CN212636328U - A-level fireproof thermal insulation material heating production device - Google Patents

Abstract

The utility model discloses a A level fire prevention insulation material apparatus for producing that heats, it includes sealed box, first pipeline subassembly and heating unit, have in the sealed box and be used for holding the heating space that a plurality of mould was put to the pile layer, first pipeline subassembly connect in the medial surface of sealed box, heating unit connect in first pipeline subassembly and be used for right first pipeline subassembly provides the heat source, the first gap mouth of a plurality of, a plurality of has on the first pipeline subassembly first gap mouth is along a plurality of the direction of height interval of mould sets up, just first gap mouth be used for with adjacent two the corresponding setting in gap between the mould. The lateral direction in the sealing box body is provided with a heat source through the heating unit and the first pipeline assembly, gaps of the stacked and layered dies are heated, the lateral direction heating in the whole heating process is realized, the raw materials in the middle positions of the dies are heated uniformly, and the efficiency and the effect of the whole heating preparation process are optimized.

Description

A-level fireproof thermal insulation material heating production device

Technical Field

The utility model relates to a A level fire prevention insulation material apparatus for producing that heats.

Background

In the traditional production mode of the class-A fireproof heat-insulating material, a heating process is partially used for realizing the mutual reaction between the raw material compositions and the accelerated setting and curing of the raw materials. The raw materials are placed in a mold and then placed in a heating chamber, and the air in the heating chamber is heated by adopting heat sources in different forms so as to achieve the purpose of heating the mold and the raw materials in the mold. In the prior art, in order to improve the heating effect, a cavity is usually arranged in the wall of the heating chamber, and the exhaust fan above the cavity is matched with the air outlet below the cavity to form hot air circulation with temperature in the heating chamber. However, the effect brought by the method is low, the heating time is long, and the energy consumption is very high. In the traditional production process, in order to improve the efficiency, a plurality of stacked material injection molds are often placed at one time for heating. The heating mode generally has the condition that a plurality of stacked injection molds in a heating bin are heated unevenly, and particularly raw materials positioned in the middle positions of the plurality of stacked injection molds are heated unevenly, so that the product quality is unstable, and the product quality control is seriously influenced.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the above-mentioned not enough of current existence, the utility model provides a production facility heats of A level fire prevention insulation material.

The utility model discloses a realize through following technical scheme:

the utility model provides a A level fire prevention insulation material apparatus for producing that heats, its includes sealed box, first pipeline subassembly and heating unit, have in the sealed box and be used for holding the heating space that stacks a plurality of mould, first pipeline subassembly connect in the medial surface of sealed box, heating unit connect in first pipeline subassembly is used for right first pipeline subassembly provides the heat source, the first gap mouth of a plurality of has on the first pipeline subassembly, a plurality of first gap mouth is along a plurality of the direction of height interval of mould sets up, just first gap mouth be used for with adjacent two the corresponding setting in gap between the mould.

Furthermore, the first pipeline assembly comprises a first pipeline and a plurality of first branch pipelines, the heating unit is connected to the first pipeline and used for providing a heat source for the first pipeline, the first pipeline is connected to the inner side face of the sealed box body, one ends of the first branch pipelines are connected to the first pipeline and communicated with the first pipeline, the plurality of first branch pipelines are arranged at intervals along the height direction of the plurality of molds, and the other ends of the first branch pipelines are provided with the first gap openings.

Furthermore, the A-level fireproof heat-insulating material heating production device further comprises a first circulation unit and a second pipeline assembly, an inlet of the first circulation unit is connected to the second pipeline assembly and used for absorbing a heat source in the second pipeline assembly, an outlet of the first circulation unit faces the bottom of the heating space, the second pipeline assembly and the first pipeline assembly are respectively connected to two corresponding inner side faces in the sealing box body, a plurality of second gap openings are formed in the second pipeline assembly and are arranged at intervals along the height direction of the molds, and the second gap openings are used for being arranged corresponding to gaps between two adjacent molds.

Furthermore, the second pipeline assembly comprises a second pipeline and a plurality of second branch pipelines, the first circulation unit is connected to the second pipeline and used for absorbing heat sources in the second pipeline, the second pipeline is connected to the inner side face of the sealed box body, one end of each second branch pipeline is connected to the second pipeline and communicated with the second pipeline, the second branch pipelines are arranged at intervals in the height direction of the molds, and the other ends of the second branch pipelines are provided with second gap openings.

Further, the heating unit is communicated with the first pipeline assembly and the second pipeline assembly through a first connecting pipeline;

and/or the first circulating unit is communicated with the first pipeline assembly and the second pipeline assembly through a second connecting pipeline.

Furthermore, the first connecting pipeline is provided with two first switching valves which are used for respectively controlling the disconnection between the heating unit and the first pipeline assembly and between the heating unit and the second pipeline assembly;

and/or the second connecting pipeline is provided with two second switching valves which are used for respectively controlling the disconnection between the first circulating unit and the first pipeline assembly and between the first circulating unit and the second pipeline assembly.

Furthermore, the A-level fireproof heat-insulating material heating production device further comprises a second circulating unit, the second circulating unit is arranged in the sealed box body, an inlet of the second circulating unit is communicated with the top of the heating space, and an outlet of the second circulating unit is communicated with the bottom of the heating space.

Further, the A-grade fireproof heat-insulating material heating production device is used for manufacturing a heat-insulating material with the fireproof grade of A.

Furthermore, the A-grade fireproof heat-insulating material heating production device is used for manufacturing a heat-insulating material with the fireproof grade of A and containing a siliceous substance, a calcareous substance and polystyrene particles.

Further, the A-grade fireproof heat-insulating material heating production device is used for manufacturing a silicon graphene heat-insulating material with the fireproof grade of A.

The beneficial effects of the utility model reside in that: can provide the heat source to the side direction in the sealing box through heating element and first pipeline subassembly to heat the gap of the mould of piling up the layer and putting, realize that the in-process side direction of wholly heating is heated simultaneously, and realize that the raw materials of mould intermediate position is heated evenly, optimize the whole efficiency and the effect of preparing the process of heating.

Drawings

Fig. 1 is a schematic structural view of a class a fireproof thermal insulation material heating production device according to embodiment 1 of the present invention.

Fig. 2 is a left side view structure diagram of the a-level fireproof thermal insulation material heating production device of the embodiment 1 of the present invention.

Fig. 3 is a schematic view of the overlooking structure of the a-level fireproof thermal insulation material heating production device in embodiment 1 of the present invention.

Fig. 4 is a schematic structural view of a class a fireproof thermal insulation material heating apparatus of the embodiment 2 of the present invention.

Description of reference numerals:

sealed box 1

Heating space 11

First pipe assembly 2

First pipe 21

First branch pipe 22

Heating unit 3

Second pipe assembly 4

Second pipe 41

Second branch conduit 42

First circulation unit 5

An outlet 51

First connecting pipe 6

Second connecting pipe 7

First switching valve 8

Second switching valve 9

Mold 10

Gap 101

Detailed Description

The following description of the embodiments refers to the accompanying drawings, which are included to illustrate specific embodiments in which the invention may be practiced.

Example 1

As shown in fig. 1, fig. 2 and fig. 3, the embodiment discloses a class a fire-proof thermal insulation material heating production device, the class a fire-proof thermal insulation material heating production device includes a sealed box 1, a first pipeline assembly 2 and a heating unit 3, a heating space 11 for accommodating a plurality of stacked dies 10 is provided in the sealed box 1, the first pipeline assembly 2 is connected to the inner side of the sealed box 1, the heating unit 3 is connected to the first pipeline assembly 2 and is used for providing a heat source for the first pipeline assembly 2, a plurality of first gaps are provided on the first pipeline assembly 2, the plurality of first gaps are arranged along the height direction of the plurality of dies 10 at intervals, and the first gaps are arranged corresponding to the gaps 101 between two adjacent dies 10.

The raw materials of A level fire prevention heated board will pour into mould 10 in, and A level fire prevention insulation material apparatus for producing that heats will put a plurality of mould 10 through sealed box 1 to the layer of piling up that is located heating space 11, and a plurality of mould 10 piles up the layer and put and have gap 101 between two arbitrary adjacent moulds 10. Make the heat source to inject into corresponding gap 101 respectively through the first gap mouth of a plurality of through heating element 3 and first pipeline assembly 2 in to provide the heat source to the side direction in the sealed box 1, and heat the gap 101 of the mould 10 that the stack layer was put, realize heating in the in-process side direction simultaneously that wholly heats, and realize that the raw materials of mould 10 intermediate position is heated evenly, optimize the efficiency and the effect of whole preparation process of heating.

It should be particularly noted that the heating production device for the class-a fireproof heat-insulating material of the embodiment is used for manufacturing a heat-insulating material with a fireproof grade of class-a. The product manufactured by the A-level fireproof heat-insulating material heating production device effectively ensures the heat-insulating property and the fireproof property.

The A-grade fireproof heat-insulating material heating production device is used for manufacturing a heat-insulating material with the fireproof grade of A and containing a siliceous substance, a calcareous substance and polystyrene particles. The heat-insulating material with the fire-retardant grade of A and containing the siliceous substance, the calcareous substance and the polystyrene particles can ensure that the strength meets the standard requirements of related products under the condition of the heat-insulating material with the same thickness, the fire-retardant property reaches the grade A, and an inorganic plate is not required to be compounded to enhance the strength and the fire-retardant property. Preferably, the A-grade fireproof heat-insulating material heating production device is used for manufacturing a silicon graphene heat-insulating material with the fireproof grade of A.

The first pipe assembly 2 includes a first pipe 21 and a plurality of first branch pipes 22, the heating unit 3 is connected to the first pipe 21 and used for providing a heat source for the first pipe 21, the first pipe 21 is connected to an inner side surface of the sealed box body 1, one end of each first branch pipe 22 is connected to the first pipe 21 and communicated with the first pipe 21, the plurality of first branch pipes 22 are arranged along a height direction of the plurality of molds 10 at intervals, and the other end of each first branch pipe 22 is provided with a first slit opening. The heating unit 3 will be used to provide a heat source, which will enter the first pipe 21 and the plurality of first branch pipes 22, and be blown out through the first slit openings of the first branch pipes 22. The gaps 101 of the plurality of stacked dies 10 are heated through the plurality of first branch pipelines 22, so that the heat source enters the gaps 101, the dies 10 are uniformly heated, and the efficiency and effect of the whole heating preparation process are optimized. Meanwhile, the whole structure is simple, and the installation and the setting are very convenient. The first slit opening on the first branch pipe 22 may be in a nozzle shape, so as to realize that the heat source is sprayed into the slit 101; of course, the first slit opening of the first branch pipe 22 may be a strip-shaped hole or a perforation. The heating unit 3 may be a warmer.

The A-level fireproof heat-insulating material heating production device further comprises a first circulating unit 5 and a second pipeline assembly 4, an inlet of the first circulating unit 5 is connected to the second pipeline assembly 4 and used for absorbing a heat source in the second pipeline assembly 4, an outlet 51 of the first circulating unit 5 faces the bottom of the heating space 11, the second pipeline assembly 4 and the first pipeline assembly 2 are respectively connected to two corresponding inner side faces in the sealing box body 1, a plurality of second gap openings are formed in the second pipeline assembly 4 and arranged at intervals along the height direction of the plurality of dies 10, and the second gap openings are used for being arranged corresponding to a gap 101 between every two adjacent dies 10.

Through first circulation unit 5 make second pipeline subassembly 4 through a plurality of second gap mouth will absorb the heat source in the gap 101, discharge through the export 51 of first circulation unit 5 for the heat source will be located the bottom of heating space 11, be located the below that a plurality of mould 10 was put on the layer of piling up promptly, and the heat source will further rise to stacking layer and putting a plurality of mould 10 heating, further improved the heating effect of A level fire prevention insulation material apparatus for producing that heats, improved production efficiency.

The second pipe assembly 4 includes a second pipe 41 and a plurality of second branch pipes 42, the first circulation unit 5 is connected to the second pipe 41 and is used for absorbing a heat source in the second pipe 41, the second pipe 41 is connected to an inner side surface of the sealed box 1, one end of each second branch pipe 42 is connected to the second pipe 41 and is communicated with the second pipe 41, the plurality of second branch pipes 42 are arranged at intervals along a height direction of the plurality of molds 10, and the other end of each second branch pipe 42 is provided with a second slit. The first circulation unit 5 will be used to provide an absorption heat source, which will be blown out through the outlet 51 of the first circulation unit 5 towards the bottom of the heating space 11, into the number of second branch ducts 42 and the second duct 41, by means of the second duct assembly 4. The heating efficiency is improved, and meanwhile, the whole structure is simple, and the installation and the setting are very convenient. Wherein, the second slit openings on the plurality of second branch pipes 42 may be strip-shaped holes, so as to realize rapid heat source absorption. The first circulation unit 5 may be a fan.

The A-level fireproof heat-insulating material heating production device further comprises a second circulating unit, the second circulating unit is arranged in the sealed box body 1, an inlet of the second circulating unit is communicated with the top of the heating space 11, and an outlet of the second circulating unit is communicated with the bottom of the heating space 11. The heat source can rise to the time of heating mould 10, makes the heat source that is located heating space 11 top will inhale to the second circulation unit in through the second circulation unit, discharges the heat source to heating space 11's bottom through the second circulation unit, further realizes the circulation heating of heat source, has improved the production efficiency of A level fire prevention insulation material production apparatus that heats greatly.

Example 2

In this embodiment 2, the same portions as those in embodiment 1 are not repeated, and only different portions will be described. As shown in fig. 4, in the present embodiment 2, the heating unit 3 is communicated with both the first pipe assembly 2 and the second pipe assembly 4 through the first connecting pipe 6. The first pipeline assembly 2 and the second pipeline assembly 4 are respectively arranged at two corresponding sides in the sealed box body 1, the heating unit 3 can provide heat source to enter the first pipeline assembly 2 through the first connecting pipeline 6, and the heat source is provided to the right side of the stacked and layered dies 10 through the first pipeline assembly 2; the heating unit 3 will be able to provide a heat source through the first connecting duct 6 into the second duct assembly 4, which heat source will be provided to the left side of the stack of several moulds 10 through the second duct assembly 4. Can realize heating the left and right sides of a plurality of mould 10 respectively through first connecting tube 6, further realize that the raw materials of mould 10 intermediate position is heated evenly, optimize the efficiency and the effect of whole preparation process of heating greatly.

The first circulation unit 5 is communicated with the first pipe assembly 2 and the second pipe assembly 4 through a second connecting pipe 7. The heat source on the right side is made to enter the first pipe assembly 2 and the second connecting pipe 7 through the first circulating unit 5, and finally the heat source is blown out to the bottom of the heating space 11 through the first circulating unit 5; the heat source on the left side is made to enter the second pipe assembly 4 and the second connecting pipe 7 through the first circulating unit 5, and finally the heat source is blown out to the bottom of the heating space 11 through the first circulating unit 5; the heating of stacking a plurality of moulds 10 is realized, the heating effect of the A-level fireproof heat-insulating material heating production device is further improved, and the production efficiency is improved. Wherein, the surface of first connecting tube 6 and second connecting tube 7 can be wrapped up with the heat preservation, reduces thermal loss, practices thrift the cost.

The first connecting pipeline 6 is provided with two first switching valves 8, and the two first switching valves 8 are used for respectively controlling the disconnection between the heating unit 3 and the first pipeline assembly 2 and between the heating unit 3 and the second pipeline assembly 4. The two first switching valves 8 are respectively used for controlling the on-off of the heating unit 3 and the first pipeline assembly 2 and the second pipeline assembly 4, and the device is simple in structure and convenient to operate and control.

The second connecting pipeline 7 is provided with two second switching valves 9, and the two second switching valves 9 are used for controlling the disconnection between the first circulating unit 5 and the first pipeline assembly 2 and between the first circulating unit 5 and the second pipeline assembly 4 respectively. The two second switching valves 9 are respectively used for controlling the connection and disconnection between the first circulating unit 5 and the first pipeline assembly 2 and between the first circulating unit and the second pipeline assembly 4, and the device is simple in structure and convenient to operate and control.

When the control pipeline is disconnected through the first switching valve 8 and the second switching valve 9, when the first switching valve 8 controls the connection between the heating unit 3 and the first pipeline assembly 2 and the connection between the heating unit 3 and the second pipeline assembly 4 to be disconnected, the second switching valve 9 controls the connection between the first circulating unit 5 and the first pipeline assembly 2 and the connection between the first circulating unit 5 and the second pipeline assembly 4 to be disconnected; when the first switching valve 8 controls the disconnection between the heating unit 3 and the first pipe assembly 2 and the opening between the heating unit 3 and the second pipe assembly 4, the second switching valve 9 controls the opening between the first circulation unit 5 and the first pipe assembly 2 and the disconnection between the first circulation unit 5 and the second pipe assembly 4. The left and right sides that a plurality of mould 10 was put to the layer is piled up to the realization is switched control heating respectively, realizes that the raw materials of mould 10 intermediate position is heated evenly, has improved A level fire prevention insulation material greatly and has heated production device's machining efficiency and processing effect.

The above disclosure is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the scope of the invention, which is defined by the appended claims.

Claims (10)

1. The utility model provides a A level fire prevention insulation material apparatus for producing that heats, its characterized in that, it includes sealed box, first pipeline subassembly and heating unit, have in the sealed box and be used for holding the heating space that stacks the layer and put a plurality of mould, first pipeline subassembly connect in the medial surface of sealed box, heating unit connect in first pipeline subassembly is and be used for right first pipeline subassembly provides the heat source, the first gap mouth of a plurality of has on the first pipeline subassembly, a plurality of first gap mouth is along a plurality of the direction of height interval of mould sets up, just first gap mouth be used for with adjacent two the corresponding setting in gap between the mould.

2. The class-a fire-proof insulation material heating production device according to claim 1, wherein the first pipe assembly includes a first pipe and a plurality of first branch pipes, the heating unit is connected to the first pipe and is configured to provide a heat source to the first pipe, the first pipe is connected to an inner side surface of the sealed box, one end of the first branch pipe is connected to and communicated with the first pipe, the plurality of first branch pipes are arranged at intervals in a height direction of the plurality of molds, and the other end of the first branch pipe has the first slit opening.

3. The class-A fireproof insulation material heating production device according to claim 1, further comprising a first circulation unit and a second pipeline assembly, wherein an inlet of the first circulation unit is connected to the second pipeline assembly and used for absorbing a heat source in the second pipeline assembly, an outlet of the first circulation unit faces the bottom of the heating space, the second pipeline assembly and the first pipeline assembly are respectively connected to two corresponding inner side faces in the sealed box body, the second pipeline assembly is provided with a plurality of second slit openings, the second slit openings are arranged at intervals along the height direction of the plurality of molds, and the second slit openings are used for being arranged corresponding to a slit between two adjacent molds.

4. The class-A fireproof thermal insulation material heating production device according to claim 3, wherein the second pipeline assembly comprises a second pipeline and a plurality of second branch pipelines, the first circulation unit is connected to the second pipeline and is used for absorbing heat sources in the second pipeline, the second pipeline is connected to the inner side face of the sealed box body, one end of each second branch pipeline is connected to the second pipeline and is communicated with the second pipeline, the plurality of second branch pipelines are arranged at intervals along the height direction of the plurality of molds, and the other end of each second branch pipeline is provided with the second slit.

5. The class-A fireproof thermal insulation material heating production device according to claim 3, wherein the heating unit is communicated with the first pipeline assembly and the second pipeline assembly through a first connecting pipeline;

and/or the first circulating unit is communicated with the first pipeline assembly and the second pipeline assembly through a second connecting pipeline.

6. The class-A fireproof insulation material heating production device according to claim 5, wherein the first connecting pipeline is provided with two first switching valves for controlling the disconnection between the heating unit and the first pipeline assembly and between the heating unit and the second pipeline assembly respectively;

and/or the second connecting pipeline is provided with two second switching valves which are used for respectively controlling the disconnection between the first circulating unit and the first pipeline assembly and between the first circulating unit and the second pipeline assembly.

7. The class-A fireproof insulation material heating production device of claim 1, further comprising a second circulation unit, wherein the second circulation unit is arranged in the sealed box body, an inlet of the second circulation unit is communicated with the top of the heating space, and an outlet of the second circulation unit is communicated with the bottom of the heating space.

8. The class-A fireproof thermal insulation material heating production device as claimed in claim 1, wherein the class-A fireproof thermal insulation material heating production device is used for manufacturing a thermal insulation material with a fire rating of class-A.

9. The class-A fireproof thermal insulation material heating production device of claim 8, wherein the class-A fireproof thermal insulation material heating production device is used for manufacturing a thermal insulation material with a fire rating of class-A and containing a siliceous matter, a calcareous matter and polystyrene particles.

10. The class-A fireproof thermal insulation material heating production device as claimed in claim 9, wherein the class-A fireproof thermal insulation material heating production device is used for manufacturing a class-A silicon graphene thermal insulation material.

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