CN117565525A - Net wrapping and folding system for processing rock wool composite board and use method - Google Patents

Abstract

The invention discloses a net wrapping and folding system for processing a rock wool composite board and a use method, wherein the system comprises a first transmission device and a second transmission device which are sequentially arranged, lateral limiting plates are arranged on two sides of the first transmission device and the second transmission device, a closing-in supporting device, a net folding and pressing device and a layering device are arranged on the first transmission device, and the net folding and pressing device comprises a first gantry bracket, a transverse bracket, a pressing roller, an outer net folding roller and an inner net folding roller; the second transmission device is provided with a bidirectional net twisting device, and the bidirectional net twisting device comprises a second gantry bracket, a vertical adjusting component, a supporting transverse plate, a driving mechanism and a twisting roll shaft; the application method comprises parameter adjustment and installation of the glass fiber mesh cloth. The system can realize continuous natural net wrapping and inward extrusion and rubbing of the glass fiber mesh cloth, improves the packing compactness of the glass fiber mesh cloth, ensures the yield, has better adjusting capability, can adapt to products with different specifications, and has strong practicability.

Description

Net wrapping and folding system for processing rock wool composite board and use method

Technical Field

The invention relates to the technical field of rock wool composite board processing production equipment, in particular to a net wrapping and folding system for rock wool composite board processing and a use method.

Background

The four sides of the rock wool composite board in the length direction are wrapped with glass fiber mesh cloth, wherein the inner large surface and the outer large surface are compounded with polymer cement mortar plastering layers, and the rock wool core material is a plate formed by assembling vertical wire rock wool strips or a horizontal wire rock wool core material. Compared with a common rock wool bare board, the rock wool composite board has the characteristics of high strength, water resistance, strong binding power, good labor protection and the like, is convenient to construct and pollution-free in installation and use, can be firmly adhered to a base wall, solves the problems of settlement in water, layered sliding drop, low tensile strength, skin injury caused by rock wool fibers and the like of the rock wool bare board, effectively improves engineering quality, and can be widely applied to wall heat preservation engineering of various building structures. In the production and processing process of the rock wool composite board, glass fiber mesh cloth is required to be installed on four surfaces of the rock wool core material in the length direction, and polymer cement mortar plastering layers are coated on the inner large surface and the outer large surface of the glass fiber mesh cloth. At present, normally, rock wool composite boards are produced manually, the rock wool core materials are required to be cut into designed sizes, the four surfaces of the assembled rock wool core materials in the length direction are manually wrapped with glass fiber mesh cloth, then the polymer cement mortar plastering layers are manually smeared on the inner large surface and the outer large surface of the assembled rock wool core materials, and the operation mode is low in efficiency, poor in product consistency and high in labor cost. In the rock wool composite board production line, because glass fiber mesh cloth parcel quality has directly influenced the quality of product, consequently adopt artifical parcel glass fiber mesh cloth in the production line more, influenced the operating efficiency of production line, and increased the cost of labor. In the existing rock wool composite board production line, firstly, a glass fiber mesh cloth is paved on a transmission belt, a polymer cement mortar plastering layer is paved on the glass fiber mesh cloth, then a rock wool core material is paved on the polymer cement mortar plastering layer, the glass fiber mesh cloth is naturally wrapped by a mechanical device, and then a compacting mechanism is used for compacting, so that the bonding compactness of the polymer cement mortar plastering layer and the rock wool core material is improved. However, in the actual operation process, the compactness of the glass fiber mesh cloth package cannot be ensured only by a natural folding mode, so that a large amount of defective products or waste products are generated.

Disclosure of Invention

The invention aims to provide a net wrapping and folding system for processing a rock wool composite board and a use method, wherein the system can realize continuous natural net wrapping and inward extrusion of glass fiber mesh cloth, improves the packing compactness of the glass fiber mesh cloth, ensures the yield, has better adjustment capability, can adapt to products with different specifications, and has strong practicability.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

the utility model provides a rock wool composite sheet processing is with package net and roll over net system, includes first transmission device and the second transmission device that sets up in proper order first transmission device with the both sides of second transmission device are all adjustable installs the side direction limiting plate, are installed binding off strutting arrangement, roll over net suppression device and layering device on first transmission device, roll over net suppression device includes first longmen support, adjustable transverse support who installs on first longmen support, adjustable press roll that installs on transverse support, install outer roll over net roller and the inner roll over net roller of installing on transverse support on first longmen support, outer roll over net roller with have a roll over net clearance between the inner roll over net roller, glass fiber screen cloth is through binding off strutting arrangement passes the roll over net clearance, realizes the layering through layering device and folds; one or more groups of bidirectional net twisting devices are arranged on the second transmission device, each bidirectional net twisting device comprises a second gantry bracket, a vertical adjusting component arranged on the second gantry bracket, a supporting transverse plate arranged on the vertical adjusting component, a driving mechanism fixedly arranged on the supporting transverse plate and two groups of twisting rollers arranged on the driving mechanism, and the two groups of twisting rollers relatively rotate to twist and squeeze glass fiber mesh cloth towards the middle.

Preferably, the first transmission device comprises a first support frame, a plurality of first transmission shafts rotatably mounted on the first support frame, and a first transmission belt mounted on the first transmission shafts.

Preferably, the surface layer of the first transmission belt is provided with a plurality of protrusions.

Preferably, the second transmission device comprises a second support frame, a plurality of second transmission shafts rotatably mounted on the second support frame and a second transmission belt mounted on the second transmission shafts, and the second transmission shafts are in power connection with the first transmission shafts.

Preferably, the transverse support is mounted on the first gantry support through a lifting adjusting assembly, and the lifting adjusting assembly is a turbine screw rod lifter, a hydraulic cylinder or an electric push rod.

Preferably, the layering device comprises an upper supporting plate and a lower supporting plate which are vertically layered, and two ends of the glass fiber mesh cloth are respectively positioned on the upper supporting plate and the lower supporting plate.

Preferably, the closing-up supporting device is two glass fiber mesh cloth supporting plates fixedly arranged on the lateral limiting plate, and the two glass fiber mesh cloth supporting plates are integrally arranged in a V shape; the glass fiber mesh cloth is upward open-shaped through two glass fiber mesh cloth supporting plates, then is in a vertical or slightly inward folding state through a mesh folding gap, and finally is inwards folded through two upper supporting plates and two lower supporting plates.

Preferably, the two-way net twisting devices are sequentially provided with two groups, wherein each group of the net twisting shafts in one group of the two-way net twisting devices is provided with one twisting shaft respectively; each group of the two-way net rubbing device is provided with two rubbing roller shafts.

Preferably, the two ends of the supporting transverse plate are provided with sliding blocks, vertical supports are fixedly arranged on two sides of the second gantry support, sliding rails are fixedly arranged on the vertical supports, and the sliding blocks are slidably arranged on the sliding rails.

The application method of the net wrapping and folding system for processing the rock wool composite board comprises the following steps:

step one, parameter adjustment, namely adjusting the interval between the pressing roller and the first transmission device and the interval between the rubbing roller shaft and the second transmission device according to the thickness of the semi-finished product, and adjusting the interval between the two lateral limiting plates according to the width of the semi-finished product;

and secondly, installing glass fiber mesh fabrics, wherein the glass fiber mesh fabrics on two sides of the semi-finished product are sequentially arranged on a closing-in supporting device, a mesh folding gap and a layering device, and the glass fiber mesh fabrics are prevented from being wrinkled in the installation process.

According to the system, the glass fiber mesh cloth which is opened upwards can be naturally and inwards converged and folded and tightened, and the operation continuity and fluency are good. The closing-in supporting device, the folding net pressing device and the layering device are arranged, two ends of the open glass fiber mesh cloth can be naturally folded inwards, net wrapping operation is achieved, operation fluency is good, and the glass fiber mesh cloth is prevented from being wrinkled. The height of the pressing roller and the rubbing roller shaft and the interval between the lateral limiting plates can be adjusted according to the needs, and the operation is simple and convenient, and the device is applicable to products with different specifications.

The surface layer of the first transmission belt is provided with a plurality of bulges, when the pressing roller extrudes a semi-finished product which is positioned on the first transmission belt and consists of the glass fiber mesh cloth, the polymer cement mortar plastering layer and the rock wool core material, the glass fiber mesh cloth is locally extruded into the polymer cement mortar plastering layer by the plurality of bulges, the connection reliability of the glass fiber mesh cloth and the polymer cement mortar plastering layer is improved, the compactness of adhesion between the polymer cement mortar plastering layer and the rock wool core material is also increased, and the yield is improved.

The bidirectional net rubbing device can rub and squeeze the glass fiber mesh cloth from two ends to the middle, so that the wrapped glass fiber mesh cloth is more compact, the glass fiber mesh cloth is convenient to fix and brush a second polymer cement mortar plastering layer, and the consistency and the yield of products are improved. The vertical adjusting component can adjust the vertical height of the net twisting component, is suitable for products with different thickness specifications, and has good universality. The two groups of the two-way net twisting devices are arranged, so that the rebound phenomenon of the glass fiber mesh cloth is avoided, and the twisting effect is improved.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

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

FIG. 3 is another partial schematic view of the present invention;

FIG. 4 is an enlarged partial schematic view of the present invention;

FIG. 5 is a further enlarged partial schematic view of the present invention;

in the figure: 1. a first transmission device; 2. a second transmission device; 3. a lateral limiting plate; 4. a connecting piece; 5. closing up the support device; 6. folding net compacting device; 7. a layering device; 8. bidirectional net rubbing device; 10. a first support frame; 11. a first transmission shaft; 12. a first conveyor belt; 13. a protrusion; 20. a second support frame; 21. a second transmission shaft; 22. a second conveyor belt; 60. a first gantry support; 61. a transverse bracket; 62. a press roller; 63. an outer folding net roller; 64. an inner net folding roller; 65. a lifting adjusting component; 70. an upper support plate; 71. a lower support plate; 80. a second gantry support; 81. a vertical adjustment assembly; 82. a supporting cross plate; 83. a driving mechanism; 84. a rubbing roller shaft; 85. a slide block; 86. a vertical bracket; 87. a slide rail.

Description of the embodiments

The invention is further described below with reference to the accompanying drawings:

the system for processing the wrapping net and the folding net of the rock wool composite board as shown in fig. 1, 2, 3, 4 and 5 comprises a first transmission device 1 and a second transmission device 2 which are sequentially arranged, wherein the first transmission device 1 comprises a first support frame 10, a plurality of first transmission shafts 11 rotatably arranged on the first support frame 10 through bearings and a first transmission belt 12 arranged on the first transmission shafts 11, and the first transmission shafts 11 are driven to rotate to drive the first transmission belt 12 to continuously convey forwards during operation. In one embodiment, a plurality of protrusions 13 are arranged on the surface layer of the first conveying belt 12, specifically, the protrusions 4 are in a cylinder or prismatic shape, and the protrusions 4 are arranged at intervals and can support glass fiber mesh cloth and polymer cement mortar plastering layers. The second transmission device 2 comprises a second support frame 20, a plurality of second transmission shafts 21 rotatably arranged on the second support frame 20 through bearings, and a second transmission belt 22 arranged on the second transmission shafts 21, wherein the second transmission shafts 21 and the first transmission shafts 11 are in power connection through a chain transmission assembly, so that the rotation speeds of the two transmission shafts are consistent. The surface layer of the second transmission belt 22 is a smooth surface structure.

The lateral limiting plates 3 are adjustably mounted on both sides of the first transmission device 1 and the second transmission device 2, specifically, connecting pieces 4 are fixedly arranged on the outer sides of the lateral limiting plates 3 through welding or fastening pieces, adjusting holes are formed in the connecting pieces 4, and bolts penetrate through the adjusting holes to mount the lateral limiting plates 3 on the first support frame 10 and/or the second support frame 20.

The first transmission device 1 is fixedly provided with a closing-up supporting device 5, the closing-up supporting device 5 is two glass fiber mesh fabrics supporting plates which are fixedly arranged on the lateral limiting plate 3 through welding or fastening pieces, and the two glass fiber mesh fabrics supporting plates are integrally arranged in a V shape. The two ends of the glass fiber mesh cloth are respectively arranged on a glass fiber mesh cloth supporting plate and are in an upward opening V-shaped shape on the whole.

The first conveying device 1 is fixedly provided with a net folding and pressing device 6, the net folding and pressing device 6 comprises a first gantry bracket 60 fixedly arranged on the first supporting frame 10 through a fastener, a transverse bracket 61 adjustably arranged on the first gantry bracket 60, a pressing roller 62 adjustably arranged on the transverse bracket 61 through a screw, an outer net folding roller 63 rotatably arranged on the first gantry bracket 60 through a bracket and an inner net folding roller 64 rotatably arranged on the transverse bracket 61 through a bracket, a net folding gap is formed between the outer net folding roller 63 and the inner net folding roller 64, and a glass fiber mesh cloth passes through the net folding gap, and particularly, the inner net folding roller 64 is obliquely arranged so that the net folding gap is in a V shape. In one embodiment, the transverse bracket 61 is mounted on the first gantry bracket 60 through a lifting adjusting component 65, the lifting adjusting component 65 is a turbine screw lifter, a hydraulic cylinder or an electric push rod, in this embodiment, the lifting adjusting component 65 is a turbine screw lifter, and in operation, the height of the lifting adjusting component 65 is adjusted to a proper position according to the height of a product and is locked.

In a preferred embodiment, an end pressing assembly is adjustably mounted at the front end of the transverse bracket 61, and the end pressing assembly includes a support sleeve, pressing wheels rotatably mounted at both ends of the support sleeve through a pin shaft, and an adjusting rod fixedly mounted on the support sleeve through welding, the top end of which is adjustably mounted on the transverse bracket 61. Specifically, the adjusting rods are screws, two adjusting rods are provided, and the screws are adjustably mounted on the transverse support 61 by using nuts. The end pressing component presses the polymer cement mortar plastering layer and the rock wool core material downwards, so that the connection of the polymer cement mortar plastering layer and the rock wool core material is firmer.

The layering device 7 is fixedly arranged on the first transmission device 1, and the glass fiber mesh cloth passes through the closing-in supporting device 5, passes through the mesh folding gap and is layered and folded through the layering device 7. In one embodiment, the layering device 7 comprises an upper support plate 70 and a lower support plate 71 which are vertically layered, and two ends of the glass fiber mesh cloth are respectively positioned on the upper support plate 70 and the lower support plate 71. The glass fiber mesh cloth is upward opened through two glass fiber mesh cloth supporting plates, then is in a vertical or slightly inward folding state through a mesh folding gap, and finally is folded inwards through two upper supporting plates 70 and two lower supporting plates 71.

One or more groups of bidirectional net twisting devices 8 are arranged on the second transmission device 2, the bidirectional net twisting devices 8 comprise a second gantry bracket 80, a vertical adjusting component 81 fixedly arranged on the second gantry bracket 80, a supporting transverse plate 82 fixedly arranged on the other end of the vertical adjusting component 81, a driving mechanism 83 fixedly arranged on the supporting transverse plate 82 through a fastener, and two groups of twisting roll shafts 84 arranged on the driving mechanism 83, and the two groups of twisting roll shafts 84 relatively rotate to twist and squeeze the glass fiber mesh cloth towards the middle. In this embodiment, two sets of bidirectional net twisting devices 8 are sequentially arranged, wherein each set of twisting roller shafts in one set of bidirectional net twisting devices 8 close to the net folding and pressing device 6 is provided with a twisting roller shaft 84, each twisting roller shaft 84 is configured with a driving motor to drive the twisting roller shafts to rotate, and the twisting roller shafts can also share a driving motor and be connected with power of a matched gear to enable the twisting roller shafts to simultaneously rotate inwards. Two rubbing roll shafts 84 are respectively arranged on each group of rubbing roll shafts in the other group of bidirectional rubbing device 8, and the two rubbing roll shafts 84 in the same group share a driving motor and are matched with chain transmission to realize synchronous rotation in the same direction. The two groups of bidirectional net twisting devices 8 are arranged at intervals, so that double-point twisting of the glass fiber mesh cloth can be realized, rebound is prevented, and the twisting effect is improved. In a preferred embodiment, the two ends of the supporting transverse plate 82 are fixedly provided with sliding blocks 85, the two sides of the second gantry bracket 80 are fixedly provided with vertical brackets 86 through fasteners, the vertical brackets 86 are fixedly provided with sliding rails 87 through the fasteners, the sliding blocks 85 are slidably arranged on the sliding rails 87, and the stability of the vertical sliding of the supporting transverse plate 82 and the components arranged on the sliding blocks is ensured. The rubbing roller shaft 84 is made of rubber material and has good friction. The vertical adjusting component 81 is a turbine screw lifter, a hydraulic cylinder or an electric push rod, and in this embodiment, the turbine screw lifter is selected.

The application method of the net wrapping and folding system for processing the rock wool composite board as shown in fig. 1, 2, 3, 4 and 5 comprises the following steps:

step one, parameter adjustment, the interval between the press roller 62 and the first conveying device 1 and the interval between the rubbing roller shaft 84 and the second conveying device 2 are adjusted according to the thickness of the semi-finished product, and the interval between the two lateral limiting plates 3 is adjusted according to the width of the semi-finished product, so that the interval between the two lateral limiting plates 3 is matched with the width of the semi-finished product, the interval between the press roller 62 and the first conveying belt 12 is adjusted, the adjustment of extrusion force is realized, and the bonding force between the rock wool core material and the polymer cement mortar plastering layer is ensured. The interval between the rubbing roller shaft 84 and the second conveyor belt 22 is adjusted, so that the rubbing force is adjusted, and the rubbing effect is ensured.

And secondly, installing glass fiber mesh fabrics, wherein the glass fiber mesh fabrics on two sides of the semi-finished product are sequentially arranged on the closing-in supporting device 5, the mesh folding gap and the layering device 7, and the glass fiber mesh fabrics are prevented from generating wrinkles in the installation process. During operation, the glass fiber mesh cloth is in an upward open shape through the two glass fiber mesh cloth supporting plates, then is in a vertical or slightly inward folding state through the mesh folding gap, and finally is folded inwards through the two upper supporting plates 70 and the two lower supporting plates 71.

The system is characterized in that after working procedures of paving glass fiber mesh cloth, paving a polymer cement mortar plastering layer on the glass fiber mesh cloth and paving a rock wool core material on the polymer cement mortar plastering layer, semi-finished products produced by the three working procedures are processed in the system.

The above embodiments are only a few descriptions of the inventive concept and implementation, and are not limited thereto, and the technical solutions without substantial transformation remain within the scope of protection under the inventive concept.

Claims (10)

1. The utility model provides a rock wool composite sheet processing is with package net and book net system, includes first transmission device and the second transmission device that sets up in proper order, its characterized in that: the two sides of the first transmission device and the second transmission device are respectively provided with a lateral limiting plate in an adjustable way, a closing-in supporting device, a net folding pressing device and a layering device are arranged on the first transmission device, the net folding pressing device comprises a first gantry bracket, a transverse bracket which is arranged on the first gantry bracket in an adjustable way, a pressing roller which is arranged on the transverse bracket in an adjustable way, an outer net folding roller which is arranged on the first gantry bracket, and an inner net folding roller which is arranged on the transverse bracket, a net folding gap is arranged between the outer net folding roller and the inner net folding roller, and glass fiber mesh cloth passes through the net folding gap through the closing-in supporting device and is folded in a layering way through the layering device; one or more groups of bidirectional net twisting devices are arranged on the second transmission device, each bidirectional net twisting device comprises a second gantry bracket, a vertical adjusting component arranged on the second gantry bracket, a supporting transverse plate arranged on the vertical adjusting component, a driving mechanism fixedly arranged on the supporting transverse plate and two groups of twisting rollers arranged on the driving mechanism, and the two groups of twisting rollers relatively rotate to twist and squeeze glass fiber mesh cloth towards the middle.

2. The net wrapping and folding system for processing rock wool composite boards according to claim 1, wherein: the first transmission device comprises a first support frame, a plurality of first transmission shafts rotatably arranged on the first support frame and a first transmission belt arranged on the first transmission shafts.

3. The mesh wrapping and folding system for processing rock wool composite boards according to claim 2, wherein: the first conveyor belt surface layer is provided with a plurality of bulges.

4. A net wrapping and folding system for processing a rock wool composite board according to claim 2 or 3, wherein: the second transmission device comprises a second support frame, a plurality of second transmission shafts rotatably arranged on the second support frame and a second transmission belt arranged on the second transmission shafts, and the second transmission shafts are in power connection with the first transmission shafts.

5. The net wrapping and folding system for processing rock wool composite boards according to claim 1, wherein: the transverse support is arranged on the first gantry support through a lifting adjusting component, and the lifting adjusting component is a turbine screw rod lifter, a hydraulic cylinder or an electric push rod.

6. The net wrapping and folding system for processing the rock wool composite board according to claim 1 or 5, wherein: the layering device comprises an upper supporting plate and a lower supporting plate which are vertically layered, and two ends of the glass fiber mesh cloth are respectively positioned on the upper supporting plate and the lower supporting plate.

7. The mesh wrapping and folding system for processing the rock wool composite board according to claim 6, wherein: the closing-in supporting device is two glass fiber mesh cloth supporting plates fixedly arranged on the lateral limiting plate, and the two glass fiber mesh cloth supporting plates are integrally arranged in a V shape; the glass fiber mesh cloth is upward open-shaped through two glass fiber mesh cloth supporting plates, then is in a vertical or slightly inward folding state through a mesh folding gap, and finally is inwards folded through two upper supporting plates and two lower supporting plates.

8. The net wrapping and folding system for processing the rock wool composite board according to claim 1 or 6, wherein: the two-way net twisting devices are sequentially provided with two groups, wherein each group of net twisting shafts in one group of two-way net twisting devices is provided with one net twisting shaft respectively; each group of the two-way net rubbing device is provided with two rubbing roller shafts.

9. The net wrapping and folding system for processing rock wool composite boards according to claim 1, wherein: the two ends of the supporting transverse plate are provided with sliding blocks, vertical supports are fixedly arranged on two sides of the second gantry support, sliding rails are fixedly arranged on the vertical supports, and the sliding blocks are slidably arranged on the sliding rails.

10. A method for using the mesh wrapping and folding system for processing the rock wool composite board according to any one of claims 1 to 9, which is characterized in that: the using method comprises the following steps:

step one, parameter adjustment, namely adjusting the interval between the pressing roller and the first transmission device and the interval between the rubbing roller shaft and the second transmission device according to the thickness of the semi-finished product, and adjusting the interval between the two lateral limiting plates according to the width of the semi-finished product;

and secondly, installing glass fiber mesh fabrics, wherein the glass fiber mesh fabrics on two sides of the semi-finished product are sequentially arranged on a closing-in supporting device, a mesh folding gap and a layering device, and the glass fiber mesh fabrics are prevented from being wrinkled in the installation process.