CN211920927U - Lateral split type heat exchange device for water treatment condensing tower - Google Patents

Abstract

The utility model belongs to the technical field of the water treatment facilities technique and specifically relates to a split type heat exchange device of side direction for water treatment condensing tower, including the main tower body of built-in heating module, seted up a plurality of side directions on the main tower body lateral surface and assembled the groove. The utility model discloses a split type heat exchange device of side direction for water treatment condensing tower is through offering the side direction concatenation groove that is used for installing the condensation mounting box on the main tower body lateral surface, make the structure of whole distillation column compacter, it is more convenient that equipment is put, application scope is more extensive, bottom intubate through condensation mounting box lower extreme inserts the leading-in main tower body inside of bottom water guiding hole convenient outside water intaking from inside hot exchange pipe, insert inboard exhaust connecting hole with the leading-in condensation mounting box of inside vapor through the horizontal air duct of the inside elasticity of horizontal air guide hole on the main tower body lateral wall, thereby promote the temperature of input water through the heat exchange, thereby promote heat exchange efficiency, reduce the heating energy consumption.

Description

Lateral split type heat exchange device for water treatment condensing tower

Technical Field

The utility model belongs to the technical field of water treatment facilities technique and specifically relates to a split type heat exchange device of side direction for water treatment condensing tower.

Background

The domestic sewage is the wastewater discharged by people in daily life activities, the wastewater is mainly polluted by domestic waste and human excrement, and the quantity, the components and the concentration of pollutants are related to the living habits and the water consumption of people. Domestic sewage generally does not contain toxic substances, but it has conditions suitable for the propagation of microorganisms, contains a large amount of bacteria and pathogens, and has a certain hazard from a hygienic viewpoint. A distillation column that is used for waste water treatment on the market at present is mostly integrative fixed knot structure, is single chamber or components of a whole that can function independently setting simultaneously, and not only heat exchange efficiency is not high, puts simultaneously and requires relatively to be restricted.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is: in order to solve the problem that exists among the above-mentioned background art, provide a split type heat exchange device of modified side direction that is used for water treatment condensing tower, solve the distillation column that is used for waste water treatment on the market at present and mostly be integrative fixed knot structure, be single chamber or components of a whole that can function independently setting simultaneously, not only heat exchange efficiency is not high, puts the problem that requires relatively to limit simultaneously.

The utility model provides a technical scheme that its technical problem adopted is: a lateral split type heat exchange device for a water treatment condensing tower comprises a main tower body with a built-in heating module, wherein the outer side surface of the main tower body is provided with a plurality of lateral assembling grooves, the inside of each lateral assembling groove is spliced with a detachable condensation mounting box, the inner bottom surface of each lateral assembling groove is provided with an L-shaped bottom water guide hole communicated with the inside of the main tower body, the upper end of the inner side surface of each lateral assembling groove is provided with a transverse air guide hole communicated with the inside of the main tower body, the inside of each transverse air guide hole is elastically connected with a transverse air guide pipe, the upper end of the inner side surface of each condensation mounting box is provided with an inner side exhaust connecting hole matched with the transverse air guide pipe, the bottom end of each condensation mounting box is fixedly connected with an integral structure bottom inserting pipe protruding downwards, the upper end of each condensation mounting box is fixedly connected with an integral, the lower end of the outer side surface of the condensation mounting box is fixedly connected with an integral structure lateral drainage connecting pipe protruding outwards.

Further, assemble fixedly for the cooperation, side direction assembly inslot medial surface set up upper end open-ended inboard assembly groove, the condensation mounting box before, on the lateral wall have with inboard assembly groove complex a body structure side direction assembly strip, the condensation mounting box assemble the strip through the side direction and insert inboard assembly inslot portion and side direction and assemble inslot portion looks joint, horizontal air duct fix the condensation mounting box joint in the side direction assembly inslot portion through transversely inserting inboard exhaust connecting hole inside.

Further, in order to cooperate with heat energy exchange, the inside longitudinal fixed connection of condensation mounting box be used for the inside hot exchange pipe of helical structure of intercommunication bottom intubate and top intake connecting pipe.

Further, for the cooperation control split, horizontal air duct including peg graft at the inside flexible air duct of horizontal air guide hole, fix the annular seal lid at flexible air duct medial extremity and the compression sealing spring of elastic connection annular seal lid and main tower body medial surface, main tower body upper end seted up the top control hole, top control hole inside be provided with and be used for controlling horizontal air duct at the inside flexible translation of horizontal air guide hole press the regulating spindle, flexible air duct upper end set up the top adjustment tank of built-in meshing tooth's socket, press the regulating spindle lower extreme have with meshing tooth's socket matched with body structure gear pole, press the regulating spindle through pressing down control gear pole and meshing tooth's socket mutually, press the regulating spindle through the flexible air duct of rotary control at the inside translation of horizontal air guide hole.

Furthermore, in order to match with bottom sealing, the upper end of the inner side surface of the bottom water guide hole is provided with an internal sealing cavity with an internal elastic extrusion sealing sheet.

Furthermore, for elastic longitudinal reset, a lateral extrusion groove with an internal extrusion spring is formed in the inner side surface of the top control hole, and the extrusion spring is sleeved on the gear rod to control the pressing and adjusting shaft to extrude.

The beneficial effects of the utility model are that, the utility model discloses a split type heat exchange device of side direction for water treatment condensing tower is through offering the side direction concatenation groove that is used for installing the condensation mounting box on the main tower body lateral surface, make the structure of whole distillation column compacter, it is more convenient that equipment is put, application scope is more extensive, bottom intubate through condensation mounting box lower extreme inserts the leading-in main tower body inside of bottom water guiding hole convenient outside intaking from inside hot exchange pipe, insert inboard exhaust connecting hole and insert the leading-in condensation mounting box of inside vapor through the horizontal air duct of the inside elasticity of horizontal air guiding hole on the main tower body lateral wall, thereby promote the temperature of input water through the heat exchange, thereby promote heat exchange efficiency, reduce the heating energy consumption.

Drawings

The present invention will be further explained with reference to the drawings and examples.

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural view of the connecting end of the middle condensation mounting box of the present invention.

Figure 3 is an internal cross-sectional view of the position of the internal seal chamber of the present invention.

In the figure, 1, a main tower body, 2, a lateral assembling groove, 3, a condensation mounting box, 4, a bottom water guide hole, 5, a transverse air guide hole, 6, a transverse air guide pipe, 7, an inner exhaust connecting hole, 8, a bottom inserting pipe, 9, a top water inlet connecting pipe, 10, a lateral water drainage connecting pipe, 11, an inner assembling groove, 12, a lateral assembling strip, 13, an inner heat exchange pipe, 14, a telescopic air guide pipe, 15, an annular sealing cover, 16, a compression sealing spring, 17, a top control hole, 18, a press adjusting shaft, 19, a top adjusting groove, 20, a gear rod, 21, an elastic extrusion sealing sheet, 22, an inner sealing chamber, 23, an extrusion spring and 24, a lateral extrusion groove are arranged.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic drawings and illustrate the basic structure of the present invention only in a schematic manner, and thus show only the components related to the present invention.

FIG. 1, FIG. 2 and FIG. 3 show a side split heat exchange device for a water treatment condensing tower, which comprises a main tower body 1 with a built-in heating module, wherein the outer side surface of the main tower body 1 is provided with 2 side split grooves 2, the inside of each side split groove 2 is spliced with a detachable condensation mounting box 3, the inner bottom surface of each side split groove 2 is provided with an L-shaped bottom water guiding hole 4 communicated with the inside of the main tower body 1, the upper end of the inner side surface of each side split groove 2 is provided with a transverse air guiding hole 5 communicated with the inside of the main tower body 1, the inside of each transverse air guiding hole 5 is elastically connected with a transverse air guiding pipe 6, the upper end of the inner side surface of the condensation mounting box 3 is provided with an inner side exhaust connecting hole 7 matched with the transverse air guiding pipe 5, the bottom end of the condensation mounting box 3 is fixedly connected with an integral structure bottom inserting pipe 8 protruding downwards, the lower end of the outer side surface of the condensation mounting box 3 is fixedly connected with an integral structure lateral drainage connecting pipe 10 protruding outwards.

Further, assemble fixedly for the cooperation, upper end open-ended inboard concatenation groove 11 is seted up to 2 medial surfaces in side direction concatenation groove, before condensation mounting box 3, have on the rear side wall with inboard concatenation groove 11 matched with a body structure side direction concatenation strip 12, condensation mounting box 3 inserts inboard concatenation inslot 11 inside and 2 inside looks joints in side direction concatenation groove through side direction concatenation strip 12, horizontal air duct 6 fixes condensation mounting box 3 joint inside 2 in side direction concatenation grooves through transversely inserting inboard exhaust connecting hole 7 inside.

Further, in order to cooperate with heat energy exchange, the interior of the condensation mounting box 3 is longitudinally and fixedly connected with an internal heat exchange tube 13 with a spiral structure for communicating a bottom inserting tube 8 with a top water inlet connecting tube 9, further, in order to cooperate with control disassembly, the transverse air duct 6 comprises a telescopic air duct 14 inserted in the transverse air guide hole 5, an annular sealing cover 15 fixed at the inner side end of the telescopic air duct 14 and a compression sealing spring 16 elastically connecting the annular sealing cover 15 with the inner side of the main tower body 1, the upper end of the main tower body 1 is provided with a top control hole 17, a pressing adjusting shaft 18 for controlling the transverse air duct 6 to stretch and translate in the transverse air guide hole 5 is arranged in the top control hole 17, the upper end of the telescopic air duct 14 is provided with a top adjusting groove 19 internally provided with a meshing tooth socket, the lower end of the pressing adjusting shaft 18 is, the pressing adjusting shaft 18 is meshed with the meshing tooth grooves through pressing the control gear rod 20 downwards, and the pressing adjusting shaft 18 controls the telescopic air guide pipe 14 to translate inside the transverse air guide hole 5 through rotation.

Further, in order to match with bottom sealing, the upper end of the inner side surface of the bottom water guide hole 4 is provided with an internal sealing cavity 22 with a built-in elastic extrusion sealing sheet 21, further, in order to elastically and longitudinally reset, the inner side surface of the top control hole 17 is provided with a lateral extrusion groove 24 with a built-in extrusion spring 23, and the extrusion spring 23 is sleeved on the gear rod 20 to control the pressing adjusting shaft 18 to extrude upwards.

The beneficial effects of the utility model are that, the utility model discloses a split type heat exchange device of side direction for water treatment condensing tower is through offering the side direction concatenation groove 2 that is used for installing condensation mounting box 3 on 1 lateral surface of main tower body, make the structure of whole distillation column compacter, it is more convenient that equipment is put, application scope is more extensive, bottom intubate 8 through condensation mounting box 3 lower extreme inserts bottom water guiding hole 4 and makes things convenient for outside intaking to follow the leading-in main tower body 1 inside of inside hot exchange pipe 13, through the horizontal air duct 6 of the elasticity of horizontal air guide hole 5 inside on 1 lateral wall of main tower body insert inboard exhaust connecting hole 7 with the leading-in condensation mounting box 3 of inside vapor, thereby promote the temperature of input water through the heat exchange, thereby promote heat exchange efficiency, reduce the heating energy consumption.

In light of the foregoing, it will be apparent to those skilled in the art from this disclosure that various changes and modifications can be made without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (6)

1. A split type heat exchange device of side direction for water treatment condensing tower, includes main tower body (1) of built-in heating module, characterized by: the outer side surface of the main tower body (1) is provided with a plurality of lateral assembling grooves (2), the interior of each lateral assembling groove (2) is spliced with a detachable condensation mounting box (3), the inner bottom surface of each lateral assembling groove (2) is provided with an L-shaped bottom water guide hole (4) communicated with the interior of the main tower body (1), the upper end of the inner side surface of each lateral assembling groove (2) is provided with a transverse air guide hole (5) communicated with the interior of the main tower body (1), the interior of each transverse air guide hole (5) is elastically connected with a transverse air guide pipe (6), the upper end of the inner side surface of each condensation mounting box (3) is provided with an inner side exhaust connecting hole (7) matched with the transverse air guide pipe (6), the bottom end of each condensation mounting box (3) is fixedly connected with an integral structure bottom inserting pipe (8) protruding downwards, the upper end of each condensation mounting box (3) is fixedly connected with an integral structure top water inlet connecting pipe (, the lower end of the outer side surface of the condensation mounting box (3) is fixedly connected with an integral structure lateral drainage connecting pipe (10) which protrudes outwards.

2. The laterally split heat exchange unit for the water treatment condensing tower as claimed in claim 1, wherein: side direction concatenation groove (2) medial surface set up upper end open-ended inboard concatenation groove (11), condensation mounting box (3) preceding, on the rear side wall have with inboard concatenation groove (11) matched with a body structure side direction concatenation strip (12), condensation mounting box (3) insert inboard concatenation groove (11) inside and side direction concatenation groove (2) inside joint through side direction concatenation strip (12), horizontal air duct (6) fix inside side direction concatenation groove (2) through transversely inserting inboard exhaust connecting hole (7) inside with condensation mounting box (3) joint.

3. The laterally split heat exchange unit for the water treatment condensing tower as claimed in claim 1, wherein: the inside longitudinal fixed connection of condensation mounting box (3) be used for communicateing inside hot exchange pipe (13) of heliciform structure of bottom intubate (8) and top connecting pipe (9) of intaking.

4. The laterally split heat exchange unit for the water treatment condensing tower as claimed in claim 1, wherein: the horizontal air duct (6) comprises a telescopic air duct (14) inserted in the horizontal air guide hole (5), an annular sealing cover (15) fixed at the inner side end of the telescopic air duct (14) and a compression sealing spring (16) elastically connecting the annular sealing cover (15) with the inner side surface of the main tower body (1), the upper end of the main tower body (1) is provided with a top control hole (17), a pressing adjusting shaft (18) used for controlling the horizontal air duct (6) to stretch and translate in the horizontal air guide hole (5) is arranged in the top control hole (17), the upper end of the telescopic air duct (14) is provided with a top adjusting groove (19) internally provided with a meshing tooth groove, the lower end of the pressing adjusting shaft (18) is provided with an integral structure gear rod (20) matched with the meshing tooth groove, and the pressing adjusting shaft (18) is meshed with the meshing tooth groove through pressing the control gear rod (20) downwards, the pressing adjusting shaft (18) controls the telescopic air guide pipe (14) to translate in the transverse air guide hole (5) through rotation.

5. The laterally split heat exchange unit for the water treatment condensing tower as claimed in claim 1, wherein: the upper end of the inner side surface of the bottom water guide hole (4) is provided with an internal sealing cavity (22) internally provided with an elastic extrusion sealing sheet (21).

6. The laterally split heat exchange unit for the water treatment condensing tower as claimed in claim 4, wherein: a lateral extrusion groove (24) with an internal extrusion spring (23) is formed in the inner side surface of the top control hole (17), and the extrusion spring (23) is sleeved on the gear rod (20) to control the pressing adjusting shaft (18) to extrude upwards.

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