CN206891230U - One kind goes with each other all the time swimming pool heat exchanger - Google Patents

One kind goes with each other all the time swimming pool heat exchanger Download PDF

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Publication number
CN206891230U
CN206891230U CN201720738652.4U CN201720738652U CN206891230U CN 206891230 U CN206891230 U CN 206891230U CN 201720738652 U CN201720738652 U CN 201720738652U CN 206891230 U CN206891230 U CN 206891230U
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heat exchanger
disk
tube
heat
inlet
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CN201720738652.4U
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Chinese (zh)
Inventor
伍兆海
叶见
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Guangzhou Harmony Electric Equipment Co Ltd
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Guangzhou Harmony Electric Equipment Co Ltd
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Abstract

Gone with each other all the time swimming pool heat exchanger, including heat exchanger shell, inlet attack, heat exchange tube inlet one, heat exchange tube inlet two, thermal medium entrance, heat exchanger tube one, heat exchanger tube two, disk one, helical groove, disk two, disk three, disk four, disk five, outlet connection, heat transfer tube outlet two, heat transfer tube outlet one, thermal medium outlet, connecting tube two and connecting tube one the utility model discloses one kind;The utility model have it is rational in infrastructure it is simple, production cost is low, easy for installation, it is multiple functional, during use, thermal medium is entered in helical groove by thermal medium entrance first, and the water in swimming pool is then respectively delivered in heat exchange tube inlet one and heat exchange tube inlet two by water pump, then water enters in heat exchanger tube one and heat exchanger tube two and carries out heat exchange with thermal medium, when additionally needing output higher temperature, it is only necessary to a water flowing in heat exchanger tube one and heat exchanger tube two.

Description

One kind goes with each other all the time swimming pool heat exchanger
Technical field:
It the utility model is related to a kind of heat exchanger, more particularly to one kind goes with each other all the time swimming pool heat exchanger.
Background technology:
Heat pipe is to realize the heat transfer element of heat transfer by the phase transformation of therein hydraulic fluid;Hot pipe technique is U.S. in 1963 One kind of George Ge Luofo (George Grover) inventions of state Los Alamos (Los Alamos) National Laboratory is referred to as The heat transfer element of " heat pipe ", it takes full advantage of the quick thermal transport property of heat-conduction principle and refrigeration filling, will through heat pipe The heat of thermal objects is delivered to outside thermal source rapidly, and its capacity of heat transmission exceedes the capacity of heat transmission of any known metal;It is and existing Swimming pool heat exchanger heat exchange efficiency can not export the water of higher temperature in addition than relatively low.
Utility model content:
The purpose of this utility model is that to solve the above problems and provides one kind and go with each other all the time swimming pool heat exchanger, solution Existing swimming pool heat exchanger heat exchange efficiency determined than relatively low, the problem of can not exporting the water of higher temperature in addition.
In order to solve the above problems, the utility model provides a kind of technical scheme:One kind goes with each other all the time swimming pool heat exchanger, Including heat exchanger shell, its innovative point is:Also include inlet attack, heat exchange tube inlet one, heat exchange tube inlet two, thermal medium to enter Mouth, heat exchanger tube one, heat exchanger tube two, disk one, helical groove, disk two, disk three, disk four, disk five, outlet connection, change Heat pipe outlet two, heat transfer tube outlet one, thermal medium outlet, connecting tube two and connecting tube one;The inlet attack is fixedly connected on Heat exchanger shell upper left side porch, the inlet attack upper inside are provided with thermal medium entrance;Inside the heat exchanger shell Being fixedly connected sequentially from top to bottom has disk one, disk two, disk three, disk four and disk five;The disk one, disk two, Disk three, disk four and disk five are equipped with helical groove above, and together, the spiral is recessed for head and the tail between the helical groove Groove top porch inside inlet attack with being connected, and the helical groove least significant end exit inside outlet connection with being connected It is logical, heat exchanger tube one and heat exchanger tube two are equipped with inside the helical groove;The outlet connection is fixedly connected on heat exchanger shell Bottom center exit, the inlet attack inner lower are provided with thermal medium outlet;The heat exchanger tube one is five, the heat exchange Joined end to end and connect by connecting tube one between pipe one, the top of heat exchanger tube one is provided with heat exchange tube inlet one, the heat exchanger tube One lowermost end is provided with heat transfer tube outlet one;The heat exchanger tube two is five, passes through the head and the tail of connecting tube two between the heat exchanger tube two It is connected, the top of heat exchanger tube two is provided with heat exchange tube inlet two, and the lowermost end of heat exchanger tube two is provided with heat transfer tube outlet two; The heat exchange tube inlet one and heat exchange tube inlet two are respectively positioned on inlet attack left hand external;The heat transfer tube outlet one and heat exchanger tube Outlet two is respectively positioned on outlet connection right hand external.
Preferably, the heat exchanger tube one and heat exchanger tube two helically shape.
Preferably, the disk one, disk two, disk three, disk four and disk five have insulation material to be made.
Preferably, the disk one, disk two, disk three, disk four and disk five are equipped with sealing gasket between each other.
The beneficial effects of the utility model:The utility model have it is rational in infrastructure it is simple, production cost is low, easy for installation, Multiple functional, in use, thermal medium is entered in helical groove by thermal medium entrance first, and the water in swimming pool then passes through water Pump is respectively delivered in heat exchange tube inlet one and heat exchange tube inlet two, then water enter in heat exchanger tube one and heat exchanger tube two with heat Medium carries out heat exchange, is constantly in thermal medium during two heat exchange of heat exchanger tube one and heat exchanger tube here, in addition spiral shell here It is several to revolve groove, so as to add time of the thermal medium in helical groove, is also just improved and heat exchanger tube one and heat exchange The time of the heat exchange of pipe two, two heat exchanger tubes set here in a word, the amount into water was both ensure that, while in turn ensure that heat exchange effect Rate;When additionally needing output higher temperature, it is only necessary to a water flowing in heat exchanger tube one and heat exchanger tube two.
Brief description of the drawings:
For ease of explanation, the utility model is described in detail by following specific implementations and accompanying drawing.
Fig. 1 is structural representation of the present utility model.
Fig. 2 is the structural representation of heat exchanger tube.
1- heat exchanger shells;2- inlet attacks;3- heat exchange tube inlets one;4- heat exchange tube inlets two;5- thermal medium entrances;6- Heat exchanger tube one;7- heat exchanger tubes two;8- disks one;9- helical grooves;10- disks two;11- disks three;12- disks four;13- disks Five;14- outlet connections;15- heat transfer tube outlets two;16- heat transfer tube outlets one;17- thermal medium outlets;18- connecting tubes two;19- Connecting tube one.
Embodiment:
As shown in figure 1, present embodiment uses following technical scheme:One kind goes with each other all the time swimming pool heat exchanger, including Heat exchanger shell 1, in addition to inlet attack 2, heat exchange tube inlet 1, heat exchange tube inlet 24, thermal medium entrance 5, heat exchanger tube one 6th, heat exchanger tube 27, disk 1, helical groove 9, disk 2 10, disk 3 11, disk 4 12, disk 5 13, outlet connection 14, Heat transfer tube outlet 2 15, heat transfer tube outlet 1, thermal medium outlet 17, connecting tube 2 18 and connecting tube 1;The entrance connects First 2 are fixedly connected on the upper left side porch of heat exchanger shell 1, and the upper inside of inlet attack 2 is provided with thermal medium entrance 5;Institute State to be fixedly connected sequentially from top to bottom inside heat exchanger shell 1 and have disk 1, disk 2 10, disk 3 11, disk 4 12 and circle Disk 5 13;The disk 1, disk 2 10, disk 3 11, disk 4 12 and disk 5 13 are equipped with helical groove 9, institute above Together, the top porch of helical groove 9 is described with being connected inside inlet attack 2 for head and the tail between stating helical groove 9 The least significant end exit of helical groove 9 is equipped with heat exchanger tube 1 with being connected inside outlet connection 14 inside the helical groove 9 With heat exchanger tube 27;The outlet connection 14 is fixedly connected on the bottom center exit of heat exchanger shell 1, in the inlet attack 2 Subordinate side is provided with thermal medium outlet 17;The heat exchanger tube 1 is five, first by connecting tube 1 between the heat exchanger tube 1 Tail is connected, and the top of heat exchanger tube 1 is provided with heat exchange tube inlet 1, and the lowermost end of heat exchanger tube 1 goes out provided with heat exchanger tube Mouth 1;The heat exchanger tube 27 is five, is joined end to end and connect by connecting tube 2 18 between the heat exchanger tube 27, the heat exchange The top of pipe 27 is provided with heat exchange tube inlet 24, and the lowermost end of heat exchanger tube 27 is provided with heat transfer tube outlet 2 15;The heat exchanger tube Entrance 1 and heat exchange tube inlet 24 are respectively positioned on the left hand external of inlet attack 2;The heat transfer tube outlet 1 and heat transfer tube outlet 2 15 are respectively positioned on the right hand external of outlet connection 14.
As shown in Fig. 2 the heat exchanger tube 1 and heat exchanger tube 27 helically shape.
Wherein, the disk 1, disk 2 10, disk 3 11, disk 4 12 and disk 5 13 have insulation material system Into;The disk 1, disk 2 10, disk 3 11, disk 4 12 and disk 5 13 are equipped with sealing gasket between each other.
Use state of the present utility model is:The utility model have it is rational in infrastructure it is simple, production cost is low, installation side Just, multiple functional, in use, thermal medium is entered in helical groove 9 by thermal medium entrance 5 first, and the water in swimming pool is then It is respectively delivered to by water pump in heat exchange tube inlet 1 and heat exchange tube inlet 24, then water enters heat exchanger tube 1 and heat exchange Carry out heat exchange in pipe 27 with thermal medium, be constantly in thermal medium during 27 heat exchange of heat exchanger tube 1 and heat exchanger tube here In, helical groove 9 is several here in addition, so as to add time of the thermal medium in helical groove 9, also just improve with The time of heat exchanger tube 1 and heat exchanger tube 27 heat exchange together, two heat exchanger tubes set here in a word, both it ensure that into water Amount, while in turn ensure that heat exchange efficiency;When additionally needing output higher temperature, it is only necessary to in heat exchanger tube 1 and heat exchanger tube 27 A water flowing, that is, thermal medium is transferred heat to a heat exchanger tube, also avoid to improve thermal medium input When temperature.
The advantages of general principle and principal character of the present utility model and the utility model has been shown and described above, one's own profession The technical staff of industry is it should be appreciated that the utility model is not restricted to the described embodiments, described in above-described embodiment and specification Simply illustrate principle of the present utility model, on the premise of the spirit and scope of the utility model is not departed from, the utility model is also Various changes and modifications are had, these changes and improvements are both fallen within claimed the scope of the utility model, the utility model Claimed scope is by appended claims and its equivalent thereof.

Claims (4)

  1. The swimming pool heat exchanger 1. one kind goes with each other all the time, including heat exchanger shell (1), it is characterised in that:Also include inlet attack (2), Heat exchange tube inlet one (3), heat exchange tube inlet two (4), thermal medium entrance (5), heat exchanger tube one (6), heat exchanger tube two (7), disk one (8), helical groove (9), disk two (10), disk three (11), disk four (12), disk five (13), outlet connection (14), heat exchange Pipe exports two (15), heat transfer tube outlet one (16), thermal medium outlet (17), connecting tube two (18) and connecting tube one (19);
    The inlet attack (2) is fixedly connected on heat exchanger shell (1) upper left side porch, on inlet attack (2) inside Side is provided with thermal medium entrance (5);
    Being fixedly connected sequentially from top to bottom inside the heat exchanger shell (1) has disk one (8), disk two (10), disk three (11), disk four (12) and disk five (13);
    The disk one (8), disk two (10), disk three (11), disk four (12) and disk five (13) are equipped with spiral above Groove (9), between the helical groove (9) head and the tail together, helical groove (9) the top porch and inlet attack (2) internal to be connected, with being connected inside outlet connection (14), the spiral is recessed in helical groove (9) the least significant end exit Heat exchanger tube one (6) and heat exchanger tube two (7) are equipped with inside groove (9);
    The outlet connection (14) is fixedly connected on heat exchanger shell (1) bottom center exit, and the inlet attack (2) is internal Downside is provided with thermal medium outlet (17);
    The heat exchanger tube one (6) is five, is joined end to end and connect by connecting tube one (19) between the heat exchanger tube one (6), described Heat exchanger tube one (6) top is provided with heat exchange tube inlet one (3), and described (6) lowermost end of heat exchanger tube one is provided with heat transfer tube outlet one (16);
    The heat exchanger tube two (7) is five, is joined end to end and connect by connecting tube two (18) between the heat exchanger tube two (7), described Heat exchanger tube two (7) top is provided with heat exchange tube inlet two (4), and described (7) lowermost end of heat exchanger tube two is provided with heat transfer tube outlet two (15);
    The heat exchange tube inlet one (3) and heat exchange tube inlet two (4) are respectively positioned on inlet attack (2) left hand external;
    The heat transfer tube outlet one (16) and heat transfer tube outlet two (15) are respectively positioned on outlet connection (14) right hand external.
  2. The swimming pool heat exchanger 2. one kind according to claim 1 goes with each other all the time, it is characterised in that:The heat exchanger tube one (6) and Heat exchanger tube two (7) helically shape.
  3. The swimming pool heat exchanger 3. one kind according to claim 1 goes with each other all the time, it is characterised in that:The disk one (8), disk Two (10), disk three (11), disk four (12) and disk five (13) have insulation material to be made.
  4. The swimming pool heat exchanger 4. one kind according to claim 1 goes with each other all the time, it is characterised in that:The disk one (8), disk Two (10), disk three (11), disk four (12) and disk five (13) are equipped with sealing gasket between each other.
CN201720738652.4U 2017-06-23 2017-06-23 One kind goes with each other all the time swimming pool heat exchanger Active CN206891230U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201720738652.4U CN206891230U (en) 2017-06-23 2017-06-23 One kind goes with each other all the time swimming pool heat exchanger

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201720738652.4U CN206891230U (en) 2017-06-23 2017-06-23 One kind goes with each other all the time swimming pool heat exchanger

Publications (1)

Publication Number Publication Date
CN206891230U true CN206891230U (en) 2018-01-16

Family

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Family Applications (1)

Application Number Title Priority Date Filing Date
CN201720738652.4U Active CN206891230U (en) 2017-06-23 2017-06-23 One kind goes with each other all the time swimming pool heat exchanger

Country Status (1)

Country Link
CN (1) CN206891230U (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN111795591A (en) * 2020-06-23 2020-10-20 倪浩 Heat exchange container

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN111795591A (en) * 2020-06-23 2020-10-20 倪浩 Heat exchange container

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