CN210070663U - Graphite heat exchanger for impregnated fluorinated ethylene propylene concentrated dispersion liquid - Google Patents

Abstract

The utility model discloses a concentrated dispersion graphite heat exchanger of perfluor ethylene propylene is gathered in flooding, the loach carrying platform comprises a supporting fram, the top of support frame is fixed with first stopper, the top of second stopper is provided with ties tight piece, the water inlet has been seted up to the bottom in water storage chamber, the inside in water storage chamber is provided with the division board, and the left end of division board is connected with the closing plate, the left end in water storage chamber is connected with hot swap block, and the inside of hot swap block is provided with the gasket, the inside of gasket is provided with first exchange tube, the bottom of cooling tube is connected with the inlet, the top of cooling tube is provided with the second exchange tube, and the inboard of cooling tube is fixed with the copper wire, the outside of hot swap block is provided with protects the piece, the inside in cooling storehouse is provided with the condenser. This flooding is gathered and is perfluor ethylene propylene concentrates dispersion graphite heat exchanger is convenient for carry out abundant exchange to the heat, and is convenient for install, is convenient for wash moreover.

Description

Graphite heat exchanger for impregnated fluorinated ethylene propylene concentrated dispersion liquid

Technical Field

The utility model relates to a graphite heat exchanger technical field specifically is a concentrated dispersion graphite heat exchanger of perfluor ethylene propylene is gathered in flooding.

Background

When the impregnated fluorinated ethylene propylene concentrated dispersion liquid generates heat in the processing process, the most common heat exchange equipment is a graphite heat exchanger, the graphite heat exchanger is equipment for transferring partial heat of hot fluid to cold fluid, and the speed of heat loss of the impregnated fluorinated ethylene propylene concentrated dispersion liquid directly influences the production efficiency;

however, the conventional impregnated fluorinated ethylene propylene concentrated dispersion graphite heat exchanger is inconvenient for sufficient heat exchange, installation and cleaning, and therefore, we propose an impregnated fluorinated ethylene propylene concentrated dispersion graphite heat exchanger in order to solve the problems mentioned above.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a flooding is gathered and is perfluorinated ethylene propylene concentrated dispersion graphite heat exchanger to provide common flooding in solving above-mentioned background and gather perfluorinated ethylene propylene concentrated dispersion graphite heat exchanger and be not convenient for carry out abundant exchange to the heat, and be not convenient for install abluent problem moreover.

In order to achieve the above object, the utility model provides a following technical scheme: a impregnated fluorinated ethylene propylene concentrated dispersion liquid graphite heat exchanger comprises a support frame, wherein a first limiting block is fixed above the support frame, a second limiting block is connected to the rear side of the first limiting block, a fastening block is arranged at the top end of the second limiting block, a water storage cavity is arranged on the inner side of the second limiting block, a water inlet is formed in the bottom of the water storage cavity, a water outlet is formed in the top end of the water storage cavity, a partition plate is arranged inside the water storage cavity, a sealing plate is connected to the left end of the partition plate, a heat exchange block is connected to the left end of the water storage cavity, a gasket is arranged inside the heat exchange block, a first exchange tube is arranged inside the gasket, a cooling tube is arranged above the first exchange tube, a liquid inlet is connected to the bottom of the cooling tube, a liquid outlet is connected to the tail end of the cooling tube, and a second exchange tube is arranged above the cooling tube, and the copper wire is fixed on the inner side of the cooling pipe, the protection block is arranged on the outer side of the heat exchange block, the left end of the heat exchange block is connected with a cooling bin, and a condenser is arranged in the cooling bin.

Preferably, the first limiting block is fixedly connected with the second limiting block through a fastening block, and the first limiting block and the second limiting block form a rotating structure.

Preferably, the connection mode of the water storage cavity and the heat exchange block is flange connection, gaskets are arranged in the heat exchange block at equal intervals, and the connection mode of the heat exchange block and the gaskets is mosaic connection.

Preferably, the longitudinal section of the isolation plate is of a T-shaped structure, and the isolation plate is connected with the sealing plate in a clamping manner.

Preferably, the first exchanging pipes are uniformly arranged inside the sealing plate, and the end parts of the first exchanging pipes penetrate through the sealing plate.

Preferably, the cooling pipe is spirally distributed in the heat exchange block, and the middle part of the cooling pipe penetrates through the gasket.

Compared with the prior art, the beneficial effects of the utility model are that: the impregnated fluorinated ethylene propylene concentrated dispersion liquid graphite heat exchanger is convenient for fully exchanging heat, is convenient to install and is convenient to clean;

1. the first exchange tube and the copper wire are arranged, cooling water is arranged in the first exchange tube, the first exchange tube is uniformly arranged in the sealing plate, and the cooling tubes are distributed spirally, so that the contact area between the cooling tubes and the copper wire and the contact area between the cooling tubes and the first exchange tube are increased conveniently, and heat is exchanged fully under the action of the copper wire;

2. the first limiting block and the second limiting block are arranged, the first limiting block is fixedly connected with the second limiting block through the fastening block, and the first limiting block and the fastening block are connected in a threaded manner, so that the installation is facilitated;

3. be provided with liquid outlet and inlet, the end-to-end connection of inlet has the cooling tube, and the end-to-end connection of liquid outlet has the cooling tube, uses the cooling tube after, can let in appropriate amount washing liquid to the inside of cooling tube to the pipeline washs.

Drawings

Fig. 1 is a schematic view of the front cross-sectional structure of the present invention;

FIG. 2 is a schematic side view of the present invention;

FIG. 3 is a schematic view of the connection structure of the first stopper and the second stopper of the present invention;

fig. 4 is a schematic side view of the cross-sectional structure of the present invention.

In the figure: 1. a support frame; 2. a first stopper; 3. a second limiting block; 4. a fastening block; 5. a water storage cavity; 6. a water inlet; 7. a separator plate; 8. a sealing plate; 9. a water outlet; 10. a heat exchanging block; 11. a gasket; 12. a first exchange tube; 13. a cooling tube; 14. a liquid inlet; 15. a liquid outlet; 16. a second exchange tube; 17. protecting the block; 18. a copper wire; 19. a cooling bin; 20. a condenser.

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. 1-4, the present invention provides a technical solution: a graphite heat exchanger for impregnating a concentrated dispersion of fluorinated ethylene propylene comprises a support frame 1, a first limiting block 2, a second limiting block 3, a fastening block 4, a water storage cavity 5, a water inlet 6, a partition plate 7, a sealing plate 8, a water outlet 9, a heat exchange block 10, a gasket 11, a first exchange tube 12, a cooling tube 13, a liquid inlet 14, a liquid outlet 15, a second exchange tube 16, a protecting block 17, a copper wire 18, a cooling bin 19 and a condenser 20, wherein the first limiting block 2 is fixed above the support frame 1, the rear side of the first limiting block 2 is connected with the second limiting block 3, the top end of the second limiting block 3 is provided with the fastening block 4, the inner side of the second limiting block 3 is provided with the water storage cavity 5, the bottom of the water storage cavity 5 is provided with the water inlet 6, the top end of the water storage cavity 5 is provided with the water outlet 9, the inside of the water storage cavity 5 is provided with the partition plate 7, the left end of water storage chamber 5 is connected with hot block 10, and the inside of hot block 10 is provided with gasket 11, the inside of gasket 11 is provided with first exchange tube 12, and the top of first exchange tube 12 is provided with cooling tube 13, the bottom of cooling tube 13 is connected with inlet 14, and the end-to-end connection of cooling tube 13 has liquid outlet 15, the top of cooling tube 13 is provided with second exchange tube 16, and the inboard of cooling tube 13 is fixed with copper wire 18, the outside of hot block 10 is provided with protecting block 17, and the left end of hot block 10 is connected with cooling bin 19, the inside of cooling bin 19 is provided with condenser 20.

As shown in fig. 3 and 2, the first limiting block 2 is fixedly connected with the second limiting block 3 through the fastening block 4, and the first limiting block 2 and the second limiting block 3 form a rotating structure, so that the installation is convenient, the connection mode of the water storage cavity 5 and the heat exchange block 10 is flange connection, the gaskets 11 are arranged in the heat exchange block 10 at equal intervals, and the connection mode of the heat exchange block 10 and the gaskets 11 is mosaic connection, so that the connection of the water storage cavity 5 and the heat exchange block 10 is convenient;

like the longitudinal section of division board 7 in fig. 1 and 4 is "T" style of calligraphy structure, and division board 7 is connected for the block with the connected mode of closing plate 8, be convenient for separate the inner space in water storage chamber 5, first exchange tube 12 evenly sets up in the inside of closing plate 8, and the inside of closing plate 8 runs through the tip that has first exchange tube 12, be convenient for fully cool off, cooling tube 13 is the heliciform in the inside of heat exchanger block 10 and distributes, and the inside in gasket 11 is run through in the middle part of cooling tube 13, be convenient for wash.

The working principle is as follows: when the impregnated fluorinated ethylene propylene concentrated dispersion liquid graphite heat exchanger is used, firstly, the water storage cavity 5 is placed inside the first limiting block 2 and the second limiting block 3 and fixedly connected through the fastening block 4, then, the water storage cavity 5 and the heat exchange block 10 are fixedly connected through the flange plate, the partition plate 7 can effectively separate the inside of the water storage cavity 5, then, the liquid inlet 14 is connected with the impregnated fluorinated ethylene propylene concentrated dispersion liquid processing device, a proper amount of impregnated fluorinated ethylene propylene concentrated dispersion liquid is introduced into the cooling pipe 13, and the impregnated fluorinated ethylene propylene concentrated dispersion liquid with heat passes through the cooling pipe 13 with a spiral structure and is discharged to a proper position through the liquid outlet 15;

then let in proper amount coolant liquid with the inside of water inlet 6 again, the coolant liquid enters into the inside of cooling bin 19 through first exchange tube 12, the inside of cooling tube 13 is provided with copper wire 18, thereby can effectually take away the inside heat of gathering the concentrated dispersion of perfluoroethylene propylene of flooding of cooling tube 13, the inside of cooling bin 19 is provided with condenser 20, can effectually cool off the coolant liquid that has the heat, and under the effect of second exchange tube 16, be convenient for carry out the heat exchange to the heat, coolant liquid after the heat exchange discharges to suitable position through delivery port 9, just accomplish a series of operations of this flooding and gathering the concentrated dispersion graphite heat exchanger of perfluoroethylene propylene above.

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. The utility model provides an impregnated fluorinated ethylene propylene concentrated dispersion liquid graphite heat exchanger, includes support frame (1), its characterized in that: a first limiting block (2) is fixed above the support frame (1), a second limiting block (3) is connected to the rear side of the first limiting block (2), a fastening block (4) is arranged at the top end of the second limiting block (3), a water storage cavity (5) is arranged on the inner side of the second limiting block (3), a water inlet (6) is formed in the bottom of the water storage cavity (5), a water outlet (9) is formed in the top end of the water storage cavity (5), a partition plate (7) is arranged inside the water storage cavity (5), a sealing plate (8) is connected to the left end of the partition plate (7), a heat exchange block (10) is connected to the left end of the water storage cavity (5), a gasket (11) is arranged inside the heat exchange block (10), a first exchange pipe (12) is arranged inside the gasket (11), and a cooling pipe (13) is arranged above the first exchange pipe (12), the bottom of cooling tube (13) is connected with inlet (14), and the end-to-end connection of cooling tube (13) has liquid outlet (15), the top of cooling tube (13) is provided with second exchange pipe (16), and the inboard of cooling tube (13) is fixed with copper wire (18), the outside of heat exchanger block (10) is provided with protects piece (17), and the left end of heat exchanger block (10) is connected with cooling bin (19), the inside of cooling bin (19) is provided with condenser (20).

2. The impregnated fluorinated ethylene propylene concentrated dispersion graphite heat exchanger of claim 1, wherein: first stopper (2) are through tying tight piece (4) and second stopper (3) fixed connection, and first stopper (2) and second stopper (3) constitute rotating-structure.

3. The impregnated fluorinated ethylene propylene concentrated dispersion graphite heat exchanger of claim 1, wherein: the water storage cavity (5) is connected with the heat exchange block (10) through a flange, gaskets (11) are arranged in the heat exchange block (10) at equal intervals, and the heat exchange block (10) is connected with the gaskets (11) in an embedded mode.

4. The impregnated fluorinated ethylene propylene concentrated dispersion graphite heat exchanger of claim 1, wherein: the longitudinal section of the isolation plate (7) is of a T-shaped structure, and the isolation plate (7) is connected with the sealing plate (8) in a clamping manner.

5. The impregnated fluorinated ethylene propylene concentrated dispersion graphite heat exchanger of claim 1, wherein: the first exchange tubes (12) are uniformly arranged in the sealing plate (8), and the end parts of the first exchange tubes (12) penetrate through the sealing plate (8).

6. The impregnated fluorinated ethylene propylene concentrated dispersion graphite heat exchanger of claim 1, wherein: the cooling pipe (13) is spirally distributed in the heat exchange block (10), and the middle part of the cooling pipe (13) penetrates through the gasket (11).

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