CN213335728U - Titanium heat exchanger - Google Patents

Abstract

The utility model belongs to the technical field of titanium heat exchangers, in particular to a titanium heat exchanger, which comprises an apparatus body, wherein an exchange room is arranged inside the apparatus body, a helical blade is arranged inside the exchange room, one end of the helical blade is connected with a heat medium inlet, one end of the heat medium inlet extends to the outside of the apparatus body, one end of the apparatus body close to the heat medium inlet is provided with a refrigerant outlet, one end of the helical blade far away from the heat medium inlet is provided with a heat medium outlet, one end of the heat medium outlet is positioned outside the apparatus body, the hollow helical blade is arranged, and cold and hot media rotate and advance in a limited space by changing the titanium pipe structure in the traditional titanium heat exchanger, thereby prolonging the contact area between the refrigerant and the heat medium, and obtaining the maximum cold and heat exchange rate under the condition that the installation area is reduced, the problems that the horizontal titanium heat exchanger is large in size and occupies a large installation space are solved.

Description

Titanium heat exchanger

Technical Field

The utility model belongs to the technical field of the titanium heat exchanger, concretely relates to titanium heat exchanger.

Background

The titanium heat exchanger is a heat exchange device which is made of a high-quality titanium pipe and transfers part of heat of hot fluid to cold fluid; the titanium heat exchanger is general equipment for chemical industry, petroleum, power, food and other industrial departments by virtue of the advantages of industrial pure titanium, and plays an important role in production; the existing horizontal titanium heat exchanger is not reasonable enough in structure, large in size, and occupies a relatively large installation space, and the contact area between fluid and a titanium pipe assembly is not enough, so that the heat exchange efficiency is poor, and the heat exchange effect of the fluid is influenced.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a titanium heat exchanger to it is great to solve the device size of proposing among the above-mentioned background art, comparatively occupies installation space, and the area of contact of refrigerant and titanium pipe assembly is not enough, and then leads to the not good problem of heat exchange efficiency.

In order to achieve the above object, the utility model provides a following technical scheme: titanium heat exchanger, including the device body, the inside of device body is provided with between exchanging, internally mounted between exchanging has helical blade, helical blade's one end is connected with the heat medium import, the one end of heat medium import extends to the outside of device body, the device body is close to the one end of heat medium import and installs the refrigerant export, helical blade keeps away from the one end of heat medium import and installs the heat medium export, the one end of heat medium export is located the outside of device body, the one end of refrigerant export is kept away from to the device body installs the refrigerant import.

Preferably, one end between the exchange is provided with the electric storehouse, helical blade's inside is rotated and is connected with the bull stick, the one end of bull stick is provided with the motor, the motor is located the inside in electric storehouse, and the motor rotates with the bull stick to be connected, the switch is installed to the one end of device body.

Preferably, the rotating rod is provided with an installation block, the two sides of the installation block are symmetrically provided with stirrers, and the installation block is fixedly connected with the rotating rod.

Preferably, the driven wheel is installed to the one end of bull stick, the action wheel is installed to the one end of motor, the action wheel passes through the tooth engagement with the driven wheel and is connected.

Preferably, two sets of mounting brackets are installed to the bottom of device body, and are two sets of the mounting bracket is located the both ends that are close to the device body respectively, and mounting bracket and device body fixed connection.

Preferably, the mounting frame is provided with a fixing nut, and the fixing nut is screwed with the mounting frame through threads.

Compared with the prior art, the beneficial effects of the utility model are that:

(1) the utility model discloses set up hollow helical blade, through the titanium tubular construction that changes in the traditional titanium heat exchanger, let cold and hot medium rotate in the finite space and go forward to the area of mutual contact between extension refrigerant and the heat medium lets the device obtain the biggest cold and hot exchange rate under the condition that installation area reduces, and it is great to have improved horizontal titanium heat exchanger size, comparatively occupies installation space's problem.

(2) The utility model discloses set up the bull stick that has the agitator, driven the agitator through the bull stick and stir between the exchange, let the refrigerant be in chaotic state when flowing between the exchange to increase refrigerant and helical blade's area of contact, improved the area of contact of fluid with the titanium pipe subassembly not enough, and then leaded to heat exchange efficiency not good, influenced fluidic heat transfer effect's problem.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a side view of the present invention;

FIG. 3 is a schematic view of the mounting block and the agitator of the present invention;

FIG. 1-device body; 2-mounting the block; 3-exchange; 4-helical blades; 5-a heating medium inlet; 6-rotating the rod; 7-refrigerant outlet; 8-a mounting frame; 9-fixing the nut; 10-a stirrer; 11-refrigerant inlet; 12-a driving wheel; 13-a motor; 14-a driven wheel; 15-a heating medium outlet; 16-an electrical bin; 17-switch.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-3, the present invention provides a technical solution: a titanium heat exchanger comprises an apparatus body 1, wherein an exchange room 3 is arranged inside the apparatus body 1, a helical blade 4 is arranged inside the exchange room 3, the helical blade 4 enables a cooling and heating medium to rotate and advance in a limited space, so that the contact area between the cooling medium and the helical blade 4 is prolonged, the apparatus can obtain the maximum cooling and heating exchange rate in the limited space, one end of the helical blade 4 is connected with a heating medium inlet 5, one end of the heating medium inlet 5 extends to the outside of the apparatus body 1, one end of the apparatus body 1 close to the heating medium inlet 5 is provided with a cooling medium outlet 7, one end of the helical blade 4 far away from the heating medium inlet 5 is provided with a heating medium outlet 15, one end of the heating medium outlet 15 is positioned outside the apparatus body 1, one end of the apparatus body 1 far away from the cooling medium outlet 7 is provided with a cooling medium inlet 11, the inside of the helical blade 4 is in a hollow state, and, the helical blade 4 is made of titanium material.

Furthermore, an electric bin 16 is arranged at one end of the exchange room 3, a rotating rod 6 is rotatably connected inside the spiral blade 4, a motor 13 is arranged at one end of the rotating rod 6, the motor 13 is located inside the electric bin 16, the motor 13 is rotatably connected with the rotating rod 6, and a switch 17 is installed at one end of the device body 1.

Specifically, install installation piece 2 on the bull stick 6, agitator 10 is installed to the bilateral symmetry of installation piece 2, and installation piece 2 and bull stick 6 fixed connection drive agitator 10 through bull stick 6 and stir 3 between the exchange, let the refrigerant be in the chaotic state when 3 flow between the exchange to increase the area of contact of refrigerant and helical blade 4.

It should be noted that one end of the rotating rod 6 is provided with a driven wheel 14, one end of the motor 13 is provided with a driving wheel 12, the driving wheel 12 is engaged with the driven wheel 14 through gear teeth, the motor 13 is electrically connected with the switch 17, and the motor 13 is a speed reduction motor of the ZWMD series.

Further, two sets of mounting brackets 8 are installed to the bottom of device body 1, and two sets of mounting brackets 8 are located the both ends that are close to device body 1 respectively, and mounting bracket 8 and device body 1 fixed connection.

Further, a fixing nut 9 is installed on the installation frame 8, and the fixing nut 9 is screwed with the installation frame 8 through threads.

The device body 1 is fixed by fixing the mounting rack 8 and the fixing nut 9.

The utility model discloses a theory of operation and use flow: the utility model discloses when using, put the place that needs were settled with device body 1, fixing nut 9 through on the mounting bracket 8 carries out the fixed to device body 1, it gets into helical blade 4 to pass through heat medium import 5 with the heat medium, again from the heat medium export 15 of the 4 other ends of helical blade flows out, it gets into exchange room 3 to pass through refrigerant import 11 with the refrigerant, the refrigerant revolves helical blade 4 and flows out from refrigerant export 7, starter motor 13, drive bull stick 6 and rotate, thereby it takes place the confusion to drive 3 interior refrigerants in exchange room 3, thereby increase the area of contact of refrigerant and helical blade 4, realize the heat exchange of device.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. Titanium heat exchanger, including device body (1), its characterized in that: the inside of device body (1) is provided with exchanges (3), the internally mounted of exchanging (3) has helical blade (4), the one end of helical blade (4) is connected with heat medium import (5), the one end of heat medium import (5) extends to the outside of device body (1), device body (1) is close to the one end of heat medium import (5) and installs refrigerant export (7), helical blade (4) are kept away from the one end of heat medium import (5) and are installed heat medium export (15), the one end of heat medium export (15) is located the outside of device body (1), the one end of keeping away from refrigerant export (7) in device body (1) is installed refrigerant import (11).

2. The titanium heat exchanger of claim 1, wherein: one end of exchange room (3) is provided with electric storehouse (16), the inside rotation of helical blade (4) is connected with bull stick (6), the one end of bull stick (6) is provided with motor (13), motor (13) are located the inside in electric storehouse (16), and motor (13) rotate with bull stick (6) and are connected, switch (17) are installed to the one end of device body (1).

3. The titanium heat exchanger of claim 2, wherein: install installation piece (2) on bull stick (6), agitator (10) are installed to the bilateral symmetry of installation piece (2), installation piece (2) and bull stick (6) fixed connection.

4. The titanium heat exchanger of claim 2, wherein: driven wheel (14) are installed to the one end of bull stick (6), action wheel (12) are installed to the one end of motor (13), action wheel (12) are connected through the tooth meshing with driven wheel (14).

5. The titanium heat exchanger of claim 1, wherein: two sets of mounting brackets (8) are installed to the bottom of device body (1), and are two sets of mounting bracket (8) are located the both ends that are close to device body (1) respectively, and mounting bracket (8) and device body (1) fixed connection.

6. The titanium heat exchanger of claim 5, wherein: and a fixing nut (9) is installed on the mounting rack (8), and the fixing nut (9) is screwed with the mounting rack (8) through threads.

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