CN106360936A - Heat pump hair-washing bed structure capable of descaling and discharging dirt - Google Patents

Abstract

The invention relates to the technical field of hair-washing beds, in particular to a heat pump hair-washing bed structure capable of descaling and discharging dirt. The heat pump hair-washing bed structure comprises a hair-washing bed, a hot water tank, a heat pump heating device and a waste water tank. The heat pump hair-washing bed structure further comprises a heat exchanger, a tap water inlet pipe and a tap water outlet pipe, wherein the heat exchanger is provided with a waste water channel and a tap water channel; and the bottom end of the hot water tank is provided with a water distribution pipe, and the tap water outlet pipe is communicated with the water distribution pipe. The bottom of the hot water tank is provided with a cleaning pipe. The hot water tank is cleaned and undergoes dirt removal, and the shortcomings that dirt at the bottom of the hot water tank is accumulated, so that the volume of the hot water tank is occupied and temperature detection is affected are overcome. While the descaling and dirt removal are performed on the hot water tank, waste water flows through the heat exchanger and the waste water tank, so that the heat exchanger and the waste water tank are also cleaned, water resources are fully utilized, the heat exchanger recycles waste water heat and preheats tap water, energy consumption of heating the tap water is reduced, and the heat pump hair-washing bed structure saves energy, is environmentally friendly and reduces using cost.

Description

A kind of can scale removal blowdown heat pump hair washing bed structure

Technical field

The present invention relates to hair washing bed technical field, refer in particular to a kind of can scale removal blowdown heat pump hair washing bed structure.

Background technology

Heat pump hair washing bed for monolithic construction, heat pump narrow space, boiler configuration is all smaller, and single hair washing hot water needs Ratio is larger again for the amount of asking, and boiler configuration seldom has surplus.Especially in the area of northern water quality inferiority, during tap water heating, meeting Substantial amounts of incrustation scale is had to separate out.Boiler, by after life-time service, can accumulate substantial amounts of dirt in boiler bottom, take boiler and hold Long-pending, make hot water not enough；Simultaneously dirt also result in cannot real-time detection to water temperature, make water temperature detect significantly time delay, lead to Operation of heat pump, to unsafe region, makes heat pump fault cannot use.In addition, existing hair washing bed, the waste water after use is straight Run in, waste water carries substantial amounts of heat, leads to heat waste.

Content of the invention

The technical problem to be solved in the present invention be provide a kind of can scale removal blowdown heat pump hair washing bed structure, it can also be right The heat of waste water is recycled, and plays the effect of energy-conserving and environment-protective.

In order to solve above-mentioned technical problem, the present invention adopts the following technical scheme that

A kind of can scale removal blowdown heat pump hair washing bed structure, include hair washing bed, boiler, be used for the water in boiler is entered The heat pump heating device of row heating and for collecting the waste water tank of waste water, is also included for changing that the heat of waste water is reclaimed Hot device, described heat exchanger is provided with waste water tunnel and aquaporin from the beginning；Also include entering with the tap water of tap water channel connection respectively Water pipe and running water outlet pipe, described boiler bottom is provided with the water distributor for washing away boiler, described running water outlet pipe Connect with water distributor；Described boiler bottom is provided with the cleaning pipe connecting with the waste water tunnel of heat exchanger, and the waste water of heat exchanger leads to Road is connected with waste water tank.

Wherein, the bottom of described boiler is provided with sewage draining exit；Described cleaning pipe is connected with blowoff valve.

Wherein, described heat pump heating device includes being arranged in boiler heat pump condenser, it is arranged in waste water tank The cold-producing medium that evaporator with heat pump, the compressor being connected with heat pump condenser and evaporator with heat pump respectively are connected with evaporator with heat pump Throttling arrangement and the coolant filters being connected with this cold-producing medium throttling arrangement, this coolant filters is with heat pump condenser even Connect.

Wherein, described water distributor includes some sparge pipes being set up in parallel, and the outlet of sparge pipe is down-set.

Wherein, described heat exchanger includes core body, and core body includes a plate, b plate, front shrouding and rear shrouding；

A plate is provided with some a plate deep gouges side by side, and the back side of a plate deep gouge is that a plate deep gouge is raised；B plate is provided with and a plate deep gouge pair The b plate deep gouge answered, the back side of b plate deep gouge is that b plate deep gouge is raised, and two adjacent b plate deep gouges are connected；

A plate deep gouge projection is arranged in b plate deep gouge and a plate deep gouge is raised has gap, a plate deep gouge and b plate deep gouge between Raised and b plate deep gouge two ends are equipped with the structure of seal clearance, make described in the raised formation and b plate deep gouge between of a plate deep gouge from the beginning Aquaporin；

Described front shrouding is respectively provided with the front end slot connecting adjacent a plate deep gouge and rear end slot, described a plate with rear shrouding Deep gouge, front end slot and rear end slot form described waste water tunnel.

Preferably, described a plate deep gouge is raised and b plate deep gouge two ends are welded, and makes a plate deep gouge raised and b plate deep gouge two ends Gap is sealed.

Wherein, b plate is provided with the deep gouge for connecting adjacent b plate deep gouge.

Preferably, the section of described aquaporin from the beginning is in crescent, and described crescent section is made up of multistage curve, and this is many Buckle in a plate external pressure curved section that section curve includes being arranged at a plate, a plate being connected with the two ends of this plate external pressure curved section respectively Line segment, the b plate inner pressure curve section being arranged at b plate and the b plate external pressure curve being connected with the two ends of this b plate inner pressure curve section respectively Section.

Preferably, described heat exchanger also includes being covered on the cover plate of a plate, and cover plate is provided with leaking hole, is provided with leaking hole Filter screen, described front shrouding is provided with the water leg for collecting the fluid flowing out in leaking hole, and water leg is connected with a plate deep gouge.

Preferably, described heat exchanger also includes casing, and described core body is installed in casing.

Beneficial effects of the present invention:

During practical application, tap water enters the aquaporin from the beginning of heat exchanger from tap water water inlet pipe, then goes out from tap water Water pipe flows to water distributor, and water distributor washes away to the bottom of boiler, removes dirt of deposition etc. in boiler.Then, heat From the waste water tunnel that cleaning pipe flows to heat exchanger, heat exchanger is carried out waste water in water tank, to remove in waste water tunnel Hair, hair cream and dirt etc..Waste water is flowed into waste water tank from heat exchanger again.When waste water flows through heat exchanger, and flow through heat exchange The tap water of device carries out heat exchange, and tap water absorbs the waste heat of waste water, and the heat reclaiming waste water carries out waste heat to tap water.This Invention blowdown is carried out to boiler, it is to avoid boiler bottom accumulation of mud and lead to take boiler volume, impact temperature The defects such as detection.While to boiler scale removal blowdown, waste water flows through heat exchanger and waste water tank, thus heat exchanger and waste water Case has been also carried out cleaning, and takes full advantage of water resource, heat exchanger reclaims to the heat of waste water, it carries out pre- to tap water Heat, reduces the energy consumption of heating tap water, energy-conserving and environment-protective, reduces the cost using.

Brief description

Fig. 1 is the structural representation of the present invention.

Fig. 2 is the structural representation of heat pump heating device of the present invention.

Fig. 3 is the perspective view of heat exchanger described in the embodiment of the present invention one.

Fig. 4 is the stereochemical structure decomposing schematic representation of heat exchanger described in the embodiment of the present invention one.

Fig. 5 is the perspective view of a plate described in the embodiment of the present invention one.

Fig. 6 is the perspective view of b plate described in the embodiment of the present invention one.

Fig. 7 is the perspective view of front shrouding described in the embodiment of the present invention one.

Fig. 8 is the perspective view of rear shrouding described in the embodiment of the present invention one.

Fig. 9 is the partial structural diagram in the section of heat exchanger described in the embodiment of the present invention one.

Figure 10 is the partial structural diagram in another kind of section of heat exchanger described in the embodiment of the present invention one.

Figure 11 is the perspective view of heat exchanger described in the embodiment of the present invention two.

Figure 12 is the stereochemical structure decomposing schematic representation of heat exchanger described in the embodiment of the present invention two.

Figure 13 is the partial structural diagram in the section of heat exchanger described in the embodiment of the present invention two.

Figure 14 is the perspective view of heat exchanger described in the embodiment of the present invention three.

Figure 15 is the stereochemical structure decomposing schematic representation of heat exchanger described in the embodiment of the present invention three.

Figure 16 is the perspective view of heat exchanger described in the embodiment of the present invention four.

Figure 17 is the stereochemical structure decomposing schematic representation of heat exchanger described in the embodiment of the present invention four.

Specific embodiment

For the ease of the understanding of those skilled in the art, the present invention is made further with accompanying drawing with reference to embodiment Bright, the content not limitation of the invention that embodiment refers to.

Embodiment one.

As shown in Fig. 1 and Figure 10, a kind of can scale removal blowdown heat pump hair washing bed structure, include hair washing bed 1, boiler 2, use Waste water tank 4 in the heat pump heating device 3 that the water in boiler 2 is heated and for collecting waste water, is also included for right The heat exchanger 800 that the heat of waste water is reclaimed, described heat exchanger 800 is provided with waste water tunnel and aquaporin from the beginning；Also include point Not and the tap water water inlet pipe 01 of tap water channel connection and running water outlet pipe 02, described boiler 2 bottom is provided with for rushing The water distributor 03 of brush boiler 2, described running water outlet pipe 02 is connected with water distributor 03；Described boiler 2 bottom is provided with and changes The cleaning pipe 04 of the waste water tunnel connection of hot device 800, the waste water tunnel of heat exchanger 800 is connected with waste water tank 4.

During practical application, tap water enters the aquaporin from the beginning of heat exchanger 800 from tap water water inlet pipe 01, then from from the beginning Water outlet pipe 02 flows to water distributor 03, and further, described water distributor 03 includes some sparge pipes being set up in parallel, sparge pipe Outlet is down-set, and tap water flows out from some sparge pipes and the bottom of boiler 2 washed away, and removes in boiler 2 Dirt of deposition etc..Then, the waste water in boiler 2 flows to the waste water tunnel of heat exchanger 800 from cleaning pipe 04, heat exchanger 800 are carried out, to remove the hair in waste water tunnel, hair cream and dirt etc..Waste water is flowed into waste water tank from heat exchanger 800 again In 4.When waste water flows through heat exchanger 800, carry out heat exchange with the tap water flowing through heat exchanger 800, tap water absorbs waste water Waste heat, the heat reclaiming waste water carries out waste heat to tap water.

The present invention is carried out blowdown to boiler 2, it is to avoid boiler 2 bottom accumulation of mud and lead to take boiler 2 The defects such as volume, impact temperature detection.While to boiler 2 scale removal blowdown, waste water flows through heat exchanger 800 and waste water tank 4, Thus heat exchanger 800 and waste water tank 4 have been also carried out cleaning, take full advantage of water resource, heat exchanger 800 enters to the heat of waste water Row reclaims, and it preheats to tap water, reduces the energy consumption of heating tap water, its energy-conserving and environment-protective, reduces the cost using.

Further, the bottom of described boiler 2 is provided with sewage draining exit；Described cleaning pipe 04 is connected with blowoff valve 05.Right When boiler 2 is carried out, the waste water with hair, hair cream and dirt can be excluded from sewage draining exit, when opening blowoff valve 05, Waste water is carried out from cleaning pipe 04 inflow heat exchanger 800.

In the present embodiment, heat pump condenser 31 that described heat pump heating device 3 includes being arranged in boiler 2, it is arranged at Evaporator with heat pump 35 in waste water tank 4, the compressor 34 being connected with heat pump condenser 31 and evaporator with heat pump 35 respectively and heat pump Cold-producing medium throttling arrangement 33 and the coolant filters 32 being connected with this cold-producing medium throttling arrangement 33 that vaporizer 35 connects, this system Refrigerant filter 32 is connected with heat pump condenser 31.After waste water flows in waste water tank 4, reclaimed by evaporator with heat pump 35, further Improve the recycling of the energy, save resources.

In the present embodiment, described heat exchanger 800 includes core body 20, core body 20 include a plate 30, b plate 40, front shrouding 50 and after Shrouding 70；A plate 30 is provided with some a plate deep gouges 301 side by side, and the back side of a plate deep gouge 301 is a plate deep gouge projection 302；B plate 40 is provided with B plate deep gouge 401 corresponding with a plate deep gouge 301, the back side of b plate deep gouge 401 is b plate deep gouge projection 402, and two adjacent b plates sink Groove 401 is connected；A plate deep gouge projection 302 be arranged in b plate deep gouge 401 and a plate deep gouge projection 302 and b plate deep gouges 401 between There is gap, a plate deep gouge projection 302 and b plate deep gouge 401 two ends are equipped with the structure of seal clearance, make a plate deep gouge projection 302 Aquaporin 60 from the beginning described in being formed and b plate deep gouge 401 between；Described front shrouding 50 is respectively provided with rear shrouding 70 and connects phase The front end slot 501 of adjacent a plate deep gouge 301 and rear end slot 701, described a plate deep gouge 301, front end slot 501 and rear end slot 701 composition institute State waste water tunnel.

During practical application, after described a plate 30 and b plate 40 assembling, front shrouding 50 and rear shrouding 70 are respectively arranged at a plate 30 He The two ends of b plate 40 assembly.As needed, can be using various ways sealing a plate deep gouge projection 302 and b plate deep gouge 401 two ends Gap, for example with adhesive tape sealing and welded seal etc..In the present embodiment, provide a kind of preferred scheme, described a plate deep gouge The two ends of a plate 30, during welding, can be pushed or by the two ends of b plate 40 by the welding of raised 302 and b plate deep gouge 401 two ends Pressure, makes the two ends of a plate 30 and the two ends of b plate 40 carry out contact type welding, so that a plate deep gouge projection 302 and b plate deep gouges 401 The gap at two ends is sealed, and can bear larger pressure.Two adjacent b plate deep gouges 401 are connected, a plate deep gouge Gap between raised 302 and b plate deep gouges 401 is also interconnected, its become for circulate tap water or other media from Carry out aquaporin 60.The section of aquaporin 60 can adopt various shapes, runner as curved in u-shaped, circular flow channel, oval runner from the beginning Deng to adapt to various heat exchange site requirements.Adjacent a plate deep gouge 301 mutually ganged up with rear end slot 701 by front end slot 501 so that Some a plate deep gouges 301 and front end slot 501 and rear end slot 701 form described waste water tunnel.Tap water in aquaporin 60 from the beginning with Waste water in b plate deep gouge 401 carries out heat exchange.Described front end slot 501 and rear end slot 701 are preferably u shape so that waste water Flowing is more smooth.

This heat exchanger 800 compact conformation, can be carried out with miniaturization, so that installing and placing conveniently to a plate 30 and b plate 40 Punching press etc. can be obtained by corresponding deep gouge, and it manufactures relatively easy, the cost that attenuating produces.

This heat exchanger 800 arranges a plate deep gouge 301 in a plate 30, arranges b plate deep gouge 401 in b plate 40, and a plate 30 and b plate 40 are equal Enhanced heat exchange is carried out using plate plus ripple struction, the coefficient of heat transfer is high.A plate 30 and b plate 40 are combined into core body using plate tubular construction The overall flatness of 20, a plate deep gouges 301 is good, and waste water flowing is smooth, effectively avoids what dirt blocked, and deposited and its causes The coefficient of heat transfer is greatly lowered problem.

The a plate deep gouge 301 of this heat exchanger 800 and b plate deep gouge 401 are all set side by side with several, greatly increase waste water and The heat exchange area of tap water, waste water and tap water circuitous flow, make tap water fully absorb heat.

Some a plate deep gouges 301 of a plate 30 of this heat exchanger 800 pass through front end slot 501 and rear end slot 701 connects so that a The corner of plate deep gouge 301 is Wheelchair Accessible, its transitions smooth, the heat exchange can be avoided dirt blocking, depositing and its causing The problem that coefficient is greatly lowered.

This heat exchanger 800 adopts a plate 30 and b plate 40 plate tubular construction, its Stability Analysis of Structures, long service life, and is easy to a Plate deep gouge 301 and from the beginning aquaporin 60 are carried out, and its maintenance cost is low.

In the present embodiment, b plate 40 is provided with the deep gouge 400 for connecting adjacent b plate deep gouge 401.Described deep gouge includes heavy Groove 407, on this, deep gouge 407 is located in the projection between adjacent b plate deep gouge 401.As shown in fig. 7, when a plate deep gouge projection 302 When bottom surface is not contacted with b plate deep gouge 401, the only upper deep gouge 407 of setting one.As shown in figure 8, working as a plate deep gouge projection 302 Bottom surface when contacting with b plate deep gouge 401, described deep gouge also includes lower deep gouge 408, and b plate deep gouge 401 is by between a plate deep gouge projection 302 It is divided into two parts, so that adjacent b plate deep gouge 401 is connected using upper deep gouge 407 and lower deep gouge 408.So that a plate deep gouge is raised Gap between 302 and b plate deep gouges 401 is also mutually ganged up, and obtains the aquaporin from the beginning 60 connecting, and its structure is simple, overall Property is good, and bearing capacity is strong.Certainly, according to use demand, b plate deep gouge 401 can also be ganged up using other modes, such as adopts upper The a plate deep gouge 301 stated gang up mode, to be ganged up using closing plate structure.

In the present embodiment, front shrouding 50 and rear shrouding 70 are respectively arranged with front slot 502 and rear slot 702, a plate 30 and b After plate 40 assembling, two ends are plugged in front slot 502 and rear slot 702 respectively, and it installs simple, fixing reliability, and makes some a plates Deep gouge 301 is docked completely with front end slot 501 and rear end slot 701.

In the present embodiment, described core body 20 is provided with some strengthening rib strips 80, some strengthening rib strips 80 be arranged at a plate 30 and/ Or b plate 40.Specifically, strengthening rib strip 80 can be welded on a plate 30 or b plate 40, or simultaneously on a plate 30 and b plate 40 all So that core body 20 Stability Analysis of Structures, bearing capacity is strong for welding strengthening rib strip 80.

As shown in fig. 7, in the present embodiment it is preferred that section of described aquaporin from the beginning 60 is in crescent, larger fluid is disturbed Dynamic, increase the coefficient of heat transfer, strengthen the heat exchange of fluid.Described crescent section is made up of multistage curve, this multistage curve bag Include a plate external pressure curved section 305 being arranged at a plate 30, buckle in a plate being connected with the two ends of this plate external pressure curved section 305 respectively Line segment 306, the b plate inner pressure curve section 405 being arranged at b plate 40 and the b being connected with the two ends of this b plate inner pressure curve section 405 respectively Plate external pressure curved section 406.Specifically, according to the size bearing pressure, multistage curve is set to inner pressure curve section and external pressure curve Section, during design, is easy to the thickness of a plate 30 and b plate 40 is calculated, utilitarian design, rational thickness, it is to avoid produces design and lacks Fall into, and avoid the waste of material, reduce the cost producing.Aquaporin 60 adopts the pressure design of multistage inside or outside of curve, energy from the beginning simultaneously Enough resistances effectively reducing fluid.

In the present embodiment, provide the computing formula calculating a plate or b plate thickness, the thickness of described a plate or b plate is:

When designing by external pressure

By during intrinsic pressure design

Wherein, p is core body fluid design pressure；

d_1nEquivalent diameter for a plate external pressure curved section 305 or b plate external pressure curved section 406；

d_2nEquivalent diameter for a plate inner pressure curve section 306 or b plate inner pressure curve section 405；

[σ] is the tensile strength of a plate external pressure curved section 305 or b plate external pressure curved section 406 material；

σ is a plate inner pressure curve section 306 or the tensile strength of b plate inner pressure curve section 405 material；

η is the safety coefficient of a plate inner pressure curve section 306 or b plate inner pressure curve section 405；

The average wall thickness of described meniscate aquaporin from the beginning 60

η₃Tensile strength safety coefficient for meniscate aquaporin from the beginning 60 wall；Meniscate aquaporin from the beginning 60 equivalent Diameter d₃=l/ π；Wherein, l is the girth of meniscate aquaporin from the beginning 60；

When actually used, the thickness of described a plate or b plate takes s_1n、s_2n、s₃In maximum, and add safe clearance a.Described safe clearance a is the coefficient being selected according to actual production demand.

Embodiment two.

As shown in Figure 11 to Figure 13, the present embodiment two and the difference of embodiment one are: described heat exchanger 800 also wraps Include the cover plate 10 being covered on a plate 30, cover plate 10 is provided with leaking hole 101, at leaking hole 101, be provided with drainage screen 102, described front shrouding 50 are provided with the water leg 503 for collecting the fluid flowing out in leaking hole 101, and water leg 503 is connected with a plate deep gouge 301.

In the present embodiment, increase cover plate 10, this cover plate 10 is covered on a plate 30, thus sealing to a plate deep gouge 301.Real During the application of border, cover plate 10 can be with the projection contacts of a plate 30 top surface it is also possible to not contact.Waste water in boiler 2 is from cleaning pipe 04 flows to leaking hole 101, after drainage screen 102 filters, is flowed in water leg 503, waste water is flowed into from water leg 503 again Carry out heat exchange in a plate deep gouge 301.Connection between connection between described cover plate 10 and a plate 30, a plate 30 and b plate 40, All can be according to the different demands of bearing capacity, thus selecting welded seal or by adhesive tape press seal etc..In the present embodiment, institute State core body 20 and be installed on cover plate 10 by some fixture blocks 90.

In the present embodiment, heat exchanger 800 increases cover plate 10, and user may stand in and taken a shower on cover plate 10, cover plate 10 A plate deep gouge 301 is sealed, drainage screen 102 filters to waste water, the foreign body such as removable hair, prevent waste water tunnel from blocking up Plug.Adopt fixture block 90 that core body 20 is installed further, after a plate 30 and b plate 40 assembling, some fixture blocks 90 clamping of its two ends, its peace Dress is convenient, fixing reliable.

Embodiment three.

As shown in Figure 14 to Figure 15, the present embodiment three is with the difference of embodiment two: described heat exchanger 800 also wraps Include casing 100, described core body 20 is installed in casing 100.During practical application, when core body 20 is installed on casing 100, casing 100 Bottom surface can raised with b plate deep gouge 402 abut so that the fluid slot that surrounds with b plate deep gouge projection 402 in casing 100 of fluid Flow in 200, as shown in figure 13.The bottom surface of casing 100 can not also abut b plate deep gouge raised 402 so that fluid is in b plate 40 Flow and casing 100 between.On the basis of above-described embodiment two, it is further added by casing 100, waste water can be introduced fluid slot In 200 so that from the beginning the tap water in aquaporin 60 absorb the heat of waste water in fluid slot 200 and a plate deep gouge 301 simultaneously, its Endothermic effect is good, makes full use of the structure of core body 20 to carry out heat exchange.Certainly, according to use demand, fluid slot 100 or A plate deep gouge 301 all can be independently matched with aquaporin 60 from the beginning and carry out the heat exchange between waste water and tap water.

Example IV.

As shown in Figure 16 to Figure 17, the present embodiment four is with the difference of embodiment three: described core body 20 at least sets It is equipped with two groups.In the present embodiment, multiple core bodys 20 are combined into combination core body 300, and this combination core body 300 is contained in casing 100. Using the first water inlet pipe and water outlet pipe 001 and the second water inlet pipe and water outlet pipe 002, the aquaporin from the beginning 60 of each core body 20 is risen in parallel or in series Come, it is concentrated with logical tap water.Meanwhile, the turnover joint 500 of logical waste water is connected on casing 100, logical useless in casing 100 Water, makes the tap water in combination core body 300 absorb the heat of waste water.It is of course also possible to the aquaporin from the beginning by each core body 20 60 are together in series use.In the present embodiment, in addition to having the beneficial effect in embodiment three, the combination of multiple core bodys 20 is made by it With, it is possible to increase the heat exchange amount of heat exchanger.

In the present embodiment, some guide plates 600 that the flow direction that is provided with for convection cell in described casing 100 is guided, Described core body 20 is installed on some guide plates 600.Core body 20 is fixed by guide plate 600, and guide plate 600 can be to casing The flow direction of 100 waste water plays guide effect so as to flow in one direction.In addition, guide plate 600 plays installation and fixed core The effect of body 20.

Above-described embodiment is the present invention preferably implementation, and in addition, the present invention can be realized with alternate manner, Without departing from obvious replacement any on the premise of the technical program design all within protection scope of the present invention.

Claims (10)

1. a kind of can scale removal blowdown heat pump hair washing bed structure, include hair washing bed (1), boiler (2), be used for boiler (2) Heat pump heating device (3) that interior water is heated and for collect waste water waste water tank (4) it is characterised in that: also include using The heat exchanger (800) being reclaimed in the heat to waste water, described heat exchanger (800) is provided with waste water tunnel and aquaporin from the beginning；

Also include tap water water inlet pipe (01) and the running water outlet pipe (02) respectively with tap water channel connection, described boiler (2) bottom is provided with the water distributor (03) for washing away boiler (2), and described running water outlet pipe (02) is with water distributor (03) even Logical；Described boiler (2) bottom is provided with the cleaning pipe (04) connecting with the waste water tunnel of heat exchanger (800), heat exchanger (800) Waste water tunnel is connected with waste water tank (4).

2. according to claim 1 a kind of can scale removal blowdown heat pump hair washing bed structure it is characterised in that: described boiler (2) bottom is provided with sewage draining exit；Described cleaning pipe (04) is connected with blowoff valve (05).

3. according to claim 1 a kind of can scale removal blowdown heat pump hair washing bed structure it is characterised in that: described heat pump adds Thermal (3) includes the heat pump condenser (31) being arranged in boiler (2), the evaporator with heat pump being arranged in waste water tank (4) (35) compressor (34), being connected with heat pump condenser (31) and evaporator with heat pump (35) respectively and evaporator with heat pump (35) are even The cold-producing medium throttling arrangement (33) connecing and the coolant filters (32) being connected with this cold-producing medium throttling arrangement (33), this cold-producing medium Filter (32) is connected with heat pump condenser (31).

4. according to claim 1 a kind of can scale removal blowdown heat pump hair washing bed structure it is characterised in that: described water distributor (03) some sparge pipes being set up in parallel are included, the outlet of sparge pipe is down-set.

5. according to claim 1 a kind of can scale removal blowdown heat pump hair washing bed structure it is characterised in that: described heat exchanger (800) include core body (20), core body (20) includes a plate (30), b plate (40), front shrouding (50) and rear shrouding (70)；

A plate (30) is provided with some a plate deep gouge (301) side by side, and the back side of a plate deep gouge (301) is a plate deep gouge projection (302)；B plate (40) it is provided with b plate deep gouge (401) corresponding with a plate deep gouge (301), the back side of b plate deep gouge (401) is that b plate deep gouge is raised (402) two, adjacent b plate deep gouge (401) are connected；

A plate deep gouge projection (302) is arranged in b plate deep gouge (401) and between a plate deep gouge projection (302) and b plate deep gouge (401) There is gap, a plate deep gouge projection (302) and b plate deep gouge (401) two ends are equipped with the structure of seal clearance, make a plate deep gouge projection (302) formed and b plate deep gouge (401) between described in aquaporin (60) from the beginning；

Described front shrouding (50) be respectively provided with rear shrouding (70) the front end slot (501) connecting adjacent a plate deep gouge (301) and Rear end slot (701), described a plate deep gouge (301), front end slot (501) and rear end slot (701) form described waste water tunnel.

6. according to claim 5 a kind of can scale removal blowdown heat pump hair washing bed structure it is characterised in that: described a plate sink Geosynclinal convex plays (302) and the welding of b plate deep gouge (401) two ends, makes the gap at a plate deep gouge projection (302) and b plate deep gouge (401) two ends Sealed.

7. according to claim 5 a kind of can scale removal blowdown heat pump hair washing bed structure it is characterised in that: b plate (40) sets There is the deep gouge (400) for connecting adjacent b plate deep gouge (401).

8. according to claim 5 a kind of can scale removal blowdown heat pump hair washing bed structure it is characterised in that: described tap water The section of passage (60) is in crescent, and described crescent section is made up of multistage curve, and this multistage curve includes being arranged at a plate (30) a plate external pressure curved section (305), a plate inner pressure curve section being connected with the two ends of this plate external pressure curved section (305) respectively (306), it is arranged at b plate inner pressure curve section (405) of b plate (40) and be connected with the two ends of this b plate inner pressure curve section (405) respectively B plate external pressure curved section (406).

9. according to claim 5 to 8 any one a kind of can scale removal blowdown heat pump hair washing bed structure, its feature exists In: described heat exchanger (800) also includes the cover plate (10) being covered on a plate (30), and cover plate (10) is provided with leaking hole (101), leak Hole (101) place is provided with drainage screen (102), and described front shrouding (50) is provided with for collecting the fluid flowing out in leaking hole (101) Water leg (503), water leg (503) is connected with a plate deep gouge (301).

10. according to claim 8 a kind of can scale removal blowdown heat pump hair washing bed structure it is characterised in that: described heat exchange Device (800) also includes casing (100), and described core body (20) is installed in casing (100).