CN203331376U - Warming pipe or temperature reduction pipe structure with energy conservation benefit - Google Patents

Abstract

The utility model discloses a warming pipe or temperature reduction pipe structure with energy conservation benefit. An inner pipe body is axially configured inside an outer pipe body, and a temperature regulator is installed in the inner pipe body. Further, a pre-warming space is formed between the inner wall surface of the outer pipe body and the outer wall surface of the inner pipe body; a first air intake interface is connected with the inner pipe body, and is communicated to the inner part of the inner pipe body; a second air intake interface is connected with the outer pipe body, and is communicated with the pre-warming space; a first air exhaust interface is connected with the inner pipe body, and is communicated with the inner part of the inner pipe body; a second air exhaust interface is connected with the outer pipe body, and is communicated with the pre-warming space. Hot air used in the way can be introduced into the pre-warming space, so that the heat dissipation amount of the inner pipe body is reduced, and further the combination of the inner pipe body and the temperature regulator provides high heat benefit. Similarly, used cold air can be introduced into the pre-warming space, so that the combination of the inner pipe body and the temperature regulator provides high cooling benefit.

Description

The heating tube of tool energy-saving benefit or cooling tubular construction

Technical field

The utility model relates to the technical field of a kind of heating tube or cooling pipe, refers to especially and is applied in the plastics barrel and provides hot blast or the heating tube of cold wind or cooling pipe.

Background technology

Plastic ejection moulding system is with in the plastic raw materials injection molding machine of melting and form required object.If will cause the surface of plastic product to produce defective mode yet plastic raw materials contains moisture, therefore, before the melting plastic raw materials, plastic raw materials needs first in a drying, to carry out removal moisture drying.

General drying mode is to utilize air blast that outside air is imported in a heater, improves by this temperature of air.The drying that then hot-air led, now moisture can be mixed in hot-air.When hot-air is discharged, moisture can together be discharged with hot-air.

The hot-air of moisture content can directly be expelled in atmosphere or be imported in heater.Yet heater is exposed in atmosphere, its heat energy provided is understood some, and by the stack shell of heater, dissipation, in atmosphere, therefore not only forms the loss of the energy, has more reduced the thermal effect benefit to air heat.

Changing heater into cooler can be lowered the temperature to air.Yet the stack shell of cooler contacts with atmosphere, also can cause the loss of the energy and reduce cooling benefit.

The utility model content

In view of this, the utility model is for the disappearance of prior art existence, and its main purpose is to provide a kind of heating tube or cooling tubular construction of tool energy-saving benefit, and it has the effect that can improve heating benefit or cooling benefit.

For achieving the above object, the utility model adopts following technical scheme:

A kind of heating tube of tool energy-saving benefit or cooling tubular construction, include

One outer tube body;

One interior tube body is the axial inner that is configured in this outer tube body;

One temperature regulator is the inside that is arranged on this interior tube body;

One pre-temperature space is to be formed between the outside wall surface of the internal face of this outer tube body and this interior tube body;

One first air intake interface be to connect this interior tube body, and it is communicated with the inside of this interior tube body;

One second air intake interface be to connect this outer tube body, and it is communicated with this pre-temperature space;

One first air-out interface be to connect this interior tube body, and it is communicated with the inside of this interior tube body;

One second air-out interface be to connect this outer tube body, and it is communicated with this pre-temperature space.

As a kind of preferred version, described temperature regulator is heater.

As a kind of preferred version, described temperature regulator is cooler.

The utility model compared with prior art has obvious advantage and beneficial effect, particularly, and as shown from the above technical solution:

Used hot-air can be imported into pre-temperature space, reduces by this heat leakage of interior tube body, and then makes the combination of interior tube body and temperature regulator that higher thermal effect benefit is provided.In like manner, use supercooled air can be imported in pre-temperature space, make the combination of interior tube body and temperature regulator that higher cooling benefit is provided.

For more clearly setting forth architectural feature of the present utility model and effect, below in conjunction with accompanying drawing and specific embodiment, the utility model is elaborated.

The accompanying drawing explanation

Fig. 1 is the preferred embodiment of the utility model and the configuration schematic diagram of drying;

Fig. 2 is the structural representation of the preferred embodiment of the utility model.

The accompanying drawing identifier declaration:

10, heating tube 11, outer tube body

11a, internal face 12, interior tube body

12a, outside wall surface 13, temperature regulator

14, pre-temperature space 15, the first air intake interface

16, the second air intake interface 17, the first air-out interface

18, the second air-out interface 20, air blast

30, drying 40, dehydrating unit.

The specific embodiment

Refer to Fig. 1, heating tube 10 be take as example in the present embodiment system.Further, this heating tube 10 is collocation one air blast 20 and connects a drying 30.This air blast 20 can import outside air in this heating tube 10, and the air heated can enter, and this drying 30 is interior carries out heat drying to plastic raw materials.And the moisture hot-air that this drying 30 is discharged can enter in this heating tube 10 again.

Refer to Fig. 2, this heating tube 10 is the combination of an outer tube body 11 and an interior tube body 12.Further, this interior tube body 12 is the axial inner that is configured in this outer tube body 11, and a temperature regulator 13 is arranged on the inside of this interior tube body 12.Secondly the outside wall surface 12a of the internal face 11a of this outer tube body 11 and this interior tube body 12 be from, a pre-temperature space 14 can be formed between the outside wall surface 12a of the internal face 11a of this outer tube body 11 and this interior tube body 12 by this.

One first air intake interface 15 is to connect this interior tube body 12, and this first air intake interface 15 is communicated with the inside of this interior tube body 12.

One second air intake interface 16 is to connect this outer tube body 11, and this second air intake interface 16 is communicated with this pre-temperature space 14.

One first air-out interface 17 is to connect this interior tube body 12, and this first air-out interface 17 is communicated with the inside of this interior tube body 12.

One second air-out interface 18 is to connect this outer tube body 11, and this second air-out interface 18 is communicated with this pre-temperature space 14.

Please consult again Fig. 1, when air blast 20 by outside air in the first air intake interface 15 imports these interior tube bodies 12, this air can with this temperature regulator 13, heater for example, contact and then improve temperature.

The air of heat temperature raising can be exported and enter in this drying 30 in order to the plastic raw materials in drying by the first air-out interface 17.In dry process, moisture and the contained moisture of plastic raw materials in drying 30 can be sneaked in hot-air gradually, can make slightly degree of cooling of hot-air simultaneously.

The hot-air of above-mentioned moisture content can be from this drying 30 this second air intake interface 16 of exporting and lead.The hot-air of moisture content contacts the surface of this interior tube body 12 after this second air intake interface 16 enters pre-temperature space 14.

Because the air in this pre-temperature space 14 is the condition of high temperature, and temperature is higher than ambient temperature, so the hot-air in this pre-temperature space 14 can form insulation effect to interior tube body 12, make according to this this interior tube body 12 and the combination of this temperature regulator 13 can remain on the condition of high temperature and unlikely fast reducing temperature, outside air enters in this interior tube body 12 can obtain good intensification effect.

The hot-air in pre-temperature space 14 can export the external world to from this second air-out interface 18.Or the hot-air that will export from this second wind interface 18 leads a dehydrating unit 40 to get rid of moisture.The air of having got rid of moisture still has the condition of high temperature, therefore the first air intake interface 15 that can lead again is to enter interior tube body 12.

The utility model can allow interior tube body 12 be difficult for dissipated heat, and can make the air that enters interior tube body 12 obtain good intensification effect, therefore the utlity model has the effect of energy-conservation and high thermal effect benefit.Moreover the temperature regulator 13 in interior tube body 12 changes into cooler, the utility model just can become the cooling pipe, and its effect that can reach equally energy-conservation and good cooling benefit is provided.

The above, it is only preferred embodiment of the present utility model, not technical scope of the present utility model is imposed any restrictions, therefore any trickle modification, equivalent variations and modification that every foundation technical spirit of the present utility model is done above embodiment, all still belong in the scope of technical solutions of the utility model.

Claims (3)

1. the heating tube of a tool energy-saving benefit or cooling tubular construction, is characterized in that: include

One outer tube body;

One interior tube body is the axial inner that is configured in this outer tube body;

One temperature regulator is the inside that is arranged on this interior tube body;

One pre-temperature space is to be formed between the outside wall surface of the internal face of this outer tube body and this interior tube body;

One first air intake interface be to connect this interior tube body, and it is communicated with the inside of this interior tube body;

One second air intake interface be to connect this outer tube body, and it is communicated with this pre-temperature space;

One first air-out interface be to connect this interior tube body, and it is communicated with the inside of this interior tube body;

One second air-out interface be to connect this outer tube body, and it is communicated with this pre-temperature space.

The heating tube of tool energy-saving benefit according to claim 1 or the cooling tubular construction, it is characterized in that: described temperature regulator is heater.

The heating tube of tool energy-saving benefit according to claim 1 or the cooling tubular construction, it is characterized in that: described temperature regulator is cooler.

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