame 2013; the two second fixing slots 2015 are rotatably connected with the two second electric rollers 2014 positioned on the left; a fourth connecting plate 2016 is fixedly connected to the left portion of the second fixing frame 2013; the left part of the fourth connecting plate 2016 is rotatably connected with a fifth connecting plate 2017 through a rotating shaft; a scraping plate 2018 is fixedly connected to the right part of the fifth connecting plate 2017; the left part of the fourth connecting plate 2016 is fixedly connected with a fourth bearing seat 2021 through a rotating shaft; a third bearing seat 2019 is fixedly connected to the lower part of the second fixing frame 2013; the lower part of the third bearing seat 2019 is rotatably connected with a second electric push rod 2020 through a rotating shaft; the telescopic rod of the second electric push rod 2020 is fixedly connected to the rotating shaft of the fourth bearing block 2021.

The suction cup 204 is made of rubber, has a certain elasticity, and is used for fixing the vacuum insulation panel.

The scraping plate 2018 is provided with an inverted cone and used for trowelling concrete smeared on the vacuum insulation panel.

The bonding system 3 comprises a fixed seat 301, a bidirectional screw rod 302, a sliding block 303, a motor 304 and a bonding assembly; the upper part of the second mounting plate 107 is fixedly connected with four fixed seats 301; a bidirectional screw rod 302 is rotatably connected between the two fixed seats 301 positioned on the left; another two-way screw rod 302 is rotatably connected between the two fixed seats 301 positioned at the right; the outer surfaces of the two bidirectional screw rods 302 are respectively and rotatably connected with two sliding blocks 303; the left part and the right part of the two sliding blocks 303 positioned on the left side are connected with the two fixed seats 301 in a sliding manner through two limiting rods; the left part and the right part of the two sliding blocks 303 positioned on the right side are in sliding connection with the other two fixed seats 301 through two limiting rods; the two fixing seats 301 positioned in front are respectively connected with a motor 304 through bolts; the output ends of the two motors 304 are fixedly connected with the two bidirectional screw rods 302; the upper parts of the two sliding blocks 303 positioned in front are fixedly connected with a joint component; the upper parts of the two sliding blocks 303 positioned at the rear are fixedly connected with another laminating component.

The front attaching assembly comprises a third mounting plate 305, a first limit plate 306, a sixth connecting plate 307, an elastic piece 308, a fifth bearing seat 309, a second electric slide rail 3010, a second electric slide block 3011, a seventh connecting plate 3012, an eighth connecting plate 3013, a sixth bearing seat 3014, a seventh bearing seat 3015, a third electric push rod 3016, an eighth bearing seat 3017, a limit block 3018, a second limit plate 3019, a second spray head 3020 and a third limit plate 3021; the two sliding blocks 303 positioned in the front are connected with a third mounting plate 305 through bolts; a first limit plate 306 is fixedly connected to the left part of the third mounting plate 305; the upper part of the third mounting plate 305 is hinged with two bilaterally symmetrical sixth connecting plates 307; the upper parts of the two sixth connecting plates 307 are rotatably connected with a fifth bearing seat 309 through rotating shafts; the upper parts of the two fifth bearing seats 309 are fixedly connected with a second electric slide rail 3010; the outer surface of the second electric slide rail 3010 is connected with a second electric slide block 3011 in a sliding manner; the upper bolt of the second electric sliding block 3011 is connected with a seventh connecting plate 3012; a sixth bearing seat 3014 is fixedly connected to the right portion of the seventh connecting plate 3012; the right part of the sixth bearing block 3014 is rotatably connected with an eighth connecting plate 3013 through a rotating shaft; two bilaterally symmetrical elastic pieces 308 are fixedly connected to the upper part of the third mounting plate 305; two elastic members 308 are located between the two fifth bearing seats 309; the upper parts of the two elastic pieces 308 are fixedly connected with a second electric slide rail 3010; a seventh bearing seat 3015 is fixedly connected to the right portion of the seventh connecting plate 3012; the right part of the seventh bearing seat 3015 is rotatably connected with a third electric push rod 3016 through a rotating shaft; the third electric push rod 3016 is connected with an eighth bearing seat 3017 through a rotating shaft in a rotating manner; the upper part of the eighth bearing block 3017 is fixedly connected with the middle part of the eighth connecting plate 3013; a limiting block 3018 is fixedly connected to the left portion of the seventh connecting plate 3012; the limiting block 3018 is in contact with the first limiting plate 306; the right part of the eighth connecting plate 3013 is rotatably connected with a second limiting plate 3019 through a rotating shaft; a second nozzle 3020 is fixedly connected to the right part of the eighth connecting plate 3013; the second spray head 3020 is positioned to the right of the second stopper plate 3019; the right part of the eighth connecting plate 3013 is rotatably connected with a third limiting plate 3021 through a rotating shaft; the third stopper plate 3021 is positioned to the right of the second head 3020.

The upper portion of the first limiting plate 306 is provided with an arc-shaped protruding block for clamping the limiting block 3018.

The surface of the second limiting plate 3019 is sleeved with a rubber sleeve for increasing resistance and avoiding the vacuum insulation panel from falling.

Firstly, a worker fixes four latches 101 on an external lifting device, then controls the external lifting device to drive a vacuum insulation panel construction auxiliary device for construction engineering to move to an external building wall needing to be provided with a vacuum insulation panel, then places the vacuum insulation panel on a support frame 202, fixes the vacuum insulation panel through eight suckers 204, then controls a first electric push rod 2011 to push a second bearing seat 2012 to move rightwards, the second bearing seat 2012 is provided with a third connecting plate 208 and a first spray head 209 to move rightwards, but the third connecting plate 208 and the second bearing seat 2012 are limited by a rotating shaft on a first fixing frame 205, so that the third connecting plate 208 rotates anticlockwise from front to back by taking the rotating shaft on the first fixing frame 205 as a rotating center, then simultaneously drives the first spray head 209 to be aligned with the surface of the vacuum insulation panel, and then controls four first electric rollers 206 to rotate, the four first electric rollers 206 are made to slide on the rectangular sliding rail 203, the four first electric rollers 206 drive the first fixing frame 205 to move along the rectangular sliding rail 203, the first fixing frame 205 drives the components connected with the first fixing frame to move along the rectangular sliding rail 203, that is, the third connecting plate 208, the first spray head 209, the first bearing seat 2010, the first electric push rod 2011 and the second bearing seat 2012 are driven to move along the rectangular sliding rail 203, the first spray head 209 is controlled to spray the concrete on the surface of the vacuum insulation panel, the four second electric rollers 2014 are controlled to rotate, the four second electric rollers 2014 are made to slide on the rectangular sliding rail 203, the four second electric rollers 2014 drive the second fixing frame 2013 to move along the rectangular sliding rail 2014, the second fixing frame 2013 drives the components connected with the second fixing frame 2015 to move along the rectangular sliding rail 2014, the second fixing frame 2018, the third bearing seat 2019, the second electric push rod 2020 and the fourth bearing seat 2021 are driven to move along the rectangular sliding rail 2021, the scraping plate 2018 is used for uniformly smearing the concrete sprayed by the first spray head 209; when the second electric push rod 2020 is controlled to contract after the concrete is uniformly coated, the second electric push rod 2020 drives the fourth bearing 2021 to move rightwards, the fourth bearing 2021 drives the fifth connecting plate 2017 and the scraper 2018 to move rightwards, but under the limit of a rotating shaft on the fourth connecting plate 2016, the fifth connecting plate 2017 and the fourth bearing 2021 rotate anticlockwise from front to back by taking the rotating shaft on the fourth connecting plate 2016 as a rotating center, and simultaneously the first electric push rod 2011 is controlled to contract, the first electric push rod 2011 drives the second bearing 2012 and the third connecting plate 208 to move leftwards, so that the second bearing 2012 and the third connecting plate 208 rotate clockwise from front to back by taking the rotating shaft on the first fixing frame 205 as a rotating center, and components connected with the second bearing 2012 and the third connecting plate 208 are driven to reset.

After the vacuum insulation panel is coated with concrete, the two motors 304 are controlled to drive the two bidirectional screw rods 302 to rotate, the two bidirectional screw rods 302 rotate to drive the four sliding blocks 303 to move in opposite directions or in opposite directions, the four sliding blocks 303 drive the two third mounting plates 305 to move in opposite directions or in opposite directions, and the two third mounting plates 305 drive components connected with the two third mounting plates to move in opposite directions or in opposite directions, i.e., drive the first limiting plate 306, the sixth connecting plate 307, the elastic member 308, the fifth bearing seat 309, the second electric slide 3010, the second electric slide 3011, the seventh connecting plate 3012, the eighth connecting plate 3013, the sixth bearing seat 3014, the seventh bearing seat 3015, the third electric push rod 3016, the eighth bearing seat 3017, the limiting block 3018, the second limiting plate 3019, the second nozzle 3020 and the third limiting plate 3021 to move in opposite directions or in opposite directions, so as to adapt to vacuum insulation panels of different sizes, for convenience of description, taking a fitting assembly located in front as an example, then the second electric slider 3011 is controlled to move rightwards on the second electric sliding rail 3010, the second electric slider 3011 drives the seventh connecting plate 3012 to move rightwards, the two seventh connecting plates 3012 drive the limiting block 3018 to move rightwards, the limiting block 3018 limits the first limiting plate 306, then under the action of the two elastic elements 308, the two elastic elements 308 drive the second electric sliding rail 3010 to move upwards, the two sixth connecting plates 307 rotate around the rotating shaft on the third mounting plate 305, the second electric sliding rail 3010 drives the components connected with the second electric sliding rail to move upwards, that is, the second electric sliding block 3011, the seventh connecting plate 3012, the eighth connecting plate 3013, the sixth bearing 3014, the seventh bearing 3015, the third electric push rod 3016, the eighth bearing 3017, the limiting block 3018, the second limiting plate 3019, the second nozzle 3020 and the third limiting plate 3021 are driven to move upwards, so that the seventh connecting plate 3012 and the eighth connecting plate 3013 are close to and contact the vacuum insulation plate 3013, then, the third electric push rod 3016 is controlled to contract to drive the eighth bearing seat 3017 to move leftwards, the eighth bearing seat 3017 drives the eighth connecting plate 3013 to move leftwards, but under the limiting action of the sixth bearing seat 3014, the eighth connecting plate 3013 rotates clockwise from front to back by taking a rotating shaft on the sixth bearing seat 3014 as a rotating center, the vacuum insulation panel on the eighth connecting plate 3013 rotates clockwise from front to back, the surface coated with concrete by the vacuum insulation panel is aligned to the building outer wall, and meanwhile, the second electric slide block 3011 is controlled to move rightwards on the second electric slide rail 3010, so that the vacuum insulation panel on the eighth connecting plate 3013 is close to the building outer wall; in the process, four first electric sliding blocks 105 are simultaneously controlled to slide up and down on four first electric sliding rails 104, the four first electric sliding blocks 105 drive two second connecting plates 106 to move up and down, the two second connecting plates 106 drive the second mounting plates 107 to move up and down, the second mounting plates 107 drive the laminating system 3 to move up and down, so that the vacuum insulation panels move to the positions of the building outer walls to be laminated, then the second electric sliding blocks 3011 further move rightwards on the second electric sliding rails 3010, so that the vacuum insulation panels on the eighth connecting plates 3013 are laminated on the surfaces of the building outer walls, then the two motors 304 are controlled to rotate to drive the two bidirectional screw rods 302 to rotate, the bidirectional screw rods 302 drive the four sliding blocks 303 to slide oppositely, the four sliding blocks 303 drive the two third mounting plates 305 to move oppositely, and simultaneously the second spray nozzles 3020 to spray soil and mix the lower parts of the vacuum insulation panels, then the bonding system 3 is controlled to reset, then the external lifting equipment is controlled to drive the construction auxiliary device of the vacuum heat insulation plate for the building engineering to move upwards, the lifting system 1, the smearing system 2 and the bonding system 3 are controlled to be matched to continuously stick a second vacuum heat insulation plate, when the eighth connecting plate 3013 drives the vacuum heat insulation plate to move right above one vacuum heat insulation plate on the building outer wall, the eighth connecting plate 3013 drives the second limiting plate 3019, the second spray head 3020 and the third limiting plate 3021 to move right above the last vacuum heat insulation plate, so that the third limiting plate 3021 is bonded to the surface of the building outer wall, meanwhile, the third limiting plate 3021 is limited by the building outer wall, so that the third limiting plate 3021 rotates anticlockwise when the rotating shaft on the eighth connecting plate 3013 is used as a rotating center from front to back, and then the two second spray heads 3020 are controlled to smear concrete on a gap between the two vacuum heat insulation plates, after the concrete is coated, the second electric slider 3011 is controlled to slide leftwards on the second electric slide rail 3010, the second electric slider 3011 drives the parts connected with the second electric slider 3011 to move leftwards, so that the third limiting plate 3021 moves leftwards, and meanwhile, the third limiting plate 3021 rotates clockwise when the third limiting plate 3021 is seen from front to back under the action of the torsion spring on the rotating shaft of the eighth connecting plate 3013, so that the upper portion of the last attached vacuum insulation panel is fixed, and meanwhile, the non-attached portion of the upper portion of the last attached vacuum insulation panel is driven to pull backwards, thereby facilitating subsequent filling.

While the disclosure has been described with respect to a limited number of embodiments, those skilled in the art, having benefit of this disclosure, will appreciate that various other embodiments can be devised which do not depart from the scope of the invention as disclosed herein. Accordingly, the scope of the invention should be limited only by the attached claims.

Claims (10)

1. A construction auxiliary device of a vacuum insulated panel for constructional engineering comprises a lifting system (1); the device is characterized by also comprising a smearing system (2) and a fitting system (3); the upper part of the lifting system (1) is provided with a smearing system (2) for spraying concrete; the upper part of the lifting system (1) is connected with a bonding system (3) for bonding the heat insulation plate.

2. The construction auxiliary device for the vacuum insulation panel for the building engineering according to claim 1, wherein the lifting system (1) comprises a lock catch (101), a first connecting plate (102), a first mounting plate (103), a first electric sliding rail (104), a first electric sliding block (105), a second connecting plate (106) and a second mounting plate (107); the upper parts of the four lock catches (101) are respectively fixedly connected with a first connecting plate (102); a first mounting plate (103) is fixedly connected among the four first connecting plates (102); the upper part of the first mounting plate (103) is fixedly connected with four first electric slide rails (104); the four first electric slide rails (104) are distributed in a rectangular shape, and the outer surfaces of the four first electric slide rails (104) are fixedly connected with a first electric slide block (105) respectively; a second connecting plate (106) is fixedly connected between the two first electric sliding blocks (105) positioned on the left; another second connecting plate (106) is fixedly connected between the two first electric sliding blocks (105) positioned on the right; a second mounting plate (107) is fixedly connected to the upper parts of the two second connecting plates (106).

3. The vacuum insulation panel construction auxiliary device for construction engineering according to claim 2, wherein the two first connection plates (102) located at the left side are provided with notches whose fixed distance can be adjusted.

4. The construction auxiliary device for the vacuum insulation panels for the building engineering according to claim 3, wherein the smearing system (2) comprises a fixing column (201), a supporting frame (202), a rectangular sliding rail (203), a sucking disc (204), a first fixing frame (205), a first electric roller (206), a first fixing groove (207), a third connecting plate (208), a first spray head (209), a first bearing seat (2010), a first electric push rod (2011), a second bearing seat (2012), a second fixing frame (2013), a second electric roller (2014), a second fixing groove (2015), a fourth connecting plate (2016), a fifth connecting plate (2017), a scraping plate (2018), a third bearing seat (2019), a second electric push rod (2020) and a fourth bearing seat (2021); the upper part of the second mounting plate (107) is fixedly connected with a fixing column (201); the upper part of the fixed column (201) is fixedly connected with a supporting frame (202); the outer side of the support frame (202) is fixedly connected with a rectangular sliding rail (203); eight suckers (204) are arranged at the upper part of the rectangular sliding rail (203); the outer surface of the right part of the rectangular sliding rail (203) is connected with four first electric rollers (206) in a sliding way; the lower parts of the four first electric rollers (206) are rotatably connected with a first fixing frame (205); two first fixing grooves (207) are fixedly connected to the left part of the first fixing frame (205); the two first fixing grooves (207) are rotationally connected with the two first electric rollers (206) positioned on the right; the right part of the first fixing frame (205) is rotationally connected with a third connecting plate (208) through a rotating shaft; the upper part of the third connecting plate (208) is fixedly connected with a first spray head (209); a second bearing seat (2012) is fixedly connected to the lower part of the third connecting plate (208); a first bearing seat (2010) is fixedly connected to the lower part of the first fixing frame (205); the lower part of the first bearing seat (2010) is rotatably connected with a first electric push rod (2011) through a rotating shaft; the telescopic end of the first electric push rod (2011) is fixedly connected with the rotating shaft on the second bearing seat (2012); the outer surface of the left part of the rectangular sliding rail (203) is connected with four second electric rollers (2014) in a sliding way; the lower parts of the four second electric rollers (2014) are rotatably connected with a second fixing frame (2013); two second fixing grooves (2015) are fixedly connected to the right part of the second fixing frame (2013); the two second fixing grooves (2015) are rotatably connected with the two second electric rollers (2014) positioned on the left side; a fourth connecting plate (2016) is fixedly connected to the left part of the second fixing frame (2013); the left part of the fourth connecting plate (2016) is rotatably connected with a fifth connecting plate (2017) through a rotating shaft; a scraping plate (2018) is fixedly connected to the right part of the fifth connecting plate (2017); the left part of the fourth connecting plate (2016) is fixedly connected with a fourth bearing seat (2021) through a rotating shaft; the lower part of the second fixing frame (2013) is fixedly connected with a third bearing seat (2019); the lower part of the third bearing seat (2019) is rotatably connected with a second electric push rod (2020) through a rotating shaft; the telescopic rod of the second electric push rod (2020) is fixedly connected with the rotating shaft on the fourth bearing seat (2021).

5. The vacuum insulation panel construction assisting device for building engineering as claimed in claim 4, wherein the suction cup (204) is made of rubber and has a certain elasticity for fixing the vacuum insulation panel.

6. The vacuum insulation panel construction assisting device for construction engineering as claimed in claim 4, wherein the scraping plate (2018) is provided with an inverted cone shape for smoothing the concrete applied to the vacuum insulation panel.

7. The construction auxiliary device of the vacuum insulation panel for the building engineering according to claim 6, wherein the attaching system (3) comprises a fixed seat (301), a bidirectional screw rod (302), a sliding block (303), a motor (304) and an attaching assembly; the upper part of the second mounting plate (107) is fixedly connected with four fixed seats (301); a bidirectional screw rod (302) is rotatably connected between the two fixed seats (301) positioned on the left; another two-way screw rod (302) is rotatably connected between the two fixed seats (301) positioned at the right side; the outer surfaces of the two-way screw rods (302) are respectively and rotatably connected with two sliding blocks (303); the left part and the right part of the two sliding blocks (303) positioned on the left side are in sliding connection with the two fixed seats (301) through two limiting rods; the left part and the right part of the two sliding blocks (303) positioned on the right are in sliding connection with the other two fixed seats (301) through two limiting rods; the two fixed seats (301) positioned in front are respectively and fixedly connected with a motor (304); the output ends of the two motors (304) are fixedly connected with the two bidirectional screw rods (302); the upper parts of the two sliding blocks (303) positioned in front are fixedly connected with a joint component; the upper parts of the two sliding blocks (303) positioned at the rear are fixedly connected with another laminating component.

8. The construction auxiliary device of the vacuum insulation panel for the building engineering according to claim 7, wherein the laminating assembly positioned in front comprises a third mounting plate (305), a first limit plate (306), a sixth connecting plate (307), an elastic member (308), a fifth bearing seat (309), a second electric slide rail (3010), a second electric slide block (3011), a seventh connecting plate (3012), an eighth connecting plate (3013), a sixth bearing seat (3014), a seventh bearing seat (3015), a third electric push rod (3016), an eighth bearing seat (3017), a limit block (3018), a second limit plate (3019), a second spray head (3020) and a third limit plate (3021); the two sliding blocks (303) positioned in front are fixedly connected with a third mounting plate (305); a first limit plate (306) is fixedly connected to the left part of the third mounting plate (305); the upper part of the third mounting plate (305) is movably connected with two sixth connecting plates (307) which are symmetrical left and right; the upper parts of the two sixth connecting plates (307) are rotatably connected with a fifth bearing seat (309) through rotating shafts; the upper parts of the two fifth bearing seats (309) are fixedly connected with a second electric slide rail (3010); the outer surface of the second electric sliding rail (3010) is connected with a second electric sliding block (3011) in a sliding way; the upper part of the second electric slider (3011) is fixedly connected with a seventh connecting plate (3012); a sixth bearing seat (3014) is fixedly connected to the right part of the seventh connecting plate (3012); the right part of the sixth bearing seat (3014) is rotatably connected with an eighth connecting plate (3013) through a rotating shaft; two elastic pieces (308) which are symmetrical left and right are fixedly connected to the upper part of the third mounting plate (305); the two elastic pieces (308) are positioned between the two fifth bearing seats (309); the upper parts of the two elastic pieces (308) are fixedly connected with a second electric slide rail (3010); a seventh bearing seat (3015) is fixedly connected to the right part of the seventh connecting plate (3012); the right part of the seventh bearing seat (3015) is rotatably connected with a third electric push rod (3016) through a rotating shaft; the third electric push rod (3016) is connected with an eighth bearing seat (3017) through a rotating shaft in a rotating way; the upper part of the eighth bearing block (3017) is fixedly connected with the middle part of the eighth connecting plate (3013); the left part of the seventh connecting plate (3012) is fixedly connected with a limiting block (3018); the limiting block (3018) is in contact with the first limiting plate (306); the right part of the eighth connecting plate (3013) is rotatably connected with a second limiting plate (3019) through a rotating shaft; a second spray head (3020) is fixedly connected to the right part of the eighth connecting plate (3013); the second spray head (3020) is positioned on the right of the second limiting plate (3019); the right part of the eighth connecting plate (3013) is rotatably connected with a third limiting plate (3021) through a rotating shaft; the third limiting plate (3021) is positioned on the right of the second spray head (3020).

9. The construction auxiliary device of the vacuum insulation panel for the building engineering according to claim 8, wherein an arc-shaped projection is arranged at the upper part of the first limiting plate (306) and used for clamping the limiting block (3018).

10. The construction auxiliary device of the vacuum insulation panel for the building engineering according to claim 8, wherein a rubber leather sheath is sleeved on the surface of the second limiting plate (3019) to increase resistance and prevent the vacuum insulation panel from falling.

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