CN109059588A - A kind of plate heat exchanger - Google Patents

Abstract

The present invention relates to heat exchange equipment technologies, disclose a kind of plate heat exchanger, it includes multiple corrugated platings for stacking gradually connection, corrugated plating offers two rows of wave grooves side by side, refrigerant passage or heat medium passage are formed between two adjacent corrugated platings, refrigerant passage and heat medium passage are staggered, the interval for being located at two rows of wave grooves between two adjacent corrugated platings is provided with partition, refrigerant passage or heat medium passage are separated into the heat exchanging chamber of two connections by partition, the refrigerant inlet and refrigerant exit of plate heat exchanger are set to along the side of plate heat exchanger width direction, heat medium import and heat medium export is set to the other side, the both ends of refrigerant passage are connected to refrigerant inlet and refrigerant exit respectively, the both ends of heat medium passage are connected to heat medium import and heat medium export respectively.The invention has the benefit that refrigerant inlet and outlet, heating agent inlet and outlet are located at the same side of plate heat exchanger width direction, simplify external water circuit system, improve the heat exchange efficiency of heat exchanger.

Description

A kind of plate heat exchanger

Technical field

The present invention relates to heat exchange equipment technologies, more particularly to a kind of plate heat exchanger.

Background technique

With the raising of gas-heating water heater popularity rate, user type becomes increasingly abundant, and especially coal changes gas user, water route System connector has been formed, and part water circuit system heating water requires ipsilateral with bathroom water.In this case, hot and cold matchmaker's disengaging The plate heat exchanger of mouth heteropleural plate is difficult to the use demand for meeting different users to gas-heating water heater.

Its refrigerant inlet of existing plate heat exchanger and refrigerant exit are set to the two sides on along its length, and refrigerant is from cold After matchmaker's import flows into, flowed out along its length from refrigerant exit；Likewise, Heating medium and heating agent outlet are also disposed on along length The two sides on direction are spent, heating agent exports from heating agent flow out along its length after Heating medium inflow.It is not able to satisfy not only existing There are the jointing requirements of the water circuit system inside gas-heating water heater, complicate water circuit system, and further increases water route The water resistance of system keeps the energy consumption of water pump higher；And its heat exchanger channels of existing plate heat exchanger are shorter, heat exchange efficiency is lower.

Summary of the invention

The purpose of the present invention is overcoming the deficiencies of the prior art and provide a kind of plate heat exchanger, refrigerant inlet can be realized It is respectively arranged on the ipsilateral of the width direction along plate heat exchanger with refrigerant exit, heat medium import and heat medium export, combustion can be simplified The waterway structure of gas heating hot water furnace interior reduces the water resistance of water circuit system, and can increase the heat exchange efficiency of heat exchanger.

To achieve the goals above, the present invention provides a kind of plate heat exchanger comprising multiple waves for stacking gradually connection Card, the corrugated plating offer two rows of wave grooves, shape between two adjacent corrugated platings side by side along its length At having refrigerant passage or heat medium passage, the refrigerant passage and the heat medium passage are staggered, the plate heat exchanger The four corners of the same side offer refrigerant inlet, refrigerant exit, Heating medium, heating agent outlet, the refrigerant inlet and institute respectively It states refrigerant exit and is set set on the plate heat exchanger along the same side of its width direction, the Heating medium and heating agent outlet In the plate heat exchanger along the other side of its width direction；It is located at two rows of ripples between two adjacent corrugated platings The interval of slot is provided with partition, and it is mutual that the refrigerant passage or the heat medium passage are separated into two one end by the partition The heat exchanging chamber of connection, the both ends of the refrigerant passage are connected to the refrigerant inlet and the refrigerant exit respectively, the heating agent The both ends in channel respectively with the Heating medium and the heating agent outlet.

Preferably, the edge of the corrugated plating is provided with the first flange, the first flange and the phase of the corrugated plating The closed refrigerant passage or heat medium passage are constituted between the adjacent corrugated plating.

Preferably, the quadrangle of each corrugated plating offers through-hole, away from the refrigerant inlet and Through hole positioned at the corrugated plating in outside is provided with plug；Each corrugated plating superposition makes corresponding each through-hole Connection respectively constitutes the refrigerant inlet, the refrigerant exit, the Heating medium, heating agent outlet.

Preferably, enclose adjacent two corrugated plating of the refrigerant passage, be located at the heating agent into Mouthful and the through-hole edge in the heating agent exit be provided with the second flange perpendicular to the corrugated plating plate face, described the Two flange completely cut off the refrigerant passage and the Heating medium, heating agent outlet；Enclose the adjacent of the heat medium passage Two corrugated platings, the edge of the through-hole at the refrigerant inlet and the refrigerant exit is provided with vertically In the third flange of the corrugated plating plate face, the third flange is by the heat medium passage and the refrigerant inlet, the refrigerant Outlet isolation.

Preferably, a side of the partition is fixedly connected on the corrugated plating, the adjacent wave Card is corresponding with the partition to offer card slot on one side, and the other side of the partition matches clamping with the card slot.

Preferably, what the refrigerant inlet, the refrigerant exit, the Heating medium, the heating agent exported opens Connector or the 4th outside flange are provided at mouthful.

Preferably, the periphery of the connector or the 4th flange offers clamping part or screw thread.

Preferably, the wave groove is in " V "-shape.

Preferably, wave groove described in any one row on corrugated plating towards identical, and two rows of wave grooves Direction it is opposite.

Preferably, the opening direction of the wave groove in each corrugated plating is identical.

The present invention provides a kind of plate heat exchanger, by the way that partition is arranged in the intermediate of two adjacent corrugated platings, by refrigerant Channel or heat medium passage are set as two heat exchanging chambers of one end connection, make refrigerant inlet and outlet, heating agent inlet and outlet along plate-type heat-exchange The width direction of device be respectively arranged at it is ipsilateral, can not only make up in existing market without hot and cold matchmaker inlet and outlet it is ipsilateral caused by adopt The problem of the water circuit system complexity of warm water heater, can reduce the water resistance of water circuit system, saves the energy consumption of water pump；And change cold The path in matchmaker channel and heat medium passage keeps the structure of plate heat exchanger simple, and heat exchange efficiency is high.

Detailed description of the invention

Fig. 1 is a kind of structural schematic diagram of plate heat exchanger in the embodiment of the present invention；

Fig. 2 is a kind of perspective view of the explosion of plate heat exchanger in the embodiment of the present invention；

Fig. 3 is a kind of perspective view of the explosion of another angle of plate heat exchanger in the embodiment of the present invention；

Fig. 4 is a kind of main view of plate heat exchanger in the embodiment of the present invention；

Fig. 5 is a kind of top view of plate heat exchanger in the embodiment of the present invention；

Fig. 6 is the A-A cross-sectional view of Fig. 4；

Fig. 7 is the B-B cross-sectional view of Fig. 4；

Fig. 8 is the C-C cross-sectional view of Fig. 4；

Fig. 9 is the portion the A partial enlarged view of Fig. 6；

Figure 10 is the portion the B partial enlarged view of Fig. 6.

In figure, 10, corrugated plating；11, wave groove；12, the first flange；13, through-hole；14, the second flange；15, third flange； 16, card slot；20, refrigerant passage；30, heat medium passage；40, partition；50, refrigerant inlet；60, refrigerant exit；70, Heating medium； 80, heating agent exports；90, plug；100, connector；200, the 4th flange.

Specific embodiment

With reference to the accompanying drawings and examples, specific embodiments of the present invention will be described in further detail.Implement below Example is not intended to limit the scope of the invention for illustrating the present invention.

In the description of the present invention, it is to be understood that, term " on ", "lower", "left", "right", "top", "bottom" etc. indicate Orientation or positional relationship be based on the orientation or positional relationship shown in the drawings, be merely for convenience of description the present invention and simplification retouch It states, rather than the device or element of indication or suggestion meaning must have a particular orientation, be constructed and operated in a specific orientation, Therefore it is not considered as limiting the invention.It should be understood that being retouched in the present invention using term " first ", " second " etc. Various information are stated, but these information should not necessarily be limited by these terms, these terms are only used to for same type of information being distinguished from each other It opens.For example, without departing from the present invention, " first " information can also be referred to as " second " information, it is similar, " second " information can also be referred to as " first " information.

Refering to shown in attached drawing 1-10, a kind of plate heat exchanger of the preferred embodiment of the present invention comprising multiple to stack gradually The corrugated plating 10 of connection, the corrugated plating 10 offer two rows of wave grooves 11, the design of wave groove 11 side by side along its length Keep cross section and the longitudinal section of corrugated plating 10 wave-shaped, can increase heat exchange area, the corrugated plating 10 of adjacent two it Between be formed with refrigerant passage 20 or heat medium passage 30, the refrigerant passage 20 and the heat medium passage 30 are staggered, described The four corners of the same side of plate heat exchanger offer refrigerant inlet 50, refrigerant exit along the Direction of superposition of the corrugated plating respectively 60, Heating medium 70, heating agent outlet 80, the refrigerant inlet 50 and the refrigerant exit 60 are set to the plate heat exchanger along it The same side of width direction, the Heating medium 70 and heating agent outlet 80 are set to the plate heat exchanger along its width direction The other side；The interval for being located at two rows of wave grooves 11 between the corrugated plating 10 of adjacent two is provided with partition 40, The refrigerant passage 20 or the heat medium passage 30 are separated into two heat exchanging chambers, the refrigerant passage 20 by the partition 40 Both ends be connected to respectively with the refrigerant inlet 50 and the refrigerant exit 60, the both ends of the heat medium passage 30 respectively with it is described Heating medium 70 and the heating agent outlet 80 be connected to, two heat exchanging chambers in the refrigerant passage 20 the close refrigerant into Mouthfuls 50 and the refrigerant 60 export closed at one end, be connected in the other end, two heat exchanging chambers in the heat medium passage 30 are leaning on Heating agent outlet 80 is closed at one end described in the nearly Heating medium 70, is connected in the other end.

Based on the above-mentioned technical proposal, the plate heat exchanger in the present embodiment passes through the stacking connection of several corrugated platings 10 It forms, and is staggeredly equipped with the refrigerant passage 20 passed through for refrigerant between two adjacent corrugated platings 10 and passes through for heating agent Heat medium passage 30, be provided with partition 40 between two adjacent corrugated platings 10, refrigerant passage 20 or heat medium passage 30 divided It is divided into the heat exchanging chamber of two connections.Again refering to Fig. 4,6-10 it is found that the refrigerant inlet 50 and the refrigerant exit 60 are set to institute The left side of plate heat exchanger along its length is stated, the Heating medium 70 and heating agent outlet 80 are set to the plate-type heat-exchange The right side of device along its length, refrigerant is flowed into from the refrigerant inlet 50 in the lower left corner shown in Fig. 4, and is respectively enterd shown in Fig. 6 Three refrigerant passages 20, the refrigerant passage 20 is separated into opening towards left U-shape by partition, and the refrigerant flows through institute It states refrigerant passage 20 and carries out heat exchange with the heating agent in spaced heat medium passage 30, last refrigerant is from shown in Fig. 8 cold 60 outflow of matchmaker outlet；Heating agent is flowed into from the Heating medium 70 in the lower right corner described in Fig. 4, and respectively enters heat medium passage described in Fig. 6 In 30, heat medium passage 30 is separated into opening towards right U-shape by the partition 40, and the heating agent flows through the heat medium passage 30 simultaneously Heat exchange is carried out with the refrigerant in the refrigerant passage 20 that is separated by, finally from 80 outflow of the outlet of heating agent described in Fig. 8.In the present embodiment Plate heat exchanger hot and cold matchmaker inlet and outlet be opened in the same side, can satisfy water circuit system heating water and the ipsilateral combustion of bathroom water The demand of gas water heater for heating user, greatly simplifies the waterway structure of heating hot water furnace interior, reduces water circuit system Water resistance, and heat exchange efficiency is high.

Illustratively, the corrugated plating 10 in the present embodiment is stainless sheet steel, two rows of continuously arranged ripples For slot 11 by being stamped to form, the wave groove 11 can increase heat exchange area, increase heat exchange efficiency.

In the present embodiment, it is preferable that the edge of the corrugated plating 10 is provided with the first flange 12, the institute of the corrugated plating 10 It states and constitutes the closed refrigerant passage 20 or heat medium passage 30 between the first flange 12 and the adjacent corrugated plating 10.? In process, first flange 12 is stamped out in the surrounding for the corrugated plating 10 that material is stainless steel, is turned over using described first Two adjacent corrugated platings 10 are welded on side 12, are sequentially overlapped installation, firmly install and simply.

Specifically, the quadrangle of each corrugated plating 10 in the present embodiment offers through-hole 13, deviates from the refrigerant Plug 90 is provided at the through-hole 13 of import 50 and the corrugated plating 10 on the outermost side, each corrugated plating 10 is superimposed It is connected to corresponding each through-hole 13, respectively constitutes the refrigerant inlet 50, refrigerant exit 60, Heating medium 70, heating agent Outlet 80.By each superposition of through-hole 13 connection being correspondingly arranged to constitute hot and cold matchmaker's inlet and outlet, and it is located at the ripple of bottommost Plug 90 on plate 10 can prevent refrigerant and heating agent from flowing out from the bottom of plate heat exchanger, and refrigerant is promoted to flow into refrigerant passage 20, Heating agent flows into heat medium passage 30.The through-hole 13 is opened up on the corrugated plating 10 of bottommost, is mainly laminated in for convenience thereon Welded connecting between each corrugated plating 10 passes through in welding operating process for solder.

Again refering to shown in attached drawing 3, in the present embodiment, the two neighboring corrugated plating of the refrigerant passage 20 is enclosed 10, it is provided at the edge for the through-hole 13 being located at the Heating medium 70 and heating agent outlet 80 perpendicular to wave Second flange 14 of 10 plate face of card, second flange 14 is by the refrigerant passage 20 and the Heating medium 70 and described 80 isolation of heating agent outlet, specifically, only needs to be arranged on a corrugated plating 10 wherein in the corrugated plating 10 of adjacent two Second flange 14；The two neighboring corrugated plating 10 for enclosing the heat medium passage 30 is being located at the refrigerant The edge of the through-hole 13 at import 50 and the refrigerant exit 60 is provided with the third perpendicular to 10 plate face of corrugated plating and turns over Side 15, the third flange 15 completely cut off the heat medium passage 30 and the refrigerant inlet 50 and the refrigerant exit 60, equally , it only needs that the third flange 15 is arranged on a corrugated plating 10 wherein in the corrugated plating 10 of adjacent two. The second flange 14 and third flange 15 in the present embodiment control the circulation of refrigerant and heating agent in the plate heat exchanger respectively Path prevents refrigerant from flowing into heat medium passage 30 and prevents heating agent from flowing into refrigerant passage 20.

As shown in Figures 2 and 3, it is preferable that a side of the partition 40 is fixedly connected on the corrugated plating 10, The adjacent corrugated plating 10 is corresponding with the partition 40 to offer card slot 16 on one side, the other side of the partition 40 with The card slot 16 matches clamping, can simply assemble two adjacent corrugated platings 10 by clamping.One side of partition 40 It is welded to connect at the midfeather of the two rows wave groove 11 of a corrugated plating 10, described in the other side insertion of partition 40 After carrying out Primary Location in card slot 16, then carrying out welding can two adjacent corrugated plating 10 of firm installation.Illustratively, Card slot 16 in the present embodiment is the structure through 10 two sides of corrugated plating, is manufactured simpler.

In the present embodiment, external water route, the refrigerant inlet 50, the refrigerant exit 60, the heat are connected for convenience Connector 100 or the 4th outside flange 200 are provided at matchmaker's import 70, heating agent outlet 80.Refering to attached drawing 2 it is found that There are two connectors 100 for setting in the present embodiment, are connected to the opening outermost of Heating medium 70 and heating agent outlet 80 Corrugated plating 10 on, and the plate heat exchanger setting in the present embodiment is there are two the 4th flange 200, respectively along being located at top The refrigerant inlet 50 of corrugated plating 10 and 13 edge of through-hole of refrigerant exit 60 extend outwardly setting.Illustratively, the connector 100 are welded to connect in 13 edge of through-hole of the corrugated plating 10.

The periphery of same purpose, the connector 100 or the 4th flange 200 in the present embodiment offers card Perhaps screw thread using buckle or is threadedly coupled external water route to buckle.

In the present embodiment, in order to increase heat exchange area, and the flowing of refrigerant and heating agent in the plate heat exchanger is reduced Resistance, the wave groove 11 are in " V "-shape.

Based on the above-mentioned technical proposal, same purpose, in any one row on the corrugated plating 10 in the present embodiment The wave groove 11 towards identical, and the direction of two rows of wave grooves 11 is opposite.

Illustratively, the opening direction of the wave groove 11 in each corrugated plating 10 in the present embodiment is identical, favorably In raising heat exchange efficiency.

To sum up, the embodiment of the present invention provides a kind of plate heat exchanger, is made of the superposition of several corrugated platings 10, and described The refrigerant inlet 50 of plate heat exchanger, refrigerant exit 60 are set to along the side of heat exchanger width direction, the Heating medium 70, Heating agent outlet 80 is set to the other side, facilitates the access of the water circuit system of water heater for heating, simplifies water circuit system structure to reduce The flow resistance of water flow；In addition, being provided with partition in refrigerant passage 20 and heat medium passage 30, make refrigerant passage and heat medium passage For lateral U-shape, heat exchange efficiency height.

The above is only a preferred embodiment of the present invention, it is noted that for the ordinary skill people of the art For member, without departing from the technical principles of the invention, several improvement and replacement can also be made, these are improved and replacement Also it should be regarded as protection scope of the present invention.

Claims (10)

1. a kind of plate heat exchanger, which is characterized in that including multiple corrugated platings (10) for stacking gradually connection, the corrugated plating (10) it offers side by side along its length two rows of wave grooves (11),

Refrigerant passage (20) or heat medium passage (30) are formed between the corrugated plating (10) of adjacent two, the refrigerant is logical Road (20) and the heat medium passage (30) are staggered, and the four corners of the same side of the plate heat exchanger offer refrigerant respectively Import (50), refrigerant exit (60), Heating medium (70), heating agent outlet (80), the refrigerant inlet (50) and the refrigerant go out Mouth (60) is set to the plate heat exchanger along the same side of its width direction, the Heating medium (70) and heating agent outlet (80) it is set to the plate heat exchanger along the other side of its width direction,

The interval for being located at two rows of wave grooves (11) between the corrugated plating (10) of adjacent two is provided with partition (40), The partition (40) by the refrigerant passage (20) or the heat medium passage (30) be separated into two one end be interconnected change The both ends of hot chamber, the refrigerant passage (20) are connected to the refrigerant inlet (50) and the refrigerant exit (60) respectively, described The both ends of heat medium passage (30) are connected to the Heating medium (70) and heating agent outlet (80) respectively.

2. plate heat exchanger as described in claim 1, which is characterized in that the edge of the corrugated plating (10) is provided with first and turns over Side (12) is constituted closed described cold between the first flange (12) of the corrugated plating (10) and the adjacent corrugated plating (10) Matchmaker channel (20) or heat medium passage (30).

3. plate heat exchanger as described in claim 1, which is characterized in that the four corners of each corrugated plating (10) open up There are through-hole (13), is provided at the refrigerant inlet (50) and the through-hole (13) of the corrugated plating on the outermost side (10) Plug (90), each corrugated plating (10) superposition make corresponding each through-hole (13) connection, respectively constitute the refrigerant Import (50), refrigerant exit (60), Heating medium (70), heating agent outlet (80).

4. plate heat exchanger as claimed in claim 3, which is characterized in that enclose the two neighboring of the refrigerant passage (20) The corrugated plating (10), at the edge for the through-hole (13) being located at the Heating medium (70) and heating agent outlet (80) It is provided with the second flange (14) perpendicular to the corrugated plating (10) plate face, second flange (14) is by the refrigerant passage (20) completely cut off with the Heating medium (70), heating agent outlet (80)；

The two neighboring corrugated plating (10) for enclosing the heat medium passage (30) is being located at the refrigerant inlet (50) and institute The third that the edge of the through-hole (13) at refrigerant exit (60) is provided with perpendicular to the corrugated plating (10) plate face is stated to turn over Side (15), the third flange (15) is by the heat medium passage (30) and the refrigerant inlet (50), the refrigerant exit (60) Isolation.

5. plate heat exchanger as described in claim 1, which is characterized in that a side of the partition (40) is fixedly connected on one On a corrugated plating (10), the adjacent corrugated plating (10) is corresponding with the partition (40) to offer card slot on one side (16), the other side of the partition (40) matches clamping with the card slot (16).

6. plate heat exchanger as described in claim 1, which is characterized in that the refrigerant inlet (50), the refrigerant exit (60), the Heating medium (70), heating agent outlet (80) opening be provided with connector (100) or the outside the 4th Flange (200).

7. plate heat exchanger as claimed in claim 6, which is characterized in that the connector (100) or the 4th flange (200) periphery offers clamping part or screw thread.

8. such as plate heat exchanger of any of claims 1-7, which is characterized in that the wave groove (11) is in " V " word Shape.

9. plate heat exchanger as claimed in claim 8, which is characterized in that the institute in any one row on the corrugated plating (10) State wave groove (11) towards identical, and the direction of two rows of wave grooves (11) is opposite.

10. such as plate heat exchanger of any of claims 1-7, which is characterized in that in each corrugated plating (10) The wave groove (11) opening direction it is identical.