CN207123204U - A kind of efficient waste water residual heat recovery energy saver - Google Patents

Abstract

The utility model discloses a kind of efficient waste water residual heat recovery energy saver, including heat exchange box and Rose Box, the bottom of heat exchange box is uniformly provided with some supporting legs, supporting plate is provided between all supporting legs, the top of supporting plate is provided with Rose Box, the left-hand end through connection sewage water inlet pipe of Rose Box, the inner chamber of Rose Box are sequentially provided with the first screen pack, the second screen pack and the 3rd screen pack from left to right；Intake antrum is provided with one side wall of heat exchange box, drain chamber is provided with another side wall of heat exchange box, some heat-exchange tubes is uniformly provided between intake antrum and drain chamber；The utility model, so as to realize preliminary heating clear water, reduces energy resource consumption, reduces the temperature of sewage, be easy to post-processing by setting heat-exchange tube to realize that the heat in sewage is converted into the heat in clear water；And the setting of Rose Box, then it is to remove the solid particulate matter in used heat sewage, the effective prevention of solid particle thing of energy is coated on the periphery of heat-exchange tube, reduces the exchange effect of heat-exchange tube.

Description

A kind of efficient waste water residual heat recovery energy saver

Technical field

Heat-exchange apparatus field is the utility model is related to, specially a kind of efficient waste water residual heat recovery energy saver.

Background technology

Printing and dyeing, also referred to as dyeing and finishing.It is a kind of processing mode, and pre-treatment, dyeing, stamp, final finishing, wash water etc. General name.

Textile printing and dyeing factory is required for consuming substantial amounts of water daily, while textile printing and dyeing factory will discharge greatly in dyeing process The waste water of amount, the sewage of these discharges generally also have substantial amounts of heat, and sewage temperature generally at 80 DEG C or so, is partly even up to More than 90 DEG C；For these waste water while discharge, textile printing and dyeing machine needs substantial amounts of clear water to supplement again, and needs to use steam Heating is maintained to 80-90 DEG C, and then cloth could be handled.Textile printing and dyeing factory spends substantial amounts of steam to be used to heat print Dye machine, and this part heat energy is drained in vain by hot waste water, the waste on the energy is not only caused, while will also result in hot dirt Dye.

Utility model content

The purpose of this utility model is to provide a kind of efficient waste water residual heat recovery energy saver, to solve above-mentioned background The problem of being proposed in technology.

To achieve the above object, the utility model provides following technical scheme：

A kind of efficient waste water residual heat recovery energy saver, including heat exchange box and Rose Box, the bottom of heat exchange box are uniform Provided with some supporting legs, supporting plate is provided between all supporting legs, the top of supporting plate is provided with Rose Box, and Rose Box is consolidated by leg Fixed the left-hand end through connection sewage water inlet pipe of Rose Box, sewage water inlet pipe is provided with the second control valve on the supporting plate, filtering The inner chamber of case is sequentially provided with the first screen pack, the second screen pack and the 3rd screen pack, the first screen pack, the second filtering from left to right The equal through connection blow-off pipe of the left side of net and the 3rd screen pack, blow-off pipe are provided with the 3rd control valve, the top end face of Rose Box Rightmost side through connection connecting tube, the other end through connection of connecting tube is in the bottom of heat exchange box；The top insertion of heat exchange box connects Connect sewage outlet pipe, be provided with intake antrum in a side wall of heat exchange box, through connection clear water water inlet pipe on the lateral wall of intake antrum, clearly Water water inlet pipe is provided with the first control valve, and drain chamber, the lateral wall through connection of drain chamber are provided with another side wall of heat exchange box Clear water drainpipe, some heat-exchange tubes are uniformly provided between intake antrum and drain chamber, suction is arranged with each heat-exchange tube Backing, all heat-exchange tubes are each provided at the interior intracavitary of heat exchange box.

As the further technical scheme of the utility model, the bottom of heat exchange box is uniformly provided with 3~4 supporting legs.

As the further technical scheme of the utility model, the first screen pack, the second screen pack and the 3rd screen pack are equal It is to be obliquely installed.

As the further technical scheme of the utility model, the mesh of the first screen pack is more than the net of the second screen pack Hole.

As the further technical scheme of the utility model, the mesh of the second screen pack is more than the net of the 3rd screen pack Hole.

As the further technical scheme of the utility model, heat absorbing sheet is helical structure design.

Compared with prior art, the utility model is by setting heat-exchange tube to realize that the heat in sewage is converted into clear water Heat, so as to realize preliminary heating clear water, reduce energy resource consumption, reduce the temperature of sewage, be easy to post-processing；And Rose Box Setting, then be remove used heat sewage in solid particulate matter, can effectively pre- bilge water resisting with heat-exchange tube for a long time contact In, cause substantial amounts of solid particulate matter to be coated on the periphery of heat-exchange tube, reduce the exchange effect of heat-exchange tube, reduce heat and hand over The service life changed.

Brief description of the drawings

Fig. 1 is the structural representation that a kind of efficient waste water residual heat of the utility model reclaims energy saver；

Fig. 2 is the structural representation for the heat exchanger tube that a kind of efficient waste water residual heat of the utility model reclaims energy saver.

In figure：1- heat exchange box, 2- supporting legs, 3- Rose Boxes, 4- intake antrums, 5- clear water water inlet pipes, the control valves of 6- first, 7- rows Water cavity, 8- clear water drainpipes, 9- heat-exchange tubes, 10- heat absorbing sheets, 11- supporting plates, 12- legs, 13- sewage water inlet pipes, 14- Two control valves, the screen packs of 15- first, the screen packs of 16- second, the screen packs of 17- the 3rd, 18- blow-off pipes, the control valves of 19- the 3rd, 20- connecting tubes, 21- sewage outlet pipes.

Embodiment

The technical scheme of this patent is described in more detail with reference to embodiment.

Fig. 1~2, a kind of efficient waste water residual heat recovery energy saver, including heat exchange box 1 and Rose Box 3 are referred to, it is described The bottom of heat exchange box 1 is uniformly provided with some supporting legs 2, and supporting plate 11, the supporting plate 11 are provided between all supporting legs 2 Top be provided with Rose Box 3, the Rose Box 3 is fixed in supporting plate 11 by leg 12, and the insertion of the left-hand end of Rose Box 3 connects Connect sewage water inlet pipe 13, the sewage water inlet pipe 13 is provided with the second control valve 14, the inner chamber of the Rose Box 3 from left to right according to It is secondary to be provided with the first screen pack 15, the second screen pack 16 and the 3rd screen pack 17, first screen pack 15, the and of the second screen pack 16 3rd screen pack 17 is obliquely installed, the left side of first screen pack 15, the second screen pack 16 and the 3rd screen pack 17 Equal through connection blow-off pipe 18, the blow-off pipe 18 is provided with the 3rd control valve 19, and the mesh of first screen pack 15 is more than The mesh of second screen pack 16, the mesh of second screen pack 16 are more than the mesh of the 3rd screen pack 17, the Rose Box 3 Top end face rightmost side through connection connecting tube 20, the other end through connection of the connecting tube 20 is in the bottom of heat exchange box 1；It is described The top through connection sewage outlet pipe 21 of heat exchange box 1, a side wall of heat exchange box 1 is interior to be provided with intake antrum 4, the intake antrum 4 Through connection clear water water inlet pipe 5 on lateral wall, the clear water water inlet pipe 5 are provided with the first control valve 6, the heat exchange box 1 it is another Drain chamber 7, the lateral wall through connection clear water drainpipe 8 of the drain chamber 7, the intake antrum 4 and draining are provided with one side wall Some heat-exchange tubes 9 are uniformly provided between chamber 7, heat absorbing sheet 10, the heat absorbing sheet are arranged with each heat-exchange tube 9 10 be helical structure design, and all heat-exchange tubes 9 are each provided at the interior intracavitary of heat exchange box 1.

The utility model is in use, used heat sewage is entered in Rose Box 3 by sewage water inlet pipe 13, then in entrance heat exchange In case 1, used heat sewage carries out heat exchange by heat-exchange tube 9 and heat absorbing sheet 10 with clear water, so as to realize the heating to clear water, and The heat in used heat sewage is consumed, reduces sewage temperature；Used heat sewage is when entering Rose Box 3, successively by the first screen pack 15th, the second screen pack 16 and the 3rd screen pack 17, layering, take out sewage in solid particulate matter, prevent sewage with heat Exchange in the long-term contact of pipe 9, cause substantial amounts of solid particulate matter to be coated on the periphery of heat-exchange tube 9, reduce heat-exchange tube 9 Exchange effect, reduce heat-exchange tube 9 service life.

The better embodiment of this patent is explained in detail above, but this patent is not limited to above-mentioned embodiment party Formula, can also be on the premise of this patent objective not be departed from one skilled in the relevant art's possessed knowledge Various changes can be made.

Claims (6)

1. a kind of efficient waste water residual heat recovery energy saver, it is characterised in that including heat exchange box and Rose Box, the bottom of heat exchange box End is uniformly provided with some supporting legs, supporting plate is provided between all supporting legs, the top of supporting plate is provided with Rose Box, and Rose Box leads to Cross leg to fix on the supporting plate, the left-hand end through connection sewage water inlet pipe of Rose Box, sewage water inlet pipe is provided with the second control Valve processed, the inner chamber of Rose Box are sequentially provided with the first screen pack, the second screen pack and the 3rd screen pack, the first filtering from left to right The equal through connection blow-off pipe of left side of net, the second screen pack and the 3rd screen pack, blow-off pipe are provided with the 3rd control valve, filtering The top end face rightmost side through connection connecting tube of case, the other end through connection of connecting tube is in the bottom of heat exchange box；Heat exchange box Top through connection sewage outlet pipe, a side wall of heat exchange box is interior to be provided with intake antrum, and through connection is clear on the lateral wall of intake antrum Water water inlet pipe, clear water water inlet pipe are provided with the first control valve, drain chamber, the outside of drain chamber are provided with another side wall of heat exchange box Wall through connection clear water drainpipe, is uniformly provided with some heat-exchange tubes between intake antrum and drain chamber, on each heat-exchange tube Heat absorbing sheet is arranged with, all heat-exchange tubes are each provided at the interior intracavitary of heat exchange box.

A kind of 2. efficient waste water residual heat recovery energy saver according to claim 1, it is characterised in that the bottom of heat exchange box End is uniformly provided with 3~4 supporting legs.

A kind of 3. efficient waste water residual heat recovery energy saver according to claim 1, it is characterised in that the first filtering Net, the second screen pack and the 3rd screen pack are obliquely installed.

A kind of 4. efficient waste water residual heat recovery energy saver according to claim 3, it is characterised in that the first screen pack Mesh be more than the second screen pack mesh.

A kind of 5. efficient waste water residual heat recovery energy saver according to claim 4, it is characterised in that the second screen pack Mesh be more than the 3rd screen pack mesh.

6. a kind of efficient waste water residual heat recovery energy saver according to claim 1, it is characterised in that heat absorbing sheet is spiral shell Revolve structure design.