CN209937942U - Glass fiber superposition production device and vacuum insulation panel core production equipment - Google Patents

Abstract

The utility model relates to a glass fiber stack apparatus for producing and vacuum insulation board core production facility, glass fiber stack apparatus for producing includes lapping machine, the hot press, still be equipped with the unreeling machine, fixture, the crosscut machine, lapping machine, fixture, the unreeling machine, the hot press, the crosscut machine is arranged in proper order, the netted glass fiber product of lapping machine output conveys the hot press entry through fixture, two unreeling machines are attached the glass fiber fabric respectively on netted glass fiber product upper and lower two sides, the netted glass fiber product hot briquetting of glass fiber fabric will be attached to the hot press, the crosscut machine cuts into fixed length panel with hot briquetting's glass fiber vacuum insulation board core. The vacuum heat insulation board core material production equipment is composed of a bale opener, a coarse opener, a cotton mixing box, a fine opener, a cotton storage box and a lapping machine connected to the rear of a carding machine. The application has the advantages of simple and convenient structure, good product quality, energy conservation and convenient utilization of the existing glass fiber felt or glass fiber cloth for superposition type production.

Description

Glass fiber superposition production device and vacuum insulation panel core production equipment

Technical Field

The application relates to a glass fiber superposition production device and vacuum heat insulation plate core material production equipment, which are mainly used for hot press molding of glass fiber vacuum heat insulation plate core materials.

Background

The vacuum insulated panel (VIP for short) is a novel heat-insulating material, has the advantages of low heat conductivity coefficient, good heat-insulating effect, small occupied space proportion, energy conservation, low carbon, environmental protection, safety and the like, and is widely applied to the fields of household appliance heat preservation, wall heat preservation, biological refrigeration transportation, logistics cold chain transportation, automobile heat preservation and the like. Along with the improvement of the energy-saving and environment-friendly requirements, higher requirements are put forward on the service life and the heat insulation capability of the vacuum heat insulation plate.

Referring to fig. 1, the conventional vacuum insulation panel core material production equipment mainly comprises a bale opener 1, a coarse opener 2, a cotton mixing box 3, a fine opener 4, a cotton storage box 5, a carding machine 6, a lapping machine 7 and a hot press 8, but the conventional vacuum insulation panel core material production equipment has a problem that the conventional glass fiber felt or glass fiber cloth is inconvenient to thicken (overlap) to produce the vacuum insulation panel core material, so that the production method of the vacuum insulation panel core material is limited to a certain extent.

Disclosure of Invention

The technical problem that this application was solved is overcome the above-mentioned not enough that exists among the prior art, and provides a simple structure convenience, and product quality is good, and the energy saving makes things convenient for and utilizes current glass fiber felt or glass fiber cloth to carry out glass fiber stack apparatus for producing and vacuum insulation panel core production facility of stack production vacuum insulation panel core.

The technical scheme adopted by the application for solving the technical problems comprises the following steps:

a glass fiber superposition production device comprises a lapping machine and a hot press, and is characterized by further comprising a unreeling machine, a clamping mechanism and a transverse cutting machine, wherein the lapping machine, the clamping mechanism, the unreeling machine, the hot press and the transverse cutting machine are sequentially arranged, reticular glass fiber products output by the lapping machine are conveyed to an inlet of the hot press through the clamping mechanism, two unreeling machines respectively attach glass fiber fabrics to the upper surface and the lower surface of the reticular glass fiber products, the hot press is used for hot-press forming the reticular glass fiber products attached with the glass fiber fabrics on the upper surface and the lower surface to prepare glass fiber vacuum heat insulation board core materials, and the transverse cutting machine is used for cutting the hot-press formed glass fiber vacuum heat insulation board core materials into plates.

This application fixture adopts centre gripping curtain mechanism, and centre gripping curtain mechanism includes centre gripping curtain mechanism, lower centre gripping curtain mechanism, and centre gripping curtain mechanism holds in the palm presses the netted glass fiber product that is located centre gripping curtain mechanism, lower centre gripping curtain mechanism between and conveys forward, can not form big power of dragging on the direction of transfer, guarantees the steady conveying of netted glass fiber product.

The hot press comprises an upper hot-pressing structure, a lower hot-pressing structure and a driving mechanism, the driving mechanism is installed on the lower hot-pressing structure and is connected with the upper hot-pressing structure, the upper hot-pressing structure is pressed as required in the driving process, and the reticular glass fiber products attached with glass fiber fabrics are kept or released.

This application the effective broad width (processing width) of hot press is 2600 millimeters, and hot pressing length is not less than 6000 millimeters, and the thickness of going up heat preservation, lower heat preservation is 30 millimeters.

The glass fiber fabric is usually made of glass fiber felt or glass fiber cloth.

The technical scheme that this application solved above-mentioned technical problem and adopted still includes:

a vacuum insulation panel core production device comprises an unpacking machine, a coarse opener, a cotton mixing box, a fine opener, a cotton storage box and a carding machine, wherein the unpacking machine, the coarse opener, the cotton mixing box, the fine opener, the cotton storage box and the carding machine are sequentially arranged.

The bale opener comprises a first bale opener, a second bale opener and a third bale opener, wherein the first bale opener, the second bale opener and the third bale opener are connected to the coarse opener and are respectively used for opening glass fiber filaments, glass fiber broken filaments and glass fiber return materials and mixing the three glass fiber raw materials together and sending the mixture to the coarse opener.

Compared with the prior art, the application has the following advantages and effects: simple structure is convenient, and product quality is good, and the energy saving conveniently utilizes current glass fiber felt or glass fiber cloth to carry out stack formula production.

Drawings

FIG. 1 is a schematic view showing a structure of a prior art vacuum insulation panel core material production apparatus.

FIG. 2 is a schematic structural diagram of a glass fiber stacking production apparatus according to an embodiment of the present application.

Detailed Description

The present application will be described in further detail with reference to the following examples, which are illustrative of the present application and are not intended to limit the present application.

Referring to fig. 2, the glass fiber superposition production device comprises a lapping machine 7 and a hot press 8, and is characterized by further comprising a clamping mechanism 9, an unreeling machine 10 and a transverse cutting machine 11, wherein the lapping machine 7, the clamping mechanism 9, the unreeling machine 10, the hot press 8 and the transverse cutting machine 11 are sequentially arranged, a reticular glass fiber product 12 output by the lapping machine 8 is conveyed to an inlet of the hot press 8 through the clamping mechanism 9, two unreeling machines respectively attach glass fiber fabrics to the upper surface and the lower surface of the reticular glass fiber product, the hot press carries out hot press molding on the reticular glass fiber product 12 with the glass fiber fabrics attached to the upper surface and the lower surface to prepare a glass fiber vacuum heat insulation board core material, and the transverse cutting machine 11 cuts the glass fiber vacuum heat insulation board core material subjected to hot press molding.

This application fixture 9 adopts centre gripping curtain mechanism, and centre gripping curtain mechanism includes centre gripping curtain mechanism 91, centre gripping curtain mechanism 92 down, and centre gripping curtain mechanism holds in the palm and presses the netted glass fiber product 12 that is located between centre gripping curtain mechanism 91, the lower centre gripping curtain mechanism 92 and forward (indicates the direction of processing, the left side of figure 2) conveying, can not form big power of dragging on the direction of delivery, guarantees the steady conveying of netted glass fiber product 12.

This application hot press 8 includes hot-pressing structure 81, hot-pressing structure 82 and actuating mechanism down, actuating mechanism installs under on hot-pressing structure 82 and is connected with last hot-pressing structure 81, hot-pressing structure 81 compresses tightly as required in the drive, keep or release and paste netted glass fiber product 12 with glass fiber fabric, it has last heat preservation 811 to go up hot-pressing structure 81, it sets up one set of heating tube to go up heat preservation 811 lower part, hot-pressing structure 82 has lower heat preservation 821 down, heat preservation 821 upper portion sets up one set of heating tube down, set up between two sets of heating tubes by the finished product (paste the netted glass fiber product 12 with glass fiber fabric on upper and lower two sides), improve hot-pressing efficiency, energy saving.

This application hot press 8's effective broad is 2600 millimeters, and hot pressing length is not less than 6000 millimeters, and the thickness of going up heat preservation 811, lower heat preservation 821 is 30 millimeters.

The glass fiber superposition production device and a bale opener 1, a coarse opener 2, a cotton mixing box 3, a fine opener 4, a cotton storage box 5 and a carding machine 6 in the prior art are sequentially arranged to form vacuum insulation board core material production equipment, a lapping machine 7, a clamping mechanism 9, an unreeling machine 10, a hot press 8 and a transverse cutting machine 11 are sequentially arranged behind (indicating a flow path) the carding machine 6, glass fibers output from the bale opener 1 are sequentially processed by the coarse opener 2, the cotton mixing box 3, the fine opener 4, the cotton storage box 5 and the carding machine 6 to form single-layer glass fiber products, the single-layer glass fiber products are lapped by the lapping machine 7 to form (multi-layer) reticular glass fiber products 12, then the glass fiber fabrics output by the upper unreeling machine 10 and the lower unreeling machine are superposed, and then the vacuum insulation board core material is formed by hot pressing of a hot press 8, and finally the vacuum insulation board core material is cut into boards with fixed length by a transverse cutting machine 11 according to actual needs.

All simple variations and combinations of the technical features and technical solutions of the present application are considered to fall within the scope of the present application.

Claims (6)

1. The utility model provides a glass fiber stack apparatus for producing, includes lapping machine, hot press, characterized by: the device is characterized by also comprising unreeling machines, a clamping mechanism and a transverse cutting machine, wherein the lapping machine, the clamping mechanism, the unreeling machines, a hot press and the transverse cutting machine are sequentially arranged, a reticular glass fiber product output by the lapping machine is conveyed to an inlet of the hot press through the clamping mechanism, the two unreeling machines respectively attach glass fiber fabrics to the upper surface and the lower surface of the reticular glass fiber product, the hot press carries out hot press molding on the reticular glass fiber product attached with the glass fiber fabrics on the upper surface and the lower surface to prepare a glass fiber vacuum heat insulation board core material, and the transverse cutting machine cuts the glass fiber vacuum heat insulation board core material formed by the hot press molding.

2. The glass fiber superposition production apparatus according to claim 1, wherein: the clamping mechanism adopts a clamping curtain mechanism, the clamping curtain mechanism comprises an upper clamping curtain mechanism and a lower clamping curtain mechanism, and the clamping curtain mechanism supports and presses the reticular glass fiber product between the upper clamping curtain mechanism and the lower clamping curtain mechanism and forwards conveys the reticular glass fiber product.

3. The glass fiber superposition production apparatus according to claim 1, wherein: the hot press comprises an upper hot-pressing structure, a lower hot-pressing structure and a driving mechanism, wherein the driving mechanism is installed on the lower hot-pressing structure and connected with the upper hot-pressing structure, the upper hot-pressing structure is provided with an upper heat insulation layer, the lower part of the upper heat insulation layer is provided with a set of heating tubes, the lower hot-pressing structure is provided with a lower heat insulation layer, the upper part of the lower heat insulation layer is provided with a set of heating tubes, and a processed product conveying channel is arranged between the two sets of heating tubes.

4. The glass fiber superposition production apparatus according to claim 1, wherein: the effective width of the hot press is 2600 mm, the hot pressing length is not less than 6000 mm, and the thicknesses of the upper heat-insulating layer and the lower heat-insulating layer are both 30 mm.

5. The glass fiber superposition production apparatus according to claim 1, wherein: the glass fiber fabric is made of glass fiber felt or glass fiber cloth.

6. The utility model provides a vacuum insulation panel core production facility, includes bale opener, coarse opener, mixes the cotton case, smart opener, stores up cotton case, carding machine, and bale opener, coarse opener, mix cotton case, smart opener, store up cotton case, carding machine arrange characterized by in proper order: a glass fiber superposition production device according to any of claims 1 to 5 is also provided, the output of the carding machine being connected to a lapping machine.

Images