CN208693004U - A kind of hot tank of energy conservation - Google Patents

Abstract

A kind of hot tank of energy conservation provided by the utility model, including outer cylinder, top plate and bottom plate, electrothermal tube and helix tube；The top of outer cylinder is connect with top plate seal, bottom end and bottom plate are tightly connected, it further include being arranged in the intracorporal inner cylinder of outer cylinder chamber, it is inner cavity that straight line where inner cylinder central axis, which is externally radiated to airspace included by the inner sidewall of any cylinder, and airspace included by lateral wall of the outer cylinder with adjacent cylinder is exocoel；Water stream channel is equipped between the upper end and top plate lower surface of inner cylinder, lower end and bottom plate are tightly connected；Electrothermal tube is fixed on top plate or bottom plate, and heating part protrudes into inner cavity；Helix tube is arranged in exocoel or is wrapped on the lateral wall of the cylinder adjacent with outer cylinder；The upper opening and under shed of helix tube are pierced by exocoel；Bottom plate is equipped with the water inlet of connection inner cavity, and outer cylinder or bottom plate are equipped with the water outlet of connection exocoel.Compared with the prior art, this programme has significant energy-saving effect, and manufacturing cost is low.

Description

A kind of hot tank of energy conservation

Technical field

The utility model relates to drinking equipment fields, and in particular to a kind of hot tank of energy conservation for water dispenser.

Background technique

For the water dispenser of teachers and students' drinking-water in certain commercialization water dispenser, especially middle and primary schools, need to provide boiled water to teachers and students, Again since the break time of student is of short duration, this just needs water dispenser while providing drinkable cold water immediately.This energy Enough drinking equipments for supplying drinking water (such as boiled water and cold water are provided or cold water etc. is only provided) to more people simultaneously, in the industry Referred to as drinking-water platform.Current most of drinking-water platform heating systems and circuit design are as shown in Figure 1, heating system therein is distinguished Hot tank 23 and heat exchanger 24 be set, and hot tank 23 is equipped with electrothermal tube 14, for heating drinking water, without fever member inside heat exchanger 24 Part.Heat exchanger 24 can recycle heat from the hot water for flowing out hot tank 23 and be used for preheating from water source inlet 21 through inlet valve 22 flow into the room temperature drinking water of hot tank 23；The water for flowing into hot tank 23, which will be passed through first inside heat exchanger 24, makes it absorb high-temperature water Hot tank 23 is flowed into again after heat heating, and the high-temperature water for flowing out hot tank 23, which will initially pass through, makes it release heat cooling inside heat exchanger 24 Become cold water afterwards and flow to cold water outlet valve 19 again for drinking, taking high-temperature water can release from the hot water valve 18 of hot tank top. Although the system can be realized while providing the basic function of boiled water and cold water, there is also defects for the system: first, heat Tank, heat exchanger and connecting line cause the big energy utilization rate of heat dissipation area low outside being exposed to；Second, hot tank, heat exchanger are separated It is arranged and connects mutual pipeline and determine that manufacture installation cost is higher, also determines that the system needs centainly at the same time Installation could be arranged in space, and the space requirement of larger (referring to three dimensions of length) limits the use scope of the system, compared with Big space also implies that the shell of the equipment is larger, this causes the shell manufacturing cost of the machine higher again.

In view of the above drawbacks, the utility model creator obtains originally practical new finally by prolonged research and practice Type.

Utility model content

The purpose of this utility model is to provide a kind of hot tank of energy conservation to solve above-mentioned technological deficiency, can either improve the energy Utilization rate, and manufacture installation cost can be reduced.

The utility model provides a kind of hot tank of energy conservation comprising outer cylinder, top plate and bottom plate, electrothermal tube and helix tube；It is described The top of outer cylinder is connect with the top plate seal, and bottom end and the bottom plate are tightly connected, which is characterized in that it further includes setting The inside of any cylinder is externally radiated in straight line where the intracorporal inner cylinder of outer cylinder chamber, the inner cylinder central axis Airspace included by wall is inner cavity, and airspace included by lateral wall of the outer cylinder with adjacent cylinder is exocoel；In described Water stream channel is equipped between the upper end of cylinder and the top plate lower surface, lower end and the bottom plate are tightly connected；The electrothermal tube It is fixed on the top plate or the bottom plate, heating part protrudes into the inner cavity；The helix tube be arranged in exocoel or It is wrapped on the lateral wall of the cylinder adjacent with outer cylinder；The upper opening and under shed of the helix tube are pierced by the exocoel； The bottom plate is equipped with the water inlet for being connected to the inner cavity, and the outer cylinder or bottom plate are equipped with the water outlet for being connected to the exocoel Mouthful.

It preferably, further include setting in the intracorporal middle cylinder of the outer cylinder chamber, the inner cylinder setting is in described In the cavity of cylinder；Water stream channel, the middle cylinder lower end are equipped between the upper end of the middle cylinder and the top plate lower surface It is fixedly connected with the bottom plate.

Preferably, the lower end or lower part of the middle cylinder are equipped with notch or water stream channel.

Preferably, the middle part of the bottom plate is convex, and the electrothermal tube is fixed on the convex middle part of the bottom plate.

Preferably, the upper opening of the helix tube is pierced by from the middle and lower part of the exocoel.

Preferably, the upper opening of the helix tube is pierced by from the middle and lower part of the exocoel；The inner cylinder upper end is away from described The distance of top plate is noticeably greater than the middle distance of the cylinder upper end away from the top plate.

It preferably, further include communicating pipe, one end of the communicating pipe is connected to the upper opening of the helix tube, the other end It is connected to the water inlet.

It preferably, further include water inlet pipe and bypass pipe, the under shed of the helix tube is connected to water by the water inlet pipe Source inlet, the water inlet pipe are equipped with inlet valve；Described bypass pipe one end is connected to the water source inlet, and the other end is connected to the company Siphunculus, the bypass pipe are equipped with by-passing valve.

Preferably, the water inlet on the bottom plate, which is equipped with, can prevent the directly upper baffle rushed of water flow.

It preferably, further include overheat protector and temp probe, the top plate is equipped with hot water mouth, outside the outer cylinder Insulating layer is set on the outside of side and top plate.

Preferably, top plate shape convex under there is convex shape and/or bottom plate to have.

The helix tube is formed using the smooth straight tube of inside and outside wall (such as bending machine) helical buckling on special equipment, It is highly efficient in productivity, that is, time cost is lower when manufacture；In addition, because of inner wall smooth, resistance to water-flow is with regard to very little, therefore when running Requirement to source pressure is lower, i.e., adaptability is good；When third water flow flows in helix tube, it can be constantly changing stream naturally Dynamic direction, i.e. water flow are the flow forwards in a manner of constantly overturning, and the water of the water at tube section center and near-wall is constantly Position is exchanged, that is, generates quick convection current, this is a kind of forced convertion, and forced-convection heat transfer is the highest side of heat exchange efficiency Formula, therefore heat exchange efficiency can be greatlyd improve.This is to say, (will not change when water flows in straight tube relative to straight pipe heat exchanger Become flow direction, is to be flowed with layer flow mode, the water of tube hub and the water of near-wall are not exchange position, the water in pipe Mutually propagate heat be conduct and free convection by way of carry out, because water be non-conductor and free convection flow velocity compared with Slowly, therefore heat exchange efficiency is lower), the heat exchange efficiency of spiral tube exchanger is significantly higher, under the premise of identical heat exchange capacity, helix tube The heat exchange area of heat exchanger can be smaller, that is, spiral tube exchanger can save material, reduce cost.

Compared with prior art, a kind of hot tank of energy conservation provided by the utility model has the following advantages:

1. the technical solution of the utility model uses the ingehious design of helix tube and sleeve, realize that hot tank and heat exchanger are organic Ground combines, and it is energy saving greatly to reduce heat dissipation area；By normal-temperature water in helix tube and flow into the high-temperature water in exocoel Heat exchange effect improves the temperature that normal-temperature water enters inner cavity, improves energy utilization efficiency while obtaining cold water；Reduce hot tank The temperature of outer surface reduces hot tank outer surface heat scattering and disappearing to environment；After hot tank external skin temperatures reduce, it is attached hot tank to be reduced Close environment temperature, therefore the service life for the electrical component being located near hot tank can be extended.

2. the hot tank and heat exchanger of the utility model organically combine, manufacture installation cost is reduced；Compact dimensions, Occupy little space, reduce the requirement to space is installed and used, moreover it is possible to reduce the shell sizes of equipment, reduce shell manufacture at This.

3. the hot tank of energy conservation of the utility model cooperates external pipeline appropriate, can be realized with high-temperature-hot-water to the cool of hot tank Boiled water outlet pipeline carries out thorough high-temperature sterilization, it is ensured that it is qualified that cold water is discharged microbiological indicator, and uses high-temperature-hot-water Carry out disinfection no any side effect, not only can ensure that disinfection thoroughly, but also make us safe and secure.

Detailed description of the invention

It, below will be to institute in embodiment description in order to illustrate more clearly of the technical solution in various embodiments of the utility model Attached drawing to be used is needed to be briefly described.

Fig. 1 is the structural schematic diagram of drinking-water platform heating system and circuit design at present；

Fig. 2 is the structural schematic diagram for the hot tank of energy conservation that embodiment one provides；

Fig. 3 is the structural schematic diagram of the hot tank of energy conservation and connecting line that embodiment two provides；

Fig. 4 is the portion A enlarged drawing in Fig. 3；

Fig. 5 is the structural schematic diagram of the hot tank of energy conservation and connecting line that embodiment three provides；

Fig. 6 is the structural schematic diagram for the hot tank of energy conservation that example IV provides；

Fig. 7 is the structural schematic diagram of the hot tank of energy conservation and connecting line that embodiment five provides；

Fig. 8 is the structural schematic diagram of the hot tank of energy conservation and connecting line that embodiment six provides；

Fig. 9 is the structural schematic diagram for the hot tank of energy conservation that embodiment seven provides；

Figure 10 is the structural schematic diagram of the hot tank of energy conservation and connecting line that embodiment eight provides；

Figure 11 is the structural schematic diagram of the hot tank of energy conservation and connecting line that embodiment nine provides；

Figure 12 is the structural schematic diagram for the hot tank of energy conservation that embodiment ten provides；

Figure 13 is the structural schematic diagram of the hot tank of energy conservation and connecting line that embodiment 11 provides；

Figure 14 is the structural schematic diagram of the hot tank of energy conservation and connecting line that embodiment 12 provides；

Figure 15 is the structural schematic diagram for the hot tank of energy conservation that embodiment 13 provides；

Figure 16 is the structural schematic diagram of the hot tank of energy conservation and connecting line that embodiment 14 provides；

Figure 17 is the structural schematic diagram of the hot tank of energy conservation and connecting line that embodiment 15 provides；

Figure 18 is the structural schematic diagram for the hot tank of energy conservation that embodiment 16 provides.

Specific embodiment

Below in conjunction with attached drawing, the above and other technical features and advantages of the present invention are described in more detail.

Embodiment one

As shown in Fig. 2, being a kind of structural schematic diagram of the hot tank of energy conservation provided in this embodiment.The hot tank of the energy conservation includes inner circle Cylinder 1, outer cylinder 3, helix tube 4, upper opening 5, top plate 8, under shed 11, electrothermal tube 14, water inlet 15, water outlet 16 and bottom plate 17。

3 top of outer cylinder and top plate 8 are tightly connected, and 3 bottom end of outer cylinder and bottom plate 17 are tightly connected；The setting of inner cylinder 1 exists In the cavity of outer cylinder 3, straight line where 1 central axis of inner cylinder is externally radiated to airspace included by the inner sidewall of any cylinder For inner cavity, airspace included by the lateral wall of outer cylinder 3 and adjacent cylinder is exocoel, space in inner cylinder 1 in the present embodiment For inner cavity, inner cylinder 1 and outer cylinder 3 surround annular housing as exocoel；It is equipped between 8 lower surface of upper end and top plate of inner cylinder 1 Water stream channel, the lower end of inner cylinder 1 and bottom plate 17 are tightly connected.

Electrothermal tube 14 is fixed on (not shown) on bottom plate 17 or top plate 8, and heating part protrudes into inner cavity, preferred electricity Heat pipe 14 is fixed on the middle part of bottom plate 17 or top plate 8；Helix tube 4 is arranged in exocoel or is wrapped in the adjacent circle of outer cylinder 3 On the lateral wall of cylinder, it is wrapped in the present embodiment on the lateral wall of inner cylinder 1, the upper opening 5 and under shed 11 of helix tube 4 are worn Exocoel out, it is preferred that the upper opening 5 of helix tube 4 is pierced by from the top of exocoel or middle part, under shed 11 from the bottom of exocoel or under Portion is pierced by；Preferably, 4 inner wall of helix tube is smooth, is in streamlined, resistance to water-flow very little, slightly raising source pressure energy Significantly improve flow；Bottom plate 17 is equipped with the water inlet 15 of connection inner cavity, and outer cylinder 3 or bottom plate 17 are equipped with the water outlet of connection exocoel Mouth 16.The present embodiment uses the ingehious design of helix tube and sleeve, realizes that hot tank and heat exchanger organically combine, greatly Reduce heat dissipation area, it is energy saving, manufacture installation cost is reduced, compact dimensions occupy little space, and reduce to installing and using sky Between requirement.

Embodiment two

As shown in figure 3, for the hot tank of energy conservation provided in this embodiment and the structural schematic diagram of connecting line.The present embodiment and reality Apply example one the difference is that, further include that water inlet pipe 27, inlet valve 22, communicating pipe 25, cold water outlet valve 19, cold water go out Water pipe, hot water mouth 7, hot-water line 28 and hot water valve 18.

Top plate 8 is equipped with the hot water mouth 7 of connection inner cavity top；Hot-water line 28 connects hot water mouth 7, and heat is arranged on hot-water line 28 Water valve 18；Water source inlet 21 connects under shed 11 by water inlet pipe 27, and inlet valve 22 is mounted on water inlet pipe 27；Communicating pipe 25 1 End is connect with upper opening 5, and the other end is connect with water inlet 15；Cold water outlet pipe is connect with water outlet 16, cold water outlet valve 19 are mounted on cold water outlet pipe.

When operation, water inlet is flowed into through water inlet pipe 27 under shed 11 with normal-temperature by water source inlet 21, is flowed to through helix tube 4 Upper opening 5, then inner cavity is flowed into from the bottom of hot tank through communicating pipe 25 and water inlet 15, the electrothermal tube 14 in inner cavity can be to inflow Water heating.

When user takes cold water, high-temperature water in inner cavity is from the water between 8 lower surface of 1 top of inner cylinder and top plate Circulation road flows to exocoel, then flows downward from exocoel top, flows to the water outlet 16 of bottom.High-temperature water is in exocoel from helix tube When flowing downward outside 4, the normal-temperature water inlet in helix tube 4 is flowed from bottom to top in a spiral manner in helix tube 4, in this way, High-temperature-hot-water in downward flow process its heat gradually by helix tube 4 normal-temperature water absorb, then its temperature gradually under Drop becomes cold water when flowing to water outlet 16；At the same time, its temperature is gradually in the upward flow process of spiral for normal-temperature water Rise, preheated water inlet flows into inner cavity from hot pot bottom again through communicating pipe 25 from upper opening 5.In the above process, high-temperature water exists Become its heat content overwhelming majority during cold water and be recycled for preheating water inlet, electrothermal tube 14 only need to by drinking water from Temperature after preheating is heated to set temperature, that is, reduces the ascensional range of temperature, this process not only effectively increases energy Utilization efficiency, and be able to ascend the heating efficiency of electrothermal tube, i.e., can heat more hot water in the unit time to setting Temperature has significant energy-saving effect, is capable of providing more cold water in the unit time when heating power does not increase.

When user takes high-temperature-hot-water, water in inner cavity is after the heating of electrothermal tube 14, from the hot water mouth 7 of hot tank top through heat Water pipe 28 flows out.In the process, on the one hand the water in exocoel outside helix tube 4 can gradually be heated by interior intracavitary high-temperature water, make Temperature is higher and higher；On the other hand, the normal-temperature water in helix tube 4 can absorb the heat of the water outside helix tube 4, limit in its temperature Increasing degree degree.In this way, the temperature of outer cylinder 3 will maintain lower temperature state, i.e. the temperature difference between outer cylinder 3 and environment can compare It is smaller, so that the heat that outer cylinder 3 is distributed to environment is smaller, that is, heat utilization rate is improved, enhances energy-saving effect, The environment temperature elevation amplitude near hot tank also reduces simultaneously, therefore can extend the use longevity for the electrical component being located near hot tank Life.

The present embodiment is also differ in that with embodiment one: it further includes overheat protector 6, temp probe 10, branch Leg 12, support plate 13, baffle 29 and insulating layer.

The hot tank of energy conservation of the present embodiment includes overheat protector 6, when temperature reaches overtemperature in hot tank, overheating protection Device disconnects the heating power supply of electrothermal tube 14 automatically, and cannot automatically reset after power supply disconnection, prevents hot tank temperature overheating from causing It is dangerous.

As shown in figure 4, temp probe 10 and the casing 9 outside it protrude into inner cavity jointly, the water temperature of inner cavity is measured；Temp probe 10 are controlled the water temperature of hot tank inner cavity for heating control system by user's requirement, when water temperature reaches setting value, disconnect electrothermal tube 14 heating power supply stops heating, when inner cavity water temperature is when decreasing by setting value, automatically to 14 electrified regulation of electrothermal tube.

Support plate 13 is fixedly connected or welds with bottom plate 17, and supporting leg 12 is fixedly connected under support plate 13, supporting leg 12 and branch Fagging 13 supports the hot tank of energy conservation jointly.

Baffle 29 is set above water inlet 15, and baffle 29 prevents feed water flow quickly upper punching, that is, prevents the water for just flowing into inner cavity It is not heated to set temperature also and is just flushed to top, causes the water temperature for flowing out hot tank that setting value is not achieved, it is preferred that baffle 29 is L Type baffle.

The hot tank of energy conservation provided in this embodiment further includes insulating layer (not shown).Insulating layer is arranged outside outer cylinder 3 8 outside of side and top plate, distributes heat to environment for reducing hot tank, improves energy-saving effect to the maximum extent.The temperature of hot tank wall Degree reduces, and can weaken its temperature-rise effect to the electric elements being arranged near hot tank, these electric elements is made to be in lower Temperature environment in, to be conducive to extend the service life of these electric elements.

Embodiment three

As shown in figure 5, for the hot tank of energy conservation provided in this embodiment and the structural schematic diagram of connecting line.The present embodiment and reality Apply example two the difference is that: further include bypass pipe 26 and by-passing valve 20.Water source inlet 21 is also connected with bypass pipe 26, bypass pipe 26 other ends are communicated to communicating pipe 25, and by-passing valve 20 is mounted on bypass pipe 26.The effect of setting exterior line in this way is can High-temperature-hot-water disinfection is carried out to cold water outlet pipeline.Its water temperature is normally controlled in 40 DEG C of left sides when cold water pipeline is normally discharged The right side, such water temperature are easy to breed bacterium, therefore it is necessary periodically to carry out sterilizing to cold water outlet pipeline.

The hot tank of energy conservation is closed in non-sterile state, by-passing valve 20, is not had water flowing in bypass pipe 26, is equivalently employed without bypass Pipeline.The hot tank of energy conservation in disinfection, close by inlet valve 22, and by-passing valve 20 is opened, and cold water outlet valve 19 is also opened, and electrothermal tube is logical Electric heating, at this moment source water flows directly into inner cavity through by-passing valve 20 under pressure, is heated as high-temperature water through electrothermal tube 14 Flow to exocoel again afterwards, because there is no water flowing at this moment helix tube 4, i.e. the not lasting heat-absorbing action of helix tube 4, therefore in exocoel The temperature of water can be gradually increased to the temperature close to inner cavity high temperature water, and such high-temperature water flows directly into cold water outlet valve simultaneously It continues for some time, it will be able to full pipeline high temperature sterilization carried out to cold water outlet pipeline, it is ensured that cold water goes out water microorganism Qualified, and carried out disinfection no any side effect using high-temperature-hot-water, it not only can ensure that disinfection thoroughly, but also make us putting safely The heart.

Example IV

As shown in fig. 6, being the structural schematic diagram of the hot tank of energy conservation provided in this embodiment.The hot tank of the energy conservation include inner cylinder 1, Middle cylinder 2, outer cylinder 3, helix tube 4, upper opening 5, top plate 8, under shed 11, electrothermal tube 14, water inlet 15, water outlet 16 and bottom Plate 17.

3 top of outer cylinder and top plate 8 are tightly connected, and 3 bottom end of outer cylinder and bottom plate 17 are tightly connected；Inner cylinder 1 and middle circle Cylinder 2 is arranged in the cavity of outer cylinder 3, and inner cylinder 1 is arranged in the cavity of middle cylinder 2, the cavity of inner cylinder 1 in the present embodiment For inner cavity, middle cylinder 2 is exocoel with the annular housing that outer cylinder 3 surrounds；The upper end of middle cylinder 2 and inner cylinder 1 is and under top plate 8 It is equipped with water stream channel between surface, the water of inner cavity is allowed to flow into exocoel by the water stream channel, middle 2 lower end of cylinder and bottom plate 17 are solid Fixed connection, inner cylinder 1 and bottom plate 17 are tightly connected；The lower end or lower part of middle cylinder 2 are equipped with notch or water stream channel (does not show in figure Out).

Electrothermal tube 14 is fixed on (not shown) on bottom plate 17 or top plate 8, and heating part protrudes into inner cavity；Helix tube 4 It is arranged in exocoel or is wrapped on the lateral wall of the cylinder adjacent with outer cylinder 3, is the outside of middle cylinder 2 in the present embodiment On wall；The upper opening and under shed of helix tube 4 are pierced by exocoel；Bottom plate 17 is equipped with the water inlet 15 of connection inner cavity, outer cylinder 3 Or bottom plate 17 is equipped with the water outlet of connection exocoel.

The present embodiment uses the ingehious design of helix tube and three layers of sleeve, in addition to the beneficial effect with embodiment one, in Heat transfer between the water at low temperature of cylinder being provided in the high-temperature water and exocoel for being conducive to slow down inner cavity, that is, reduce its mutual shadow It rings；The lower end or lower part of middle cylinder be equipped with water in the annular housing that notch or water stream channel surround middle cylinder and inner cylinder and Water energy in exocoel is enough mutually to be flowed under lesser flow, the water in annular housing for preventing middle cylinder and inner cylinder from surrounding at For " stagnant water ", and the annular housing for surrounding middle cylinder and inner cylinder still maintains preferable buffering or buffer action.

Embodiment five

As shown in fig. 7, for the hot tank of energy conservation provided in this embodiment and the structural schematic diagram of connecting line.The present embodiment and reality Apply example four the difference is that: further include water inlet pipe 27, inlet valve 22, communicating pipe 25, cold water outlet valve 19, cold water water outlet Pipe, hot water mouth 7, hot-water line 28 and hot water valve 18.

Top plate 8 is equipped with the hot water mouth 7 of connection inner cavity top；Hot-water line 28 connects hot water mouth 7, and heat is arranged on hot-water line 28 Water valve 18；Water source inlet 21 connects under shed 11 by water inlet pipe 27, and inlet valve 22 is mounted on water inlet pipe 27；Communicating pipe 25 1 End is connect with upper opening 5, and the other end is connect with water inlet 15；Cold water outlet pipe is connect with water outlet 16, cold water outlet valve 19 are mounted on cold water outlet pipe.

When operation, water inlet is flowed into through water inlet pipe 27 under shed 11 with normal-temperature by water source inlet 21, is flowed to through helix tube 4 Upper opening 5, then inner cavity is flowed into from the bottom of hot tank through communicating pipe 25 and water inlet 15, the electrothermal tube 14 in inner cavity can be to inflow Water heating.

When user takes cold water, the high-temperature water in inner cavity is under the top and top plate 8 for being located at inner cylinder 1 and middle cylinder 2 Water stream channel between surface flows to exocoel, then flows downward from exocoel top, flows to the water outlet 16 of bottom.High-temperature water exists When exocoel flows downward outside helix tube 4, normal-temperature in helix tube 4 intake in helix tube 4 in a spiral manner from it is lower to Upper flowing, in this way, high-temperature-hot-water its heat in downward flow process is gradually absorbed by the normal-temperature water in helix tube 4, then Its temperature is gradually reduced, and becomes cold water when flowing to water outlet 16；At the same time, the normal-temperature water flow process upward in spiral In its temperature be gradually increasing, preheated water inlet from upper opening 5 through communicating pipe 25 again from hot pot bottom flow into inner cavity.The above process In, high-temperature water its heat content overwhelming majority during becoming cold water is recycled for preheating and intakes, and electrothermal tube 14 Drinking water need to be heated to set temperature from the temperature after preheating, that is, reduce the ascensional range of temperature, this process not only has Effect improves the utilization efficiency of energy, and is able to ascend the heating efficiency of electrothermal tube, i.e., can heat in the unit time more Hot water to set temperature, there is significant energy-saving effect, be capable of providing in the unit time when heating power does not increase more Cold water.

When user takes high-temperature-hot-water, water in inner cavity is after the heating of electrothermal tube 14, from the hot water mouth 7 of hot tank top through heat Water pipe 28 flows out.In the process, the buffer action of the annular housing on the one hand surrounded due to middle cylinder 2 with inner cylinder 1, is reduced Interior intracavitary high-temperature water is to the water heating degree in exocoel outside helix tube 4；On the other hand, the normal-temperature water in helix tube 4 can inhale The heat for receiving the water outside exocoel helix tube 4, limits its temperature ascensional range.In this way, the temperature of outer cylinder 3 will maintain it is lower State of temperature, the i.e. temperature difference between outer cylinder 3 and environment can be smaller, so that the heat that outer cylinder 3 is distributed to environment is smaller, Heat utilization rate is namely improved, energy-saving effect is enhanced, while the environment temperature elevation amplitude near hot tank also reduces, therefore The service life for the electrical component being located near hot tank can be extended.

The present embodiment and example IV are also differ in that: it further includes overheat protector 6, temp probe 10, branch Leg 12, support plate 13, baffle 29 and insulating layer.Overheat protector 6, temp probe 10, supporting leg 12, support plate 13,29 and of baffle The setting and effect of insulating layer are identical with embodiment two.

Embodiment six

As shown in figure 8, for the hot tank of energy conservation provided in this embodiment and the structural schematic diagram of connecting line.The present embodiment and reality Apply example five the difference is that: further include bypass pipe 26 and by-passing valve 20.Water source inlet 21 is also connected with bypass pipe 26, bypass pipe 26 The other end is communicated to communicating pipe 25, and by-passing valve 20 is mounted on bypass pipe 26.The effect of setting exterior line in this way is can be right Cold water outlet pipeline carries out high-temperature-hot-water disinfection.Its water temperature is normally controlled in 40 DEG C or so when cold water pipeline is normally discharged, Such water temperature is easy to breed bacterium, therefore it is necessary periodically to carry out sterilizing to cold water outlet pipeline.

The hot tank of energy conservation is closed in non-sterile state, by-passing valve 20, is not had water flowing in bypass pipe 26, is equivalently employed without bypass Pipeline.The hot tank of energy conservation in disinfection, close by inlet valve 22, and by-passing valve 20 is opened, and cold water outlet valve 19 is also opened, and electrothermal tube is logical Electric heating, at this moment source water flows directly into inner cavity through by-passing valve 20 under pressure, is heated as high-temperature water through electrothermal tube 14 Flow to exocoel again afterwards, because there is no water flowing at this moment helix tube 4, i.e. the not lasting heat-absorbing action of helix tube 4, therefore in exocoel The temperature of water can be gradually increased to the temperature close to inner cavity high temperature water, and such high-temperature water flows directly into cold water outlet valve simultaneously It continues for some time, it will be able to full pipeline high temperature sterilization carried out to cold water outlet pipeline, it is ensured that cold water goes out water microorganism Qualified, and carried out disinfection no any side effect using high-temperature-hot-water, it not only can ensure that disinfection thoroughly, but also make us putting safely The heart.

Embodiment seven

As shown in figure 9, being the structural schematic diagram of the hot tank of energy conservation provided in this embodiment.The present embodiment and example IV are not Be with place: the middle part of bottom plate 17 is convex, and electrothermal tube 14 is fixed on the convex middle part of bottom plate 17.Design in this way weakens The degree that helix tube 4 is preheated in the portions close to bottom plate by interior intracavitary high-temperature water reaches and reinforces helix tube 4 close to base plate The heat exchange effect divided, improves the boiled water in inner cavity through exocoel to the temperature drop of water outlet 16, makes the temperature of the water of water outlet 16 Ideal cold water water temperature can be reached.

Embodiment eight

It as shown in Figure 10, is the hot tank of energy conservation provided in this embodiment and the structural schematic diagram of connecting line.The present embodiment with Embodiment five the difference is that: the middle part of bottom plate 17 is convex, and electrothermal tube 14 is fixed on the convex middle part of bottom plate 17.Pass through this The design of sample weakens the degree that helix tube 4 is preheated in the portions close to bottom plate by interior intracavitary high-temperature water, reaches reinforcement spiral Pipe 4 is acted on close to the heat exchange of bottom parts, is improved the boiled water in inner cavity through exocoel to the temperature drop of water outlet 16, is made water outlet The temperature of 16 water can reach ideal cold water water temperature.

Embodiment nine

It as shown in figure 11, is the hot tank of energy conservation provided in this embodiment and the structural schematic diagram of connecting line.The present embodiment with Embodiment six the difference is that: the middle part of bottom plate 17 is convex, and electrothermal tube 14 is fixed on the convex middle part of bottom plate 17.Pass through this The design of sample weakens the degree that helix tube 4 is preheated in the portions close to bottom plate by interior intracavitary high-temperature water, reaches reinforcement spiral Pipe 4 is acted on close to the heat exchange of bottom parts, is improved the boiled water in inner cavity through exocoel to the temperature drop of water outlet 16, is made water outlet The temperature of 16 water can reach ideal cold water water temperature.

Embodiment ten

It as shown in figure 12, is the structural schematic diagram of the hot tank of energy conservation provided in this embodiment.The present embodiment and embodiment seven The difference is that: the upper opening 5 of helix tube 4 is pierced by from the middle and lower part of exocoel, by increasing helix tube 4 close to the pipe of bottom plate 17 The ratio of section, is further reduced the degree that helix tube 4 is preheated by interior intracavitary high-temperature water, and the heat exchange for reinforcing helix tube 4 is acted on, mentioned Boiled water in high inner cavity is through exocoel to the temperature drop of water outlet 16, and so that the temperature of the water of water outlet 16 is reached, ideal is cool to be opened Water water temperature.

Embodiment 11

It as shown in figure 13, is the hot tank of energy conservation provided in this embodiment and the structural schematic diagram of connecting line.The present embodiment with Embodiment eight the difference is that: the upper opening 5 of helix tube 4 is pierced by from the middle and lower part of exocoel, by increase helix tube 4 it is close The ratio of the pipeline section of bottom plate 17 is further reduced the degree that helix tube 4 is preheated by interior intracavitary high-temperature water, reinforces changing for helix tube 4 Heat acts on, and improves the boiled water in inner cavity through exocoel to the temperature drop of water outlet 16, enables the temperature of the water of water outlet 16 Reach ideal cold water water temperature.

Embodiment 12

It as shown in figure 14, is the hot tank of energy conservation provided in this embodiment and the structural schematic diagram of connecting line.The present embodiment with Embodiment nine the difference is that: the upper opening 5 of helix tube 4 is pierced by from the middle and lower part of exocoel, by increase helix tube 4 it is close The ratio of the pipeline section of bottom plate 17 is further reduced the degree that helix tube 4 is preheated by interior intracavitary high-temperature water, reinforces changing for helix tube 4 Heat acts on, and improves the boiled water in inner cavity through exocoel to the temperature drop of water outlet 16, enables the temperature of the water of water outlet 16 Reach ideal cold water water temperature.

Embodiment 13

It as shown in figure 15, is the structural schematic diagram of the hot tank of energy conservation provided in this embodiment.Energy conservation heat provided in this embodiment Tank with embodiment ten the difference is that: 1 upper end of inner cylinder away from a distance from top plate 8 be noticeably greater than in 2 upper end of cylinder away from The distance of top plate 8, electrothermal tube 14 realize that cylinder 2 is higher by 1 upper part of inner cylinder in the water in heating inner cylinder 1 heats simultaneously The intracorporal water of chamber, i.e., it is inner cavity that the cavity of inner cylinder 1 and middle cylinder 2, which are higher by the cavity of 1 upper part of inner cylinder, in the present embodiment. Since the cavity volume that electrothermal tube 14 can heat is only the effective volume that hot tank is filled with water, the height for reducing inner cylinder 1 is realized Reduce the body for the annular housing that inner cylinder 1 and middle cylinder 2 surround to the maximum extent under the premise of not influencing hot tank heating properties Product and the purpose for increasing heating bore volume.

Embodiment 14

It as shown in figure 16, is the hot tank of energy conservation provided in this embodiment and the structural schematic diagram of connecting line.The present embodiment mentions The hot tank of energy conservation of confession with embodiment 11 the difference is that: 1 upper end of inner cylinder away from a distance from top plate 8 noticeably greater than in Distance of 2 upper end of cylinder away from top plate 8, electrothermal tube 14 realize that cylinder 2 is higher by inner circle in the water in heating inner cylinder 1 heats simultaneously The 1 intracorporal water of upper part chamber of cylinder, i.e., the cavity of inner cylinder 1 and middle cylinder 2 are higher by 1 upper part of inner cylinder in the present embodiment Cavity is inner cavity.Since the cavity volume that electrothermal tube 14 can heat is only the effective volume that hot tank is filled with water, inner cylinder 1 is reduced Height is realized reduces the ring that inner cylinder 1 and middle cylinder 2 surround to the maximum extent under the premise of not influencing hot tank heating properties The volume of shape cavity and the purpose for increasing heating bore volume.

Embodiment 15

It as shown in figure 17, is the hot tank of energy conservation provided in this embodiment and the structural schematic diagram of connecting line.The present embodiment with Embodiment 12 the difference is that:

Distance of 1 upper end of inner cylinder away from top plate 8 is noticeably greater than distance of middle 2 upper end of cylinder away from top plate 8, electrothermal tube 14 Realize that cylinder 2 is higher by the 1 intracorporal water of upper part chamber of inner cylinder, i.e. this implementation in the water in heating inner cylinder 1 heats simultaneously It is inner cavity that the cavity of inner cylinder 1 and middle cylinder 2, which are higher by the cavity of 1 upper part of inner cylinder, in example.Since electrothermal tube 14 can add The cavity volume of heat is only the effective volume that hot tank is filled with water, and the height for reducing inner cylinder 1, which realizes, is not influencing hot tank heating property Reduce the volume for the annular housing that inner cylinder 1 and middle cylinder 2 surround under the premise of energy to the maximum extent and increases heating bore body Long-pending purpose.

Embodiment 16

It as shown in figure 18, is the structural schematic diagram of the hot tank of energy conservation provided in this embodiment.Energy conservation heat provided in this embodiment Tank and embodiment one the difference is that: top plate 8 has convex shape, and the shape convex under having of bottom plate 17 outwardly protrudes Shape make hot tank shell have better bearing capacity.

The hot tank of energy conservation provided by the utility model has the following advantages:

1. the technical solution of the utility model uses the ingehious design of helix tube and sleeve, realize that hot tank and heat exchanger are organic Ground combines, greatly reduction heat dissipation area, energy saving；By normal-temperature water in helix tube and flow into the high-temperature water in exocoel Heat exchange effect improves the temperature that normal-temperature water enters inner cavity, improves energy utilization efficiency while obtaining cold water；Reduce hot tank The temperature of outer surface reduces hot tank outer surface heat scattering and disappearing to environment；After hot tank external skin temperatures reduce, it is attached hot tank to be reduced Close environment temperature, therefore the service life for the electrical component being located near hot tank can be extended.

2. the hot tank and heat exchanger of the utility model organically combine, manufacture installation cost is reduced；Compact dimensions, Occupy little space, reduce the requirement to space is installed and used, moreover it is possible to reduce the shell sizes of equipment, reduce shell manufacture at This.

3. the hot tank of energy conservation of the utility model cooperates external pipeline appropriate, can be realized with high-temperature-hot-water to the cool of hot tank Boiled water outlet pipeline carries out thorough high-temperature sterilization, it is ensured that it is qualified that cold water is discharged microbiological indicator, and uses high-temperature-hot-water Carry out disinfection no any side effect, not only can ensure that disinfection thoroughly, but also make us safe and secure.

The above is only the preferred embodiment of the present invention, is merely illustrative for the utility model, and It is unrestricted.Those skilled in the art understand that can be to it in the spirit and scope defined by the utility model claims Many changes, modifications, and even equivalents are carried out, but all will fall within the protection scope of the utility model.

Claims (11)

1. a kind of hot tank of energy conservation comprising outer cylinder, top plate and bottom plate, electrothermal tube and helix tube；The top of the outer cylinder and institute Top plate seal connection is stated, bottom end and the bottom plate are tightly connected, which is characterized in that it further includes being arranged in the outer cylinder cavity Interior inner cylinder, straight line where the inner cylinder central axis are externally radiated to airspace included by the inner sidewall of any cylinder and are Airspace included by the lateral wall of inner cavity, the outer cylinder and adjacent cylinder is exocoel；The upper end of the inner cylinder with it is described Water stream channel is equipped between top plate lower surface, lower end and the bottom plate are tightly connected；The electrothermal tube be fixed on the top plate or On the bottom plate, heating part protrudes into the inner cavity；The helix tube is arranged in exocoel or is wrapped in and outer cylinder phase On the lateral wall of adjacent cylinder；The upper opening and under shed of the helix tube are pierced by the exocoel；The bottom plate, which is equipped with, to be connected Lead to the water inlet of the inner cavity, the outer cylinder or bottom plate are equipped with the water outlet for being connected to the exocoel.

2. the hot tank of energy conservation according to claim 1, which is characterized in that it further includes that setting is intracorporal in the outer cylinder chamber Middle cylinder, the inner cylinder are arranged in the cavity of the middle cylinder；The upper end of the middle cylinder and the top plate lower surface it Between be equipped with water stream channel, the middle cylinder lower end is fixedly connected with the bottom plate.

3. a kind of hot tank of energy conservation according to claim 2, which is characterized in that the lower end or lower part of the middle cylinder, which are equipped with, to be lacked Mouth or water stream channel.

4. a kind of hot tank of energy conservation according to claim 1, which is characterized in that the middle part of the bottom plate is convex, the electric heating Pipe is fixed on the convex middle part of the bottom plate.

5. a kind of hot tank of energy conservation according to claim 1, which is characterized in that the upper opening of the helix tube is from the exocoel Middle and lower part be pierced by.

6. a kind of hot tank of energy conservation according to claim 3, which is characterized in that the upper opening of the helix tube is from the exocoel Middle and lower part be pierced by；The inner cylinder upper end is noticeably greater than the middle cylinder upper end away from the top plate away from the distance of the top plate Distance.

7. -6 any a kind of hot tank of energy conservation according to claim 1, which is characterized in that it further includes communicating pipe, the company One end of siphunculus is connected to the upper opening of the helix tube, and the other end is connected to the water inlet.

8. a kind of hot tank of energy conservation according to claim 7, which is characterized in that it further includes water inlet pipe and bypass pipe, described The under shed of helix tube is connected to water source inlet by the water inlet pipe, and the water inlet pipe is equipped with inlet valve；The bypass pipe one End is connected to the water source inlet, and the other end is connected to the communicating pipe, and the bypass pipe is equipped with by-passing valve.

9. a kind of hot tank of energy conservation according to claim 8, which is characterized in that the water inlet on the bottom plate is equipped with energy Prevent the directly upper baffle rushed of water flow.

10. a kind of hot tank of energy conservation according to claim 9, which is characterized in that it further includes that overheat protector and temperature are visited Head, the top plate are equipped with hot water mouth, insulating layer are arranged on the outside of the outer cylinder outside and top plate.

11. a kind of hot tank of energy conservation according to claim 1, which is characterized in that the top plate have convex shape and/or Bottom plate shape convex under having.