KR100877008B1 - Mold cavity device to reduce residual moisture in pulp-formed outputs during compression - Google Patents

Abstract

The present invention consists of an upper mold (2) with air inlets (10) and a lower mold (4) with air outlets (11), which reduces the residual moisture of the pulp-formed outputs during compression. It relates to a mold apparatus with a cavity. A special feature of the device is a layer of porous material 7 attached to the bottom of the upper mold 2 and to the top of the lower mold 4. The lower mold has air inlets and air outlets. The air inlets 10 are connected to atmospheric air or compressed air, while the air outlets 11 are connected to a vacuum device. The lower mold portion may or may not have holes, while the lower mold portion has a layer of porous material. An advantage of the present invention is to reduce the residual moisture of the pulp-formed outputs during compaction and consequently to save heating energy during hot compaction.

Molding device

Description

A MOULD CAVITY DEVICE TO REDUCE RESIDUAL MOISTURE OF PULP-MOULDED PRODUCTS DURING COMPRESSION} Reduces Residual Water in Pulp-Formed Outputs During Compression

1 is a structural schematic diagram of a currently used mold apparatus with a cavity.

2 is a structural schematic diagram of the present invention according to the first embodiment.

3 is a structural schematic diagram of the present invention according to the second embodiment.

4 is a structural schematic diagram of the present invention according to the third embodiment.

The present invention relates to a mold cavity device that reduces the residual moisture of pulp-formed outputs while compressing the fibers.

Pulp-molded outputs are generally made using a mold apparatus with a cavity. As shown in FIG. 1, the presently commonly used cavity-type mold apparatus has an upper mold part 2 with holes, a lower mold part 4 with holes 3, and a top side of the lower mold part 4. It consists of a metal mesh 5 fixed to it. Water and pulp slurry enter the upper surface of the lower mold part 4, and water is squeezed out by the pressure difference. The water-containing output 6 is placed in the metal net 5 and the output 6 is transferred to a hot mold by a transfer process for hot compression, drying and trimming. Finally, the output is collected from the upper mold which applies hot pressure as the final output.

Under standard compression, when there is an incomplete flow of air between the main component of the pulp-formed output and the mold surface, residual moisture will occur, in particular the generation of water in the main component of the pulp-molded output is at This results in increased loss of thermal energy.

The present invention is a mold apparatus that reduces the residual moisture of pulp-formed outputs during compression, and as a result, further reduces the loss of temperature during hot compression.

In order to achieve the above object, the proposals of the technical solution according to the present invention are to provide a mold apparatus having a cavity for reducing the residual moisture of the pulp-molded outputs. The apparatus consists of an upper mold with air inlets and a lower mold with air outlets. A particular feature of the device is a layer of porous material attached to the bottom of the upper mold and the top of the lower mold.

The device has inlets and outlets of air above the lower mold described above. The air inlets are connected to atmospheric air or compressed air, while the air outlets are connected to a vacuum device.

The above upper mold has no holes.

The above-mentioned porous material 7 is made of a panel plate woven into beads of porous metal or sintered metal, or a single or multiple layers of connecting metal mesh.

The present invention provides increased air intake so that air can more evenly and more effectively penetrate the output to remove any residual moisture from the output, porous material, mold holes, mold surface and surface of the porous material and increase air flow. For the porous material, air inflow and air outflow occur simultaneously. Compared with the prior art with respect to the compression method of the fibers, the device of the present invention operates at higher speeds in larger areas and is more effective in reducing the overall moisture capacity, especially in the main component of the output during the hot compression process. It is more effective in reducing residual moisture and thus prevents the deposition of moisture in the main components of the output.

An advantage of the present invention is the reduction of moisture in the main components of the pulp-molded output, thereby saving heating energy during the hot compacting process.

desirable Example  One

As shown in the structural schematic diagram of FIG. 2, the invention consists of an upper mold 2 with air inlets 1 and a lower mold 4 with air outlets 3. A special feature of the device is a layer of porous material 7 attached to the bottom of the upper mold 2 and to the top of the lower mold 4.

The porous material 7 is made of a fennel plate interwoven with a bead of porous metal or sintered metal, or a single or multiple layers of connecting metal mesh.

Firstly, the upper mold part 2 compresses the upper surface of the output, and the pressure difference occurs in the cavity of the upper mold 2 and the lower mold 4. Compressed air is added to the upper mold part 2 while vacuum / atmosphere air is added to the lower mold part 4. Alternatively, atmospheric air is added to the upper mold part 2 and a vacuum is added to the lower mold part 4. Air is injected through the holes 1 on the upper mold part 2 and passes through the various components in the following order: porous material 7, output 6, porous material 7 and lower mold part ( Eventually ejected through the holes 3 of 4). The air flow carries moisture out of the lower mold part 4 out of the holes, the output, the porous material and the space between the porous material and the mold part, in particular the moisture retained in the main component of the output.

desirable Example  2

As shown in the structural schematic diagram of FIG. 3, the invention consists of air inlets 10 and air outlets 11 in the lower mold 4. The air inlets 10 are connected to atmospheric or compressed air, while the air outlets 11 are connected to a vacuum device 12 and on the upper side of the lower mold part 4 of the porous material 7 It is in layers.

The porous material 7 is made of a fennel plate interwoven with a porous metal or sintered metal, or a single or multiple layers of connecting metal mesh.

Firstly, the upper mold part 2 compresses the upper surface of the output 6, and atmospheric or compressed air is supplied into the air inlet 10 inside the cavity of the lower mold part 4, and the air outlets 11 is connected to a vacuum device for sucking air. Air passes through the various components in the following order: pores in the porous material 7, the output 6, the air outlets 11, the output 6, and the lower mold 4, the output, the porous material. And carry out moisture in the space between the porous material and the mold, in particular carry the moisture remaining in the main component of the output.

desirable Example  3

As shown in the structural schematic of FIG. 4, the present invention consists of an upper mold 8 having no holes. The other inventions are the same as in the preferred embodiment 2.

An advantage of the present invention is to reduce the residual moisture of the pulp-formed outputs during compaction and consequently to save heating energy during hot compaction.

Claims (4)

delete In a mold cavity apparatus which reduces the residual moisture of pulp-formed outputs during compression, comprising a porous material (7) attached to the bottom of the upper mold (2) and to the top of the lower mold (4). Pulp during compression, characterized in that by injecting air or compressed air into the air inlet 10 formed in the lower mold portion 4, by connecting the vacuum device 12 to the air outlet (11) A mold cavity device which reduces the residual moisture of the shaped outputs. delete delete

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