CN111775535A - Laminating device of black back tectorial membrane net cloth - Google Patents

Abstract

The invention discloses a laminating device of black back coated mesh cloth, which comprises a bottom plate, wherein a sliding block is arranged above the bottom plate, a left coated scroll is arranged on the right side of a second pin, a left power mechanism is arranged on the left side of a hydraulic telescopic column, a left cross beam arm is welded above the left support column, a first left air passage joint and a second left air passage joint are respectively arranged in the middle of the left cross beam arm, telescopic corrugated pipes are respectively arranged below the first left air passage joint and the second left air passage joint, a third pin is arranged in the middle of the right support column, a right mesh cloth scroll and a right coated scroll are respectively arranged on the left side of the third pin, and a right cross beam arm is welded above the right support column. This laminating device of black back tectorial membrane net cloth can carry out tectorial membrane laminating operation to net cloth fast, can the less convenient to use of area, prevents the production of bubble at the in-process of laminating operation, has guaranteed the quality of production.

Description

Laminating device of black back tectorial membrane net cloth

Technical Field

The invention relates to the technical field of mesh cloth production, in particular to a laminating device for black back film-coated mesh cloth.

Background

The gridding cloth is glass fiber which is woven by medium-alkali or alkali-free glass fiber yarn and coated by alkali-resistant high polymer emulsion. The grid is more applied to be hooked with the advertising industry, the related places are basically used for advertising propaganda of high-rise walls, and due to the special material characteristics of the grid cloth, the grid cloth is firmer and more durable than common cloth, and because the grid cloth is high in strength and alkali resistant, the product is high in strength and alkali resistant, plays an important structural role in a heat insulation system, and mainly prevents cracks. Because the excellent acid and alkali resistant chemical substance corrosion resistance and warp and weft tensile strength are high, the stress borne by the external wall heat insulation system can be uniformly dispersed, the deformation of the whole heat insulation structure caused by collision and extrusion of external impact force can be avoided, the heat insulation layer has high impact strength, the construction and quality control are easy, and the function of 'soft steel bars' is played in the heat insulation system.

Grid cloth can be to grid cloth black back tectorial membrane because the requirement of use when using, and current tectorial membrane equipment work efficiency is not high when the tectorial membrane, and the middle bubble that appears easily during the tectorial membrane leads to production quality to hang down, to above-mentioned circumstances, carries out technical innovation on current laminating device's basis.

Disclosure of Invention

The invention aims to provide a laminating device for black back laminating gridding cloth, which solves the problems that the prior laminating equipment in the background art has low working efficiency during laminating, and bubbles are easy to appear in the middle during laminating, so that the production quality is low.

In order to achieve the purpose, the invention provides the following technical scheme: a laminating device of black back film-coated mesh cloth comprises a bottom plate, wherein a sliding block is arranged above the bottom plate, a left workbench is arranged on the left side above the sliding block, a right workbench is arranged on the right side above the sliding block, a right supporting column is arranged on the right side above the right workbench, a left supporting column is arranged above the left workbench, a first pin is transversely arranged in the middle of the left supporting column, a left mesh cloth scroll is arranged on the right side of the first pin, a hydraulic telescopic column is arranged above the first pin, a second pin is arranged above the hydraulic telescopic column, a left film-coated scroll is arranged on the right side of the second pin, an elastic cover is sleeved outside the joint of the first pin and the left mesh cloth scroll and the joint of the second pin and the left film-coated scroll, a first gear is arranged outside the elastic cover, and a left power mechanism is arranged on the left side of the hydraulic telescopic column, the welding of left side support column's top has left crossbeam arm, first left air flue joint and second left air flue joint are installed respectively to the middle part of left side crossbeam arm, and just first left air flue joint is located the left side that second left air flue connects, the below that first left air flue connects and second left air flue connects all installs the concertina wave pipe, and the below of concertina wave pipe installs shower nozzle mechanism, the mid-mounting of right branch dagger has the third pin, and the right side of right branch dagger installs right power unit, right net cloth spool and right tectorial membrane spool are installed respectively to the left side of third pin, and right net cloth spool is located the below of right tectorial membrane spool, the welding of right branch dagger's top has right crossbeam arm, and the mid-mounting of right crossbeam arm has right air flue to connect.

Preferably, the bottom plate includes hydraulic pressure slide rail and hydraulic cylinder, the upper surface of bottom plate is embedded to have hydraulic pressure slide rail, and is provided with hydraulic cylinder between the hydraulic pressure slide rail.

Preferably, the left support column and the right support column are identical in structure, hydraulic telescopic columns are arranged between the left support column and the right support column to form a telescopic structure, and the left support column and the right support column are symmetrical about a vertical central line of the bottom plate.

Preferably, the elastic covers are bowl-shaped structures, and two adjacent elastic covers are meshed with each other through a first gear.

Preferably, left side power unit includes gear fixing block, lower gear fixing block, second gear, third gear, hydraulic telescoping rod and motor, go up and install the second gear between gear fixing block and the lower gear fixing block, and the internally mounted of second gear has the third gear, hydraulic telescoping rod's one end stretches into the inside of third gear, the motor is installed in the left side of second gear.

Preferably, go up gear fixed block and lower gear fixed block and be the trapezium structure, and the second gear is isosceles trapezoid structure, and the hypotenuse angle of going up gear fixed block and lower gear fixed block is the same with the hypotenuse angle of second gear simultaneously, the third gear is isosceles trapezoid structure, and intermeshing between second gear and the third gear.

Preferably, the one end of going up the gear fixed block welds with the one end of left tectorial membrane spool, the one end of lower gear fixed block welds with the one end of left net cloth spool, hydraulic telescoping rod's one end welds with the lateral wall of hydraulic telescoping post.

Preferably, shower nozzle mechanism is including spouting cover, hot air fan, negative pressure air fan, fan breather pipe and steam pipe, hot air fan and negative pressure air fan are installed respectively to the inside of spouting the cover, and the steam fan is located negative pressure air fan's left side, fan breather pipe and steam pipe's one end respectively with hot air fan and negative pressure air fan intercommunication, and fan breather pipe and steam pipe's the other end from the inside of concertina wave venturi tube run through the below that extends to first left air flue joint and be connected with first left air flue joint.

Preferably, the right air flue joint and the first left air flue joint structure are provided with a telescopic corrugated pipe at the same lower part.

Preferably, a right power mechanism is arranged on the right side of the right support column, and the left power mechanism and the right power mechanism are identical in structure.

Compared with the prior art, the invention has the beneficial effects that:

this laminating device of black back tectorial membrane net cloth can carry out tectorial membrane laminating operation to net cloth fast, can the less convenient to use of area, prevents the production of bubble at the in-process of laminating operation, has guaranteed the quality of production.

When the laminating device for the black back laminating gridding cloth is used, the left supporting column and the right supporting column change the distance between the left laminating reel and the left gridding cloth reel and the distance between the right laminating reel and the right gridding cloth reel by using the hydraulic telescopic column, and the distance between the left laminating reel and the left gridding cloth reel and the distance between the right laminating reel and the right gridding cloth reel are gradually reduced along with the continuous lamination of the gridding cloth and the laminating film, so that the laminating pressure is always kept between the gridding cloth and the laminating film, and the laminating effect is ensured;

right side air flue connects and all is provided with the concertina wave venturi tube with the same below of first left air flue joint design, the right side of right branch dagger is provided with right power unit, and left power unit is the same with right power unit structure, in the in-process hot air fan of laminating for providing steam between net cloth and the tectorial membrane and make both can be quick laminating together, and negative-pressure air fan then quick take out the vapor between net cloth and the tectorial membrane this moment, avoid having too much moisture between net cloth and the tectorial membrane, guarantee that the effect of laminating is better

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic top view of the base plate of the present invention;

FIG. 3 is a schematic side view of the nozzle mechanism of the present invention;

FIG. 4 is a schematic view of the left power mechanism of the present invention;

fig. 5 is a schematic structural diagram of the nozzle mechanism of the present invention.

In the figure: 1. a base plate; 101. a hydraulic slide rail; 102. a hydraulic cylinder; 2. a slider; 3. a right work table; 4. a left support column; 5. a left work table; 6. a right support column; 7. a first pin; 8. an elastic cover; 9. a first gear; 10. a left mesh cloth spool; 11. a second pin; 12. a left film-covering reel; 13. a left power mechanism; 1301. an upper gear fixing block; 1302. a lower gear fixing block; 1303. a second gear; 1304. a third gear; 1305. a hydraulic telescopic rod; 1306. an electric motor; 14. a left beam arm; 15. a first left airway joint; 16. a second left airway joint; 17. a bellows tube; 18. a nozzle mechanism; 1801. spraying a cover; 1802. a heat fan; 1803. a negative pressure fan; 1804. a fan vent pipe; 1805. a hot gas pipe; 19. a third pin; 20. a right power mechanism; 21. a right mesh cloth spool; 22. a right laminating spool; 23. a right airway fitting; 24. a right beam arm; 25. a hydraulic telescopic column.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: a laminating device of black back film-coated mesh cloth comprises a bottom plate 1, a slide block 2 is arranged above the bottom plate 1, a left workbench 5 is arranged on the left side above the slide block 2, the bottom plate 1 comprises a hydraulic slide rail 101 and a hydraulic cylinder 102, the hydraulic slide rail 101 is embedded in the upper surface of the bottom plate 1, the hydraulic cylinder 102 is arranged between the hydraulic slide rails 101, when in use, the hydraulic cylinder 102 provides power for the hydraulic slide rail 101 to enable the slide block 2 to slide in the hydraulic slide rail 101 so as to drive a right workbench 3 and the left workbench 5 to move left and right in the horizontal direction so as to drive a left support column 4 and a right support column 6 to move left and right, when in use, a film roll and mesh cloth can be clamped between a left film-coated scroll 12 and a right film-coated scroll 22 and between a left mesh-coated scroll 10 and a right mesh-coated scroll 21, the right workbench 3 is arranged on the right side above the slide block 2, and the, a left support column 4 is arranged above the left workbench 5, a first pin 7 is transversely arranged in the middle of the left support column 4, a hydraulic telescopic column 25 is arranged between the left support column 4 and the right support column 6 with the same structure to form a telescopic structure, the left support column 4 and the right support column 6 are symmetrical about the vertical central line of the bottom plate 1, when in use, the left support column 4 and the right support column 6 change the distance between the left film coating reel 12 and the left grid cloth reel 10 and the distance between the right film coating reel 22 and the right grid cloth reel 21 by the hydraulic telescopic column 25, the distance between the left film coating reel 12 and the left grid cloth reel 10 and the distance between the right film coating reel 22 and the right grid cloth reel 21 are gradually reduced along with the continuous adhesion of the grid cloth and the film, so that the pressure of the adhesion between the grid cloth and the film is always kept, the adhesion effect is ensured, the left grid cloth reel 10 is arranged on the right side, a hydraulic telescopic column 25 is arranged above the first pin 7, a second pin 11 is arranged above the hydraulic telescopic column 25, a left film covering reel 12 is arranged on the right side of the second pin 11, an elastic cover 8 is sleeved outside the joint of the first pin 7 and the left grid cloth reel 10 and the joint of the second pin 11 and the left film covering reel 12, a first gear 9 is arranged outside the elastic cover 8, the elastic cover 8 is of a bowl-shaped structure, two vertically adjacent elastic covers 8 are mutually meshed through the first gear 9, the elastic cover 8 provides elasticity to enable the first gear 9 to be tightly meshed all the time, and the stability between the left film covering reel 12 and the left grid cloth reel 10 and between the right film covering reel 22 and the right grid cloth reel 21 in the rotating process is prevented;

a left power mechanism 13 is installed on the left side of the hydraulic telescopic column 25, a left beam arm 14 is welded above the left support column 4, a first left air passage joint 15 and a second left air passage joint 16 are respectively installed in the middle of the left beam arm 14, the first left air passage joint 15 is located on the left side of the second left air passage joint 16, telescopic corrugated pipes 17 are installed below the first left air passage joint 15 and the second left air passage joint 16, a sprayer mechanism 18 is installed below the telescopic corrugated pipes 17, the left power mechanism 13 comprises an upper gear fixing block 1301, a lower gear fixing block 1302, a second gear 1303, a third gear 1304, a hydraulic telescopic rod 1305 and a motor 1306, a second gear 1303 is installed between the upper gear fixing block 1301 and the lower gear fixing block 1302, the third gear 1304 is installed inside the second gear 1304, one end of the hydraulic telescopic rod 1305 extends into the third gear 1304, the motor 1306 is installed on the left side of the second gear 1303, when the device is used, the upper gear fixing block 1301 and the lower gear fixing block 1302 respectively drive the left film covering reel 12 and the left mesh cloth reel 10 to rotate, and the motor 1306 drives the second gear 1303 through the third gear 1304 so as to drive the upper gear fixing block 1301 and the lower gear fixing block 1302 to rotate, when the distance between the left laminating reel 12 and the left mesh cloth reel 10 and the distance between the right laminating reel 22 and the right mesh cloth reel 21 are reduced by the left support column 4 and the right support column 6 through the hydraulic telescopic column 25, the hydraulic telescopic rod 1305 extends to push the motor 1306 and the third gear 1304 to move leftwards, so that the left power mechanism 13 can normally provide power for the laminating operation;

the nozzle mechanism 18 comprises a spray cover 1801, a hot air fan 1802, a negative pressure fan 1803, a fan vent pipe 1804 and a hot air pipe 1805, the hot air fan 1802 and the negative pressure fan 1803 are respectively installed inside the spray cover 1801, the hot air fan 1802 is located on the left side of the negative pressure fan 1803, one end of the fan vent pipe 1804 and one end of the hot air pipe 1805 are respectively communicated with the hot air fan 1802 and the negative pressure fan 1803, the other end of the fan vent pipe 1804 and the other end of the hot air pipe 1805 penetrate through the inside of the telescopic wave-shaped pipe 17 and extend to the lower part of the first left air passage joint 15 to be connected with the first left air passage joint 15, the right air passage joint 23 and the first left air passage joint 15 are both provided with the telescopic wave-shaped pipe 17 under the same structure, the right side of the right support column 6 is provided with a right power mechanism 20, the left power mechanism 13 and the right power mechanism 20 are the same structure, the, at this time, the negative pressure fan 1803 quickly removes water vapor between the mesh cloth and the coating film, so that excessive moisture between the mesh cloth and the coating film is avoided, and a better bonding effect is ensured;

the mid-mounting of right branch dagger 6 has third pin 19, and right power unit 20 is installed on the right side of right branch dagger 6, and right net cloth spool 21 and right tectorial membrane spool 22 are installed respectively to the left side of third pin 19, and right net cloth spool 21 is located the below of right tectorial membrane spool 22, and the welding of the top of right branch dagger 6 has right crossbeam arm 24, and the mid-mounting of right crossbeam arm 24 has right air flue to connect 23.

The working principle is as follows: for the laminating device of the black back film-coated mesh cloth, firstly, when in use, the hydraulic cylinder 102 provides power for the hydraulic slide rail 101 to enable the slide block 2 to slide in the hydraulic slide rail 101 so as to drive the right workbench 3 and the left workbench 5 to move left and right in the horizontal direction so as to drive the left support column 4 and the right support column 6 to move left and right, so that the film and the mesh cloth can be clamped between the left film-coated reel 12 and the right film-coated reel 22 and between the left mesh cloth reel 10 and the right mesh cloth reel 21 when in use, the left support column 4 and the right support column 6 have the same structure, the hydraulic telescopic columns 25 are arranged between the left support column 4 and the right support column 6 to form a telescopic structure, the left support column 4 and the right support column 6 are symmetrical about the vertical central line of the base plate 1, and the left support column 4 and the right support column 6 use the hydraulic telescopic columns 25 to change the distance between the left film-coated reel 12 and the left, along with the continuous attachment of the mesh cloth and the film, the distance between the left film-covering reel 12 and the left mesh cloth reel 10 and the distance between the right film-covering reel 22 and the right film-covering reel 21 are gradually reduced to keep a bonding pressure between the mesh cloth and the film all the time, so as to ensure the bonding effect, the elastic covers 8 are bowl-shaped structures, two elastic covers 8 which are adjacent up and down are mutually meshed through the first gear 9, the elastic covers 8 provide elasticity to enable the first gears 9 to be tightly meshed all the time, the stability between the left film-covering reel 12 and the left mesh cloth reel 10 and between the right film-covering reel 22 and the right mesh cloth reel 21 in the rotating process is prevented, the upper gear fixing block 1301 and the lower gear fixing block 1302 are both in a trapezoidal structure, the second gear 1303 is in an isosceles trapezoidal structure, and meanwhile, the bevel angle of the upper gear fixing block 1301 and the lower gear fixing block 1302 is the same as that of the, when the device is used, the upper gear fixing block 1301 and the lower gear fixing block 1302 respectively drive the left film covering reel 12 and the left mesh cloth reel 10 to rotate, the motor 1306 drives the second gear 1303 through the third gear 1304 to drive the upper gear fixing block 1301 and the lower gear fixing block 1302 to rotate, when the left support column 4 and the right support column 6 reduce the distance between the left film covering reel 12 and the left mesh cloth reel 10 and between the right reel film covering 22 and the right mesh cloth reel 21 through the hydraulic telescopic column 25, the hydraulic telescopic rod 1305 extends to push the motor 1306 and the third gear 1304 to move left, so that the left power mechanism 13 can be normally attached to the left power mechanism 13 Close the operation and provide power, right air flue connects 23 and connects 15 the same below of structure with first left air flue and all is provided with the concertina wave venturi 17, right branch dagger 6's right side is provided with right power unit 20, and left power unit 13 is the same with right power unit 20 structure, in the in-process heat air fan 1802 of laminating for providing steam between net cloth and the tectorial membrane and make the laminating that both can be faster together, and negative-pressure air fan 1803 then quick take out the steam between net cloth and the tectorial membrane this moment, avoid having too much moisture between net cloth and the tectorial membrane, the effect of guaranteeing the laminating is better.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a laminating device of black back tectorial membrane net cloth, includes bottom plate (1), its characterized in that: the upper side of the bottom plate (1) is provided with a sliding block (2), a left workbench (5) is installed on the left side of the upper side of the sliding block (2), a right workbench (3) is installed on the right side of the upper side of the sliding block (2), a right supporting column (6) is installed on the right side of the upper side of the right workbench (3), a left supporting column (4) is installed on the upper side of the left workbench (5), a first pin (7) is transversely installed in the middle of the left supporting column (4), a left grid cloth scroll (10) is installed on the right side of the first pin (7), a hydraulic telescopic column (25) is installed on the upper side of the first pin (7), a second pin (11) is installed on the upper side of the hydraulic telescopic column (25), a left film scroll (12) is installed on the right side of the second pin (11), an elastic cover (8) is sleeved outside the joint of the first pin (7) and the left grid cloth scroll (10) and the joint of the second pin (11) and the, and a first gear (9) is installed on the outer side of the elastic cover (8), a left power mechanism (13) is installed on the left side of the hydraulic telescopic column (25), a left beam arm (14) is welded on the upper side of the left support column (4), a first left air passage joint (15) and a second left air passage joint (16) are installed at the middle part of the left beam arm (14) respectively, the first left air passage joint (15) is located on the left side of the second left air passage joint (16), telescopic corrugated pipes (17) are installed below the first left air passage joint (15) and the second left air passage joint (16), a nozzle mechanism (18) is installed below the telescopic corrugated pipes (17), a third pin (19) is installed at the middle part of the right support column (6), a right power mechanism (20) is installed on the right side of the right support column (6), a right grid cloth reel (21) and a right film covering reel (22) are installed on the left side of the third pin (19) respectively, and right net cloth spool (21) are located the below of right tectorial membrane spool (22), the top welding of right branch dagger (6) has right crossbeam arm (24), and the mid-mounting of right crossbeam arm (24) has right air flue to connect (23).

2. The laminating device of the black back film-coated mesh cloth according to claim 1, characterized in that: the base plate (1) comprises a hydraulic sliding rail (101) and a hydraulic cylinder (102), the hydraulic sliding rail (101) is embedded in the upper surface of the base plate (1), and the hydraulic cylinder (102) is arranged between the hydraulic sliding rails (101).

3. The laminating device of the black back film-coated mesh cloth according to claim 1, characterized in that: the middle of the left supporting column (4) and the right supporting column (6) which are identical in structure are provided with hydraulic telescopic columns (25) to form a telescopic structure, and the left supporting column (4) and the right supporting column (6) are symmetrical about a vertical central line of the bottom plate (1).

4. The laminating device of the black back film-coated mesh cloth according to claim 1, characterized in that: the elastic covers (8) are of bowl-shaped structures, and the two elastic covers (8) which are adjacent up and down are mutually meshed through the first gear (9).

5. The laminating device of the black back film-coated mesh cloth according to claim 1, characterized in that: the left power mechanism (13) comprises an upper gear fixing block (1301), a lower gear fixing block (1302), a second gear (1303), a third gear (1304), a hydraulic telescopic rod (1305) and a motor (1306), wherein the second gear (1303) is installed between the upper gear fixing block (1301) and the lower gear fixing block (1302), the third gear (1304) is installed inside the second gear (1303), one end of the hydraulic telescopic rod (1305) extends into the third gear (1304), and the motor (1306) is installed on the left side of the second gear (1303).

6. The laminating device of the black back film-coated mesh cloth according to claim 5, characterized in that: the upper gear fixing block (1301) and the lower gear fixing block (1302) are both of a trapezoid structure, the second gear (1303) is of an isosceles trapezoid structure, meanwhile, the bevel edge angle of the upper gear fixing block (1301) and the bevel edge angle of the lower gear fixing block (1302) are the same as that of the second gear (1303), the third gear (1304) is of an isosceles trapezoid structure, and the second gear (1303) and the third gear (1304) are meshed with each other.

7. The laminating device of the black back film-coated mesh cloth according to claim 5, characterized in that: one end of the upper gear fixing block (1301) is welded with one end of the left film covering reel (12), one end of the lower gear fixing block (1302) is welded with one end of the left grid cloth reel (10), and one end of the hydraulic telescopic rod (1305) is welded with the side wall of the hydraulic telescopic column (25).

8. The laminating device of the black back film-coated mesh cloth according to claim 1, characterized in that: shower nozzle mechanism (18) are including spray cover (1801), hot air fan (1802), negative pressure air fan (1803), fan breather pipe (1804) and steam pipe (1805), hot air fan (1802) and negative pressure air fan (1803) are installed respectively to the inside of spray cover (1801), and hot air fan (1802) are located negative pressure air fan (1803) left side, fan breather pipe (1804) and steam pipe (1805) one end respectively with hot air fan (1802) and negative pressure air fan (1803) intercommunication, and fan breather pipe (1804) and steam pipe (1805) the other end from the inside of concertina wave venturi tube (17) run through extend to the below and the first left air flue joint (15) of first left air flue joint (15) be connected.

9. The laminating device of the black back film-coated mesh cloth according to claim 1, characterized in that: the right air passage joint (23) and the first left air passage joint (15) are both provided with a telescopic corrugated pipe (17) at the same structure and below.

10. The laminating device of the black back film-coated mesh cloth according to claim 1, characterized in that: the right side of the right supporting column (6) is provided with a right power mechanism (20), and the left power mechanism (13) and the right power mechanism (20) are identical in structure.

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