CN100498181C - Multi-thread type heat exchanger and the manufacture method - Google Patents

Abstract

The invention relates to a heat exchanger capable of achieving synchronous flow of a plurality of mediums in and a manufacturing method thereof, more particularly, the heat exchanger of the invention provides a simple manufacturing method by a connecting part without jointing screw plates. By forming a branch tube connected to a inflow/outflow medium tube, synchronous inflow or outflow of a plurality of mediums can be enabled, and the branch tube is mounted outside an inflow/outflow opening which is provided on a cylindric outer surface, the inflow/outflow opening is leaded to the flow-in/flow-out medium tube after a plurality of screw plates are inserted and jointed between the inner and outer cylinder.

Description

Multi-thread type heat exchanger and manufacture method thereof

Technical field

The present invention relates to realize multiple the medium heat exchanger and the manufacture method thereof of inflow synchronously, more specifically, heat exchanger of the present invention provides a kind of simple manufacturing method by the coupling part of not welding spiral plate.Be connected to the manifold that flows into and flow out medium tube by formation, and multiple medium is flowed into simultaneously and flow out.Described manifold is installed in the outside of inflow/outflow opening, and this inflow/outflow opening is positioned on the cylindrical outside surfaces, and they insert between inside and outside cylindrical shell and weld and lead to described inflow after a plurality of spiral plates and flow out medium tube.

Background technology

Usually, heat exchanger is a kind of device that utilizes cryogen to have the heat energy in high temperature fluid back and forth in one's care, and is divided into three types: the diaphragm type heat exchanger that has barrier film between two fluids; The hot memory-type heat exchanger that conducts heat by heat storage unit; And two contact heat exchanger of directly contacting of fluid.

The present invention adopts the diaphragm type heat exchanger of metallic plate as heat transfer surface, and because it is the isolation structure that is used for two fluids, so it is used for the heating system by the combustion gas heating, or be used to reclaim the wherein heat exchange fan of heat, perhaps when being used for chemistry or food industry, avoid fluid to mix.

As formerly applying for a patent described in the No.10-2003-1250 " multiple spiral heat exchanger (multiplespiral heat exchanger) ", the diaphragm type heat exchanger has a plurality of helical ducts by welding a plurality of spiral-shaped inner panels stage by stage.Yet, owing to the spiral inner panel of a plurality of separation should be welded with its correct angle, and then also need this inner panel is welded on the interior perimeter surface of outer cylinder body, so technology and extremely strict precision that this diaphragm type heat exchanger need be extremely complicated, and very high production cost.In other words, owing to come manual welding element very difficult and nonproductive (nonproductive) by adjusting accurate suitable angle, if that therefore carries out is bad, such problem will appear so, for example reduce by the inhomogeneous heat exchanger effectiveness that causes of medium channel.

Summary of the invention

The present invention is intended to solve described problem by following method: improve heat exchanger effectiveness by forming a plurality of medium channels; Reduce the time that welding consumes by between inside and outside cylindrical shell, forming medium channel (even only using a spiral plate) easily; And the medium that is formed for heat exchange by the plate that employing has an equal length is through distance.

In order to realize foregoing invention, on the outer surface of the interior perimeter surface of outer cylinder body and inner barrel, form a plurality of spiral inlets, and by spiral-shaped plate being inserted in the inlet that is formed between the inside and outside cylindrical shell, and the outer surface of the protrusion of the interior perimeter surface of the protrusion of this inner barrel and this outer cylinder body carried out brazing, thereby on the zone, upper and lower of this outer cylinder body, generate respectively with by inserting inlet opening and the outflow opening that a plurality of medium channels that spiral plate forms are communicated with.Finally provide a kind of heat exchanger, so that multiple medium flows into synchronously.

Description of drawings

Fig. 1 is the cutaway view of heat exchanger in accordance with a preferred embodiment of the present invention;

Fig. 2 a is the view of the forming process of expression plate of the present invention;

Fig. 2 b and Fig. 2 c are the views of the forming process of expression inner barrel of the present invention and outer cylinder body;

Fig. 3 a and Fig. 3 b are the views of the insertion state of expression plate of the present invention;

Fig. 4 is the cutaway view that shows the insertion position of plate of the present invention;

Fig. 5 is the cutaway view that shows that medium of the present invention flows into;

Fig. 6 is the view of the manifold operation of expression two media of the present invention;

Fig. 7 is the view of the heat exchanger of optional embodiment according to the present invention;

Fig. 8 is the view of the heat exchanger of another optional embodiment according to the present invention; And

Fig. 9 is the view of the heat exchanger of another optional embodiment according to the present invention.

The Reference numeral of critical piece among the＜figure 〉

10: plate 10 ' subplate 11: rough surface

12: connect protuberance 13: sweep 20: medium channel

20a-d:1-No. 4 medium channel 30: inner barrel 31: inlet

40: outer cylinder body 41: inlet 42: inlet opening

43: flow out opening 44: main inflow pipe 45: main effuser

46: secondary flow go out opening 50,50 ': manifold 50 ": secondary manifold

51: inflow pipe 51 ': effuser 51 ": secondary effuser

60: insulator 70: shell body

The specific embodiment

Heat exchanger in accordance with a preferred embodiment of the present invention comprises the unit with a plurality of medium channels, wherein divide multistage a plurality of spiral plate to be welded between the inside and outside cylindrical shell, described a plurality of spiral plate has the protuberance of connection respectively on the internal and external circumferential zone, and on described spiral plate, has rough surface, described inside and outside cylindrical shell has inflow pipe at its top, has effuser in the bottom.Be inserted into and be welded on by the integrally formed spiral plate of pressing process and be prepared on the inside and outside cylindrical shell between the spirality inlet.Inflow pipe and effuser are formed on the cross side of manifold, and this manifold is arranged on the outside of inflow/outflow opening, and this inflow/outflow opening is communicated with the medium channel that is formed between the described spiral plate.

Of the present invention above-mentioned open in, between the inlet that forms between the inside/outside cylindrical shell, be provided with sub-inlet, in this sub-inlet, be provided with to have on top and the bottom section and be connected the subplate that swells.

The shape of described plate alternately prepares end portion as the start-up portion or the inside/outside cylindrical shell of inside/outside cylindrical shell along opposite direction.Therefore, have the original position and the terminal position of this plate that sweep is used to weld, according to the quantity that flows into medium and difference at the one end.The quantity of manifold can change according to the quantity of medium.

Of the present invention above-mentioned open in, be formed with secondary manifold at the middle body of outer cylinder body, this pair manifold is connected to secondary effuser and is installed in the outside that the secondary flow that is communicated with medium channel goes out opening.

Traditional heat exchanger comprises a plurality of medium channels that formed by a plurality of spiral plates, this spiral plate has the protuberance of connection respectively on the inner/outer circumference edge regions, and by a plurality of steps it is welded between the inside/outside cylindrical shell, the top of this inside/outside cylindrical shell has inflow pipe, and the bottom has effuser.Heat exchanger in accordance with a preferred embodiment of the present invention is included in inflow pipe and the effuser on the cross side of manifold, these manifolds are respectively formed at inlet opening and flow out the outside of opening, this inlet opening and outflow opening one are through to medium channel, and along the upper and lower that circumferentially is arranged on cylindrical shell, and this heat exchanger also is included in the subplate sweep of a side.They are placed on each medium channel, and this medium channel is formed between the spiral plate of press forming, and this spiral plate inserts and is welded between the inlet that is formed on the described inside/outside cylindrical shell.

In above-mentioned disclosing of the present invention, between the inlet of outer cylinder body, be provided with sub-inlet, all be formed with to connect at the top/bottom that is installed on the subplate on this sub-inlet and swell.The shape of described plate alternately prepares end portion as the start-up portion or the inside/outside cylindrical shell of inside/outside cylindrical shell along opposite direction, and have the original position and the terminal position of this plate that sweep is used to weld at the one end, according to the quantity that flows into medium and difference.The quantity of manifold can change according to the quantity of medium.

Of the present invention above-mentioned open in, be formed with secondary manifold at the middle body of outer cylinder body, this pair manifold is connected to secondary effuser and is installed in the outside that the secondary flow that is communicated with medium channel goes out opening.

Heat exchanger in accordance with a preferred embodiment of the present invention comprises manufacture method, and this manufacture method comprises following several steps: the press forming step forms plate-like with plate in this step; Stretching step stretches formed dish in this step; The secondary forming step in this step, forms sweep on a side of the plate that is stretched, form rough surface on the end face of this plate, and forms the connection protuberance around the inside/outside periphery of this plate; Medium channel forms step, in this step, on the surface of the different inside/outside cylindrical shell of diameter, form spiral inlet respectively, and afterwards, between the described inlet on the circumferential surface in the upper and lower of inside/outside cylindrical shell, form medium inflows/outflow opening, and by described plate being inserted a plurality of medium channels of formation in the described spiral inlet; Welding step in this step, will comprise the outer cylinder body of described connection protuberance of described plate and the circumferential surface of inner barrel and carry out brazing, and according to the described sweep as the medium channel end of the quantity welded plate of medium; Manifold forms step, in this step, forms manifold on the upper and lower circumferential surface of outer cylinder body, and described manifold has the inflow/effuser of the inflow of being formed on/outflow open outer side; And housing formation step, in this step, form insulator and housing in the outside of outer cylinder body.

In above-mentioned disclosing of the present invention, in the inside/outside cylindrical shell, be provided with after the sub-inlet between each spiral inlet, along with spiral plate being inserted in the described spiral inlet, can being inserted into by the additional subplate that will have the sweep cross side and forming a plurality of medium channels in the sub-inlet.

By the reference accompanying drawing preferred embodiment of the present invention is described, it is clearer that above-mentioned purpose of the present invention, further feature and advantage will become, in the accompanying drawings:

Fig. 1 is the cutaway view of heat exchanger in accordance with a preferred embodiment of the present invention;

Fig. 2 a is the view of the forming process of expression plate of the present invention;

Fig. 2 b and Fig. 2 c are the views of the forming process of expression inner barrel of the present invention and outer cylinder body;

Fig. 3 a and Fig. 3 b are the views of the insertion state of expression plate of the present invention;

Fig. 4 is the cutaway view that shows the insertion position of plate of the present invention;

Fig. 5 is the cutaway view that shows that medium of the present invention flows into;

Fig. 6 is the view of the manifold operation of expression two media of the present invention;

Fig. 7 is the view of the heat exchanger of optional embodiment according to the present invention;

Fig. 8 is the view of the heat exchanger of another optional embodiment according to the present invention; And

Fig. 9 is the view of the heat exchanger of another optional embodiment according to the present invention.

Shown in Fig. 2 a, the preparation press forming also is the plate 10 of plate-like, and need a cross side of this plate 10 is cut, thereby with traditional tourelle the stretch start-up portion and the end portion of preseptum 10, the mode that stretches is: a start-up portion that cuts face is placed on the position relative with end portion, thereby these two parts are placed on the direction that is oriented relative to one another to 180 degree.As a result, make homogeneous media ground flow in the medium channel 20 that forms by described plate 10.

Then, to be processed into formation rough surface 11 on its one side by the spiral plate 10 that above-mentioned drawing process is made with traditional forming machine, all form to connect on the inner/outer circumference edge regions and swell 12, the end formation at this spiral plate 10 at last has certain width to be used for the further sweep 13 of welding.

Then, shown in Fig. 3 a and Fig. 3 b, spiral plate 10 is inserted in the inlet 31,41 that is formed in the inside/outside cylindrical shell 30,40.Between the inlet 41 on the upper and lower two parts at outer cylinder body 40, form a plurality of inlet opening and outflow openings that pass through to spiral media passage 20 respectively.In order to provide best medium process zone to guarantee the space between spiral plate 10, inlet opening 42 is set and flows out opening 43, and their position can change according to the type of medium by a cross side that cuts medium channel 20.If in this unit, only handle same medium, then can and flow out opening 43 and place same delegation inlet opening 42, otherwise, should and flow out opening 43 with inlet opening 42 and place different rows.Therefore, the line number of inlet opening 42 and outflow opening 43 depends on the number of types of medium.

As shown in Figure 4, for the initial/terminal position with medium channel 20 is complementary with the position that inlet opening 42 and outflow opening 43 are set, the position of the initial/end portion of the spiral plate 10 that is inserted can change according to media quantity.In other words, owing to understand residual air in certain amount in the part below the inlet opening 43 or in medium channel 20, if therefore initial/the end portion of this medium channel 20 is not corresponding with the position of inlet opening 42 and outflow opening 43, then be difficult to inflow or the outflow of treatment media in this medium channel 20 reposefully.

The connection of spiral plate protuberance 12 direction of the interior perimeter surface of the outer surface of cylindrical shell 40 and inner barrel 30 outward protrudes, and its guided plate 10 is inserted in the described inlet 31,41.

The plate curved portions part surface 13 that will be used for medium channel 20 welds fully, but except the part of medium channel 20, medium flows in this part by inflow pipe 44 and the effuser 45 that is provided with afterwards.In other words, the initial/end portion that is connected to the medium channel 20 of inflow pipe 44 and effuser 45 keep to be opened wide, and the other parts of the initial/end portion of this medium channel 20 are welded fully.

After and then spiral plate 10 being fixed in the cylindrical shell 30,40, need carry out brazing so that medium channel 20 is sealed fully, and in order to save manufacturing time, only need on the outer surface of the interior perimeter surface of inner barrel 30 and outer cylinder body 40, once weld, wherein the connection of plate 10 protuberance 12 projection on described inner surface and outer surface.

The plane that is placed with the medium channel 20 of plate 10 is as shown in Figure 5 fan-shaped.

Respectively with the manifold 50,50 of medium inflow pipe 51 and effuser 51 ' be connected ' be arranged on inlet opening 42 with flow out the outside of opening 43, this inlet opening 42 and flow out opening 43 and be formed on the side face of described upper area and lower area.Main inflow pipe 44 and main effuser 45 are formed on the upper area and the lower area of outer cylinder body 40.At this, manifold 50,50 ' quantity depend on the quantity and the type of medium, make inlet opening 42 and flow out opening 43 stratification stage by stage as quantity and type according to medium.

Therefore, when using two kinds of dissimilar media, only on the upper area of outer cylinder body 40 and lower area, arrange one deck manifold 50,50 ', when using four kinds of dissimilar media, arrange three layers of corresponding manifold 50,50 ', for ten kinds of dissimilar media then arrange nine layers of manifold 50,50 '.Manifold 50,50 ' the not corresponding each other reason of quantity and the quantity of medium be owing to there is one type medium to flow by main inflow pipe 44 and main effuser 45.

In other words, for four kinds of dissimilar media, upside at outer cylinder body 40 is provided with the manifold 50 that one deck is connected with inflow pipe 51, and below described manifold 50, be provided with two-layer be connected to effuser 51 ' manifold 50 ', the manifold 50 of one deck and effuser 51 ' be connected is set at the downside of outer cylinder body 40 simultaneously, and described manifold 50 ' below be provided with the two-layer manifold 50 that is connected to inflow pipe 51 '.

For the final heat exchanger unit that forms, finish manifold 50,50 ' installation the time, around the side face of outer cylinder body 40 insulator 60 and shell body 70 are installed.

In an optional embodiment, as shown in Figure 7, can by form between the inlet 41 in outer cylinder body 40 sub-inlet 41 ', then with "〉" the described sub-inlet 41 of shape subplate 10 ' be inserted into respectively ' each cross side, and be provided with a plurality of secondary medium channels 20 '.By with the identical connection protuberance 11 of the connection protuberance of the upper and lower side of spiral plate 10 ', can be easy to insert described subplate 10 ', and described subplate is by and sealing soldered with plate 10 brazings.

As previously described, can be by additional subplate 10 ' be provided with additional agents passage 20 be installed, if and in structure, increase with existing four medium channels 20 subplate 10 ', then always have eight medium channels 20,20 ' available, thereby enlarge area of heat transfer by flowing into medium in two passages 20,20 ' middle reprocessing.

Another optional embodiment of the present invention as shown in Figure 8, wherein, the secondary flow that penetrates medium channel 20 in the middle body setting of outer cylinder body 40 goes out opening 46, thereby the intact medium of heat exchange is flowed out, and remaining not fully the medium of exchange can pass through secondary manifold 50 " outflow, this pair manifold and secondary effuser 51 " links to each other and be installed in the outside that described secondary flow goes out opening 46.

Operating principle as the heat exchanger of above-mentioned structure more specifically is described below:

Have altogether under the situation of four medium channels 20 with the heat of exchange two media, this heat exchange structure should have the passage of 20a, the 20b, 20c and the 20d that comprise arranged in sequence, manifold 50,50 ' respectively and these channel connections also are positioned at the upside and the downside of outer cylinder body, and described manifold 50,50 ' on be respectively arranged be used for inflow pipe 51 that medium transmits and effuser 51 '.

Therefore, if introduce medium 2 by the inflow pipe 51 that is positioned at outer cylinder body 40 downsides, introduce medium 1 by main inflow pipe 44 simultaneously, then medium 1 directly enters medium channel one and two 20a, 20b, and medium 2 enters the inlet opening 42 in the lower area that is formed on outer cylinder body 40 by manifold 50, this inlet opening 42 and manifold 50 ' connection and corresponding with the outflow opening 43 that is formed in outer cylinder body 40 tops.The medium that is incorporated into the there flows out with the inboard of uniform mode slave plate 10 by means of the rough surface 11 that is formed on plate 10 tops again.Medium of in this interchanger, handling 1 and medium 2 when the main effuser by being arranged on outer cylinder body 40 downsides 45 flows out, the outflow opening by each correspondence flow out to manifold 50 '.

Be divided into ten kinds of media of two groups with processing when forming ten medium channels 20, its medium 1 to 5 is included in one group, and medium 6 to 10 be included in another the group in the time, the structure of this heat exchanger should have the passage one to 10 of arranged in sequence, manifold 50,50 ' respectively and these channel connections also are positioned at the upside and the downside of outer cylinder body, and described manifold 50,50 ' on be respectively arranged be used for inflow pipe 51 that medium transmits and effuser 51 '.

Therefore, if medium 1 to 10 is by main inflow pipe 44, main effuser 45 and be positioned at inflow/effuser 51, the 51 ' inflow of outer cylinder body 40 upper and lower both sides and flow out, the main flow of then flowing through goes into/and the medium of effuser 44,45 directly is communicated with unlimited medium channel 20, other medium then by manifold 50,50 ' with inflow/outflow opening 42,43 connections of manifold 50,50 ' be connected, this manifold 50,50 ' also and inflow/effuser 51,51 ' be communicated with.In said process, be introduced into medium channel one to 10 and processed by plate 10 from the medium 1 to 10 of this medium channel circulation, then, the outflow opening 43 of the upper and lower by being arranged on outer cylinder body 40 flow out to always manifold 50 ', at last, they in the main effuser 45 that flows out to the bottom that is arranged on outer cylinder body 40, flow out to effuser 51 '.

Can be only two kinds or four kinds of media (rather than ten kinds) be incorporated into this ten medium channels 20, and in this case, for practical application, the passage that is used for two kinds of different mediums can be integrally formed as one.

The conventional heat exchanger of angle of adjusting them with the plate that needs weld separation and in manufacture process respectively is different, the extremely simply welding process that the invention provides described here, improved heat exchanger effectiveness by allowing single medium or multiple medium steadily to flow into, by using subplate 10 ' easily enlarged area of heat transfer, and therefore enlarged medium channel 20 to obtain maximum practicality.

Industrial usability

As understanding by top description, according to the present invention, by in that one is compressing Plate is inserted into after a plurality of entrances that are formed in the inside and outside cylindrical shell, will be many in a brazing process The piece plate is fixed and is sealed, thereby can reduce required time and the cost of manufacturing of following manufacture process. In addition, by adopting the existing medium channel by corresponding subplate, in the quantity that increases medium channel The time, also make the area of heat transfer maximization, and by a plurality of manifolds, inlet opening and outflow Opening can allow any medium steadily to flow into.

Claims (12)

1, a kind of heat exchanger of realizing that multiple medium flows into synchronously, it comprises:

A plurality of spiral inlets, they are arranged in the surface of inner barrel and outer cylinder body;

A plurality of spiral plates, each spiral plate is integrally formed by press, and is inserted into and is welded in described a plurality of spiral inlet;

A plurality of manifolds, they are arranged on inlet opening and flow out the outside of opening, and this inlet opening and outflow opening are arranged between the described spiral plate, and are communicated with medium channel respectively; And

A plurality of inflow pipes and effuser, they are arranged on a side of described manifold.

2, the heat exchanger of realizing that multiple medium flows into synchronously according to claim 1, it is characterized in that, between the inlet on the described inside and outside cylindrical shell, be provided with a sub-inlet, in this sub-inlet, be provided with subplate, have in the top side and the bottom side of this subplate and be connected protuberance.

3, the heat exchanger of realizing that multiple medium flows into synchronously according to claim 1, it is characterized in that, the start-up portion of spiral plate is divided into rightabout with respect to its terminal part and places, this start-up portion arrives the top of described inside/outside cylindrical shell, this end portion arrives the bottom of described inside/outside cylindrical shell, one end of described plate is provided with sweep, and the start-up portion of each described a plurality of spiral plate and end portion are fully differently placed according to the quantity that flows into medium.

4, the heat exchanger of realizing that multiple medium flows into synchronously according to claim 1 is characterized in that the quantity of described manifold changes according to the quantity of medium.

5, the heat exchanger of realizing that multiple medium flows into synchronously according to claim 1, it is characterized in that, middle body at described outer cylinder body is provided with secondary manifold, this pair manifold is connected to secondary effuser, and is positioned at the outside that the secondary flow that is connected to medium channel and is communicated with this medium channel goes out opening.

6, a kind of heat exchanger of realizing that multiple medium flows into synchronously, it comprises:

A plurality of spiral inlets, they are arranged in the surface of inner barrel and outer cylinder body;

A plurality of spiral plates, each spiral plate is integrally formed by press, and is inserted into and is welded in described a plurality of spiral inlet;

Have the subregional a plurality of subplates of bend in the one side, they are installed in respectively on the medium channel that is arranged between the described plate;

A plurality of manifolds, they are arranged on inlet opening and flow out the outside of opening, this inlet opening and flow out opening and be arranged between the described spiral plate, and be communicated with described medium channel at the upper area and the lower area of described outer cylinder body respectively; And

A plurality of inflow pipes and effuser, they are arranged on a side of described manifold.

7, the heat exchanger of realizing that multiple medium flows into synchronously according to claim 6, it is characterized in that, be provided with sub-inlet between the described inlet in described outer cylinder body, in described sub-inlet, gripper shoe be installed, and described gripper shoe thereon, down both sides have the protuberance of connection.

8, the heat exchanger of realizing that multiple medium flows into synchronously according to claim 6, it is characterized in that, the start-up portion of spiral plate is divided into rightabout with respect to its terminal part and places, this start-up portion arrives the top of described inside/outside cylindrical shell, this end portion arrives the bottom of described inside/outside cylindrical shell, one end of described plate is provided with sweep, and the start-up portion of each described a plurality of spiral plate and end portion are fully differently placed according to the quantity that flows into medium.

9, multiple medium and the heat exchanger that flows into realized according to claim 6 is characterized in that the quantity of described manifold changes according to the quantity of medium.

10, multiple medium and the heat exchanger that flows into realized according to claim 6, it is characterized in that, middle body at described outer cylinder body is provided with secondary manifold, this pair manifold is connected to secondary effuser, and is positioned at the outside that the secondary flow that is connected to medium channel and is communicated with this medium channel goes out opening.

11, a kind of manufacturing can realize the method for the heat exchanger that multiple medium flows into synchronously, and it comprises the steps: the press forming step, in this step plate is formed plate-like; Stretching step stretches formed dish in this step; The secondary forming step in this step, forms sweep on a side of the plate that is stretched, form rough surface on the end face of this plate, and forms the connection protuberance around the inside/outside periphery of this plate; Medium channel forms step, in this step, on the surface of the different inside/outside cylindrical shell of diameter, form spiral inlet respectively, and afterwards, between the described inlet on the circumferential surface in the upper and lower of inside/outside cylindrical shell, form medium inflows/outflow opening, and by described plate being inserted a plurality of medium channels of formation in the described spiral inlet; Welding step in this step, will comprise the outer cylinder body of described protuberance of described plate and the circumferential surface of inner barrel and carry out brazing, and according to the described sweep as the medium channel end of the quantity welded plate of medium; Manifold forms step, in this step, forms manifold on the upper and lower circumferential surface of outer cylinder body, and described manifold has the inflow/effuser of the inflow of being formed on/outflow open outer side; And housing formation step, in this step, form insulator and housing in the outside of outer cylinder body.

12, manufacturing according to claim 11 can realize the method for the heat exchanger that multiple medium flows into synchronously, it is characterized in that, the surface of the described inside and outside cylindrical shell that diameter differs from one another is provided with a plurality of inlets, after described sub-inlet being inserted between the inlet that is arranged in the outer cylinder body, described a plurality of spiral plates are inserted in the described inlet, and finally be inserted in the described support inlet, and form a plurality of medium channels by the subplate that will have sweep in a side of each parts.

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