CN205641543U - 3000 cube anhydrous electric heat heater - Google Patents

Abstract

The utility model relates to a 3000 cube anhydrous electric heat heater, including having the vessel shell of heat preservation, heat exchange assemblies sets up in vessel shell's inside, sets up intake pipe, outlet duct, manhole respectively and by the ribbon heater outlet in vessel shell's periphery, the ribbon heater set up in control the temperature in the vessel shell and by the electric cabinet, the gas vent sets up in vessel shell's top, and the drain sets up in vessel shell's bottom, the utility model discloses simple structure, convenient to use, vessel shell through set up the heat preservation make the casing in the air temperature keep warm, improve the heat transfer effect, utilize electrical heating heat exchange mode to solve the problem of the extravagant energy of original hydrophily heating, the heat exchange tube is connected by many coil pipes stacks and is formed the screw -tupe barrels, it has realized flexible compensation the under the different difference in temperature, heat exchange tube expend with heat and contract with cold is difficult for leading to the fact the fracture, has improved the life of heat exchange tube greatly, has improved the heating effect, heating rate is fast.

Description

A kind of 3000 cubes of anhydrous electrothermal heaters

Technical field

This utility model relates to firing equipment field, especially 3000 cubes anhydrous electrothermal heaters.

Background technology

Electric heating equipment is the equipment converting electrical energy into heat energy, original electric heater is to transmit heat by high temperature hydrophily, absorbs the heat in high temperature hydrophily by heat-exchanging component and reaches the purpose of heating, but above-mentioned mode of heating amount of energy consumption is big, heats is inconspicuous, and heating rate is slow.

Utility model content

The applicant, for above-mentioned existing issue, has carried out Improvement, it is provided that a kind of 3000 cubes of anhydrous electrothermal heaters, and it realizes the rising of temperature of fluid medium, energy-conserving and environment-protective by Electric heating, substantially increases heats, and heating rate is fast.

The technical scheme that this utility model is used is as follows:

A kind of 3000 cubes of anhydrous electrothermal heaters, including the container casing with heat-insulation layer, heat-exchanging component is arranged at the inside of container casing, air inlet pipe, escape pipe, hand-hole and by ribbon heater line outlet it is respectively provided with in the periphery of described container casing, in ribbon heater is arranged at described container casing and by electric cabinet temperature control, air vent is arranged at the top of container casing, and sewage outfalls setting is in the bottom of container casing；

The concrete structure of described heat-exchanging component is as follows:

Including upper header and lower collector pipe, being at least connected with three heat exchanger tubes between described upper header and lower collector pipe, each heat exchanger tube is connected by many coil pipes and superposition formation spiral type cylinder.

Further improvement as technique scheme:

Forming angle α between the docking end face of two coil pipes connected each other, described angle α is 60 ° ± 1 °；

Described container casing uses stainless steel material to make, and described heat exchanger tube is high-alloy steel materials and makes；

Also set up the first temperature sensing interface and the second temperature sensing interface in the periphery of described container casing, described first temperature sensing interface is arranged on escape pipe, and each first temperature sensing interface and the second temperature sensing interface are all connected with electric cabinet by electric wire；

Supporting leg is also set up in the bottom of described container casing.

The beneficial effects of the utility model are as follows:

This utility model simple in construction, easy to use, container casing makes air themperature in housing be incubated by arranging heat-insulation layer, improve heat transfer effect, utilizing electrical heating heat exchange mode to solve the problem wasting the energy of original hydrophily heating, heat exchanger tube is formed screw type cylinder by many coil pipe superpositions connections, and it achieves the flexible compensation under the different temperature difference, heat exchanger tube expands with heat and contract with cold and does not easily causes cracking, substantially increasing the service life of heat exchanger tube, improve heats, heating rate is fast.

Accompanying drawing explanation

Fig. 1 is front view of the present utility model.

Fig. 2 is the top view of Fig. 1.

Fig. 3 is the front view of heat-exchanging component in this utility model.

Fig. 4 is the top view of Fig. 3.

Fig. 5 is partial structurtes schematic diagram of the present utility model.

Wherein: 1, air vent；2, container casing；3, escape pipe；4, the first temperature sensing interface；5, the second temperature sensing interface；6, hand-hole；7, heat-insulation layer；8, sewage draining exit；9, supporting leg；10, air inlet pipe；11, electric cabinet；12, ribbon heater line outlet；13, heat exchanger tube；14, upper header；15, lower collector pipe；16, spiral type cylinder；17, coil pipe.

Detailed description of the invention

Below in conjunction with the accompanying drawings, detailed description of the invention of the present utility model is described.

As shown in Figure 1 and Figure 2,3000 cubes of anhydrous electrothermal heaters include the container casing 2 with heat-insulation layer 7, the bottom of container casing 2 arranges supporting leg 9, heat-exchanging component is arranged at the inside of container casing 2, air inlet pipe 10, escape pipe 3, hand-hole 6 and by ribbon heater line outlet 12 it is respectively provided with in the periphery of container casing 2, in ribbon heater is arranged at container casing 2 and by electric cabinet 11 temperature control, air vent 1 is arranged at the top of container casing 2, and sewage draining exit 8 is arranged at the bottom of container casing 2.As shown in Figure 3, Figure 4, the concrete structure of above-mentioned heat-exchanging component is as follows: include upper header 14 and lower collector pipe 15, upper header 14 connects with escape pipe 3, lower collector pipe 15 connects with air inlet pipe 10, being at least connected with three heat exchanger tubes 13 between upper header 14 and lower collector pipe 15, each heat exchanger tube 13 is connected by many coil pipes 17 and superposition formation spiral type cylinder 16.As it is shown in figure 5, form angle α between the docking end face of connect each other two coil pipes 17, angle α is 60 ° ± 1 °.Container casing 2 uses stainless steel material to make, and heat exchanger tube 13 is high-alloy steel materials and makes.As shown in Figure 1, the first temperature sensing interface 4 and the second temperature sensing interface 5 is also set up in the periphery of said vesse housing 2, first temperature sensing interface 4 is arranged on escape pipe 3, and each first temperature sensing interface 4 and the second temperature sensing interface 5 are all connected with electric cabinet 11 by electric wire.

Specific works process of the present utility model is as follows:

Such as Fig. 1, shown in Fig. 2, the nitrogen of-40 ° is entered by air inlet pipe 10 in the lower collector pipe 15 in container casing 2, it is passed through in each heat exchanger tube 13 by lower collector pipe 15, (this air is outside heat-exchanging component by the atmosphere temperature rising in container casing 2 to utilize electric cabinet 11 and ribbon heater, air in container casing), by the temperature in the second real-time monitoring of containers housing 2 of temperature sensing interface 5, after atmosphere temperature rising in container casing 2, heat exchanger tube 13 is utilized to absorb atmospheric heat, make the nitrogen temperature within heat exchanger tube, nitrogen after intensification is discharged by escape pipe 3, heat exchanger tube 13 is connected and composed by many coil pipes 17, it can realize flexible compensation, can expand with heat and contract with cold in the case of the temperature difference is relatively big, realize automatically compensating, thus the problem preventing heat exchanger tube 13 from ftractureing occurs.Atmospheric heat in container casing 2 is discharged by air vent 1 after being absorbed, and the first temperature sensing interface 4 is for monitoring the temperature discharging nitrogen, and the temperature that in this utility model, nitrogen flows out from escape pipe 3 is 10 °.The layout of manhole 6 is easy to be cleaned in container casing 2.

Above description is to explanation of the present utility model, is not the restriction to utility model, and this utility model limited range sees claim, and in the case of basic structure of the present utility model, this utility model can make any type of amendment.

Claims (5)

1. 3000 cubes of anhydrous electrothermal heaters, it is characterized in that: include the container casing (2) with heat-insulation layer (7), heat-exchanging component is arranged at the inside of container casing (2), it is respectively provided with air inlet pipe (10) in the periphery of described container casing (2), escape pipe (3), hand-hole (6) and by ribbon heater line outlet (12), in ribbon heater is arranged at described container casing (2) and by electric cabinet (11) temperature control, air vent (1) is arranged at the top of container casing (2), sewage draining exit (8) is arranged at the bottom of container casing (2)；

The concrete structure of described heat-exchanging component is as follows:

Including upper header (14) and lower collector pipe (15), being at least connected with three heat exchanger tubes (13) between described upper header (14) and lower collector pipe (15), each heat exchanger tube (13) is connected by many coil pipes (17) and superposition formation spiral type cylinder (16).

3000 cubes of anhydrous electrothermal heaters the most as claimed in claim 1, it is characterised in that: forming angle α between the docking end face of two coil pipes (17) connected each other, described angle α is 60 ° ± 1 °.

3000 cubes of anhydrous electrothermal heaters the most as claimed in claim 1, it is characterised in that: described container casing (2) uses stainless steel material to make, and described heat exchanger tube (13) is high-alloy steel materials and makes.

3000 cubes of anhydrous electrothermal heaters the most as claimed in claim 1, it is characterized in that: also set up the first temperature sensing interface (4) and the second temperature sensing interface (5) in the periphery of described container casing (2), described first temperature sensing interface (4) is arranged on escape pipe (3), and each first temperature sensing interface (4) and the second temperature sensing interface (5) are all connected with electric cabinet (11) by electric wire.

3000 cubes of anhydrous electrothermal heaters the most as claimed in claim 1, it is characterised in that: also set up supporting leg (9) in the bottom of described container casing (2).