CN113815292B - Slurry coating treatment equipment for spliced light heat-insulating waterproof board - Google Patents

Abstract

The invention relates to the field of house waterproofing, in particular to slurry coating treatment equipment for a spliced light heat-insulating waterproof board. Technical problems: provides a spliced light heat-insulating waterproof board slurry coating treatment device. The slurry coating treatment equipment for the spliced light heat-insulating waterproof board comprises a support frame, a first slide way, a second slide way and the like; the support frame is provided with a fixing mechanism. According to the invention, the operation of coating modified cement paste on the XPS extruded sheet and the glass fiber net is realized, a square frame is formed in a combined assembly mode during coating to prevent the paste from being coated on two sides of the XPS extruded sheet, and the cement paste is coated in the concave small holes on the surface of the XPS extruded sheet, so that the XPS extruded sheet is uniformly contacted with the cement paste, and is tightly attached to the glass fiber net, and the waterproof effect of the sheet is enhanced.

Description

Slurry coating treatment equipment for spliced light heat-insulating waterproof board

Technical Field

The invention relates to the field of house waterproofing, in particular to slurry coating treatment equipment for a spliced light heat-insulating waterproof board.

Background

Coating the existing light heat-insulating waterproof board modified cement slurry, covering one surface of an XPS extruded board with a layer of glass fiber net, coating a layer of modified cement slurry on the glass fiber net, sleeving a square frame with the side higher than the surface of the extruded board on the glass fiber net during coating, and then coating; in the processing mode, folds can appear around the glass fiber net during the sleeve pressing, so that the glass fiber net is not tightly attached to the XPS extruded sheet, a plurality of concave small holes are easily blocked by the glass fiber net on the surface of the XPS extruded sheet, and the waterproof effect of the sheet is deteriorated due to uneven coating;

in view of the above, there is a need for a slurry coating apparatus for a spliced lightweight insulation flashing to solve the above-mentioned problems.

Disclosure of Invention

In order to overcome the problem of coating of the existing light heat-insulating waterproof board modified cement slurry, one surface of an XPS extruded board is covered with a layer of glass fiber net, then a layer of modified cement slurry is coated on the glass fiber net, and a square frame with the side higher than the surface of the extruded board is sleeved on the glass fiber net during coating, and then coating is carried out; such processing mode can appear the fold around the glass fiber net when the cover presses for glass fiber net is inseparable with XPS extruded sheet laminating, and the surface of XPS extruded sheet has a plurality of sunken apertures to be blocked by glass fiber net easily, leads to the uneven shortcoming that makes the waterproof effect of panel worsen of coating, technical problem: provides a spliced light heat-insulating waterproof board slurry coating treatment device.

The utility model provides a concatenation formula light heat preservation waterproof board thick liquids coating treatment facility, includes support frame, unloading case, first slide, second slide, first electric slide rail, second electric slide rail, first automatic clamp, second automatic clamp, place platform and compression roller; the support frame is fixedly connected with the first slide way and the second slide way; the support frame is fixedly connected with the placing table; the first electric slide rail is in sliding connection with the first automatic clamp through a slide block; the second electric slide rail is in sliding connection with the second automatic clamp through a slide block; the support frame is provided with a fixing mechanism; the fixing mechanism is contacted with the press roller; the fixing mechanism is fixedly connected with the first electric slide rail and the second electric slide rail; the fixing mechanism is fixedly connected with the lifting mechanism; the fixing mechanism can fold and fix the side face of the glass fiber cloth; a coating mechanism is arranged on the support frame; the coating mechanism is fixedly connected with the blanking box; the coating mechanism can fold and fix the two sides of the fixed glass fiber cloth.

Optionally, the fixing mechanism includes a first motor, a first transmission rod, a first flat gear, a first bevel gear, a second transmission rod, a first transmission wheel, a second transmission wheel, a first screw rod, a third transmission wheel, a fourth transmission wheel, a first lifting frame, a first bracket, a first polished rod, a compression rod, a first auxiliary compression frame, a second lifting frame, a second bracket, a second screw rod, a second polished rod, a first electric bracket and a second electric bracket; the first motor is fixedly connected with the support frame; the first motor is fixedly connected with the first transmission rod; the first transmission rod is rotationally connected with the support frame through the support; the first transmission rod is fixedly connected with the inner axle center of the first flat gear; the first transmission rod is fixedly connected with the inner axis of the first bevel gear; the first bevel gear is meshed with the second bevel gear; the inner axle center of the second bevel gear is fixedly connected with a second transmission rod; the second transmission rod is rotationally connected with the support frame; the second transmission rod is fixedly connected with the inner axle center of the first transmission wheel; the outer ring surface of the first driving wheel is in driving connection with the second driving wheel through a belt; the inner axle center of the second driving wheel is fixedly connected with the first screw rod through a sliding sleeve; the first screw rod is fixedly connected with the inner axle center of the third driving wheel through a sliding sleeve; the first screw rod is connected with the first lifting frame in a screwing way; the first screw rod is rotationally connected with the first electric bracket; the first screw rod is rotationally connected with the support frame; the outer ring surface of the third driving wheel is in driving connection with the fourth driving wheel through a belt; the inner axle center of the fourth driving wheel is fixedly connected with the second screw rod through a sliding sleeve; the first lifting frame is fixedly connected with the first bracket; the first lifting frame is in sliding connection with the first polished rod; the first lifting frame is fixedly connected with the compression bar; the first bracket is contacted with the compression roller; the first polished rod is fixedly connected with the second electric bracket; the first polished rod is fixedly connected with the support frame; one side of the compression bar is fixedly connected with the first auxiliary compression frame through a bracket; the other side of the compression bar is fixedly connected with a second auxiliary compression frame through a bracket; the compression bar is fixedly connected with the second lifting frame; the second lifting frame is fixedly connected with the second bracket; the second lifting frame is in screwed connection with one side of the second lifting frame and the second screw rod; the second lifting frame is in sliding connection with the second polished rod on the other side; the second screw rod is rotationally connected with the first electric bracket; the second screw rod is rotationally connected with the support frame; the second polished rod is fixedly connected with a second electric bracket; the second polished rod is fixedly connected with the support frame; the first electric bracket and the second electric bracket are fixedly connected with the supporting frame; the second electric bracket is fixedly connected with the lifting mechanism through a bracket; the second electric bracket is fixedly connected with the first electric slide rail and the second electric slide rail respectively; when the first flat gear is meshed with the coating mechanism, the first flat gear drives the coating mechanism to rotate; when the first flat gear is not meshed with the coating mechanism, the first flat gear does not drive the coating mechanism to rotate.

Optionally, the coating mechanism comprises a wedge block, a chute, a third transmission rod, a second flat gear, a third flat gear, a fourth transmission rod, a fifth flat gear, a sixth flat gear, a third screw rod, a frame, a third polished rod, a brush rod, bristles, a first extrusion block, a second extrusion block, a fourth screw rod, a first auxiliary frame, a first arc block, a first rolling rod, a second auxiliary frame, a second arc block, a second rolling rod and a fourth polished rod; the wedge-shaped block is in sliding connection with the chute; the wedge-shaped block is rotationally connected with the third transmission rod; the chute is fixedly connected with the support frame; the third transmission rod is in sliding connection with the chute through a bracket; the third transmission rod is fixedly connected with the inner axle center of the second flat gear; the side surface of the second flat gear is provided with a third flat gear, and the inner axle center of the third flat gear is fixedly connected with a fourth transmission rod; the third flat gear is meshed with the fourth flat gear; the inner axle center of the fourth flat gear is fixedly connected with a fourth screw rod through a sliding sleeve; the fourth transmission rod is fixedly connected with the inner axle center of the fifth flat gear; the fourth transmission rod is rotationally connected with the support frame through a bracket; the fifth flat gear is meshed with the sixth flat gear; the inner axle center of the sixth flat gear is fixedly connected with a third screw rod through a sliding sleeve; the third screw rod is rotationally connected with the support frame through a bracket; the third screw rod is connected with the frame in a screwing way; the frame is in sliding connection with the third polished rod; the frame is fixedly connected with the brush rod; the frame is fixedly connected with the first extrusion block and the second extrusion block through springs; the third polished rod is fixedly connected with the support frame through a support; a plurality of groups of brush hair are equidistantly arranged below the brush rod; the fourth screw rod is screwed with the first auxiliary frame; the first auxiliary frame is fixedly connected with the blanking box; the first auxiliary frame is fixedly connected with the first arc-shaped block; the first auxiliary frame is respectively connected with the first rolling rod and the second rolling rod in a rotating way; the first rolling rod is rotationally connected with the second auxiliary frame; the second auxiliary frame is fixedly connected with the blanking box; the second auxiliary frame is fixedly connected with the second arc-shaped block; the second auxiliary frame is in rotary connection with the first rolling rod and the second rolling rod; the second auxiliary frame is in sliding connection with the fourth polished rod; the fourth polished rod is fixedly connected with the support frame through a support; when the second flat gear is meshed with the third flat gear, the second flat gear drives the third flat gear to rotate; when the second flat gear is not meshed with the third flat gear, the second flat gear does not drive the third flat gear to rotate.

Optionally, an opening is respectively arranged on two sides of the first slideway and the second slideway upwards.

Optionally, the first lifting frame is in an inverted trapezoid shape.

Optionally, an opening is provided in the frame adjacent each of the first and second squeeze blocks.

Optionally, the bristles are arranged in a circular spread.

Optionally, the first auxiliary frame and the second auxiliary frame are in an inverted "L" shape.

The invention has the advantages that: 1. in order to solve the problem of coating of the existing light heat-insulating waterproof board modified cement slurry, one surface of an XPS extruded board is covered with a layer of glass fiber net, then a layer of modified cement slurry is coated on the glass fiber net, and a square frame with the side higher than the surface of the extruded board is sleeved on the glass fiber net during coating, and then coating is carried out; by the processing mode, folds can appear on the periphery of the glass fiber net when in sleeve pressing, so that the glass fiber net is not tightly attached to the XPS extruded sheet, a plurality of sunken small holes are formed in the surface of the XPS extruded sheet and are easily blocked by the glass fiber net, and the problem that the waterproof effect of the sheet is poor due to uneven coating is caused.

2. A fixing mechanism, a coating mechanism and a lifting mechanism are designed; when in use, firstly, the support frame is horizontally placed, then the power supply and the controller are externally connected, the controller controls the operation, the XPS extruded sheet is firstly placed on the placing table, then the glass fiber net is placed on the XPS extruded sheet, then the first motor is started to drive the fixing mechanism to operate, the fixing mechanism places the press roller on the glass fiber sheet and the XPS extruded sheet, meanwhile, the press rod also presses the part of the glass fiber net, which is more than the XPS extruded sheet, to fold the part of the glass fiber net on the side surface of the XPS extruded sheet, the glass fiber net is fixed on the XPS extruded sheet, then the fixing mechanism drives the wedge block to enable the coating mechanism to operate, the press roller is pushed to slide on the first slide way and the second slide way and press the glass fiber net, and meanwhile, the coating mechanism carries the blanking box to pour the modified cement slurry on the glass fiber net and the XPS extruded sheet when passing through the glass fiber net, the first auxiliary frame and the second auxiliary frame are also pressed against the excessive parts on two sides of the glass fiber net and folded on two sides of the XPS extruded sheet, then the coating mechanism frames the glass fiber net and the XPS extruded sheet by the frame, and simultaneously, cement slurry is coated on the glass fiber net and the XPS extruded sheet, so that the slurry cannot be brushed on two sides of the XPS extruded sheet, then the second motor is started to drive the lifting mechanism to operate, a 'square frame' is formed by combining the baffle plate and the frame to prevent the slurry from being brushed on four sides of the XPS extruded sheet, the lifting mechanism simultaneously takes the compression roller away from the first slideway and the second slideway and is clamped by the first automatic clamp and the second automatic clamp, the compression roller is placed on the first bracket and the second bracket by the first electric slide rail and the second electric slide rail, finally, after the coating mechanism and the lifting mechanism are reset, the coating of the glass fiber web modified sizing agent on the bottom surface of the XPS extruded sheet can be continuously carried out.

3. According to the invention, the operation of coating modified cement paste on the XPS extruded sheet and the glass fiber net is realized, a square frame is formed in a combined assembly mode during coating to prevent the paste from being coated on two sides of the XPS extruded sheet, and the cement paste is coated in the concave small holes on the surface of the XPS extruded sheet, so that the XPS extruded sheet is uniformly contacted with the cement paste, and is tightly attached to the glass fiber net, and the waterproof effect of the sheet is enhanced.

Drawings

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

FIG. 2 is a schematic view of a second perspective structure of the present invention;

FIG. 3 is a schematic view of a third perspective structure of the present invention;

FIG. 4 is a schematic view of a first perspective of the securing mechanism of the present invention;

FIG. 5 is a schematic view of a second perspective of the securing mechanism of the present invention;

FIG. 6 is a schematic view of a third perspective of the fastening mechanism of the present invention;

FIG. 7 is a top view of the securing mechanism of the present invention;

FIG. 8 is a schematic view of a first perspective of the coating mechanism of the present invention;

FIG. 9 is a schematic view of a second perspective of the coating mechanism of the present invention;

FIG. 10 is a schematic view of a third perspective of the coating mechanism of the present invention;

FIG. 11 is a schematic perspective view of a portion of the coating mechanism of the present invention;

FIG. 12 is an enlarged view of the G region of the present invention;

FIG. 13 is a top view of the coating mechanism of the present invention;

FIG. 14 is a schematic view showing a first perspective of the lifting mechanism of the present invention;

FIG. 15 is a schematic view of a second perspective of the lift mechanism of the present invention;

FIG. 16 is a schematic view of a third perspective of the lift mechanism of the present invention;

fig. 17 is a front view of the lifting mechanism of the present invention.

The reference symbols in the drawings: 1: support frame, 2: blanking box, 3: first slide, 4: second slide, 5: first electric slide rail, 6: second electric slide rail, 7: first automatic clamp, 8: second automatic clamp, 9: placing table, 10: compression roller, 201: first motor, 202: first transfer lever, 203: first flat gear, 204: first bevel gear, 205: second bevel gear, 206: second transfer lever, 207: first drive wheel, 208: second drive wheel, 209: first lead screw, 2010: third drive wheel, 2011: fourth drive wheel, 2012: first crane, 2013: first bracket, 2014: first polished rod, 2015: compression bar, 2016: first auxiliary press stand, 2017: second auxiliary press stand, 2018: second crane, 2019: second bracket, 2020: second screw, 2021: second polished rod, 2022: first motorized mount, 2023: second electric stand, 301: wedge block, 302: chute, 303: third transfer bar, 304: second flat gear, 305: third flat gear, 306: fourth flat gear, 307: fourth transfer bar, 308: fifth flat gear, 309: sixth flat gear, 3010: third screw, 3011: frame 3012: third polish rod, 3013: brush bar, 3014: bristle 3015: first extrusion block, 3016: second extrusion block, 3017: fourth screw, 3018: first auxiliary frame, 3019: first arc piece, 3020: first roller bar, 3021: second auxiliary frame, 3022: second arc piece, 3023: second roller bar, 3024: fourth polished rod, 401: second motor, 402: third bevel gear, 403: fourth bevel gear, 404: fifth transfer line, 405: fifth drive wheel, 406: sixth drive wheel, 407: fifth screw, 408: seventh drive wheel, 409: eighth transmission wheel 4010: movable lever, 4011: baffle, 4012: fifth polished rod, 4013: sixth screw, 4014: third crane, 4015: third bracket, 4016: sixth polished rod, 4017: ninth transmission wheel, 4018: tenth transmission wheel, 4019: seventh lead screw, 4020: fourth crane, 4021: fourth carriage, 4022: seventh polished rod, 4023: third electric mount, 4024: and a fourth electric bracket.

Detailed Description

Embodiments of the present invention will be described below with reference to the drawings.

Examples

The slurry coating treatment equipment for the spliced light heat-insulating waterproof board is shown by referring to figures 1-3 and comprises a support frame 1, a blanking box 2, a first slideway 3, a second slideway 4, a first electric slide rail 5, a second electric slide rail 6, a first automatic clamp 7, a second automatic clamp 8, a placing table 9 and a pressing roll 10; the support frame 1 is fixedly connected with the first slide way 3 and the second slide way 4; the support frame 1 is fixedly connected with the placing table 9; the first electric slide rail 5 is in sliding connection with the first automatic clamp 7 through a slide block; the second electric slide rail 6 is in sliding connection with a second automatic clamp 8 through a slide block; the support frame 1 is provided with a fixing mechanism; the fixing mechanism is contacted with the press roller 10; the fixing mechanism is fixedly connected with the first electric slide rail 5 and the second electric slide rail 6; the fixing mechanism is fixedly connected with the lifting mechanism; the fixing mechanism can fold and fix the side face of the glass fiber cloth; a coating mechanism is arranged on the support frame 1; the coating mechanism is fixedly connected with the blanking box 2; the coating mechanism can fold and fix the two sides of the fixed glass fiber cloth.

The working process comprises the following steps: when in use, firstly, the support frame 1 is horizontally placed, then a power supply and a controller are externally connected, the controller controls the operation, the XPS extruded sheet is manually placed on the placing table 9, then the glass fiber net is placed on the XPS extruded sheet, then the first motor 201 is started to drive the fixing mechanism to operate, the fixing mechanism places the press roller 10 on the glass fiber sheet and the XPS extruded sheet, meanwhile, the press rod 2015 also presses and folds the part of the glass fiber net, which is more than the XPS extruded sheet, on the XPS extruded sheet, the glass fiber net is fixed on the XPS extruded sheet, then the wedge-shaped block 301 is driven by the fixing mechanism to operate, the press roller 10 is pushed to slide on the first slide 3 and the second slide 4 and press the glass fiber net, meanwhile, the coating mechanism is driven by the blanking box 2 to pour the modified cement slurry on the XPS glass fiber net and the extruded sheet when passing through the glass fiber net, and the first auxiliary frame 3018 and the second auxiliary frame 3021 also press the two sides of the glass fiber net and fold the two sides of the XPS extruded sheet, then the coating mechanism frames the glass fiber net and the XPS extruded sheet by the frame 3011, and simultaneously coats cement paste on the glass fiber net and the XPS extruded sheet so that the paste is not brushed on the two sides of the XPS extruded sheet, then the second motor 401 is started to drive the lifting mechanism to operate, a 'square frame' is formed by combining the baffle 4011 and the frame 3011, the paste is prevented from being brushed on the four sides of the XPS extruded sheet, the lifting mechanism simultaneously brings the press roller 10 away from the first slideway 3 and the second slideway 4, the press roller 10 is clamped by the first automatic clamp 7 and the second automatic clamp 8, the press roller 10 is placed on the first bracket 2013 and the second bracket 2019 through the first electric slide rail 5 and the second electric slide rail 6, finally, after the coating mechanism and the lifting mechanism are reset, coating of the glass fiber net modified sizing agent on the bottom surface of the XPS extruded sheet can be continued; according to the invention, the operation of coating modified cement paste on the XPS extruded sheet and the glass fiber net is realized, a square frame is formed in a combined assembly mode during coating to prevent the paste from being coated on two sides of the XPS extruded sheet, and the cement paste is coated in the concave small holes on the surface of the XPS extruded sheet, so that the XPS extruded sheet is uniformly contacted with the cement paste, and is tightly attached to the glass fiber net, and the waterproof effect of the sheet is enhanced.

4-7, the fixing mechanism comprises a first motor 201, a first transmission rod 202, a first flat gear 203, a first bevel gear 204, a second bevel gear 205, a second transmission rod 206, a first transmission wheel 207, a second transmission wheel 208, a first screw rod 209, a third transmission wheel 2010, a fourth transmission wheel 2011, a first lifting frame 2012, a first bracket 2013, a first polished rod 2014, a pressing rod 2015, a first auxiliary pressing frame 2016, a second auxiliary pressing frame 2017, a second lifting frame 2018, a second bracket 2019, a second screw rod 2020, a second polished rod 2021, a first electric bracket 2022 and a second electric bracket 2023; the first motor 201 is fixedly connected with the support frame 1; the first motor 201 is fixedly connected with the first transmission rod 202; the first transmission rod 202 is rotatably connected with the support frame 1 through a bracket; the first transmission rod 202 is fixedly connected with the inner axle center of the first flat gear 203; the first transmission rod 202 is fixedly connected with the inner axle center of the first bevel gear 204; the first bevel gear 204 meshes with the second bevel gear 205; the inner axis of the second bevel gear 205 is fixedly connected with a second transmission rod 206; the second transmission rod 206 is rotatably connected with the support frame 1; the second transmission rod 206 is fixedly connected with the inner axle center of the first transmission wheel 207; the outer annular surface of the first driving wheel 207 is in driving connection with the second driving wheel 208 through a belt; the inner axis of the second driving wheel 208 is fixedly connected with the first screw rod 209 through a sliding sleeve; the first screw rod 209 is fixedly connected with the inner axle center of the third driving wheel 2010 through a sliding sleeve; the first screw rod 209 is screwed with the first lifting frame 2012; the first screw rod 209 is rotatably connected with the first electric bracket 2022; the first screw rod 209 is rotationally connected with the support frame 1; the outer ring surface of the third driving wheel 2010 is in driving connection with a fourth driving wheel 2011 through a belt; the inner axle center of the fourth driving wheel 2011 is fixedly connected with a second screw rod 2020 through a sliding sleeve; the first lifting frame 2012 is fixedly connected with the first bracket 2013; the first lifting frame 2012 is in sliding connection with the first polished rod 2014; the first lifting frame 2012 is fixedly connected with the compression bar 2015; the first bracket 2013 is in contact with the platen roller 10; the first polish rod 2014 is fixedly connected with the second electric bracket 2023; the first polish rod 2014 is fixedly connected with the support frame 1; one side of the compression bar 2015 is fixedly connected with the first auxiliary compression frame 2016 through a bracket; the other side of the compression bar 2015 is fixedly connected with a second auxiliary compression frame 2017 through a bracket; the compression bar 2015 is fixedly connected with the second lifting frame 2018; the second lifting frame 2018 is fixedly connected with the second bracket 2019; the second lifting frame 2018 is screwed with the second screw 2020 on one side; the second lifting frame 2018 is in sliding connection with the second polished rod 2021 on the other side; the second screw 2020 is rotatably connected with the first electric bracket 2022; the second screw 2020 is rotatably connected with the support frame 1; the second polish rod 2021 is fixedly connected with a second electric bracket 2023; the second polish rod 2021 is fixedly connected with the support frame 1; the first electric bracket 2022 and the second electric bracket 2023 are fixedly connected with the supporting frame 1; the second electric bracket 2023 is fixedly connected with the lifting mechanism through a bracket; the second electric bracket 2023 is fixedly connected with the first electric slide rail 5 and the second electric slide rail 6 respectively; when the first flat gear 203 is meshed with the coating mechanism, the first flat gear 203 drives the coating mechanism to rotate; when the first flat gear 203 is not engaged with the coating mechanism, the first flat gear 203 does not drive the coating mechanism to rotate.

At first, the XPS extruded sheet is manually placed on the placing table 9, then the glass fiber net is placed on the XPS extruded sheet, then the first motor 201 is started to drive the first transmission rod 202 to rotate, the first transmission rod 202 drives the first flat gear 203 to rotate, then the first flat gear 203 drives the first bevel gear 204 to rotate, then the first bevel gear 204 drives the second bevel gear 205 to rotate, then the second bevel gear 205 drives the second transmission rod 206 to rotate, then the second transmission rod 206 drives the first transmission wheel 207 to rotate, then the outer ring surface of the first transmission wheel 207 drives the second transmission wheel 208 to rotate through a belt, then the second transmission wheel 208 drives the first lead screw 209 to rotate, then the first lead screw 209 drives the first lifting frame 2012 to slide downwards on the first polished rod 2014, and the first lifting frame 2012 drives the first bracket 2013 to slide downwards, meanwhile the first lead screw 209 drives the third transmission wheel 2010 to rotate, the outer ring surface of the third driving wheel 2010 drives the fourth driving wheel 2011 to rotate through a belt, the fourth driving wheel 2011 drives the second screw rod 2020 to rotate, the second screw rod 2020 drives the second lifting frame 2018 to slide downwards on the second polished rod 2021, the second lifting frame 2018 drives the second bracket 2019 to slide downwards, then the first lifting frame 2012 and the second lifting frame 2018 simultaneously drive the pressing rod 2015, the first auxiliary pressing frame 2016 and the second auxiliary pressing frame 2017 to move downwards to press and fold the glass fiber web, the first bracket 2013 and the second bracket 2019 also drive the pressing roller 10 to press the glass fiber web on the XPS extruded sheet, at the moment, the first lifting frame 2012 presses the coating mechanism and slides the coating mechanism to be meshed with the first flat gear 203, and finally the first motor 201 is reversed, so that the first lifting frame 2012, the first bracket 2013, the second lifting frame 2018, the second bracket 2019, the compression bar 2015, the first auxiliary compression bracket 2016 and the second auxiliary compression bracket 2017 are reset; the mechanism completes the fixation and side folding of the fiberglass mesh.

8-13, the coating mechanism comprises a wedge block 301, a sliding chute 302, a third transmission rod 303, a second flat gear 304, a third flat gear 305, a fourth flat gear 306, a fourth transmission rod 307, a fifth flat gear 308, a sixth flat gear 309, a third screw rod 3010, a frame 3011, a third polish rod 3012, a brush rod 3013, bristles 3014, a first extrusion block 3015, a second extrusion block 3016, a fourth screw rod 3017, a first auxiliary frame 3018, a first arc-shaped block 3019, a first rolling rod 3020, a second auxiliary frame 3021, a second arc-shaped block 3022, a second rolling rod 3023 and a fourth polish rod 3024; the wedge block 301 is in sliding connection with the chute 302; the wedge 301 is rotationally connected with a third transmission rod 303; the chute 302 is fixedly connected with the support frame 1; the third transmission rod 303 is in sliding connection with the chute 302 through a bracket; the third transmission rod 303 is fixedly connected with the inner axle center of the second flat gear 304; a third flat gear 305 is arranged on the side surface of the second flat gear 304, and the inner axle center of the third flat gear 305 is fixedly connected with a fourth transmission rod 307; the third flat gear 305 meshes with the fourth flat gear 306; the inner axle center of the fourth flat gear 306 is fixedly connected with a fourth screw rod 3017 through a sliding sleeve; the fourth transmission rod 307 is fixedly connected with the inner axle center of the fifth flat gear 308; the fourth transmission rod 307 is rotatably connected with the support frame 1 through a bracket; the fifth flat gear 308 meshes with the sixth flat gear 309; the inner axle center of the sixth flat gear 309 is fixedly connected with a third screw rod 3010 through a sliding sleeve; the third screw rod 3010 is rotatably connected with the support frame 1 through a bracket; the third screw 3010 is screwed with the frame 3011; the frame 3011 is slidably connected to the third polish rod 3012; the frame 3011 is fixedly connected to the brush bar 3013; the frame 3011 is fixedly connected with the first extrusion block 3015 and the second extrusion block 3016 through springs; the third polish rod 3012 is fixedly connected with the support frame 1 through a support; a plurality of groups of bristles 3014 are equidistantly arranged below the brush rod 3013; the fourth screw rod 3017 is screwed with the first auxiliary frame 3018; the first auxiliary frame 3018 is fixedly connected with the blanking box 2; the first auxiliary frame 3018 is fixedly connected with the first arc-shaped block 3019; the first auxiliary frame 3018 is respectively connected to the first roller bar 3020 and the second roller bar 3023 in a rotating manner; the first roller bar 3020 is rotatably connected with the second auxiliary frame 3021; the second auxiliary frame 3021 is fixedly connected with the discharging box 2; the second auxiliary frame 3021 is fixedly connected with the second arc-shaped block 3022; the second auxiliary frame 3021 is rotatably connected to both the first roller bar 3020 and the second roller bar 3023; the second auxiliary frame 3021 is slidably connected to the fourth polish rod 3024; the fourth polish rod 3024 is fixedly connected with the support frame 1 through a bracket; when the second flat gear 304 is meshed with the third flat gear 305, the second flat gear 304 drives the third flat gear 305 to rotate; when the second flat gear 304 is not meshed with the third flat gear 305, the second flat gear 304 does not rotate the third flat gear 305.

When the first lifting frame 2012 presses the wedge block 301, the wedge block 301 slides in the chute 302, then the wedge block 301 drives the third transmission rod 303 to slide in the chute 302, and then the third transmission rod 303 drives the second flat gear 304 to slide to be meshed with the third flat gear 305, and then the first motor 201 is reversed, and then the first flat gear 203 drives the second flat gear 304 to rotate, and then the second flat gear 304 drives the third flat gear 305 to rotate, and then the third flat gear 305 drives the fourth flat gear 306 to rotate, and then the fourth flat gear 306 drives the fourth screw 3017 to rotate, and then the fourth screw 3017 drives the first auxiliary frame 3018, the first arc block 3019, the first rolling rod 3020, the second auxiliary frame 3021, the second arc block 3022, the second rolling rod 3023 and the blanking box 2 to slide on the fourth polishing rod 3024 towards the press roller 10, then, the first auxiliary frame 3018 and the second auxiliary frame 3021 further perform pressing operation on the glass fiber web folded against two sides of the XPS extruded sheet, so that the glass fiber web is tightly attached to two sides of the XPS extruded sheet, simultaneously the first arc block 3019 and the second arc block 3022 push the press roller 10 to slide on the first slide way 3 and the second slide way 4 towards the lifting mechanism direction, the blanking box 2 loads modified cement paste onto the glass fiber web and the XPS extruded sheet, the glass fiber web is fixed through the first rolling rod 3020, the second rolling rod 3023 also presses the slurry on the glass fiber web and the XPS extruded sheet, meanwhile, the third flat gear 305 drives the fourth transmission rod 307 to rotate, the fourth transmission rod 307 drives the fifth flat gear 308 to rotate, the fifth flat gear 308 drives the sixth flat gear 309 to rotate, the sixth flat gear 309 drives the third screw 3010 to rotate, and then the third screw 3010 drives the frame 3011, the brush bars 3013, the brush hairs 3014, and the third flat gear 3010 to rotate, the first extrusion block 3015 and the second extrusion block 3016 slide on the third polish rod 3012 towards the fixing mechanism, so that the frame 3011 continuously presses the glass fiber net folded at two sides of the XPS extrusion plate together with the XPS extrusion plate under the action of the first auxiliary frame 3018 and the second auxiliary frame 3021, meanwhile, the brush rod 3013 carries the brush bristles 3014 to smear modified slurry on the glass fiber net and the XPS extrusion plate, so that the concave holes of the XPS extrusion plate are filled with the slurry, when the frame 3011 wraps the glass fiber net and the XPS extrusion plate, the press roller 10 is pushed into the lifting mechanism, and when the first extrusion block 3015 and the second extrusion block 3016 move out of the XPS extrusion plate, the glass fiber net folds of the XPS extrusion plate are pressed together under the action of the springs to form a path, and finally, the 'square frame' assembly is completed under the cooperation of the lifting mechanism; the mechanism completed the coating of the glass fiber web and XPS coated modified cement paste.

14-17, the lifting mechanism comprises a second motor 401, a third bevel gear 402, a fourth bevel gear 403, a fifth transmission rod 404, a fifth transmission wheel 405, a sixth transmission wheel 406, a fifth screw rod 407, a seventh transmission wheel 408, an eighth transmission wheel 409, a movable rod 4010, a baffle 4011, a fifth polish rod 4012, a sixth screw rod 4013, a third lifting frame 4014, a third bracket 4015, a sixth polish rod 4016, a ninth transmission wheel 4017, a tenth transmission wheel 4018, a seventh screw rod 4019, a fourth lifting frame 4020, a fourth bracket 4021, a seventh polish rod 4022, a third electric bracket 4023 and a fourth electric bracket 4024; the second motor 401 is fixedly connected with the support frame 1; the second motor 401 is fixedly connected with the inner axle center of the third bevel gear 402; the third bevel gear 402 meshes with a fourth bevel gear 403; the inner axis of the fourth bevel gear 403 is fixedly connected with a fifth transmission rod 404; the fifth transmission rod 404 is rotatably connected with the support frame 1; the fifth transmission rod 404 is fixedly connected with the inner axle center of the fifth transmission wheel 405; the outer ring surface of the fifth driving wheel 405 is in driving connection with the sixth driving wheel 406 through a belt; the inner axle center of the sixth driving wheel 406 is fixedly connected with a fifth screw rod 407 through a sliding sleeve; the fifth screw rod 407 is rotationally connected with the support frame 1; the fifth screw 407 is screwed with the movable rod 4010; the fifth screw 407 is rotationally connected with a third electric bracket 4023 through a bracket; the fifth screw rod 407 is fixedly connected with the inner axle center of the seventh driving wheel 408; the outer annular surface of the seventh driving wheel 408 is in driving connection with an eighth driving wheel 409 through a belt; the inner axis of the eighth transmission wheel 409 is fixedly connected with a sixth screw 4013 through a sliding sleeve; the movable rod 4010 is fixedly connected with the baffle 4011; the movable rod 4010 is in sliding connection with the fifth polished rod 4012; the fifth polish rod 4012 is fixedly connected with the support frame 1; the fifth polish rod 4012 is fixedly connected with a third electric bracket 4023 through a bracket; the sixth screw rod 4013 is fixedly connected with the inner axle center of the ninth driving wheel 4017 through a sliding sleeve; the sixth screw 4013 is screwed with the third lifting frame 4014; the sixth screw 4013 is rotationally connected with the third electric bracket 4023 through a sliding sleeve; the sixth screw 4013 is rotationally connected with the support frame 1 through a sliding sleeve; the third lifting frame 4014 is fixedly connected with the third bracket 4015; the third lifting frame 4014 is in sliding connection with a sixth polished rod 4016; one side of a sixth polish rod 4016 is fixedly connected with a fourth electric bracket 4024; the other side of the sixth polish rod 4016 is fixedly connected with the support frame 1; the outer ring surface of the ninth transmission wheel 4017 is in transmission connection with a tenth transmission wheel 4018 through a belt; the inner axis of the tenth transmission wheel 4018 is fixedly connected with a seventh screw 4019 through a sliding sleeve; the seventh screw 4019 is screwed with the fourth lifting frame 4020; the seventh screw 4019 is rotationally connected with the third electric bracket 4023 through a sliding sleeve; the seventh screw 4019 is rotationally connected with the support frame 1 through a sliding sleeve; the fourth lifting frame 4020 is fixedly connected with a fourth bracket 4021; the fourth lifting frame 4020 is slidably connected with a seventh polish rod 4022; one side of the seventh polish rod 4022 is fixedly connected with a fourth electric bracket 4024; the other side of the seventh polish rod 4022 is fixedly connected with the support frame 1; the third electrically powered bracket 4023 is fixedly coupled to the second electrically powered bracket 2023 by a bracket; the third electric bracket 4023 is fixedly connected with the first electric slide rail 5 and the second electric slide rail 6; the third electric bracket 4023 and the fourth electric bracket 4024 are fixedly connected with the support frame 1.

When the frame 3011 wraps the glass fiber net and the XPS extruded sheet, the second motor 401 is started to drive the third bevel gear 402 to rotate, then the third bevel gear 402 drives the fourth bevel gear 403 to rotate, then the fourth bevel gear 403 drives the fifth transmission rod 404 to rotate, then the fifth transmission rod 404 drives the fifth transmission wheel 405 to rotate, then the outer ring surface of the fifth transmission wheel 405 rotates, then the sixth transmission wheel 406 drives the fifth screw rod 407 to rotate, then the fifth screw rod 407 drives the movable rod 4010 and the baffle 4011 to slide on the fifth polish rod 4012 towards the XPS extruded sheet until the protrusions on two sides of the baffle 4011 are tightly spliced with openings on two sides of the frame 3011, meanwhile, the fifth screw rod 407 drives the seventh transmission wheel 408 to rotate, then the outer ring surface of the seventh transmission wheel 408 drives the eighth transmission wheel 409 to rotate through a belt, and then the eighth transmission wheel 409 drives the sixth screw rod 4013 to rotate, the sixth screw 4013 drives the third lifting frame 4014 to slide upwards on the sixth polish rod 4016, the third lifting frame 4014 drives the third bracket 4015 to slide upwards on the sixth polish rod 4016, the sixth screw 4013 also drives the ninth transmission wheel 4017 to rotate, the outer ring surface of the ninth transmission wheel 4017 drives the tenth transmission wheel 4018 to rotate through a belt, the tenth transmission wheel 4018 drives the seventh screw 4019 to rotate, the seventh screw 4019 drives the fourth lifting frame 4020 and the fourth bracket 4021 to slide upwards on the seventh polish rod 4022, the rotation directions of the seventh transmission wheel 408 and the eighth transmission wheel 409 are opposite due to the torsion state of the belt between the seventh transmission wheel 408 and the eighth transmission wheel 409, namely the rotation directions of the fifth screw 407 and the sixth screw 4013 are opposite, when the baffle 4011 moves downwards, the third bracket 4015 and the fourth bracket 4021 drive the press roll 10 to be clamped by the first automatic clamp 7 and the second automatic clamp 8, finally, the first automatic clamp 7 and the second automatic clamp 8 are controlled by the first electric slide rail 5 and the second electric slide rail 6 to place the press roller 10 on the first bracket 2013 and the second bracket 2019, and then the manual control coating mechanism and the lifting mechanism are reset so as to coat the XPS extruded sheet bottom cement slurry; this mechanism completes the final stop of the glass web and enables automatic resetting of the press roll 10.

Wherein, the two sides of the first slideway 3 and the second slideway 4 are respectively provided with an opening upwards.

Can freely enter and exit by matching with the press roller 10.

Wherein, the first lifting frame 2012 has an inverted trapezoid shape.

May operate in conjunction with wedge 301.

Wherein, the side positions of the frame 3011 near the first pressing block 3015 and the second pressing block 3016 are respectively provided with an opening.

A "box" may be formed in cooperation such that the "box" fits snugly against the fiberglass mesh.

Wherein the bristles 3014 are arranged to be circularly dispersed.

The slurry can be led into the concave small holes of the extruded sheet.

The first auxiliary frame 3018 and the second auxiliary frame 3021 have an inverted "L" shape.

The two sides of the glass fiber net can be pressed and folded to prepare for the subsequent treatment.

The foregoing description of the preferred embodiments of the invention is not intended to limit the invention to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and scope of the invention are intended to be included within the scope of the invention.

Claims (6)

1. The slurry coating treatment equipment for the spliced light heat-insulating waterproof board comprises a support frame (1), a first slideway (3) and a second slideway (4); the support frame (1) is fixedly connected with the first slide way (3) and the second slide way (4); the coating machine is characterized by further comprising a fixing mechanism and a coating mechanism; a fixing mechanism is arranged on the supporting frame (1); the fixing mechanism is contacted with the press roller (10); the fixing mechanism is fixedly connected with the first electric slide rail (5) and the second electric slide rail (6); the fixing mechanism is fixedly connected with the lifting mechanism; the fixing mechanism can fold and fix the side face of the glass fiber cloth; a coating mechanism is arranged on the supporting frame (1); the coating mechanism is fixedly connected with the blanking box (2); the coating mechanism can fold and fix the two sides of the fixed glass fiber cloth;

the fixing mechanism comprises a first motor (201), a first transmission rod (202), a first flat gear (203), a first bevel gear (204), a second bevel gear (205), a second transmission rod (206), a first transmission wheel (207), a second transmission wheel (208), a first screw rod (209), a third transmission wheel (2010), a fourth transmission wheel (2011), a first lifting frame (2012), a first bracket (2013), a first polished rod (2014), a pressing rod (2015), a first auxiliary pressing frame (2016), a second auxiliary pressing frame (2017), a second lifting frame (2018), a second bracket (2019), a second screw rod (2020), a second polished rod (2021), a first electric bracket (2022) and a second electric bracket (2023); the first motor (201) is fixedly connected with the support frame (1); the first motor (201) is fixedly connected with the first transmission rod (202); the first transmission rod (202) is rotationally connected with the support frame (1) through a bracket; the first transmission rod (202) is fixedly connected with the inner axle center of the first flat gear (203); the first transmission rod (202) is fixedly connected with the inner axle center of the first bevel gear (204); the first bevel gear (204) is meshed with the second bevel gear (205); the inner axle center of the second bevel gear (205) is fixedly connected with a second transmission rod (206); the second transmission rod (206) is rotationally connected with the support frame (1); the second transmission rod (206) is fixedly connected with the inner axle center of the first transmission wheel (207); the outer ring surface of the first driving wheel (207) is in driving connection with the second driving wheel (208) through a belt; the inner axle center of the second driving wheel (208) is fixedly connected with the first screw rod (209) through a sliding sleeve; the first screw rod (209) is fixedly connected with the inner axle center of the third driving wheel (2010) through a sliding sleeve; the first screw rod (209) is screwed with the first lifting frame (2012); the first screw rod (209) is rotationally connected with the first electric bracket (2022); the first screw rod (209) is rotationally connected with the support frame (1); the outer ring surface of the third driving wheel (2010) is in driving connection with the fourth driving wheel (2011) through a belt; the inner axle center of the fourth driving wheel (2011) is fixedly connected with the second screw rod (2020) through a sliding sleeve; the first lifting frame (2012) is fixedly connected with the first bracket (2013); the first lifting frame (2012) is in sliding connection with the first polished rod (2014); the first lifting frame (2012) is fixedly connected with the compression bar (2015); the first bracket (2013) is contacted with the compression roller (10); the first polished rod (2014) is fixedly connected with the second electric bracket (2023); the first polished rod (2014) is fixedly connected with the support frame (1); one side of the pressure lever (2015) is fixedly connected with the first auxiliary pressure rack (2016) through a bracket; the other side of the compression bar (2015) is fixedly connected with a second auxiliary compression frame (2017) through a bracket; the compression bar (2015) is fixedly connected with the second lifting frame (2018); the second lifting frame (2018) is fixedly connected with the second bracket (2019); the second lifting frame (2018) is in screwed connection with one side of the second lifting frame and the second screw rod (2020); the second lifting frame (2018) is in sliding connection with the second polished rod (2021) on the other side; the second screw rod (2020) is in rotary connection with the first electric bracket (2022); the second screw rod (2020) is rotationally connected with the support frame (1); the second polish rod (2021) is fixedly connected with a second electric bracket (2023); the second polish rod (2021) is fixedly connected with the support frame (1); the first electric bracket (2022) and the second electric bracket (2023) are fixedly connected with the supporting frame (1); the second electric bracket (2023) is fixedly connected with the lifting mechanism through the bracket; the second electric bracket (2023) is fixedly connected with the first electric slide rail (5) and the second electric slide rail (6) respectively; when the first flat gear (203) is meshed with the coating mechanism, the first flat gear (203) drives the coating mechanism to rotate; when the first flat gear (203) is not meshed with the coating mechanism, the first flat gear (203) does not drive the coating mechanism to rotate;

the coating mechanism comprises a wedge block (301), a sliding groove (302), a third transmission rod (303), a second flat gear (304), a third flat gear (305), a fourth flat gear (306), a fourth transmission rod (307), a fifth flat gear (308), a sixth flat gear (309), a third screw rod (3010), a frame (3011), a third polished rod (3012), a brush rod (3013), bristles (3014), a first extrusion block (3015), a second extrusion block (3016), a fourth screw rod (3017), a first auxiliary frame (3018), a first arc-shaped block (3019), a first rolling rod (3020), a second auxiliary frame (3021), a second arc-shaped block (3022), a second rolling rod (3023) and a fourth polished rod (3024); the wedge block (301) is in sliding connection with the chute (302); the wedge block (301) is rotationally connected with a third transmission rod (303); the chute (302) is fixedly connected with the support frame (1); the third transmission rod (303) is in sliding connection with the chute (302) through a bracket; the third transmission rod (303) is fixedly connected with the inner axle center of the second flat gear (304); a third flat gear (305) is arranged on the side surface of the second flat gear (304), and the inner axis of the third flat gear (305) is fixedly connected with a fourth transmission rod (307); the third flat gear (305) is meshed with the fourth flat gear (306); the inner axle center of the fourth flat gear (306) is fixedly connected with a fourth screw rod (3017) through a sliding sleeve; the fourth transmission rod (307) is fixedly connected with the inner axle center of the fifth flat gear (308); the fourth transmission rod (307) is rotationally connected with the support frame (1) through a bracket; the fifth flat gear (308) is meshed with the sixth flat gear (309); the inner axle center of the sixth flat gear (309) is fixedly connected with a third screw rod (3010) through a sliding sleeve; the third screw rod (3010) is rotationally connected with the support frame (1) through a support; the third screw rod (3010) is screwed with the frame (3011); the frame (3011) is in sliding connection with the third polish rod (3012); the frame (3011) is fixedly connected with the brush rod (3013); the frame (3011) is fixedly connected with the first extrusion block (3015) and the second extrusion block (3016) through springs; the third polish rod (3012) is fixedly connected with the support frame (1) through a support; a plurality of groups of bristles (3014) are equidistantly arranged below the brush rod (3013); the fourth screw rod (3017) is screwed with the first auxiliary frame (3018); the first auxiliary frame (3018) is fixedly connected with the blanking box (2); the first auxiliary frame (3018) is fixedly connected with the first arc-shaped block (3019); the first auxiliary frame (3018) is respectively connected with the first rolling rod (3020) and the second rolling rod (3023) in a rotating way; the first rolling rod (3020) is rotatably connected with the second auxiliary frame (3021); the second auxiliary frame (3021) is fixedly connected with the blanking box (2); the second auxiliary frame (3021) is fixedly connected with the second arc-shaped block (3022); the second auxiliary frame (3021) is rotatably connected with the first rolling rod (3020) and the second rolling rod (3023); the second auxiliary frame (3021) is in sliding connection with the fourth polished rod (3024); the fourth polish rod (3024) is fixedly connected with the support frame (1) through a bracket; when the second flat gear (304) is meshed with the third flat gear (305), the second flat gear (304) drives the third flat gear (305) to rotate; when the second flat gear (304) is not meshed with the third flat gear (305), the second flat gear (304) does not drive the third flat gear (305) to rotate.

2. The slurry coating treatment device for the spliced light heat-insulating waterproof board according to claim 1, wherein two sides of the first slideway (3) and the second slideway (4) are provided with an opening respectively.

3. The slurry coating apparatus for spliced lightweight insulation flashing as claimed in claim 1, wherein the first crane (2012) has an inverted trapezoidal shape.

4. The slurry coating treatment device for the spliced light heat-insulating waterproof board according to claim 1, wherein an opening is formed in the frame (3011) at a position close to the side surfaces of the first extrusion block (3015) and the second extrusion block (3016).

5. A spliced lightweight insulation flashing slurry coating process device in accordance with claim 1, wherein the bristles (3014) are arranged in a circular, spread-out pattern.

6. The slurry coating apparatus for spliced lightweight thermal insulation waterproof board according to claim 1, wherein the first auxiliary frame (3018) and the second auxiliary frame (3021) are in an inverted "L" shape.