CN201983660U - Heat energy exchange device used for hot water for shower - Google Patents

Abstract

The utility model relates to a heat energy exchange device used for hot water for shower. The device comprises an upper layer body, a lower layer body and two edge sealing covers; the upper layer body is provided with a plurality of convex separating walls arranged in parallel and with intervals on the bottom, thereby has the strength capable of bearing a human who stands thereon, and can be combined with the lower layer body to form a water flow passage having diversion function there inside. Besides improving the heat exchange efficiency and increasing the energy saving effect of water heater greatly, the device of the utility model can also reduce the whole manufacturing cost greatly because it has a simple whole structure and is manufactured by traditional (extruding) mode instead of welding fabrication; consequently has a low price to increase consumers' willingness to buy, and is very beneficial to accelerating its popularization speed and enlarging its popularization scope to achieve the environmental protection benefit of energy saving and emission reduction.

Description

Shower hot water thermal energy exchange device

[technical field]

The utility model relates to a kind of shower hot water thermal energy exchange device, it is the thermal energy exchange device that belongs to the energy resource consumption that to save shower heater, it has simple in structure and can significantly reduce and make man-hour and cost, and improve multiple effect such as energy-saving efficiency, buy use so can make the more capable and wish of consumer, and then help enlarging popularization, reach the environmental benefit of carbon reduction.

[background technology]

In order to reach the purpose of energy-saving and emission-reduction, the heat exchanger list marketing that at present existing many household shower are used, its design principle is that the running water water conservancy diversion of normal temperature is gone into heat exchanger, and utilize hot water after the shower as the thermal source of heat exchanger, make the normal temperature running water of this heat exchanger inside of flowing through to be preheated to the running water of higher temperature, again it is guided to water inlet tube of water heater, so can improve the temperature of water heater water inlet, and then save water heater and heat the required energy, on February 6th, 2008 disclosed Chinese utility model patent CN201016505 number " energy-saving water heater " for example, its structure as shown in Figure 1 to Figure 3, formed by a water heater 10 and metal heat absorption plate body 20, the inside of this metal heat absorption plate body 20 is provided with the passage 21 of a hollow, can flow into for the running water of normal temperature, and a wherein end of this passage 21 is connected with the water inlet 11 of water heater by an outlet pipe 22, and the other end is then by water inlet pipe 23 be connected with the water source of running water (as shown in Figures 1 and 2); When metal heat absorption plate body 20 begins shower on the shower person M station, the shower hot water W of water heater 10 can spray out from shower nozzle 13 via its outlet pipe 12 again, and after the health use of shower hot water W through shower person M, promptly can trickle down on the end face 24 of this metal heat absorption plate body 20, flow into the passage 21 of metals heat absorption plate bodys 20 inside by water inlet pipe 23 in the running water W1 of this while normal temperature, and absorb synchronously from the heat energy of trickling down shower hot water W on the end face 24 of metal heat absorption plate body 20, after carrying out heat exchange, form the warm water W2 of higher temperatures, enter water heater 10 via the water inlet 11 of water heater 10 again from outlet pipe 22 outflows then, with the water inlet (as shown in Figure 2) that water heater 10 higher temperatures are provided, and then reach the electric power or the consumption of gas equal energy source of saving water heater 10.

Fig. 4 and shown in Figure 5 and for example is another embodiment of above-mentioned metal heat absorption plate body, this metal heat absorption plate body 200 be by a metal tube 201 through repeatedly curved around being processed to form the card shape, again its two terminal mouth of pipe is connected with outlet pipe 22 and water inlet pipe 23 respectively; Trickle down on metal tube 201 surfaces of card shape by shower hot water W, and after the normal temperature running water W1 of metal tube 201 inside of flowing through carried out heat exchange, the warm water W2 that makes higher temperatures enters water heater 10 via the water inlet 11 of water heater 10, and reaches the energy resource consumption of saving water heater 10.

Yet above-mentioned Chinese utility model patent CN201016505 number " energy-saving water heater " but exists many disappearances as follows:

1, as shown in Figure 1 to Figure 3, for shower hot water W can be trickled down on the end face 24 of metal heat absorption plate body 20, shower person M must stand on the end face 24 of metal heat absorption plate body 20 during each shower, so the weight of shower person M health also all acts on the end face 24 of metal heat absorption plate body 20 at every turn, because these metal heat absorption plate body 20 inside are passages 21 of hollow, and the structure of not having any support is carried the body weight of shower person M, therefore stand and just can produce the distortion (shown in imaginary line among Fig. 3) of end face 24 after a period of time is used in shower to lower recess, adding metal heat absorption plate body 20 is to be formed with the welding manner welding by the metal plate-like material, this depressed deformation just can cause weld to break damage and leak, and then lose its original hot-swap feature, in addition, because of also there not being the structure of any water conservancy diversion in the passage 21, to form disorderly stream (shown in the arrow among Fig. 2) after making running water W1 by water inlet pipe 23 flow channels 21, and the efficient of heat exchange will be reduced and energy-saving effect is given a discount.

2, as Fig. 4 and shown in Figure 5, shower person M must stand on the metal heat absorption plate body 200 during because of shower, because metal heat absorption plate body 200 is curved around forming by metal tube 201, but the surface of metal tube 201 is arc surfaces and has attached shower hot water W again, so the sole of shower person M is stood after the contact, be easy to generate the unsteady phenomenon of sliding, and the injured result (as shown in Figure 4) that often causes falling, safety for shower person M is a threat greatly, moreover, metal tube 201 curved around after, its interval S (as shown in Figure 5) each other also can't be in contact with one another and carry out heat exchange with shower hot water W generation, so whole heat exchanger effectiveness will significantly reduce, and causes energy-saving effect not good.

3, absorb heat plate body 200 as can be known by metal heat absorption plate body 20 shown in Figure 1 and metal shown in Figure 4 in addition, its production method is mainly to be welded as the master, so need employ the higher technical staff of solder technology degree and operate, could reduce the fraction defective of finished product, so the wage cost that manufacturing production is paid improves relatively, in addition, metal tube 201 imposed also need use bending machine to reach in the repeatedly bending machining coiling, by welding processing each section metal tube 201 is welded to one another again and is bonded into after the one beginning and can finishes finished product, so its whole manufacturing cost will remain high, except that cause the finished product producer price higher, also can cause the retail price of finished product to be difficult for reducing, and the wish of remote-effects consumer purchase, make the popularization of this energy-conserving product can't enlarge universal, therefore, structure and reduction manufacturing cost as how more simplifying seem very important just satisfy consumer's purchasing power and wish.

[utility model content]

Main purpose of the present utility model is that a kind of shower hot water thermal energy exchange device is being provided, it has grantee's body weight required support strength of standing, be provided with the water stream channel of diversion function in inside, can significantly improve the efficient of heat exchange and the energy-conservation effect of increase water heater, simultaneously simple and adopt traditional extrusion modling (Extruding) mode to produce because of overall structure, and need not use welding processing, need not pay the cost of employing the higher solder technology personnel of wage yet, so whole manufacturing cost not only significantly reduces the requirement of the quality that can not detract again, can react fully to price and satisfy ability in consumer's purchase, and then impel the consumer to increase the wish of purchase, be very beneficial for the quickening of promotion rate and the expansion of promoted extension and popularize, and reach the environmental benefit of carbon reduction ahead of time.

A kind of shower hot water thermal energy exchange device is characterized in that: comprising:

One upper strata body, the square body made from extrusion modling (Extrusion) by metal material, has the edge surface that an end face, a bottom surface, a leading flank, a trailing flank and two parallel, two distal edge of this leading flank and trailing flank respectively by this dual-side face mutually in succession, convex with several on this bottom surface and parallel spaced divider wall, and the end of a divider wall is provided with a upward holding section therein, and adopt interlace mode on the metope of this each bar divider wall and respectively be penetrated with an intercommunicating pore, and on this dual-side face, be equipped with a water inlet and a delivery port respectively;

One lower floor's body, the flat board made from extrusion modling (Extrusion) by metal material, its contour shape and area are all identical with the upper strata body, has the edge surface that an end face, a bottom surface, a leading flank, a trailing flank and two parallel, correspond to the body wherein position, last holding section of a divider wall in upper strata on this end face, convex with a following holding section, fixed to one anotherly do not separate with reaching after intert mutually the last holding section of this divider wall; And

Two edge sealing lid, lid is affixed on leading flank after upper strata body and lower floor's body make up mutually and the platysome on the trailing flank respectively, the leading flank of the big young pathbreaker of its area upper strata body and lower floor's body and the complete driving fit of trailing flank are sealed, and synchronous several water stream channels of formation between the end face of the bottom surface of this upper strata body and lower floor's body and each divider wall.

Wherein, be respectively equipped with several screws on the leading flank of this upper strata body and lower floor's body and this trailing flank, and correspond on the plate face of this two edge sealing lid of screwhole position of the screw of this upper strata body and lower floor's body, also be equipped with the fixing hole of equal number respectively, run through two edge sealing by screw and cover each fixing hole, after screwing in the screw of upper strata body and lower floor's body again, and the leading flank and the more complete driving fit of trailing flank of upper strata body and lower floor's body are sealed.

Wherein, on the internal face of the dual-side face of this upper strata body, convex with an inner side edge holding section more respectively, and this lower floor's body also cooperates respectively to convex with an outer side edges holding section near on the end face of dual-side face.

Wherein, whole the establishing of the terminal part of all divider walls has a upward holding section on this body bottom surface, upper strata, and corresponds to the position, last holding section of these all divider walls on this lower floor's body end face, also cooperates the following holding section that respectively is provided with equal number.

Wherein, section configuration of holding section is to be made as dovetail mount on this, and the section configuration of this time holding section then cooperates and is made as dovetail groove.

Wherein, the section configuration of the inner side edge holding section of this upper strata body is to be made as dovetail mount, and the section configuration of the outer side edges holding section of this lower floor's body then cooperates and is made as dovetail groove.

Wherein, section configuration of holding section is to be made as dovetail groove on this, and the section configuration of this time holding section then cooperates and is made as dovetail mount.

Wherein, the end face of this upper strata body is to establish tool to become to go up convex arc shaped.

Wherein, the metal material of this upper strata body changes to the nonmetallic composite with heat conduction property.

Wherein, this upper strata body more includes one first upper strata body and one second upper strata body, wherein, on the wherein edge surface of this first upper strata body, more level bends inwards and is formed with a depressed part, and on the wherein edge surface of this second upper strata body, then the relative engagement level outwards is convexly equipped with and is formed with a protruding alar part, on this depressed part, be equipped with screw, on this protruding alar part, then be provided with perforation.

Wherein, correspond to each divider wall position of upper strata body on the plate face of this two edge sealing lid, more be concaved with the spaced crooked water channel of array, the plate face of this two edge sealing lid is covered respectively on the leading flank and trailing flank that is affixed on after upper strata body and lower floor's body make up mutually, after being fixed with screw again, organize the two terminal flowing flux of perforation mutually that form of two openings on the crooked water channel and per two water stream channels by each.

Wherein, staggered intercommunicating pore on each bar divider wall metope in this upper strata body, change terminal edge by each divider wall toward interior processing and in contract and form the nick shaped intercommunicating pore.

The utility model advantage and effect are: this shower hot water thermal energy exchange device, it has grantee's body weight required support strength of standing, be provided with the water stream channel of diversion function in inside, can significantly improve the efficient of heat exchange and the energy-conservation effect of increase water heater, simultaneously simple and adopt traditional extrusion modling (Extruding) mode to produce because of overall structure, and need not use welding processing, need not pay the cost of employing the higher solder technology personnel of wage yet, so whole manufacturing cost not only significantly reduces the requirement of the quality that can not detract again, can react fully to price and satisfy ability in consumer's purchase, and then impel the consumer to increase the wish of purchase, be very beneficial for the quickening of promotion rate and the expansion of promoted extension and popularize, and reach the environmental benefit of carbon reduction ahead of time.

[description of drawings]

Fig. 1: be one of Chinese novel patent CN201016505 number structural representation.

Fig. 2: the cut-away view that is 2-2 hatching among Fig. 1.

Fig. 3: be Chinese novel patent CN201016505 number user mode schematic diagram.

Fig. 4: be two of Chinese novel patent CN201016505 number structural representation.

Fig. 5: be three of Chinese novel patent CN201016505 number structural representation.

Fig. 6: be three-dimensional exploded view of the present utility model.

Fig. 7: be the utility model body schematic perspective view of boring a hole at the middle and upper levels with drill bit.

Fig. 8: be the utility model schematic perspective view of body at the middle and upper levels.

Fig. 9: be one of schematic perspective view of the utility model combination.

Figure 10: be the utility model combination schematic perspective view two.

Figure 11: be the utility model combination schematic perspective view three.

Figure 12: the profile that is 12-12 hatching among Figure 11.

Figure 13: the profile that is 13-13 hatching among Figure 11.

Figure 14: be that the utility model is installed and used schematic diagram.

Figure 15: the profile that is 15-15 hatching among Figure 14.

Figure 16: be the utility model schematic diagram of body employing extrusion modling method for making at the middle and upper levels.

Figure 17: be the utility model schematic perspective view of processing with milling cutter of body at the middle and upper levels.

Figure 18: be the schematic perspective view of the utility model after body is processed with milling cutter at the middle and upper levels.

Figure 19: be the utility model schematic perspective view of body and another embodiment of body of lower floor at the middle and upper levels.

Figure 20: be the utility model combination schematic diagram of body and another embodiment of body of lower floor at the middle and upper levels.

Figure 21: be the utility model schematic perspective view of body and the another embodiment of lower floor's body at the middle and upper levels.

Figure 22: be the utility model combination schematic diagram of body and the another embodiment of lower floor's body at the middle and upper levels.

Figure 23: be the utility model body and lower floor's body decomposing schematic representation of an embodiment more at the middle and upper levels.

Figure 24: be the utility model body and lower floor's body combination schematic diagram of an embodiment more at the middle and upper levels.

Figure 25: be the utility model combination schematic diagram of another embodiment of body at the middle and upper levels.

Figure 26: be the utility model combination schematic diagram of the another embodiment of body at the middle and upper levels.

Figure 27: be one of the schematic perspective view of another embodiment of capping limit in the utility model.

Figure 28: be another embodiment of capping limit in the utility model schematic perspective view two.

Figure 29: the sectional axonometric drawing that is 29-29 hatching among Figure 28.

Figure 30: the section plan that is 29-29 hatching among Figure 28.

Figure 31: the profile that is 31-31 hatching among Figure 28.

Figure 32: be the utility model body schematic perspective view of an embodiment more at the middle and upper levels.

Figure 33: be the utility model at the middle and upper levels body decompose generalized section in the plane of an embodiment again.

Figure 34: be the utility model body plane combination generalized section of an embodiment more at the middle and upper levels.

Concrete label is as follows among the figure:

10-water heater 11,301-water inlet

12,22-outlet pipe 13-shower nozzle

20,200-metal heat absorption plate body 21-passage

23- water inlet pipe 24,31,41-end face

The 30-upper strata body 30a-first upper strata body

The 30b-second upper strata body 32,42-bottom surface

33,43-leading flank 34,44-trailing flank

35,35a, 35b, 45-edge surface 36,47-screw

37-divider wall 38-goes up the holding section

39-intercommunicating pore 40-lower floor body

Holding section 50,500-edge sealing lid under the 46-

51-fixing hole 201-metal tube

300-upper strata body plate 302-delivery port

303-water stream channel 351-inner side edge holding section

The protruding alar part of 352-depressed part 353-

354-screw 355-perforation

391-nick shaped intercommunicating pore 451-outer side edges holding section

The crooked water channel of 501-plate face 502-

A-extruding machine B-extrusion die

C-cutting tool D-boring bar tool

G-milling cutter M-shower person

N-screw S-spacing

W-shower hot water W1-running water

W2-warm water

[specific embodiment]

Seeing also Fig. 6 to shown in Figure 13, is the embodiment of the utility model shower hot water with the thermal energy exchange device, and it comprises:

One upper strata body 30, the square body made from extrusion modling (Extrusion) by metal material, has an end face 31, one bottom surface 32, one leading flank 33, one trailing flank 34 and two edge surface that parallel 35, be respectively equipped with several screws 36 on this leading flank 33 and the trailing flank 34, and its two distal edge respectively by this dual-side face 35 mutually in succession, convex with several on this bottom surface 32 and parallel spaced divider wall 37, and the end of a divider wall 37 is provided with a upward holding section 38 therein, adopt interlace mode again on the metope of this each bar divider wall 37 and respectively be penetrated with an intercommunicating pore 39, making between each bar divider wall 37 can intercommunication, be equipped with a water inlet 301 and a delivery port 302 respectively on this dual-side face 35 in addition, wherein, section configuration of holding section 38 is that to establish tool be dovetail mount on this;

One lower floor's body 40, the flat board made from extrusion modling (Extrusion) by metal material, its contour shape and area are all identical with upper strata body 30, has an end face 41, one bottom surface 42, one leading flank 43, one trailing flank 44 and two edge surface that parallel 45, correspond to 38 positions, last holding section of the divider wall 37 of upper strata body 30 on this end face 41, convex with a following holding section 46, on this leading flank 43 and trailing flank 44, be respectively equipped with several screws 47, wherein, the section configuration of this time holding section 46 is that to establish tool be dovetail groove, can reach after interting mutually with holding section on this 38 and fixed to one anotherly not separate; And

Two edge sealing lid 50, be to cover the leading flank 33 that is affixed on after upper strata body 30 makes up mutually with lower floor's body 40 respectively, 43 with trailing flank 34, platysome on 44, and on the screw 36 that corresponds to this upper strata body 30 and the plate face of screw 47 positions of lower floor's body 40, be equipped with the fixing hole 51 of equal number respectively, run through each fixing hole 51 on the two edge sealing lid 50 by screw N, behind the screw 36 that screws in upper strata body 30 again and the screw 47 of lower floor's body 40, can be with the leading flank 33 of upper strata body 30 with lower floor's body 40,43 with trailing flank 34,44 complete driving fits are sealed, and synchronous several water stream channels 303 (as shown in figure 12) of formation between the end face 41 of the bottom surface 32 of this upper strata body 30 and lower floor's body 40 and each divider wall 37.

Its compound mode such as Fig. 9 are to shown in Figure 11, at first, dovetail groove with following holding section 46 in lower floor's body 40, aim at the dovetail mount of going up holding section 38 in the upper strata body 30, and it is in contact with one another wear (as shown in Figure 9), then, on the trailing flank 34 that forces in upper strata body 30 more respectively and the leading flank 43 of lower floor's body 40, just can make its intert mutually alignment in conjunction with and reach fixed to one another the separation (as shown in figure 10), at last, with two edge sealing lid 50, lid is affixed on the leading flank 33 of upper strata body 30 and lower floor's body 40 respectively, 43 with trailing flank 34, on 44, and run through each fixing hole 51 on the two edge sealing lid 50 by screw N, behind the screw 36 that screws in upper strata body 30 again and the screw 47 of lower floor's body 40, promptly accuse and finish combination (as shown in figure 11), the required operation of its whole combination is few and can significantly reduce time cost, and any weld job need not arranged and employ the expenditure of skilled worker's cost.

Continuous as Figure 14 and shown in Figure 15, it is the utility model shower hot water thermal energy exchange Unit Installation occupation mode, utilize pipe fitting that the water inlet pipe 23 of running water is connected with the water inlet 301 of upper strata body 30 earlier, and the outlet pipe 22 that will be connected on the water inlet 11 of water heater 10 is connected with the delivery port 302 of upper strata body 30, just can finish the installation (as shown in figure 14) before using; When shower person M begins shower, the shower hot water W of water heater 10 can spray out via its outlet pipe 12 and from shower nozzle 13, after this shower hot water W uses through shower person M health, promptly can trickle down on the end face 31 of upper strata body 30, the running water W1 of this while normal temperature is by the water inlet 301 of water inlet pipe 23 through upper strata body 30, and flow in the water stream channel 303 of upper strata body 30, and flow in regular turn through each water stream channel 303 (shown in the direction of arrow among Figure 15) by the intercommunicating pore 39 on each divider wall 37, and absorb synchronously from the heat energy of trickling down shower hot water W on upper strata body 30 end faces 31, after carrying out heat exchange, then form the warm water W2 of higher temperatures, flow out and enter the water inlet 11 of water heater 10 from the delivery port 302 of upper strata body 30 at last, with the water inlet (as shown in figure 14) that water heater 10 higher temperatures are provided, so have the consumption of saving water heater 10 heating energy source.

Again as can be known by Figure 14 and Figure 15, the supporting role (shown in the zoomed-in view among Figure 14) of several upright divider walls 37 is arranged between the end face 41 because of the bottom surface 32 of upper strata body 30 and lower floor's body 40, when shower person M stands on the end face 31 of heat exchanger plate 30, can bear fully from the active force of shower person M human body weight and can not produce distortion to lower recess, and the end face 31 of this upper strata body 30 also is smooth surface, therefore also can not cause astasia to cause the injured situation of falling; Moreover, because between each water stream channel 303 is to do via the intercommunicating pore on the divider wall 37 39 to connect, so can form the effect (shown in the arrow among Figure 15) of water conservancy diversion, it can be directed to smooth and easy mobile stationary flow with the running water W1 that flows between upper strata body 30 and the lower floor's body 40, and help to improve the efficient of heat exchange, also significantly improve the energy-saving benefit of water heater 10 simultaneously.

Above-mentioned the utility model body 30 and lower floor's body 40 at the middle and upper levels all is to adopt traditional extrusion modling (Extruding) mode to produce, with this upper strata body 30 is example, as shown in figure 16, its by extruding machine (Extruder) A with the aluminum alloy materials fusion after, after extrusion die (Extruding die) B extrudes, promptly make a rectangular upper strata body plate 300, then cut with cutting tool C again and just become upper strata body 30, and this lower floor's body 40 is also identical with the manufacture of this upper strata body 30, therefore, as everyone knows, the die sinking cost of this extrusion die B have only die casting or jetting mold 1/10th or below, and extrusion modling is again to belong to successional processing procedure, so can satisfy the requirement of commodity large production, and for example shown in Figure 7, when follow-up for upper strata body 30 in each divider wall 37 interlock and wear the man-hour that adds of intercommunicating pore 39, as long as earlier the bottom surface 32 of upper strata body 30 is put up, just available boring bar tool D is directly drilling out intercommunicating pore 39 (shown in the part of the imaginary line among Fig. 7) easily on each divider wall 37, and can not be subjected to any stopping fully when using boring bar tool D to hole, for another Figure 17 and shown in Figure 180, aforementioned use boring bar tool D wears the mode of intercommunicating pore 39, also can change with milling cutter G the terminal edge of each staggered divider wall 37 toward interior processing and in contract and mill out formation nick shaped intercommunicating pore 391, the nick shaped intercommunicating pore 391 that this kind processing mode draws is still identical with the effect of intercommunicating pore 39, therefore, get out intercommunicating pore 39 or mill out nick shaped intercommunicating pore 391 with boring bar tool D no matter be with milling cutter processing, it also all seems relative simple and easy relatively down with existing other processing mode, moreover, because of not using weld job fully, just two edge sealing lid 50 and upper strata body 30 and lower floor's body 40 can be finished the closed group integrator, decapacitation is saved and is employed the higher technical staff of solder technology degree and operate, outside the fraction defective that reduces finished product, also needn't pay the cost of welding wage, so whole manufacturing cost of the present utility model can reduce a lot of, and can effectively reduce the price of finished product, make more capable purchase of consumer and the wish that improves its purchase, therefore, reach in the electric power of water heater 10 or the saving of gas equal energy source for utilization and extention shower hot water W and have the effect that is showing again immediately.

Figure 19 and shown in Figure 20 for another example, be the utility model another embodiment of body 30 and lower floor's body 40 at the middle and upper levels, wherein, on the internal face of the dual-side face 35 of this upper strata body 30, convex with an inner side edge holding section 351 more respectively, and this lower floor's body 40 also cooperates respectively to convex with an outer side edges holding section 451 near on the end face 41 of dual-side face 45, it is dovetail mount that the section configuration of this inner side edge holding section 351 is established tool, and it is dovetail groove that the section configuration of this outer side edges holding section 451 is then established tool; By after increasing this two inner side edges holding section 351 and interting mutually, can make upper strata body 30 and lower floor's body 40 intensity better (as shown in figure 20) of combination after fixing mutually with outer side edges holding section 451.

As Figure 21 and shown in Figure 22, be the utility model another embodiment of body 30 and lower floor's body 40 at the middle and upper levels, wherein, whole the establishing of the terminal part of all divider walls 37 has a upward holding section 38 on these upper strata body 30 bottom surfaces 32, and all to establish tool be dovetail mount to the section configuration of holding section 38 on each bar, and correspond to 38 positions, last holding section of these all divider walls 37 on lower floor's body 40 end faces 41, also cooperate the following holding section 46 that respectively convexes with equal number, and all to establish tool be dovetail groove (as shown in figure 21) to the section configuration of holding section 46 under each bar, dovetail mount by holding section 38 on each bar of all divider wall 37 terminal parts, with corresponding all dovetail grooves of holding section 46 down on lower floor body 40 end faces 41, can make upper strata body 30 and lower floor's body 40 intensity better (as shown in figure 22) of combination after fixing mutually.

As Figure 23 and shown in Figure 24, be the utility model embodiment again of body 30 and lower floor's body 40 at the middle and upper levels, wherein, the last holding section 38 of divider wall 37 terminal parts on these upper strata body 30 bottom surfaces 32, its section configuration more is made as dovetail mount, and the following holding section 46 on these lower floor's body 40 end faces 41, its section configuration also cooperated more be made as dovetail groove (as shown in figure 23), then this upper strata body 30 and lower floor's body 40 intert mutually and still have unseparated effect fixed to one another (shown in the zoomed-in view among 24 figure) after the combination.

As Figure 25 and shown in Figure 26, be the utility model another embodiment of body 30 at the middle and upper levels, wherein, the end face 31 of this upper strata body 30 can more be established tool and become to go up convex arc shaped (as shown in figure 25), can not accumulate in after making shower hot water W unrestrained on the end face 31 of this upper strata body 30 (as shown in figure 26), and can avoid itself and follow-up unrestrained shower hot water W mutual the mixing to take place and reduce temperature, and then influence the efficient of heat exchange.

Extremely shown in Figure 31 as Figure 27, be another embodiment of two edge sealing lid in the utility model, wherein, correspond to each divider wall 37 position of upper strata body 30 on the plate face 501 of this two edge sealing lid 500, more be concaved with the spaced crooked water channel 502 of array, the plate face 501 of this two edge sealing lid 500 is covered the leading flank 33 that is affixed on after upper strata body 30 makes up mutually with lower floor's body 40 respectively, 43 with trailing flank 34, on 44, fixed back (as shown in figure 31) with screw N again, can organize the two terminal flowing flux (shown in the arrow among Figure 30) of perforation mutually that form of two openings on the crooked water channel 502 and per two water stream channels 303 by each, and have a function that substitutes original intercommunicating pore 39 or nick shaped intercommunicating pore 391, and needn't on all divider walls 37 of upper strata body 30, wear the processing operation of intercommunicating pore 39 or nick shaped intercommunicating pore 391 again, and then can more save whole manufacturing cost.

As Figure 32 and shown in Figure 34, be the utility model embodiment again of body 30 at the middle and upper levels, this upper strata body 30 comprises one first upper strata body 30a and one second upper strata body 30b, wherein, on the wherein edge surface 35a of this first upper strata body 30a, more level bends inwards and is formed with a depressed part 352, and on the wherein edge surface 35b of the second upper strata body 30b, then the relative engagement level outwards is convexly equipped with and is formed with a protruding alar part 353, be equipped with screw 354 on this depressed part 352, then be provided with 355 (as shown in figure 33) of boring a hole on this protruding alar part 353, chimeric by subsides mutually by this depressed part 352 and protruding alar part 353, pass perforation 355 with screw N again and screw in screw 354 in addition spiral shell solid after, this first upper strata body 30a and this second upper strata body 30b can be combined into one side by side, and then can form larger area shower hot water with thermal energy exchange device (as Figure 32 and shown in Figure 34).

The metal material that this upper strata body 30 uses in above-mentioned the utility model, also can change nonmetallic composite into heat conduction property, carbon fiber for example, it still can produce the effect of heat exchange with shower hot water W, save the effect that water heater 10 heating energy source consume and have.

To sum up institute is old, the utility model is because of simple in structure and the processing procedure operation is few, really can reach the purpose that whole manufacturing cost is significantly reduced, again employed electric power of water heater or gas equal energy source be had high energy-conservation benefit simultaneously, so meet the important document of utility model patent.

Claims (12)

1. shower hot water thermal energy exchange device is characterized in that: comprising:

One upper strata body, the square body made from extrusion modling by metal material, has the edge surface that an end face, a bottom surface, a leading flank, a trailing flank and two parallel, two distal edge of this leading flank and trailing flank respectively by this dual-side face mutually in succession, convex with several on this bottom surface and parallel spaced divider wall, and the end of a divider wall is provided with a upward holding section therein, and adopt interlace mode on the metope of this each bar divider wall and respectively be penetrated with an intercommunicating pore, and on this dual-side face, be equipped with a water inlet and a delivery port respectively;

One lower floor's body, the flat board made from extrusion modling by metal material, its contour shape and area are all identical with the upper strata body, has the edge surface that an end face, a bottom surface, a leading flank, a trailing flank and two parallel, correspond to the body wherein position, last holding section of a divider wall in upper strata on this end face, convex with a following holding section, fixed to one anotherly do not separate with reaching after intert mutually the last holding section of this divider wall; And

Two edge sealing lid, lid is affixed on leading flank after upper strata body and lower floor's body make up mutually and the platysome on the trailing flank respectively, the leading flank of the big young pathbreaker of its area upper strata body and lower floor's body and the complete driving fit of trailing flank are sealed, and synchronous several water stream channels of formation between the end face of the bottom surface of this upper strata body and lower floor's body and each divider wall.

2. shower hot water thermal energy exchange device according to claim 1, it is characterized in that: be respectively equipped with several screws on the leading flank of this upper strata body and lower floor's body and this trailing flank, and correspond on the plate face of this two edge sealing lid of screwhole position of the screw of this upper strata body and lower floor's body, also be equipped with the fixing hole of equal number respectively, run through two edge sealing by screw and cover each fixing hole, after screwing in the screw of upper strata body and lower floor's body again, and the leading flank and the more complete driving fit of trailing flank of upper strata body and lower floor's body are sealed.

3. shower hot water thermal energy exchange device according to claim 1, it is characterized in that: on the internal face of the dual-side face of this upper strata body, convex with an inner side edge holding section more respectively, and this lower floor's body also cooperates respectively to convex with an outer side edges holding section near on the end face of dual-side face.

4. shower hot water thermal energy exchange device according to claim 1, it is characterized in that: whole the establishing of the terminal part of all divider walls has a upward holding section on this body bottom surface, upper strata, and correspond to the position, last holding section of these all divider walls on this lower floor's body end face, also cooperate the following holding section that respectively is provided with equal number.

5. according to claim 1 or 4 described shower hot water thermal energy exchange devices, it is characterized in that: section configuration of holding section is to be made as dovetail mount on this, and the section configuration of this time holding section then cooperates and is made as dovetail groove.

6. shower hot water thermal energy exchange device according to claim 3 is characterized in that: the section configuration of the inner side edge holding section of this upper strata body is to be made as dovetail mount, and the section configuration of the outer side edges holding section of this lower floor's body then cooperates and is made as dovetail groove.

7. according to claim 1 or 4 described shower hot water thermal energy exchange devices, it is characterized in that: section configuration of holding section is to be made as dovetail groove on this, and the section configuration of this time holding section then cooperates and is made as dovetail mount.

8. shower hot water thermal energy exchange device according to claim 1 is characterized in that: the end face of this upper strata body is to establish tool to become to go up convex arc shaped.

9. shower hot water thermal energy exchange device according to claim 1 is characterized in that: the metal material of this upper strata body changes to the nonmetallic composite with heat conduction property.

10. shower hot water thermal energy exchange device according to claim 1, it is characterized in that: this upper strata body more includes one first upper strata body and one second upper strata body, wherein, on the wherein edge surface of this first upper strata body, more level bends inwards and is formed with a depressed part, and on the wherein edge surface of this second upper strata body, then the relative engagement level outwards is convexly equipped with and is formed with a protruding alar part, on this depressed part, be equipped with screw, on this protruding alar part, then be provided with perforation.

11. shower hot water thermal energy exchange device according to claim 1, it is characterized in that: each the divider wall position that corresponds to the upper strata body on the plate face of this two edge sealing lid, more be concaved with the spaced crooked water channel of array, the plate face of this two edge sealing lid is covered respectively on the leading flank and trailing flank that is affixed on after upper strata body and lower floor's body make up mutually, after being fixed with screw again, organize the two terminal flowing flux of perforation mutually that form of two openings on the crooked water channel and per two water stream channels by each.

12. shower hot water thermal energy exchange device according to claim 1 is characterized in that: staggered intercommunicating pore on each bar divider wall metope in this upper strata body, change terminal edge by each divider wall toward interior processing and in contract and form the nick shaped intercommunicating pore.

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