CN217383558U - Air compressor machine waste heat baking house is used in heat insulating mattress production - Google Patents

Abstract

The utility model belongs to the technical field of the baking house, especially, an air compressor machine waste heat baking house is used in heat insulating mattress production, including the box and the installation box that is located its left side, be connected with the inlet box above the box, be connected with connecting box one above the installation box, open the through-hole that link up to its inner wall above the box outer wall, the inlet box is used for filtering the dust in the air, the inside lower extreme embedding of through-hole is installed coiled pipe two, the installation box inner wall bottom surface is installed with the air compressor machine, the installation box inner wall top surface is installed with the axial fan one that is used for carrying steam to connecting box one inside, connecting box one inside embedding is installed with coiled pipe one, the installation box is all run through out from the left and right sides of coiled pipe one, the box is all run through from the left and right sides of coiled pipe two; the utility model discloses better waste heat that has utilized the air compressor machine is dried to the heat insulating mattress, and is comparatively energy-conserving, filters the air that blows on the heat insulating mattress, avoids the dust in the steam to glue and pollutes the heat insulating mattress on the heat insulating mattress.

Description

Air compressor machine waste heat baking house is used in heat insulating mattress production

Technical Field

The utility model belongs to the technical field of the baking house technique and specifically relates to an air compressor machine waste heat baking house is used in heat insulating mattress production.

Background

The heat insulating pad is a gasket for isolating heat, a plurality of processes are provided in the production process of the heat insulating pad, the heat insulating pad is dried, the existing method for drying the heat insulating pad is usually drying through an electric heating oven, the electric heating oven consumes more energy and is not environment-friendly, heat generated by the air compressor during working is usually wasted, hot air blown on the heat insulating pad by the existing oven usually contains dust, the dust is adhered on the heat insulating pad to easily pollute the heat insulating pad, the heat insulating pad is relatively troublesome to clean after being polluted, and therefore the production efficiency of the heat insulating pad is influenced.

SUMMERY OF THE UTILITY MODEL

The utility model aims at the problem that above-mentioned exists with not enough, provide an air compressor machine waste heat baking house for heat insulating mattress production, the better waste heat that has utilized the air compressor machine dries to the heat insulating mattress, and is comparatively energy-conserving, filters the air that blows on the heat insulating mattress, avoids the dust in the steam to glue and pollutes the heat insulating mattress on the heat insulating mattress.

An air compressor waste heat drying room for producing a heat insulation pad comprises a box body and a mounting box positioned on the left side of the box body, wherein an air inlet box is connected to the upper surface of the box body, and a first connecting box is connected to the upper surface of the mounting box;

the upper surface of the outer wall of the box body is provided with a through hole which penetrates through the upper surface of the inner wall of the box body, and the air inlet box is used for filtering dust in air;

the utility model discloses a heat exchanger, including through-hole, install the installation incasement wall, install the axial fan that is used for carrying steam to connecting box one inside on the installation incasement wall top surface, the coil pipe one is installed in the inside embedding of connecting box one, the install bin is all run through out on the left and right sides of coil pipe one, the box is all run through out on the left and right sides of coil pipe two, coil pipe one right side communicates with each other with two left sides of coil pipe.

Preferably, the inside lower extreme of box is equipped with places the seat, radiator fan is installed to the installation incasement wall left side, the installation incasement left side is opened has the air intake that corresponds with radiator fan.

Preferably, a first air vent penetrating to the lower side of the inner wall of the first connecting box is formed in the upper surface of the inner wall of the mounting box, the first air vent vertically corresponds to the first axial flow fan, and a plurality of small holes II penetrating to the upper surface of the inner wall of the first connecting box are formed in the upper surface of the outer wall of the first connecting box.

Preferably, a third air vent penetrating to the upper surface of the inner wall of the air inlet box is formed in the outer wall of the air inlet box, a coarse filter screen and a fine filter screen are respectively connected to the upper end and the middle part of the inner part of the air inlet box, and a second axial flow fan is installed below the inner wall of the air inlet box.

Preferably, the lower end of the air inlet box is connected with a second connecting box positioned at the upper end inside the through hole, a second air vent penetrating to the upper surface of the inner wall of the second connecting box is formed in the lower surface of the inner wall of the air inlet box, and the second axial flow fan vertically corresponds to the second air vent.

Preferably, the second connecting box is internally connected with a cotton piece, and a first small hole penetrating out of the lower surface of the outer wall of the second connecting box is formed below the inner wall of the second connecting box.

The utility model has the advantages that: the left end of a coiled pipe is communicated with a water pump, water is introduced into a coiled pipe I through the water pump, heat generated by an air compressor is blown into a connecting box I through a first axial flow fan to heat water in the coiled pipe I in the connecting box I, hot water in the coiled pipe I flows into a second coiled pipe I, external air is blown into the connecting box II through a coarse strainer and a fine strainer after being filtered by a second axial flow fan, air blown into the connecting box II enters a through hole through a first small hole and passes through the second coiled pipe and carries heat in the second coiled pipe to become hot air to flow downwards, a user can place a heat insulation pad to be dried on a placing seat, the hot air can conveniently dry the heat insulation pad, the air entering the connecting box II is filtered through the coarse strainer and the fine strainer in the air inlet box and is cleaner, and the heat insulation pad can be prevented from being stuck with excessive dust and polluted, simultaneously better waste heat to the air compressor machine utilizes, comparatively energy-conserving.

Drawings

Fig. 1 is a schematic view of the overall front view cross-sectional structure of the present invention;

fig. 2 is an enlarged partial structural view of a in fig. 1 according to the present invention;

fig. 3 is a schematic diagram of a partial enlarged structure B of fig. 1 according to the present invention.

The labels in the figure are: the air-cooling fan comprises a box body 101, a placing seat 102, an installation box 103, an air compressor 104, a heat-radiating fan 105, an air inlet 106, a first connecting box 107, a first coiled pipe 108, a second coiled pipe 109, a first axial flow fan 110, a first air vent 111, a second axial flow fan 112, a second air vent 113, an air inlet box 114, a cotton piece 115, a coarse filter screen 116, a fine filter screen 117, a third air vent 118, a second connecting box 119, a through hole 120, a first small hole 121 and a second small hole 122.

Detailed Description

As shown in fig. 1 to 3, the application relates to an air compressor waste heat drying room for producing a heat insulation pad, which comprises a box body 101 and a mounting box 103 located on the left side of the box body, wherein an air inlet box 114 is connected to the upper surface of the box body 101, a first connecting box 107 is connected to the upper surface of the mounting box 103, a through hole 120 penetrating through the outer wall of the box body 101 is formed in the upper surface of the outer wall of the box body 101, and the air inlet box 114 is used for filtering dust in air;

a second serpentine pipe 109 is embedded into the lower end of the inside of the through hole 120, an air compressor 104 is installed on the bottom surface of the inner wall of the installation box 103, a first axial flow fan 110 for conveying hot air into the first connection box 107 is installed on the top surface of the inner wall of the installation box 103, a first serpentine pipe 108 is embedded into the first connection box 107, the left side and the right side of the first serpentine pipe 108 penetrate through the installation box 103, the left side and the right side of the second serpentine pipe 109 penetrate through the box body 101, and the right side of the first serpentine pipe 108 is communicated with the left side of the second serpentine pipe 109;

a placing seat 102 is arranged at the lower end in the box body 101, a heat radiation fan 105 is arranged on the left surface of the inner wall of the installation box 103, and an air inlet 106 corresponding to the heat radiation fan 105 is formed in the left side of the installation box 103;

when the air compressor 104 works, the air compressor 104 can dissipate heat and energize the heat dissipation fan 105, and because the air inlet 106 corresponding to the heat dissipation fan 105 is formed in the left side of the installation box 103, the heat dissipation fan 105 can blow external air into the installation box 103 through the air inlet 106 and dissipate heat of the air compressor 104, so that the subsequent utilization of waste heat is facilitated;

a first air vent 111 penetrating to the lower surface of the inner wall of the first connecting box 107 is formed in the upper surface of the inner wall of the mounting box 103, the first air vent 111 vertically corresponds to the first axial flow fan 110, and a plurality of second small holes 122 penetrating to the upper surface of the inner wall of the first connecting box 107 are formed in the upper surface of the outer wall of the first connecting box 107;

the air blown out by the cooling fan 105 can be changed into hot air after cooling the air compressor 104, at the moment, the mounting box 103 is filled with the hot air, the first axial flow fan 110 is electrified, because the first air vent 111 penetrating to the lower side of the inner wall of the first connecting box 107 is formed in the upper surface of the inner wall of the mounting box 103, and the first air vent 111 corresponds to the first axial flow fan 110 up and down, the first axial flow fan 110 can blow the hot air in the mounting box 103 upwards into the first connecting box 107 through the first air vent 111, because the first serpentine pipe 108 is arranged in the first connecting box 107, the left end of the first serpentine pipe 108 is communicated with the water pump, water is introduced into the first serpentine pipe 108 through the water pump, the water enters the first serpentine pipe 108 and can be contacted with hot air blown into the first connecting box 107, and the temperature of the water in the first connecting box 107 can be increased, so that subsequent drying is facilitated;

the temperature of hot air which is contacted with the first coiled pipe 108 and heats water inside the first coiled pipe 108 can be reduced, the hot air is continuously blown into the first connecting box 107 by the first axial flow fan 110, the temperature of air inside the first connecting box 107 can be effectively maintained, and as the second small holes 122 which penetrate through the outer wall of the first connecting box 107 are formed in the outer wall of the first connecting box 107, redundant air can flow out through the second small holes 122 under the action of air pressure, so that the circulation of the air inside the first connecting box 107 and the balance of the air pressure are ensured, and the hot air can continuously heat the water inside the first coiled pipe 108;

a third vent 118 penetrating through the upper surface of the inner wall of the air inlet box 114 is formed in the outer wall of the air inlet box 114, a coarse filter 116 and a fine filter 117 are respectively connected to the upper end and the middle part of the inner part of the air inlet box 114, a second axial flow fan 112 is installed below the inner wall of the air inlet box 114, a second connecting box 119 located at the upper end of the inner part of the through hole 120 is connected to the lower end of the air inlet box 114, a second vent 113 penetrating through the upper surface of the inner wall of the second connecting box 119 is formed below the inner wall of the air inlet box 114, the second axial flow fan 112 vertically corresponds to the second vent 113, a cotton sheet 115 is connected inside the second connecting box 119, and a first small hole 121 penetrating through the lower surface of the outer wall of the second connecting box 119 is formed below the inner wall of the second connecting box 119;

the second axial flow fan 112 is electrified, the second axial flow fan 112 is positioned in the air inlet box 114, the third vent 118 which penetrates through the upper surface of the inner wall of the air inlet box 114 is formed in the upper surface of the outer wall of the air inlet box 114, the second vent 113 which penetrates through the upper surface of the inner wall of the connecting box II 119 is formed in the lower surface of the inner wall of the air inlet box 114, and the second axial flow fan 112 corresponds to the second vent 113 up and down, so that external air can enter the air inlet box 114 through the third vent 118 and enter the connecting box II 119 through the second vent 113;

the filtered air can enter the inside of the second connecting box 119 through the third air vent 118, because the cotton sheet 115 is connected inside the second connecting box 119, the air entering the inside of the second connecting box 119 can flow downwards through the gap of the cotton sheet 115, the flow rate of the air passing through the cotton sheet 115 can be more uniform, the air can continue to flow downwards after passing through the cotton sheet 115 and can enter the inside of the through hole 120 through the first small hole 121, because the right side of the first serpentine tube 108 is communicated with the left side of the second serpentine tube 109, the heated water inside the first serpentine tube 108 can enter the second serpentine tube 109, the air entering the through hole 120 can continue to flow downwards and can pass through the second serpentine tube 109 and carry the heat inside the second serpentine tube 109 to flow downwards as hot air, a user can place a heat insulation cushion to be dried on the placing seat 102, and the hot air can be used for drying the heat insulation cushion more conveniently, the air entering the second connecting box 119 is filtered through the coarse filter 116 and the fine filter 117 inside the air inlet box 114, so that the air is cleaner, the phenomenon that excessive dust is adhered to a heat insulation pad to pollute the heat insulation pad is avoided, meanwhile, the waste heat of the air compressor is well utilized, and energy is saved.

Claims (6)

1. The utility model provides an air compressor machine waste heat baking house is used in heat insulating mattress production, includes box (101) and is located its left install bin (103), be connected with inlet box (114) above box (101), be connected with connecting box (107) above install bin (103), its characterized in that:

a through hole (120) penetrating to the upper surface of the inner wall of the box body (101) is formed in the upper surface of the outer wall of the box body, and the air inlet box (114) is used for filtering dust in air;

coil pipe two (109) are installed in the inside lower extreme embedding of through-hole (120), air compressor machine (104) are installed to install bin (103) inner wall bottom surface, install bin (103) inner wall top surface and be used for axial fan (110) to the inside transport steam of connecting box (107), coil pipe (108) are installed in the inside embedding of connecting box (107), install bin (103) are all run through out on coil pipe one (108) left and right sides, coil pipe two (109) left and right sides all run through out box (101), coil pipe one (108) right side communicates with each other with coil pipe two (109) left side.

2. The air compressor waste heat drying room for producing the heat insulation pad as claimed in claim 1, is characterized in that: the box body (101) is internally provided with a placing seat (102) at the lower end, a heat radiation fan (105) is installed on the left surface of the inner wall of the installation box (103), and an air inlet (106) corresponding to the heat radiation fan (105) is formed in the left side of the installation box (103).

3. The air compressor waste heat drying room for producing the heat insulation pad as claimed in claim 1, is characterized in that: the upper surface of the inner wall of the mounting box (103) is provided with a first air vent (111) penetrating to the lower surface of the inner wall of the first connecting box (107), the first air vent (111) vertically corresponds to the first axial flow fan (110), and the upper surface of the outer wall of the first connecting box (107) is provided with a plurality of second small holes (122) penetrating to the upper surface of the inner wall of the first connecting box.

4. The air compressor waste heat drying room for producing the heat insulation pad as claimed in claim 1, is characterized in that: and a third air vent (118) penetrating through the upper surface of the outer wall of the air inlet box (114) is formed in the upper surface of the outer wall of the air inlet box (114), the upper end and the middle part in the air inlet box (114) are respectively connected with a coarse filter (116) and a fine filter (117), and a second axial flow fan (112) is arranged below the inner wall of the air inlet box (114).

5. The air compressor waste heat drying room for producing the heat insulation pad as claimed in claim 4, wherein: the lower end of the air inlet box (114) is connected with a second connecting box (119) which is positioned at the upper end of the inside of the through hole (120), a second air vent (113) which penetrates through the inner wall of the second connecting box (119) is formed below the inner wall of the air inlet box (114), and the second axial flow fan (112) corresponds to the second air vent (113) up and down.

6. The air compressor waste heat drying room for producing the heat insulation pad as claimed in claim 5, is characterized in that: the inside of the second connecting box (119) is connected with a cotton sheet (115), and a first small hole (121) penetrating out of the lower surface of the outer wall of the second connecting box (119) is formed below the inner wall of the second connecting box (119).

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