CN206989771U - A kind of overhead condenser - Google Patents

Abstract

The utility model discloses a kind of overhead condenser, including the first end socket, exchange heat housing and the second end socket, first end socket and second end socket close off the both ends for connecting the heat exchange housing, first end socket has been internally formed the first cavity, second end socket has been internally formed the second cavity, the heat exchange enclosure interior is formed with the 3rd cavity, heat exchange sleeve is provided with 3rd cavity, the heat exchange sleeve is included positioned at outside heat-transfer pipe and the walking feeding tube inside the heat-transfer pipe, the heat-transfer pipe is the internal body closed at both ends for being filled with phase change medium, the both ends of the walking feeding tube are respectively communicated with first cavity and the second cavity, charging aperture is provided with first end socket, discharging opening is provided with second end socket, the heat exchange housing is provided with delivery port and water inlet.The utility model aims to solve the problem that the length of existing overhead condenser is oversize, the problem of bad installation.

Description

A kind of overhead condenser

Technical field

It the utility model is related to rectifying technical field of processing equipment, and in particular to a kind of overhead condenser.

Background technology

Heat exchange condensation as important heat exchange means, be widely used in chemical industry, the energy, machinery, traffic, metallurgy, power and The industries such as Aero-Space.Especially in terebinthine follow-up deep process, it is often necessary to use condenser to organic steam Carry out condensation recovery.

Existing overhead condenser mainly uses tubular heat exchanger, and by the way that organic steam is walked into tube side, coolant walks shell Journey, exchanged heat, so as to which organic steam is condensed into liquid, or organic steam walks shell side, and coolant walks tube side will be organic Steam is condensed into liquid, and the two ways is to form heat transfer effect by the direct heat transfer of different material, it is necessary to by tubulation Formula heat exchanger sets certain length, and just can guarantee that has enough heat exchange strokes between organic steam and coolant, so as to fully Organic steam is condensed, therefore existing overhead condenser is provided with longer length, and the length of overhead condenser is oversize in the presence of not The problem of installing well.

Utility model content

For above-mentioned technical problem, the utility model provides a kind of overhead condenser, to solve existing tower top The length of condenser is oversize, the problem of bad installation, devises a kind of new overhead condenser, the overhead condenser can have Effect improves heat exchange efficiency, so as to shorten required heat exchange stroke, and then shortens the required length of overhead condenser.

A kind of overhead condenser, including the first end socket, heat exchange housing and the second end socket, first end socket and described second End socket closes off the both ends for connecting the heat exchange housing, and first end socket has been internally formed the first cavity, second envelope Head has been internally formed the second cavity, and the heat exchange enclosure interior is formed with the 3rd cavity, the 3rd cavity and first chamber Body phase mutually completely cuts off, and the 3rd cavity mutually completely cuts off with second cavity, is provided with the 3rd cavity from described first The heat exchange sleeve that cavity extends towards second cavity, the heat exchange sleeve are included positioned at outside heat-transfer pipe and positioned at the biography The walking feeding tube of inside heat pipe, the heat-transfer pipe are the internal body closed at both ends for being filled with phase change medium, the two of the walking feeding tube End is respectively communicated with first cavity and the second cavity, and the charging for connecting first cavity is provided with first end socket Mouthful, the discharging opening for connecting second cavity is provided with second end socket, the heat exchange case top is provided with connection institute The delivery port of the 3rd cavity is stated, the bottom of the heat exchange housing is provided with the water inlet for connecting the 3rd cavity.

Further, first end socket and second end socket are hemispherical head.

Further, the level height of the charging aperture is higher than the level height of the discharging opening.

This overhead condenser is included positioned at outside by being provided with heat exchange sleeve, the heat exchange sleeve in the housing that exchanges heat Heat-transfer pipe and the walking feeding tube inside the heat-transfer pipe, the inwall of the heat-transfer pipe conduct heat with the walking feeding tube, the heat transfer The outer wall of pipe is conducted heat with the 3rd cavity, and phase change medium is filled with the heat-transfer pipe, and the phase change medium is this area The known medium by heat conduction with phase change applied on heat pipe of technical staff, can use acetone or dichloroethanes, work as walking feeding tube In when being passed through organic steam, the phase change medium endothermic gasification in heat-transfer pipe, the cooling in the phase change medium of gasification and the 3rd cavity Water heat exchange liquidation exothermic reaction, so as to form recuperated cycle, the utility model is by setting the heat-transfer pipe filled with phase change medium, effectively The heat exchange area and heat exchange efficiency of cooling water in organic steam and the 3rd cavity in walking feeding tube are increased, so as to shorten required heat exchange Stroke, and then shorten the required length of overhead condenser.

Brief description of the drawings

, below will be to embodiment in order to illustrate more clearly of the utility model embodiment or technical scheme of the prior art Or the required accompanying drawing used is briefly described in description of the prior art, it should be apparent that, drawings in the following description are only It is some embodiments of the utility model, for those of ordinary skill in the art, is not paying the premise of creative work Under, other accompanying drawings can also be obtained according to these accompanying drawings.

Fig. 1 is a kind of structural representation of overhead condenser.

Embodiment

The utility model discloses a kind of overhead condenser, the overhead condenser can effectively improve heat exchange efficiency, so as to Heat exchange stroke needed for shortening, and then shorten the required length of overhead condenser.

Below in conjunction with the accompanying drawing in the utility model, the technical scheme in the utility model is carried out clearly and completely Description, it is clear that described only the utility model part of the embodiment, rather than whole embodiments.Based on this practicality Embodiment in new, those of ordinary skill in the art are obtained every other on the premise of creative work is not made Embodiment, belong to the scope of the utility model protection.

Shown in Figure 1, the utility model discloses a kind of overhead condenser, including the first end socket 3, heat exchange housing 5 and Second end socket 9, first end socket 3 and second end socket 9 close off the both ends for connecting the heat exchange housing 5, and described the One end socket 3 has been internally formed the first cavity 2, and second end socket 9 has been internally formed the second cavity 10, described to exchange heat in housing 5 Portion mutually completely cuts off formed with the 3rd cavity 7, the 3rd cavity 7 with first cavity 2, the 3rd cavity 7 and described the Two cavitys 10 mutually completely cut off, and are provided with from first cavity 2 towards what second cavity 10 extended and change in the 3rd cavity 7 Thermal sleeve, the heat exchange sleeve are included positioned at outside heat-transfer pipe 6 and the walking feeding tube 8 inside the heat-transfer pipe 6, the biography Heat pipe 6 is the internal body closed at both ends for being filled with phase change medium, and the both ends of the walking feeding tube 8 are respectively communicated with first cavity 2 and second cavity 10, the charging aperture 1 for connecting first cavity 2 is provided with first end socket 3, on second end socket 9 The discharging opening 11 for connecting second cavity 10 is provided with, the top of heat exchange housing 5 is provided with connection the 3rd cavity 7 Delivery port 4, the bottom of the heat exchange housing 5 are provided with the water inlet 12 for connecting the 3rd cavity 7.

First end socket 3 and second end socket 9 are hemispherical head.

The level height of the charging aperture 1 is higher than the level height of the discharging opening 11.

This overhead condenser is included positioned at outside by being provided with heat exchange sleeve, the heat exchange sleeve in the housing that exchanges heat Heat-transfer pipe and the walking feeding tube inside the heat-transfer pipe, the inwall of the heat-transfer pipe conduct heat with the walking feeding tube, the heat transfer The outer wall of pipe is conducted heat with the 3rd cavity, and phase change medium is filled with the heat-transfer pipe, and the phase change medium is this area The known medium by heat conduction with phase change applied on heat pipe of technical staff, can use acetone or dichloroethanes, work as walking feeding tube In when being passed through organic steam, the phase change medium endothermic gasification in heat-transfer pipe, the cooling in the phase change medium of gasification and the 3rd cavity Water heat exchange liquidation exothermic reaction, so as to form recuperated cycle, the utility model is by setting the heat-transfer pipe filled with phase change medium, effectively The heat exchange area and heat exchange efficiency of cooling water in organic steam and the 3rd cavity in walking feeding tube are increased, so as to shorten required heat exchange Stroke, and then shorten the required length of overhead condenser.

Above content is to combine specific preferred embodiment further detailed description of the utility model, it is impossible to Assert that specific implementation of the present utility model is confined to these explanations.For the ordinary skill of the utility model art For personnel, without departing from the concept of the premise utility, some simple deduction or replace can also be made, should all be regarded To belong to the scope of protection of the utility model.

Claims (3)

1. a kind of overhead condenser, it is characterised in that including the first end socket, heat exchange housing and the second end socket, first end socket The both ends for connecting the heat exchange housing are closed off with second end socket, first end socket has been internally formed the first cavity, Second end socket has been internally formed the second cavity, the heat exchange enclosure interior formed with the 3rd cavity, the 3rd cavity with First cavity mutually completely cuts off, and the 3rd cavity mutually completely cuts off with second cavity, is provided with the 3rd cavity The heat exchange sleeve extended from first cavity towards second cavity, the heat exchange sleeve include positioned at outside heat-transfer pipe and Walking feeding tube inside the heat-transfer pipe, the heat-transfer pipe is the internal body closed at both ends for being filled with phase change medium, described The both ends of walking feeding tube are respectively communicated with first cavity and the second cavity, and connection first chamber is provided with first end socket The charging aperture of body, the discharging opening for connecting second cavity is provided with second end socket, and the heat exchange case top is set There is the delivery port for connecting the 3rd cavity, the bottom of the heat exchange housing is provided with the water inlet for connecting the 3rd cavity.

2. a kind of overhead condenser according to claim 1, it is characterised in that first end socket and second end socket It is hemispherical head.

3. a kind of overhead condenser according to claim 1, it is characterised in that the level height of the charging aperture is higher than institute State the level height of discharging opening.