CN206131825U - High -efficient plate heat exchanger - Google Patents

Abstract

The utility model provides a high -efficient plate heat exchanger, sticis board, roof, bottom plate, clamp bolt, a plurality of group of sheets, support including the fixed board, activity of sticising, the fixed board that sticiss be fixed in the support on, group of sheets be fixed in through the clamp bolt fixed sticising on the board, the activity sticis the board and be fixed in one side of group of sheets, the roof be located group of sheets's top, the bottom plate be located group of sheets's below. High -efficient plate heat exchanger's group of sheets included lateral part and pars convoluta, the pars convoluta adopts non planar formation, has increased the area of contact between the group of sheets, has improved the hot exchange ratio of two kinds of rings.

Description

A kind of efficient plate-type heat-exchanger

Technical field

This utility model belongs to chemical field, more particularly, to a kind of efficient plate-type heat-exchanger.

Background technology

Plate type heat exchanger is changed by a series of a kind of new and effective of the sheet metal closed assembly with certain bellows-shaped Hot device.Thin rectangular shape passage is formed between various plates, heat exchange is carried out by plate.Plate type heat exchanger be liquid-liquid, liquid- Vapour carries out the ideal equipment of heat exchange.It has heat exchange efficiency height, little heat loss, advantages of compact and light structure, floor space it is little, install It is easy to clean, be widely used, long service life the features such as.Under uniform pressure damaed cordition, its ratio of heat transfer coefficient shell and tube is changed Hot device is high 3-5 times, floor space for pipe heat exchanger 1/3rd, and heat recovery rate may be up to more than 90%.

However, the passage formed between current plate type heat exchanger its adjacent two plate is rectangle, what is be consequently formed changes Hot face is less, and the stroke that heat transferring medium is flowed through is shorter, is unfavorable for fully heat exchange, and heat recovery rate needs further to be improved.

The content of the invention

In view of this, this utility model is directed to a kind of efficient plate-type heat-exchanger, increased the contact between plate groups Area, improves the efficiency of the heat exchange between water and heat transferring medium.

To reach above-mentioned purpose, what the technical solution of the utility model was realized in：

A kind of efficient plate-type heat-exchanger, including stationary pinch plate, activity press plate, top board, base plate, fishbolt, plate Group, support, described stationary pinch plate are fixed on described support, and described plate groups are fixed by described fishbolt On described stationary pinch plate, the side that plate is fixed on described plate groups is pressed in described activity, and described top board is located at The top of described plate groups, described base plate are located at the lower section of described plate groups；

Described stationary pinch plate is provided with water inlet, outlet, heat transferring medium import, heat transferring medium outlet, described Water inlet is located at the bottom of described stationary pinch plate, and described outlet is located at the top of described water inlet, and described changes Thermal medium inlet is located at the side of described outlet, and described heat transferring medium outlet is under described heat transferring medium import Side, described plate groups are provided with the position phase exported with described water inlet, outlet, heat transferring medium import, heat transferring medium Corresponding through hole；

Described plate groups include that water leads to the logical piece of piece, heat transferring medium, and the logical piece of described water is staggeredly set with the logical piece of heat transferring medium Put, the logical piece of described water includes the first water sidepiece, the first pars convoluta, the first heat transferring medium sidepiece, the first described pars convoluta is located at institute Between the first water sidepiece stated and the first heat transferring medium sidepiece, it is connected between the first described water sidepiece and the first pars convoluta, institute The logical piece of heat transferring medium stated includes the second water sidepiece, the second pars convoluta, the second heat transferring medium sidepiece, and the second described pars convoluta is located at institute Between the second water sidepiece stated and the second heat transferring medium sidepiece, it is connected between the second described pars convoluta and the second heat transferring medium sidepiece It is logical；The first described water sidepiece is provided with the through hole corresponding with the position of described water inlet, outlet, the second described water Sidepiece is provided with the through hole corresponding with the position of described water inlet, outlet, and the first described heat transferring medium sidepiece is provided with The through hole corresponding with the position that described heat transferring medium import, heat transferring medium are exported, the second described heat transferring medium sidepiece set There is the through hole corresponding with the position that described heat transferring medium import, heat transferring medium are exported.

Further, cushion is provided between described base plate and plate groups；Arrange between described top board and plate groups There is cushion.

Further, heat-insulation layer is provided with the outside of described plate groups, described heat-insulation layer is located at described stationary pinch Plate and activity are pressed between plate.

Further, described plate groups and activity is pressed；Described plate groups are tight with fixed Heat-preservation cotton is filled between pressing plate.

Further, the first described pars convoluta is identical with the shape of the second described pars convoluta；The first described water sidepiece and institute The shape of the second water sidepiece stated is identical；The shape of the first described heat transferring medium sidepiece and the second described heat transferring medium sidepiece It is identical.

Further, the cross section of the first described pars convoluta be shaped as it is wavy；The cross section of the second described pars convoluta It is shaped as wavy.

Relative to prior art, efficient plate-type heat-exchanger described in the utility model has the advantage that：

(1) plate groups of efficient plate-type heat-exchanger described in the utility model include sidepiece and pars convoluta, and pars convoluta is using non- Planar structure, increased the contact area between plate groups, improve the rate of heat exchange of two media.

(2) efficient plate-type heat-exchanger described in the utility model is provided with heat-insulation layer, heat-preservation cotton, it is to avoid heat scatter and disappear, Energy saving；Cushion is provided between plate groups and top board, base plate, prevents from colliding with, improve service life.

Description of the drawings

The accompanying drawing for constituting a part of the present utility model is used for providing further understanding to of the present utility model, and this practicality is new The schematic description and description of type is used to explain this utility model, does not constitute to improper restriction of the present utility model. In accompanying drawing：

Fig. 1 is the side view of the efficient plate-type heat-exchanger described in this utility model embodiment；

Fig. 2 is the top view of the efficient plate-type heat-exchanger described in this utility model embodiment；

Fig. 3 is the schematic diagram of the stationary pinch plate described in this utility model embodiment.

Description of reference numerals：

1- stationary pinch plates；Plate is pressed in 2- activities；3- top boards；4- base plates；5- cushions；6- fishbolts；7- water inlets； 8- outlets；9- heat transferring medium imports；10- heat transferring mediums are exported；11- plate groups；12- heat-insulation layers；13- supports；14- water leads to Piece；15- heat transferring mediums lead to piece；16- the first water sidepieces；The first pars convolutas of 17-；18- the first heat transferring medium sidepieces；The second water of 19- side Portion；The second pars convolutas of 20-；21- the second heat transferring medium sidepieces；22- heat-preservation cottons.

Specific embodiment

It should be noted that in the case where not conflicting, the feature in embodiment and embodiment in this utility model can To be mutually combined.

In description of the present utility model, it is to be understood that term " " center ", " longitudinal direction ", " horizontal ", " on ", D score, The orientation or position relationship of the instruction such as "front", "rear", "left", "right", " vertical ", " level ", " top ", " bottom ", " interior ", " outward " is Based on orientation shown in the drawings or position relationship, it is for only for ease of description this utility model and simplifies description, rather than indicate Or the device or element of hint indication with specific orientation, with specific azimuth configuration and operation, therefore must not be understood that It is to restriction of the present utility model.Additionally, term " first ", " second " etc. are only used for describing purpose, and it is not intended that indicating Or hint relative importance or the implicit quantity for indicating indicated technical characteristic.Thus, " first ", " second " etc. are defined Feature can express or implicitly include one or more this feature.In description of the present utility model, unless separately It is described, " multiple " are meant that two or more.

In description of the present utility model, it should be noted that unless otherwise clearly defined and limited, term " peace Dress ", " being connected ", " connection " should be interpreted broadly, for example, it may be fixedly connected, or be detachably connected, or integratedly Connection；Can be mechanically connected, or electrically connect；Can be joined directly together, it is also possible to be indirectly connected to by intermediary, It can be the connection of two element internals.For the ordinary skill in the art, can be by concrete condition understanding State concrete meaning of the term in this utility model.

Below with reference to the accompanying drawings and in conjunction with the embodiments describing this utility model in detail.

As Figure 1-3, a kind of efficient plate-type heat-exchanger, including stationary pinch plate 1, activity presses plate 2, top board 3, base plate 4th, fishbolt 6, plate groups 11, support 13, described stationary pinch plate 1 are fixed on described support 13, described plate Group 11 is fixed on described stationary pinch plate 1 by described fishbolt 6, and described activity is pressed described in plate 2 is fixed on Plate groups 11 side, described top board 3 is located at the top of described plate groups 11, and described base plate 4 is located at described plate The lower section of piece group 11；

Described stationary pinch plate 1 is provided with water inlet 7, outlet 8, heat transferring medium import 9, heat transferring medium outlet 10, Described water inlet 7 is located at the bottom of described stationary pinch plate 1, and described outlet 8 is located at the upper of described water inlet 7 Side, described heat transferring medium import 9 are located at the side of described outlet 8, and described heat transferring medium outlet 10 is located at described The lower section of heat transferring medium import 9, described plate groups 11 are provided with and described water inlet 7, outlet 8, heat transferring medium import 9th, the corresponding through hole in the position of heat transferring medium outlet 10；

Described plate groups 11 include the logical piece 15 of the logical piece 14, heat transferring medium of water, and the logical piece 14 of described water is led to heat transferring medium Piece 15 is crisscross arranged, and the logical piece 14 of described water includes the first water sidepiece 16, the first pars convoluta 17, the first heat transferring medium sidepiece 18, institute The first pars convoluta 17 stated is located between the first described water sidepiece 16 and the first heat transferring medium sidepiece 18, the first described water sidepiece It is connected between 16 and the first pars convoluta 17, the logical piece 15 of described heat transferring medium includes the second water sidepiece 19, the second pars convoluta 20, second Heat transferring medium sidepiece 21, described second pars convoluta 20 be located at the second described water sidepiece 19 and the second heat transferring medium sidepiece 21 it Between, it is connected between the second described pars convoluta 20 and the second heat transferring medium sidepiece 21；The first described water sidepiece 16 be provided with The corresponding through hole in described water inlet 7, the position of outlet 8, the second described water sidepiece 19 are provided with and described water inlet Mouthfuls 7, the corresponding through hole in the position of outlet 8, the first described heat transferring medium sidepiece 18 are provided with to enter with described heat transferring medium Mouthfuls 9, the corresponding through hole in the position of heat transferring medium outlet 10, the second described heat transferring medium sidepiece 21 are provided with and described heat exchange The corresponding through hole in position of medium entrance 9, heat transferring medium outlet 10.

Cushion 5 is provided between described base plate 4 and plate groups 11；Arrange between described top board 3 and plate groups 11 There is cushion 5.Prevent from colliding with, improve service life.

The outside of described plate groups 11 is provided with heat-insulation layer 12, and described heat-insulation layer 12 is located at described stationary pinch plate 1 and activity press between plate 2.Avoid scattering and disappearing for heat, energy saving.

Described plate groups 11 and activity are pressed；Described plate groups 11 are tight with fixed Heat-preservation cotton 22 is filled between pressing plate 1.Avoid scattering and disappearing for heat, energy saving.

The first described pars convoluta 17 is identical with the shape of the second described pars convoluta 20；The first described water sidepiece 16 with it is described The second water sidepiece 19 shape it is identical；The first described heat transferring medium sidepiece 18 and the second described heat transferring medium sidepiece 21 Shape is identical.

Being shaped as the cross section of the first described pars convoluta 17 is wavy；The shape of the cross section of the second described pars convoluta 20 For wavy.

Preferred embodiment of the present utility model is the foregoing is only, it is not to limit this utility model, all at this Within the spirit and principle of utility model, any modification, equivalent substitution and improvements made etc. should be included in this utility model Protection domain within.

Claims (6)

1. a kind of efficient plate-type heat-exchanger, it is characterised in that：Press plate, top board, base plate, clamping including stationary pinch plate, activity Bolt, plate groups, support, described stationary pinch plate are fixed on described support, and described plate groups pass through described folder Tight bolt is fixed on described stationary pinch plate, and the side that plate is fixed on described plate groups is pressed in described activity, described Top board be located at the top of described plate groups, described base plate is located at the lower section of described plate groups；

Described stationary pinch plate is provided with water inlet, outlet, heat transferring medium import, heat transferring medium outlet, described water inlet Mouth is located at the bottom of described stationary pinch plate, and described outlet is located at the top of described water inlet, and described heat exchange is situated between Matter import is located at the side of described outlet, and described heat transferring medium outlet is located at the lower section of described heat transferring medium import, Described plate groups are provided with corresponding with the position of described water inlet, outlet, heat transferring medium import, heat transferring medium outlet Through hole；

Described plate groups include that water leads to the logical piece of piece, heat transferring medium, and the logical piece of described water is crisscross arranged with the logical piece of heat transferring medium, institute The logical piece of the water stated includes the first water sidepiece, the first pars convoluta, the first heat transferring medium sidepiece, and the first described pars convoluta is located at described the Between one water sidepiece and the first heat transferring medium sidepiece, it is connected between the first described water sidepiece and the first pars convoluta, described changes The logical piece of thermal medium includes the second water sidepiece, the second pars convoluta, the second heat transferring medium sidepiece, and the second described pars convoluta is located at described the Between two water sidepieces and the second heat transferring medium sidepiece, it is connected between the second described pars convoluta and the second heat transferring medium sidepiece；Institute The the first water sidepiece stated is provided with the through hole corresponding with the position of described water inlet, outlet, the second described water sidepiece The through hole corresponding with the position of described water inlet, outlet is provided with, the first described heat transferring medium sidepiece is provided with and institute The heat transferring medium import stated, the corresponding through hole in position of heat transferring medium outlet, the second described heat transferring medium sidepiece be provided with Described heat transferring medium import, the corresponding through hole in position of heat transferring medium outlet.

2. efficient plate-type heat-exchanger according to claim 1, it is characterised in that：Arrange between described base plate and plate groups There is cushion；Cushion is provided between described top board and plate groups.

3. efficient plate-type heat-exchanger according to claim 1, it is characterised in that：Guarantor is provided with the outside of described plate groups Warm layer, described heat-insulation layer is located at described stationary pinch plate and activity is pressed between plate.

4. efficient plate-type heat-exchanger according to claim 1, it is characterised in that：Described plate groups and activity press plate it Between be filled with heat-preservation cotton；Heat-preservation cotton is filled between described plate groups and stationary pinch plate.

5. the efficient plate-type heat-exchanger according to any one of claim 1-4, it is characterised in that：Described the first pars convoluta with The shape of the second described pars convoluta is identical；The first described water sidepiece is identical with the shape of the second described water sidepiece；Described First heat transferring medium sidepiece is identical with the shape of the second described heat transferring medium sidepiece.

6. efficient plate-type heat-exchanger according to claim 5, it is characterised in that：The shape of the cross section of the first described pars convoluta Shape is wavy；Being shaped as the cross section of the second described pars convoluta is wavy.