CN202002528U

CN202002528U - Heat energy exchange system

Info

Publication number: CN202002528U
Application number: CN2011200759517U
Authority: CN
Inventors: 甘木伙; 赵均明; 陈顺安
Original assignee: KAIPING GUANWEI LATEX EQUIPMENT MANUFACTURING Co Ltd
Current assignee: Kaiping Jiaren Latex Equipment Manufacturing Co., Ltd.
Priority date: 2011-03-22
Filing date: 2011-03-22
Publication date: 2011-10-05
Anticipated expiration: 2021-03-22

Abstract

The utility model discloses a heat energy exchange system, which comprises a multi-tube heater and a radiator. The output end and the input end of the multi-tube heater are respectively connected with an oil outlet tube and an oil inlet tube. The oil outlet tube and the oil inlet tube pass through hot oil distributing cylinders, the radiator is in parallel connection between the oil outlet tube and the oil inlet tube, and hot oil serves as a heat-conducting medium of heat energy exchange between the multi-tube heater and the radiator. Due to the adoption of hot oil serving as the heat-conducting medium, the heat energy exchange system is capable of avoiding blocking formed in the system. Furthermore, the whole heat energy exchange system adopts closed type closed recirculation, thereby being not easy to cause waste due to volatilization, and effectively utilizing heat energy.

Description

A kind of thermal energy exchange system

Technical field

The utility model relates to a kind of thermal energy exchange system.

Background technology

Along with development of productivity, the thermal energy exchange system be widely used in the industrial production and people's daily life in, present thermal energy exchange system, the main water that adopts is done heat-conducting medium, carry out open circulation, water can be stayed the impurity that can't vaporize in the pipeline in heat absorption vaporization like this, forms reluctant tamper, causes the minimizing in service life of whole thermal energy exchange system; And a large amount of heat energy follows steam to be dispersed in the air, causes waste.

The utility model content

The technical problems to be solved in the utility model provides a kind of thermal energy exchange system that adopts deep fat to do heat-conducting medium.

In order to solve the problems of the technologies described above, a kind of thermal energy exchange of the present utility model system, comprise tube still heater and radiator, described tube still heater output, input connect flowline, oil inlet pipe respectively, described flowline and oil inlet pipe divide oil cylinder through deep fat, described radiator is connected in parallel between flowline and the oil inlet pipe, and the heat-conducting medium that carries out thermal power transfer between tube still heater and radiator is a deep fat.

The beneficial effects of the utility model are: this thermal energy exchange system is owing to adopt deep fat as heat-conducting medium, can avoid in system, forming and stop up, and whole thermal energy exchange system adopts enclosed sealing and circulating, is difficult for causing the waste of volatilization, effectively utilizes heat energy.

Description of drawings

Below in conjunction with the drawings and specific embodiments the utility model is described in further detail.

Fig. 1 is a structural representation of the present utility model.

Among the figure 1, tube still heater, 2, radiator, 3, flowline, 4, oil inlet pipe, 5, deep fat divides oil cylinder, 6, silk mouthful ball valve, 7, Pneumatic three-way interflow valve, 8, Pressure gauge, 9, needle valve, 10, metal hose, 11, drying oven, 12, vulcanizing oven.

The specific embodiment

With reference to Fig. 1, a kind of thermal energy exchange system, comprise tube still heater 1 and radiator 2, described tube still heater 1 output, input connect flowline 3, oil inlet pipe 4 respectively, described flowline 3 and oil inlet pipe 4 divide oil cylinder 5 through deep fat, described radiator 2 is connected in parallel between flowline 3 and the oil inlet pipe 4, and flowline 3 is connected radiator 2 with oil inlet pipe 4 by metal hose 10, and the heat-conducting medium that carries out thermal power transfer between tube still heater 1 and radiator 2 is a deep fat.This thermal energy exchange system can avoid forming in system and stop up owing to adopt deep fat as heat-conducting medium, and whole thermal energy exchange system adopts enclosed sealing and circulating, is difficult for causing the waste of volatilization, effectively utilizes heat energy.

In addition, described tube still heater 1 divides flowline 3, oil inlet pipe 4 between the oil cylinder 5 to link to each other by a silk mouthful ball valve 6 with deep fat; Described deep fat divides flowline 3, the oil inlet pipe 4 between oil cylinder 5 and the radiator 2 to link to each other by a silk mouthful ball valve 6, Pneumatic three-way interflow valve 7 successively.Such structure can temporarily make flowline 3 and oil inlet pipe 4 link together by valve control, strengthens oil pump capacity or oil inlet quantity.

Further, described deep fat divides the flowline 3 between oil cylinder 5 and the radiator 2 to be provided with Pressure gauge 8, and described Pressure gauge 8 is connected on the flowline 3 by needle valve 9, can monitor the oil pressure of 3 li of flowlines at any time.Described deep fat divides Pressure gauge 8 is set on the oil cylinder 5, and described Pressure gauge 8 is connected deep fat by needle valve 9 and divides on the oil cylinder 5, can monitor the oil pressure that deep fat divides 5 li of oil cylinders at any time.

Further, described flowline 3 and oil inlet pipe 4 adopt thick rock wool heat-preservation, and outsourcing one deck flake aluminum when strengthening protection, makes heat energy be difficult for evaporateing in the air; Flowline 3 and oil inlet pipe 4 employings fixedly pipe support are fixed.

The above only is a preferential embodiment of the present utility model, as long as realize that with basic identical means the technical scheme of the utility model purpose all belongs within the protection domain of the present utility model.

Claims

1. thermal energy exchange system, comprise tube still heater (1) and radiator (2), described tube still heater (1) output, input connect flowline (3), oil inlet pipe (4) respectively, described flowline (3) and oil inlet pipe (4) divide oil cylinder (5) through deep fat, described radiator (2) is connected in parallel between flowline (3) and the oil inlet pipe (4), it is characterized in that: the heat-conducting medium that carries out thermal power transfer between tube still heater (1) and radiator (2) is a deep fat.

2. a kind of thermal energy exchange according to claim 1 system, it is characterized in that: described tube still heater (1) divides the flowline (3) between the oil cylinder (5) to link to each other by a silk mouthful ball valve (6) with oil inlet pipe (4) with deep fat; Described deep fat divides the flowline (3) between oil cylinder (5) and the radiator (2) to link to each other by a silk mouthful ball valve (6), Pneumatic three-way interflow valve (7) successively with oil inlet pipe (4).

3. a kind of thermal energy exchange according to claim 1 system, it is characterized in that: described deep fat divides the flowline (3) between oil cylinder (5) and the radiator (2) to be provided with Pressure gauge (8), and described Pressure gauge (8) is connected on the flowline (3) by needle valve (9).

4. according to the described a kind of thermal energy exchange of one of claim 1 to 3 system, it is characterized in that: described hot flowline (3) and oil inlet pipe (4) adopt thick rock wool parcel, and thick rock wool is wrapped one deck flake aluminum outward again.

5. a kind of thermal energy exchange according to claim 1 system is characterized in that: described deep fat divides Pressure gauge (8) is set on the oil cylinder (5), and described Pressure gauge (8) is connected deep fat by needle valve (9) and divides on the oil cylinder (5).