CN212282944U

CN212282944U - Condensate water recovery system

Info

Publication number: CN212282944U
Application number: CN202021815050.2U
Authority: CN
Inventors: 何宗文; 孟鑫; 张东; 刘森林
Original assignee: HUALAN BIOLOGICAL ENGINEERING (CHONGQING) Inc
Current assignee: Hualan Bio Yunyang County Apheresis Co ltd
Priority date: 2020-08-26
Filing date: 2020-08-26
Publication date: 2021-01-05
Anticipated expiration: 2030-08-26

Abstract

The utility model provides a condensate recovery system, include: heat exchange device and softened water tank are provided with first passageway and second passageway in the heat exchange device, and the first passageway import is used for being connected to external running water, and the first passageway export is used for communicateing to external reverse osmosis membrane purification equipment, and the second passageway import communicates to multiple effect water machine steam outlet, and the second passageway export is connected to softened water tank bottom, softened water tank open-top, softened water tank are connected to the cooling tower end of intaking. The condensate water recovery system solves the problem that industrial steam generated by a multi-effect water machine in the prior art is wasted after being directly discharged.

Description

Condensate water recovery system

Technical Field

The utility model relates to a biological product production field, concretely relates to comdenstion water recovery system.

Background

In the biological product production process, need apply to multiple-effect water machine, boiler can produce industrial steam in the multiple-effect water machine, needs a large amount of heats in the industrial steam, directly discharges industrial steam among the general prior art, can lead to a large amount of heat to run off, has got rid of some incrustations in the industrial steam that the boiler produced simultaneously, can well industrial steam turn into water and supply the device that does not need the incrustation scale to use, and direct discharge can lead to no incrustation scale water extravagant.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a condensate recovery system solves the problem of extravagant after the direct discharge of industrial steam that multiple-effect water machine produced among the prior art.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a condensate recovery system, include: heat exchange device and softened water tank are provided with first passageway and second passageway in the heat exchange device, and the first passageway import is used for being connected to external running water, and the first passageway export is used for communicateing to external reverse osmosis membrane purification equipment, and the second passageway import communicates to multiple effect water machine steam outlet, and the second passageway export is connected to softened water tank bottom, softened water tank open-top, softened water tank are connected to the cooling tower end of intaking.

Preferably, the heat exchange device includes: the box body and the box cover are buckled to form a first channel, the box cover is connected with the box body through screws, the water inlet pipe and the spiral pipe are installed on the box cover, the water inlet pipe is communicated with the first channel, the spiral pipe is located in the first channel, the inner cavity of the spiral pipe is a second channel, the bottom of the box body is provided with a water outlet pipe communicated with the first channel, the water inlet pipe is imported into the first channel, and the water outlet pipe is exported from the first channel.

Preferably, the number of the water inlet pipes is two, the water outlet pipe is opposite to the two water inlet pipes, and the water inlet pipes are all surrounded by spiral pipes.

Preferably, a filtering means is installed in the first passage beside the inlet pipe for filtering impurities in the tap water discharged from the inlet pipe.

Preferably, the filtering device includes: the filter screen is of an annular structure and is just opposite to the two water inlet pipes, and the middle part of the filter screen is detachably connected with the tank cover through the mounting frame.

Preferably, the mounting bracket includes: connecting rod, collar and first stopper, case lid mid-mounting have the installation axle, install the off-axial cover and put a collar, install the protrusion of axle outer wall and have two at least second stoppers, and the clearance can supply first stopper to pass between the two adjacent second stoppers, and the collar can be installed the rotation of axle relatively, and collar inner wall protrusion forms first stopper, and first stopper cooperates the restriction collar and installs the axle with the second stopper and break away from.

Preferably, the inner wall of the top surface of the box body is sunken to form a slot, the outer wall of the filter screen is provided with an extension rod, and the extension rod is inserted into the slot when the second limit block limits the first limit block to be separated from the box cover.

Compared with the prior art, the utility model discloses following beneficial effect has:

the heat exchange device is used for exchanging heat between steam generated by the multi-effect water machine and tap water, the tap water is purified by using reverse osmosis membrane purification equipment in the production process of biological products, when the tap water reaches 25 ℃, the aperture of a reverse osmosis membrane in the reverse osmosis membrane purification equipment reaches the optimal state, the temperature of the general tap water is difficult to reach the required temperature, the heat exchange between the steam and the tap water is carried out at the heat exchange device, the heat of the steam is fully utilized, the waste of energy is avoided, the production cost is reduced, and the tap water is conveniently purified; steam becomes liquid water and air after heat exchange device and running water carry out the heat exchange, in the softened water tank, the liquid water deposit gets off, the air overflows from softened water tank top, thereby liquid water and air separation have been realized, when entering into the softened water tank, there is water softened water tank bottom portion, consequently, can block liquid water and walk along with the air together, the cooling tower uses in the cooling unit is supplied with to the softened water tank internal water, in winter, need the heating installation, compare some that cooling water temperature is higher relatively in general air softened water tank, can heat air to a certain extent in the cooling tower, thereby the effect of supplying the heating installation has been improved, the comdenstion water that the deposit got off in the softened water tank does not have the incrustation scale simultaneously, incrustation scale can not deposit and blocks up the cooling tower after entering the cooling tower, the function of having guaranteed the.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.

Drawings

FIG. 1 is a cross-sectional view of a condensate recovery system;

FIG. 2 is an enlarged view of the filter screen;

fig. 3 is an enlarged view of a portion a in fig. 2.

Reference numerals: the heat exchange device 1, the box body 11, the box cover 12, the mounting shaft 121, the second limit block 122, the water inlet pipe 13, the water outlet pipe 14, the spiral pipe 15, the filter screen 16, the mounting frame 17, the connecting rod 171, the mounting ring 172, the first limit block 173, the extension rod 174, the extension block 18, the elastic limit mechanism 19, the extrusion rod 191, the extrusion wheel 192, the spring 193, the slider 194 and the soft water box 2.

Detailed Description

In order to make the utility model realize that technical means, creation characteristics, achievement purpose and effect are clearer and easily understand, it is right to combine below the figure and the detailed implementation mode the utility model discloses do further explanation:

as shown in fig. 1 to 3, the utility model provides a condensate recovery system, include: heat exchange device 1 and softened water tank 2 are provided with first passageway and second passageway in the heat exchange device 1, and the first passageway import is used for being connected to external running water, and the first passageway export is used for communicateing to external reverse osmosis membrane purification equipment, and the second passageway import communicates to multi-effect water machine steam outlet, and the second passageway export is connected to softened water tank 2 bottoms, and 2 open-tops of softened water tank, softened water tank 2 are connected to the cooling tower and intake the end.

In order to design simple structure's heat exchange device 1 for the interior running water of first passageway is big with steam area of contact in the second passageway, improves the heat exchange effect, heat exchange device 1 includes: box 11, case lid 12, inlet tube 13, outlet pipe 14 and spiral pipe 15, form first passageway after box 11 and the 12 lock of case lid, case lid 12 passes through the screw connection with box 11, install inlet tube 13 and spiral pipe 15 on the case lid 12, inlet tube 13 and first passageway intercommunication, spiral pipe 15 is located first passageway, 15 inner chambers of spiral pipe are the second passageway, 11 bottoms of boxes are provided with the outlet pipe 14 with first passageway intercommunication, inlet tube 13 is the import of first passageway, outlet pipe 14 is the export of first passageway. The cleaning of the box body 11 is facilitated, the spiral pipe 15 can be pulled out of the box body 11 by opening the box cover 12, cleaning is facilitated, and the spiral pipe 15 is prevented from staying in the box body 11 and blocking the cleaning of the box body 11.

In order to avoid that water rushed from the water inlet pipe 13 directly rushes into the water outlet pipe 14, so that the side length of a path where the water travels in the first channel is long, and the heat exchange effect is improved, the number of the water inlet pipes 13 is two, the water outlet pipe 14 is opposite to the two water inlet pipes 13, and the water inlet pipes 13 are all surrounded by the spiral pipes 15.

In order to prevent the reverse osmosis from being blocked by large-particle impurities in the tap water, a filtering device is installed in the first passage beside the water inlet pipe 13, and the filtering device is used for filtering the impurities in the tap water discharged from the water inlet pipe 13.

In order to design a simple-structured filtering apparatus, the filtering apparatus includes: filter screen 16 and mounting bracket 17, filter screen 16 are the loop configuration, and filter screen 16 just faces with two inlet tube 13, and filter screen 16 middle part is passed through mounting bracket 17 and can be dismantled with case lid 12 and be connected.

To enable the installation of filter screen 16, mounting bracket 17 includes: the connecting rod 171, the mounting ring 172 and the first stopper 173, the mounting shaft 121 is installed in the middle of the case cover 12, the mounting ring 172 is sleeved outside the mounting shaft 121, at least two second stoppers 122 protrude from the outer wall of the mounting shaft 121, a gap between two adjacent second stoppers 122 can allow the first stopper 173 to pass through, the mounting ring 172 can rotate relative to the mounting shaft 121, the first stopper 173 is protruded from the inner wall of the mounting ring 172, and the first stopper 173 cooperates with the second stopper 122 to limit the mounting ring 172 to separate from the mounting shaft 121.

In order to avoid the risk that the first limit block 173 is rotated to deviate from the second limit block 122 in the using process, the case cover 12 is enabled to cover the extension rod 174 in the slot, so that the filter screen 16, the mounting ring 172 and the first limit block 173 are limited to rotate relative to the second limit block 122 and the case cover 12, the inner wall of the top surface of the case body 11 is recessed to form the slot, the extension rod 174 is mounted on the outer wall of the filter screen 16, and when the second limit block 122 limits the first limit block 173 to be separated from the case cover 12, the extension rod 174 is inserted into the slot.

In order to prevent the impurities from being brought into the box body 11 by back flushing after the tap water rushes to the filter screen 16, the following design is made: two arc covers are buckled at the top of the filter screen 16, two water inlet pipes 13 are inserted between the two arc covers, and the arc covers can slide around the central line of the mounting ring 172 relative to the filter screen 16. The curved cover slides as filter screen 16 rotates relative to housing cover 12 and covers the top of filter screen 16, thereby preventing large particulate impurities from being spilled from filter screen 16.

In order to avoid the large-particle impurities fully collected in the filter screen 16, the following design is made to facilitate the cleaning of the filter screen 16: the end of the filter screen 16 extends to form an extension block 18 surrounding the water inlet pipe 13, the top surface of the filter screen 16 is provided with a step for supporting the extension block 18, the inner wall of the filter screen 16 is recessed to form an annular groove beside the step, an elastic limiting mechanism 19 is installed in the extension block 18, an elastic part is arranged in the elastic limiting mechanism 19, the elastic limiting mechanism 19 can be kept away from the annular groove under the elasticity of the elastic part, and the elastic limiting mechanism 19 is used for limiting the separation of the arc-shaped cover and the filter screen 16 by being pressed into the annular groove by the water inlet pipe 13 after the water inlet pipe.

The elastic limit mechanism 19 includes: the water inlet pipe comprises a squeezing rod 191, a squeezing wheel 192, a spring 193 and a sliding block 194, wherein the squeezing wheel 192 is rotatably mounted at one end of the squeezing rod 191, the squeezing wheel 192 is used for being tangent to the water inlet pipe 13, the sliding block 194 is fixed at the other end of the squeezing rod 191 and used for being inserted into the annular groove, the sliding block 194 is connected to one end of the spring 193, the other end of the spring 193 is fixed to the extending block 18, and the spring 193 is an elastic piece.

When the device is installed, firstly, the arc-shaped cover is placed in the filter screen 16, and the filter screen 16 is supported by the steps; then, the filter screen 16 moves towards the water inlet pipe 13, the water inlet pipe 13 is inserted between the two arc-shaped covers, the water inlet pipe 13 extrudes the sliding block 194 into the annular groove by extruding the extrusion wheel 192, so that the arc-shaped covers are limited to be separated from the filter screen 16, the annular groove guide sliding block 194 slides, and the mounting ring 172 is sleeved outside the mounting shaft 121; then, the filter screen 16 and the mounting ring 172 are rotated to align the first limiting block 173 with the second limiting block 122, so as to limit the mounting ring 172 from being separated from the mounting shaft 121; finally, the cover 12 is covered on the box body 11, the extension rod 174 is inserted into the slot, the extension rod 174 is limited to rotate relative to the cover 12, namely, the filter screen 16 is limited to rotate, and the cover 12 is connected with the box body 11 by using screws.

The design idea of the application is as follows: firstly, in order to increase the contact area and improve the heat exchange effect, the spiral pipe 15 is designed, and the spiral pipe 15 provides a second channel and provides a space for the steam to flow through; then, in order to clean the box body 11 conveniently, the spiral pipe 15 is designed to be arranged on the box cover 12, and the spiral pipe 15 is taken out of the box body 11 when the box body 11 is opened; then, in order to connect tap water conveniently, and the spraying direction of the tap water is not aligned with the water outlet pipe 14, two water inlet pipes 13 are designed, and the water inlet pipes 13 are deviated from the center of the box cover 12; then, in order to avoid large-particle impurities from entering treatment equipment to cause equipment blockage, a filtering device is designed; then, in order to avoid the large-particle impurities from entering the spiral pipe 15 to cause the impurities to deposit on the spiral pipe 15, a filtering device is designed between the water inlet pipe 13 and the spiral pipe 15; then, large-particle impurities are deposited in the filtering device, so that the filtering net 16 is convenient to disassemble and clean, the matching structure of the mounting ring 172, the first limiting block 173 and the second limiting block 122 is designed, meanwhile, the filtering net 16 is designed to be of an annular structure, water entering the two water inlet pipes 13 can be treated, and the disassembly is also convenient; moreover, because the rotation is limited by friction between the mounting ring 172 and the mounting shaft 121, the risk that the filter screen 16 is separated exists, and in order to avoid the risk, the extension rod 174 is designed to be matched with the slot to limit the rotation, so that the mounting reliability of the filter screen 16 is improved, and the extension rod 174 can be pulled out from the slot when the box cover 12 is detached, so that the operation is convenient, the connection between the mounting ring 172 and the mounting shaft 121 is adjusted without other steps, and the operation efficiency is improved; then, since tap water coming out of the water inlet pipe 13 impacts the filter screen 16 to cause water to reversely take away large-particle substances, an arc-shaped cover is designed to cover a gap between the two water inlet pipes 13 and the filter screen 16, so that a blocking effect is achieved, and the arc-shaped cover can also rotate in the filter screen 16 in order to match the rotation of the filter screen 16; finally, in order to facilitate opening of the filter screen 16 for cleaning, the elastic limiting mechanism 19 is designed, so that the connection between the arc-shaped cover and the filter screen 16 can be released after the filter screen 16 is separated from the water inlet pipe 13, and the arc-shaped cover and the filter screen 16 are conveniently separated.

Finally, although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the present invention can be modified or replaced by other means without departing from the spirit and scope of the present invention, which should be construed as limited only by the appended claims.

Claims

1. A condensate recovery system, comprising: heat exchange device and softened water tank are provided with first passageway and second passageway in the heat exchange device, and the first passageway import is used for being connected to external running water, and the first passageway export is used for communicateing to external reverse osmosis membrane purification equipment, and the second passageway import communicates to multiple effect water machine steam outlet, and the second passageway export is connected to softened water tank bottom, softened water tank open-top, softened water tank are connected to the cooling tower end of intaking.

2. A condensate recovery system according to claim 1, wherein the heat exchange means comprises: the box body and the box cover are buckled to form a first channel, the box cover is connected with the box body through screws, the water inlet pipe and the spiral pipe are installed on the box cover, the water inlet pipe is communicated with the first channel, the spiral pipe is located in the first channel, the inner cavity of the spiral pipe is a second channel, the bottom of the box body is provided with a water outlet pipe communicated with the first channel, the water inlet pipe is imported into the first channel, and the water outlet pipe is exported from the first channel.

3. The condensate recovery system of claim 2, wherein there are two inlet pipes, the outlet pipe is aligned with the two inlet pipes, and the inlet pipes are surrounded by the spiral pipe.

4. A condensate recovery system according to claim 3, wherein a filter means is provided in the first passage adjacent the inlet conduit for filtering impurities in the tap water discharged from the inlet conduit.

5. The condensate recovery system of claim 4, wherein the filter means comprises: the filter screen is of an annular structure and is just opposite to the two water inlet pipes, and the middle part of the filter screen is detachably connected with the tank cover through the mounting frame.

6. The condensate recovery system of claim 5, wherein the mounting bracket comprises: connecting rod, collar and first stopper, case lid mid-mounting have the installation axle, install the off-axial cover and put a collar, install the protrusion of axle outer wall and have two at least second stoppers, and the clearance can supply first stopper to pass between the two adjacent second stoppers, and the collar can be installed the rotation of axle relatively, and collar inner wall protrusion forms first stopper, and first stopper cooperates the restriction collar and installs the axle with the second stopper and break away from.

7. The condensate recovery system of claim 6, wherein the inner wall of the top surface of the box body is recessed to form a slot, the outer wall of the filter screen is provided with an extension rod, and the extension rod is inserted into the slot when the second limiting block limits the first limiting block from being separated from the box cover.