CN206861868U - Hydraulic module and air energy thermal pumping system - Google Patents

Abstract

The utility model discloses a kind of hydraulic module and air energy thermal pumping system, the hydraulic module, including：Shell, the shell is formed with bottom plate；Unit, the unit are fixedly installed in the bottom plate；And double-tube heat exchanger, described sleeve pipe heat exchanger and unit bay are arranged at the bottom plate, described sleeve pipe heat exchanger includes coaxial coil, and the axial direction of the coaxial coil and the installation direction of the unit are set in parallel.Hydraulic module provided by the utility model improves the anti-freeze bursting by freezing ability of Important Components in hydraulic module.

Description

Hydraulic module and air energy thermal pumping system

Technical field

It the utility model is related to air energy heat pump heating system technical field, and in particular to a kind of hydraulic module and application The air energy thermal pumping system of the hydraulic module.

Background technology

Hydraulic module is the important component of air energy heat pump heating system, extensively using at low ambient temperatures heating, Heating or hot water.In existing hydraulic module, the installation direction of double pipe heat exchanger is generally vertical with the installation direction of unit so that All there is one section of pools zone in every snare pipe of double pipe heat exchanger, so that the water in pools zone can not be discharged to clean, waterpower mould When block works at low ambient temperatures, because the ponding in double pipe heat exchanger inner product pool freezes, cause bursting by freezing hydraulic module Pipe heat exchanger the problems such as.

Utility model content

Main purpose of the present utility model is to provide a kind of hydraulic module, it is intended to improves Important Components in hydraulic module Anti-freeze bursting by freezing ability.

To achieve the above object, the utility model proposes hydraulic module, including：

Shell, the shell is formed with bottom plate；

Unit, the unit are fixedly installed in the bottom plate；And

Double-tube heat exchanger, described sleeve pipe heat exchanger and unit bay are arranged at the bottom plate, described sleeve pipe heat exchanger bag Coaxial coil is included, the axial direction of the coaxial coil and the installation direction of the unit are set in parallel.

Further, the hydraulic module also includes the support for being fixedly arranged on the bottom plate, and the coaxial coil passes through described Support is fixedly installed in the bottom plate.

Further, the hydraulic module also includes the electrical heating tank for being fixedly arranged on the bottom plate, the electrical heating tank and institute State double-tube heat exchanger to be connected in series, and the axial direction of the electrical heating tank and the axial direction of the coaxial coil are set in parallel.

Further, the hydraulic module also includes control unit, and described control unit electrically connects with the electrical heating tank.

Further, the electrical heating tank includes being fixedly arranged on the water storage heating part of the bottom plate, located at water storage heating part one The water inlet at end and the delivery port located at the water storage heating part other end；Described sleeve pipe heat exchanger also includes being located at coaxial coil one The sleeve pipe water inlet at end and the sleeve pipe delivery port located at the coaxial coil other end, described sleeve pipe delivery port connect with the water inlet Logical, described sleeve pipe water inlet connects with the delivery port, and the water storage heating part electrically connects with described control unit.

Further, the electrical heating tank also includes air bleeding valve, and the air bleeding valve is fixedly arranged on the top of the water storage heating part Portion, and the air bleeding valve is arranged at intervals with the delivery port, the air bleeding valve electrically connects with described control unit.

Further, the hydraulic module is also included located at the first row between described sleeve pipe delivery port and the water inlet Water valve, first draining valve close on water inlet setting, and first draining valve electrically connects with described control unit.

Further, the hydraulic module also includes water outlet temperature detector, and the water outlet temperature detector closes on the delivery port and set Put, the water outlet temperature detector electrically connects with described control unit；And/or the hydraulic module also include water pump and with water pump string Join the second draining valve set, the water pump and the second draining valve close on the setting of sleeve pipe water inlet, the water pump and the control Cell block electrically connects.

Further, the hydraulic module also includes the electric-controlled box for being fixedly arranged on the bottom plate, the electric-controlled box and unit, set Heat exchange of heat pipe, electrical heating tank are arranged at intervals, and described control unit is in the electric-controlled box.

The utility model also proposes a kind of air energy thermal pumping system, including hydraulic module described above.

In the technical solution of the utility model, the unit and sleeve pipe located at shell bottom plate that hydraulic module includes interval change Hot device, the installation direction of the coaxial coil by changing double-tube heat exchanger so that the coaxial axial direction of coil and the installation side of unit To parallel, so as to which pools zone can not be formed in double-tube heat exchanger, eliminate double-tube heat exchanger can not draining the drawbacks of, avoid or drop Low double-tube heat exchanger bursting by freezing phenomenon.

Brief description of the drawings

, below will be to embodiment in order to illustrate more clearly of the utility model embodiment or technical scheme of the prior art Or the required accompanying drawing used is briefly described in description of the prior art, it should be apparent that, drawings in the following description are only It is some embodiments of the utility model, for those of ordinary skill in the art, is not paying the premise of creative work Under, other accompanying drawings can also be obtained according to the structure shown in these accompanying drawings.

Fig. 1 is the structural representation of the utility model hydraulic module；

Fig. 2 is Fig. 1 double-tube heat exchanger and the mounting structure schematic diagram of electrical heating tank.

Drawing reference numeral explanation：

Label	Title	Label	Title
				100	Hydraulic module	41	Water inlet
10	Shell	42	Delivery port
				11	Bottom plate	43	Water storage heating part
20	Double-tube heat exchanger	44	Air bleeding valve
				21	Sleeve pipe water inlet	50	First draining valve
22	Coaxial coil	60	Water outlet temperature detector
				23	Sleeve pipe delivery port	70	Water pump
30	Support	80	Second draining valve
				40	Electrical heating tank

Realization, functional characteristics and the advantage of the utility model purpose will be described further referring to the drawings in conjunction with the embodiments.

Embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the embodiment of the utility model is carried out Clearly and completely describing, it is clear that described embodiment is only part of the embodiment of the present utility model, rather than all Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not making creative work premise Lower obtained every other embodiment, belong to the scope of the utility model protection.

It is to be appreciated that the directional instruction (such as up, down, left, right, before and after ...) of institute in the utility model embodiment It is only used for explaining relative position relation under a certain particular pose (as shown in drawings) between each part, motion conditions etc., such as When the fruit particular pose changes, then directionality instruction also correspondingly changes therewith.

In the utility model, unless otherwise clearly defined and limited, term " connection ", " fixation " etc. should do broad sense reason Solution, for example, " fixation " can be fixedly connected or be detachably connected, or integrally；Can mechanically connect, also may be used Be electrical connection；Can be joined directly together, can also be indirectly connected by intermediary, can be the connection of two element internals Or the interaction relationship of two elements, limited unless otherwise clear and definite.For the ordinary skill in the art, can be with Concrete meaning of the above-mentioned term in the utility model is understood as the case may be.

In addition, and it can not be managed in the utility model such as relating to the description of " first ", " second " etc. is only used for describing purpose Solve to indicate or implying its relative importance or the implicit quantity for indicating indicated technical characteristic.Thus, define " the One ", at least one this feature can be expressed or be implicitly included to the feature of " second ".In addition, the skill between each embodiment Art scheme can be combined with each other, but must can be implemented as basis with those of ordinary skill in the art, when technical scheme With reference to occurring conflicting or will be understood that the combination of this technical scheme is not present when can not realize, also not in the utility model It is required that protection domain within.

The utility model proposes a kind of hydraulic module 100.

Incorporated by reference to referring to Figures 1 and 2, in the embodiment of the utility model one, the hydraulic module, including shell 10, unit And double-tube heat exchanger 20, for the shell formed with bottom plate 11, unit is fixedly installed in bottom plate 11, double-tube heat exchanger 20 and unit bay Be arranged at bottom plate 11, double-tube heat exchanger 20 includes coaxial coil 22, and the axial direction of coaxial coil 22 and the installation direction of unit are in It is arranged in parallel.

Hydraulic module includes the components such as shell, double-tube heat exchanger, electrical heating tank, water pump, electric-controlled box and each pipeline fitting.Water Power module is the important component of air energy heat pump heating system, extensively using heating at low ambient temperatures, heating or hot water. In existing hydraulic module, the installation direction of double pipe heat exchanger is generally vertical with the installation direction of unit so that casing type heat exchanging All there is one section of pools zone in every snare pipe of device, so that can not discharge the water in pools zone totally, hydraulic module is in low temperature ring When being worked under border, because the ponding in double pipe heat exchanger inner product pool freezes, cause the pipe type heat transfer of bursting by freezing hydraulic module The problems such as device.In order to avoid producing pools zone in the coaxial coil 22 of double pipe heat exchanger 20, the ponding of coaxial coil 22 is arranged Except clean, prevent double pipe heat exchanger 20 from bursting by freezing phenomenon occurs, hydraulic module 100 provided by the utility model includes setting for interval In the unit and double-tube heat exchanger 20 of the bottom plate 11 of shell 10, the installation side of the coaxial coil 22 by changing double-tube heat exchanger 20 To so that the axial direction of coaxial coil 22 is parallel with the installation direction of unit, namely pools zone can not be formed in double-tube heat exchanger 20, Eliminate double-tube heat exchanger 20 can not draining the drawbacks of, avoid or reduce the bursting by freezing phenomenon of double-tube heat exchanger 20.

Further, in order to ensure stablizing and coaxial coil 22 firmly being fixedly installed in into bottom plate 11, and cause coaxial The axial direction of coil 22 is parallel with the installation direction of unit, as shown in Fig. 2 in the present embodiment, hydraulic module also includes being fixedly arranged on The support 30 of bottom plate 11, coaxial coil 22 are fixedly installed in bottom plate 11 by support 30.Support 30 is provided with multiple through holes, passes through The fasteners such as bolt, screw, latch, support 30 is firmly fixed on bottom plate 11, support 30 away from bottom plate 11 side with The outside of coaxial coil 22 is fixedly connected so that double-tube heat exchanger 20 is stable and is firmly installed on bottom plate 11.Now, coaxially The axial direction of coil 22 is parallel with the installation direction of unit, when the unit of the hydraulic module 100 is hung on into wall, double-tube heat exchanger 20 sleeve pipe water inlet 21 is located at the least significant end of unit, and sleeve pipe delivery port 23 is located at the high point of unit.The hydraulic module 100 is low Under warm environment or in the case of power-off, the drainage arrangement at the end of sleeve pipe water inlet 21 for opening double-tube heat exchanger 20 can be passed through, you can By all current in double-tube heat exchanger 20, all discharge is clean, avoids the bursting by freezing to double-tube heat exchanger 20 caused by water freezing The problems such as, improve the reliability of hydraulic module 100.As the preferred embodiment of the present embodiment, double-tube heat exchanger 20 it is same Axle coil 22 is welded as a whole with support 30, and this is fastened on the weld bolt on bottom plate 11 entirely through nut, is realized Installation to double-tube heat exchanger 20.

Further, in order that heating, heating can preferably be realized or provide at low ambient temperatures by obtaining hydraulic module 100 Hot water, as depicted in figs. 1 and 2, in the present embodiment, hydraulic module also includes the electrical heating tank 40 for being fixedly arranged on bottom plate 11, and electricity adds Hot tank 40 is connected in series with double-tube heat exchanger 20, and the axial direction of electrical heating tank 40 and the axial direction of coaxial coil 22 are set in parallel. When hydraulic module 100 is applied to air energy heat pump heating system, cold water is passed through using double-tube heat exchanger 20, cold water is in sleeve heat exchange Heat exchange is carried out when being flowed in device 20, water temperature raises when flowing out double-tube heat exchanger 20.Now, in order to prevent flow out double-tube heat exchanger When the water temperature of 20 water does not reach requirement, water is heated using electrical heating tank 40, it is ensured that the water flowed out from electrical heating tank 40 Water temperature reaches water temperature requirement when hydraulic module 100 is applied enough.

Further, in order to realize the heating of the Automated condtrol of electrical heating tank 40, heating operation, in the present embodiment In, hydraulic module also includes control unit (for diagram), includes control unit and is electrically connected with electrical heating tank 40.When cold water changes through sleeve pipe Hot device 20 carries out heat exchange, when the water flow temperature of outflow does not reach requirement, can now be operated by control unit and control electricity to add Hot tank 40 heats to water, it is ensured that the water temperature of the water flowed out from electrical heating tank 40 reaches water temperature when hydraulic module 100 is applied enough It is required that.

It should be understood that as depicted in figs. 1 and 2, in the present embodiment, electrical heating tank 40 includes being fixedly arranged on the storage of bottom plate 11 Water heating part 43, the water inlet 41 located at the one end of water storage heating part 43 and the delivery port 42 located at the other end of water storage heating part 43； Double-tube heat exchanger 20 also includes the sleeve pipe water inlet 21 located at coaxial one end of coil 22 and the set located at the coaxial other end of coil 22 Pipe delivery port 23, sleeve pipe delivery port 23 connect with water inlet 41, and sleeve pipe water inlet 21 connects with delivery port 42, water storage heating part 43 Electrically connected with control unit.Hydraulic module 100 is applied to air energy thermal pumping system, for heating, heating or provide hot water, when firm When opening hydraulic module 100, outside cold water is passed through sleeve pipe water inlet 21, now, cold water is entered coaxial by sleeve pipe water inlet 21 Coil 22, by carrying out heat exchange during coaxial coil 22 so that water temperature raises, and is flowed out from sleeve pipe delivery port 23, from electrical heating The water inlet 41 of tank 40 enters, and behind water storage heating part 43, is flowed out by the delivery port 42 of electrical heating tank 40, because current are coaxial Heat exchange has been carried out in coil 22 so that water temperature is higher, hot water after being flowed out from delivery port 42 can be used for heat, floor is adopted Warm, bath water etc..If the water flow temperature flowed out from delivery port 42 is relatively low, heating, floor heating, bath water are not used to When, now pass through the water storage heating part 43 of control unit operational control electrical heating tank 40 so that water storage heating part 43 to flow its In water carry out heat temperature raising so that flowed out again by delivery port 42 after water temperature rise, for heating, floor heating, bath water Deng.When hydraulic module 100 is applied to air energy heat pump heating system, carried out from the water that delivery port 42 flows out into heating system Heat exchange, reach heating effect, after heat exchange, radiating, the water temperature of water reduces, and now, the water of low temperature continues cycling through, by covering Carry out heat exchange in the sleeve pipe heat exchanger 20 of water inlet tube mouth 21, circulate successively the heating for air energy heat pump heating system, Heating.

Further, in order to ensure the water in double-tube heat exchanger 20 can smoothly lead to electrical heating tank 40, such as Fig. 1 and figure Shown in 2, in the present embodiment, electrical heating tank 40 also includes air bleeding valve 44, and air bleeding valve 44 is fixedly arranged on the top of water storage heating part 43, And air bleeding valve 44 is arranged at intervals with delivery port 42, air bleeding valve 44 electrically connects with including control unit.When cold water is from sleeve pipe water inlet 21 In sleeve pipe heat exchanger 20, heat exchange water temperature rise is carried out by cold water during coaxial coil 22, is flowed out from sleeve pipe delivery port 23, Flowed into through waterway tube from the water inlet 41 of electrical heating tank 40 in electrical heating tank 40, before being flowed into due to water, double-tube heat exchanger 20 and electricity Air be present in heating tank 40, when water flows into double-tube heat exchanger 20 and electrical heating tank 40 successively, air therein is carried out Drive or compress, in order to avoid air hinders water to flow into double-tube heat exchanger 20 and electrical heating tank 40, and then influence hydraulic module 100 Application, electrical heating tank 40 top set air bleeding valve 44, and by control unit control air bleeding valve 44 opening and closing, Ensure the normal operation of hydraulic module 100.As the preferred embodiment of the present embodiment, air bleeding valve 44 pushes up in water storage heating part 43 The set location in portion, higher than set location of the delivery port 42 in the end of water storage heating part 43, water is preferably avoided from air bleeding valve 44 Leakage.

When being worked at low ambient temperatures in order to avoid hydraulic module 100, because the water in electrical heating tank 40 can not exclude, make The water freezing in electrical heating tank 40 is obtained, and then causes bursting by freezing electrical heating tank 40, as depicted in figs. 1 and 2, in the present embodiment, water Power module also includes closing on into water located at the first draining valve 50 between sleeve pipe delivery port 23 and water inlet 41, the first draining valve 50 Mouth 41 is set, and the first draining valve 50 electrically connects with including control unit.

Lack anti-freeze drainage device in existing hydraulic module so that exist in the main building block of hydraulic module ponding without Method excludes or discharge is not clean, easily causes the main building block of hydraulic module that icing bursting by freezing occurs when low temperature environment works The problem of.If the electrical heating tank in hydraulic module is easily in delivery port plane pools zone formed below, can not exclude, to send a telegraph plus Hot tank has the hidden danger of icing bursting by freezing.In the utility model, waterway tube between sleeve pipe delivery port 23 and water inlet 41 sets the One draining valve 50, and the first draining valve 50 closes on water inlet 41 and set, and opening for the first draining valve 50 is controlled by control unit Open and close.When hydraulic module 100 is in the case of low temperature environment and power-off, if discharging the product in electrical heating tank 40 not in time Water, ponding, which freezes, will cause electrical heating tank 40 that bursting by freezing problem occurs, and then influence the use of hydraulic module 100.In the present embodiment, First draining valve 50 is welded at the water inlet 41 of electrical heating tank 40 on waterway tube together with transition conduit, connected by connecting line Control unit is connect, the control unit can individually power, and long between setting when power is off reach 12h (this time can be set as needed When calmly) and environment temperature is less than 0 DEG C (this environment temperature can also be set according to being actually needed), control unit can be according to predetermined journey Sequence automatically opens up the first draining valve 50, the water drained in electrical heating tank 40, to eliminate electrical heating tank 40 after hydraulic module 100 powers off Water can not exclude, and the hidden danger of the frozen bursting by freezing of electrical heating tank 40 triggered reaches the local antifreeze mesh of hydraulic module 100 's.

Further, in order to ensure hydraulic module 100 has sufficient current to pass through double-tube heat exchanger at work, in system 20 and electrical heating tank 40, the heating of hydraulic module 100, heating are not influenceed or hot water is provided, and hydraulic module 100 is not worked Or under powering-off state, avoid the water freezing in double-tube heat exchanger 20 and bursting by freezing double-tube heat exchanger 20, as shown in figure 1, in this implementation In example, hydraulic module also includes water pump 70 and the second draining valve 80 being arranged in series with water pump 70, the draining valve of water pump 70 and second 80, which close on sleeve pipe water inlet 21, is set, and water pump 70 electrically connects with control unit block.When hydraulic module 100 does not work or powers off When, it is necessary to the water in double-tube heat exchanger 20 is drained in time, frozen to prevent the water in double-tube heat exchanger 20, cause bursting by freezing water The problems such as pipe heat exchanger of power module, now, manually the second draining valve 80 can be opened, you can by double-tube heat exchanger 20 Interior water is drained.It should be understood that also can electrically connect the second draining valve 80 with control unit, pass through control unit operational control The opening of second draining valve 80 and closing.

Further, in order to ensure hydraulic module 100 can preferably heat, heat or provide hot water, such as Fig. 1 and Fig. 2 Shown, in the present embodiment, hydraulic module also includes water outlet temperature detector 60, and water outlet temperature detector 60 closes on delivery port 42 and set, goes out Water temperature detector 60 electrically connects with control unit.Water outlet temperature detector 60 is set in the waterway tube of delivery port 42, process can be detected in real time The water flow temperature of double-tube heat exchanger 20 and electrical heating tank 40, preferably hydraulic module 100 is controlled to work.Set antifreeze environment temperature For 2 DEG C, the antifreeze temperature of water pump is 6 DEG C, when talent for swimming thermometer bulb 60 detect the leaving water temperature of environment temperature≤2 DEG C or delivery port 42≤ At 6 DEG C, water pump 70 is controlled to open by control unit；It is single by controlling when talent for swimming thermometer bulb 60 detects leaving water temperature≤4 DEG C Member control electrical heating tank 40 is opened, and auxiliary heating is carried out to current, to reach system requirements；When talent for swimming thermometer bulb 60 detects water outlet During temperature≤2 DEG C, opened by the compressor of control unit control system.By the control program of control unit, waterpower is improved The antifreeze ability of module 100 and the system of application hydraulic module 100.

Further, in order to prevent the original papers such as control unit and circuit in hydraulic module, occur because meeting water or humidity etc. Short circuit or power-off, in the present embodiment, hydraulic module also include the electric-controlled box for being fixedly arranged on bottom plate 11, electric-controlled box and unit, sleeve pipe Heat exchanger 20, electrical heating tank 40 are arranged at intervals, and control unit is in electric-controlled box.

Hydraulic module 100 provided by the utility model, in the case of low temperature environment and/or without energization, can effectively it prevent Double-tube heat exchanger 20, electrical heating tank 40 and other component internal waters can not be excluded outside hydraulic module 100, cause to tie The hidden danger such as ice, bursting by freezing, improve the reliability of hydraulic module 100, while add the bulk life time of hydraulic module 100.

The utility model also proposes a kind of air energy thermal pumping system, including hydraulic module 100, the hydraulic module 100 Concrete structure is with reference to above-described embodiment, because this air energy thermal pumping system employs above-mentioned whole technical schemes, therefore at least With all beneficial effects caused by the technical scheme of above-described embodiment, this is no longer going to repeat them.

Preferred embodiment of the present utility model is the foregoing is only, not thereby limits the scope of the claims of the present utility model, Every equivalent structure change under inventive concept of the present utility model, made using the utility model specification and accompanying drawing content Change, or directly/be used in other related technical areas indirectly and be included in scope of patent protection of the present utility model.

Claims (10)

1. A kind of 1. hydraulic module, it is characterised in that including：

   Shell, the shell is formed with bottom plate；

   Unit, the unit are fixedly installed in the bottom plate；And

   Double-tube heat exchanger, described sleeve pipe heat exchanger and unit bay are arranged at the bottom plate, and described sleeve pipe heat exchanger includes same Axle coil, the axial direction of the coaxial coil and the installation direction of the unit are set in parallel.
2. 2. hydraulic module as claimed in claim 1, it is characterised in that the hydraulic module also includes being fixedly arranged on the bottom plate Support, the coaxial coil are fixedly installed in the bottom plate by the support.
3. 3. hydraulic module as claimed in claim 1 or 2, it is characterised in that the hydraulic module also includes being fixedly arranged on the bottom The electrical heating tank of plate, the electrical heating tank are connected in series with described sleeve pipe heat exchanger, and the axial direction of the electrical heating tank with it is described The axial direction of coaxial coil is set in parallel.
4. 4. hydraulic module as claimed in claim 3, it is characterised in that the hydraulic module also includes control unit, the control Unit processed electrically connects with the electrical heating tank.
5. 5. hydraulic module as claimed in claim 4, it is characterised in that the electrical heating tank includes being fixedly arranged on the storage of the bottom plate Water heating part, the water inlet located at water storage heating part one end and the delivery port located at the water storage heating part other end；Described sleeve pipe is changed Hot device also includes the sleeve pipe water inlet located at coaxial coil one end and the sleeve pipe delivery port located at the coaxial coil other end, described Sleeve pipe delivery port connects with the water inlet, and described sleeve pipe water inlet connects with the delivery port, the water storage heating part and institute State control unit electrical connection.
6. 6. hydraulic module as claimed in claim 5, it is characterised in that the electrical heating tank also includes air bleeding valve, the exhaust Valve is fixedly arranged on the top of the water storage heating part, and the air bleeding valve is arranged at intervals with the delivery port, the air bleeding valve and institute State control unit electrical connection.
7. 7. hydraulic module as claimed in claim 5, it is characterised in that the hydraulic module also includes being located at described sleeve pipe water outlet Mouthful and the water inlet between the first draining valve, first draining valve close on water inlet setting, first draining valve with Described control unit electrically connects.
8. 8. hydraulic module as claimed in claim 5, it is characterised in that the hydraulic module also includes water outlet temperature detector, described Water outlet temperature detector closes on the delivery port and set, and the water outlet temperature detector electrically connects with described control unit；And/or the water Power module also includes water pump and the second draining valve being arranged in series with water pump, and the water pump and the second draining valve close on set water inlet tube Mouth is set, and the water pump electrically connects with described control unit block.
9. 9. hydraulic module as claimed in claim 4, it is characterised in that the hydraulic module also includes being fixedly arranged on the bottom plate Electric-controlled box, the electric-controlled box are arranged at intervals with unit, double-tube heat exchanger, electrical heating tank, and described control unit is located at described automatically controlled In box.
10. 10. a kind of air energy thermal pumping system, it is characterised in that including the hydraulic module as described in claim 1-9 is any.