CN208588017U - A kind of flow configuration in air conditioner water cold accumulation system - Google Patents

Abstract

The utility model relates to the flow configuration in a kind of air conditioner water cold accumulation system, flow configuration includes: water pot；Warm water tube at the top of the water pot is set；The shunt assembly at the position that the warm water tube is located in the water pot is set；The shunt assembly includes: several isocons being arranged on the warm water tube；Several spray heads being arranged on the isocon；And the buffer board in the water pot and being located at below the isocon is set；When warm water enters in water pot, spray head can equably trickle down warm water on buffer board, then make the warm water on buffer board slowly and evenly fall and enter in water pot from buffer board, to weaken warm water to the impact force for being originally present in water in water pot, reduce the probability that mesolimnion gets muddled, to reduce the loss of cooling capacity, reach energy-efficient purpose.

Description

A kind of flow configuration in air conditioner water cold accumulation system

Technical field

The utility model relates to the uniform flow knots in cold-storage apparatus technical field more particularly to a kind of air conditioner water cold accumulation system Structure.

Background technique

Water cold storage technology is to be stored cooling capacity in water, in electricity consumption on daytime in off-peak electricity price period using electricity price between peak and valley Peak period provides air conditioning using the water at low temperature of storage, when the height of air conditioning usage time and non-air conditioning usage time and power grid When peak is synchronous with low ebb, so that it may which use when the air conditioning electricity consumption in power grid rush hour is transferred to power grid low ebb reaches saving The purpose of the electricity charge.

Current most commonly used cold-storage mode is natural layering, is exactly to utilize water different physics of density in different temperatures Property forms mesolimnion by between the density official post cold water and warm water of water, and mesolimnion separates cold water and warm water, by cold water Positioned at the lower part of water pot, warm water is located at the top of water pot.

However when warm water is injected water pot from water pot top, the water in water pot can occur significantly to flow, and be easy to make Mesolimnion gets muddled, or directly destroys mesolimnion, and warm water and cold water is caused to adulterate together, so that cooling capacity consumption be made to add Play wastes cooling capacity.

Utility model content

In view of the deficienciess of the prior art, the purpose of this utility model is to provide in a kind of air conditioner water cold accumulation system Flow configuration weakens warm water and enters the impact force after water pot to the water being originally present in water pot, reduces mesolimnion and gets muddled Probability.

The above-mentioned purpose of the utility model has the technical scheme that

A kind of flow configuration in air conditioner water cold accumulation system, comprising: water pot；Warm water tube at the top of the water pot is set； The shunt assembly at the position that the warm water tube is located in the water pot is set；The shunt assembly includes: several is arranged in institute State the isocon on warm water tube；Several spray heads being arranged on the isocon；And it is arranged in the water pot and is located at Buffer board below the isocon.

By using above-mentioned technical proposal, when warm water injects water pot from warm water tube, warm water is equably spilt by spray head It falls on buffer board, to play the role of buffering to water body, then warm water is slowly fallen in water pot from buffer board, to subtract Weak warm water reduces the probability that mesolimnion gets muddled to the impact force of water in water pot.

Further: the buffer board offers several for the shrinkage pool passed through that supplies water；The periphery of the buffer board pushes against The inner sidewall of the water pot.

By using above-mentioned technical proposal, after warm water is fallen on buffer board, buffer board can play certain buffering to warm water Effect, then falls warm water out of shrinkage pool, and buffer board, which pushes against water pot inner sidewall, can prevent warm water from falling from the edge of buffer board Under, so that warm water be made equably to fall from buffer board.

Further: being provided with cystosepiment in the water pot；The cystosepiment is located at below the loading plate；The bubble There are gaps between foam plate and the inner wall of the water pot.

By using above-mentioned technical proposal, swim in cystosepiment on the water surface in water pot, when warm water is fallen from buffer board It after lower, falls on cystosepiment, is then flowed into the water in water pot from cystosepiment, the undertaking due to cystosepiment to warm water, thus Bear warm water water droplet the impact force of the water surface in water pot by the entire water surface, so that the water body generation reduced in water pot is significantly flowed Dynamic probability.

Further: the cystosepiment offers several grooves close to the side of the warm water tube；Inside the cystosepiment Offer cavity；The cystosepiment offers several through-holes；The cavity is in communication with the outside by the through-hole.

By using above-mentioned technical proposal, after warm water is fallen on cystosepiment, a part of warm water flows down cystosepiment along groove, A part of warm water enters in cavity by through-hole, then enters in the water in water pot out of cavity, again shunts warm water, thus The impact force of warm water is reduced again.

Further: the buffer board is detachable to be assemblied in the water pot.

It, can be by buffer board from water pot when the shrinkage pool on buffer board is blocked by impurity by using above-mentioned technical proposal It disassembles, clear up impurity or exchanges new buffer board for.

Further: offering observation window on the water pot；The observation window is close to the top of the water pot；The sight Examine the glass for being provided on window and closing the observation window.

By using above-mentioned technical proposal, when needing to observe the situation in water pot, through glass and observation window, Neng Gouguan Observe the situation in water pot.

Further: the baffle for blocking glass is hinged on the water pot.

By using above-mentioned technical proposal, baffle is set outside glass, can prevent extraneous object from hitting glass, thus Reduce the probability that protection glass is damaged, when needing to observe the situation in water pot, flap shutter makes baffle be detached from glass, And then through the situation in glass observation water pot.

Further: the baffle and the water pot are provided with the fixing piece for limiting the flapper.

By using above-mentioned technical proposal, can anti-baffle plate arbitrarily rotated on water pot and lose the protection to glass Effect.

In conclusion the utility model has the following beneficial effects:

1, by the way that shunt assembly is arranged on warm water tube, warm water can equably be trickled down when warm water enters in water pot On buffer board, then makes the warm water on buffer board slowly and equably fall and enter in water pot from buffer board, to subtract Impact force of the weak warm water to the water being originally present in water pot reduces the probability that mesolimnion gets muddled；

2, by setting cystosepiment, the warm water fallen from buffer board can be made to enter in cavity from through-hole, then from sky Chamber blends by through-hole with the water being originally present in water pot, to buffer the impact force of warm water again, and can be by warm water Impact force born by the entire water surface for being originally present in water in water pot, further reduce the water being originally present in water pot The probability significantly flowed.

Detailed description of the invention

Fig. 1 is a structural schematic diagram of the flow configuration in the utility model embodiment air conditioner water cold accumulation system；

Fig. 2 is another structural schematic diagram of the flow configuration in the utility model embodiment air conditioner water cold accumulation system.

Appended drawing reference: 1, water pot；2, warm water tube；3, isocon；4, spray head；5, buffer board；11, cystosepiment；111, groove； 112, cavity；113, through-hole；12, observation window；13, baffle；131, the first bolt nose；14, the second bolt nose；15, bolt； 51, Shrinkage pool.

Specific embodiment

The utility model is described in further detail below in conjunction with attached drawing.

This specific embodiment is only the explanation to the utility model, is not limitations of the present invention, ability Field technique personnel can according to need the modification made to the present embodiment and do not create contribution after reading this specification, but only It will be in the scope of the claims of the utility model all by the protection of Patent Law.

The present embodiment: the flow configuration in a kind of air conditioner water cold accumulation system, as shown in Figure 1, being provided on water pot 1 to water pot The warm water tube 2 of warm water is imported in 1, warm water tube 2 is located at the top of water pot 1, and warm water tube 2 is located at the position fixing assembling in water pot 1 There are several isocons 3, several spray heads 4 are both provided on every isocon 3, and have buffer board 5 in the lower section of spray head 4, buffers The detachable inner wall for being assemblied in water pot 1 of plate 5, and the side wall of 5 circumferential direction of buffer board is pushed against with the inner wall of water pot 1, buffer board 5 On be also provided with several shrinkage pools 51.

Cystosepiment 11 is additionally provided in water pot 1, cystosepiment 11 is located at the lower section of buffer board 5, and can swim in water On the water surface in tank 1, the inner wall of the circumferential side wall of cystosepiment 11 and water pot 1 is there are the gap of one fixed width, and cystosepiment 11 Inside offer cavity 112, cavity 112 is in communication with the outside by the through-hole 113 opened up on cystosepiment 11, and cystosepiment 11 is close The through-hole 113 of 1 bottom end of water pot is evenly distributed in 11 bottom of cystosepiment, and cystosepiment 11 is far from the logical of 1 bottom end of water pot Hole 113 is located in the groove 111 opened up at the top of cystosepiment 11, and the quantity of the through-hole 113 at 11 top of cystosepiment is logical less than bottom The quantity in hole 113.

When in warm water injection water pot 1, warm water first passes through isocon 3 and is split, and then equably sprays by spray head 4 It on buffer board 5, is then fallen on cystosepiment 11 by the shrinkage pool 51 opened up on buffer board 5, since warm water is by the equal of spray head 4 Then even sprinkling passes through the buffering of buffer board 5, to reduce a part of impact force of warm water again.

And after warm water is fallen on cystosepiment 11, a part of warm water flows to cystosepiment 11 close to 1 side of water pot along groove 111 One end of wall is later fallen into water pot 1, and is blended with the water that is originally present in water pot 1, and another part warm water is from cystosepiment 11 The through-hole 113 that top opens up enters in cavity 112, is then flowed by the through-hole 113 that 11 bottom of cystosepiment opens up and falls into water In tank 1, and blend with the water being originally present in water pot 1, after warm water impact force caused by the water surface is accepted by cystosepiment 11, point It is scattered on the entire water surface, falls in the influence caused by water body on the water surface to weaken warm water and directly pound, and then reduce in water pot 1 The probability that water significantly flows.

And the warm water due to falling on cystosepiment 11 is shunted again, and the through-hole 113 at 11 top of cystosepiment is less than The through-hole 113 of bottom, so it is less to form warm water when passing through cystosepiment 11 by this part warm water of through-hole 113 and cavity 112 Through-hole 113 the phenomenon that flowing into cavity 112 and flowing out cavity 112 from multiple more through-holes 113, warm water is shunted again, To further reduce the impact force of warm water.

As shown in Fig. 2, offering observation window 12 far from one end of 1 bottom of water pot in water pot 1, it is equipped on observation window 12 anti- The glass of water leakage in sealing tank 1, and baffle 13 is hinged on water pot 1, flap shutter 13 can block glass, prevent glass Glass collides with extraneous object and is damaged.

Fixing piece is additionally provided on baffle 13 and water pot 1, fixing piece includes: that first be securely fitted on baffle 13 inserts Pin nose 131, the second bolt nose 14 being securely fitted on water pot 1, and, it can be inserted into the first bolt nose 131 and second simultaneously Bolt 15 in bolt nose 14.

When needing baffle 13 to block glass, first flap shutter 13 keeps the first bolt nose 131 and the second bolt nose 14 right Together, bolt is then inserted 15 to enter in the first bolt nose 131 and the second bolt nose 14, to limit the rotation of baffle 13.

Claims (8)

1. the flow configuration in a kind of air conditioner water cold accumulation system characterized by comprising

Water pot (1)；

The warm water tube (2) being arranged at the top of the water pot (1)；

It is arranged and is located at the shunt assembly at the position in the water pot (1) in the warm water tube (2)；

The shunt assembly includes:

Several isocons (3) being arranged on the warm water tube (2)；

Several spray heads (4) being arranged on the isocon (3)；And

The buffer board (5) for being arranged in the water pot (1) and being located at below the isocon (3).

2. the flow configuration in a kind of air conditioner water cold accumulation system according to claim 1, which is characterized in that

The buffer board (5) offers several for the shrinkage pool (51) passed through that supplies water；

The periphery of the buffer board (5) pushes against the inner sidewall of the water pot (1).

3. the flow configuration in a kind of air conditioner water cold accumulation system according to claim 2, which is characterized in that

Cystosepiment (11) are provided in the water pot (1)；

The cystosepiment (11) is located at below the buffer board (5)；

There are gaps between the cystosepiment (11) and the inner wall of the water pot (1).

4. the flow configuration in a kind of air conditioner water cold accumulation system according to claim 3, which is characterized in that

The cystosepiment (11) offers several grooves (111) close to the side of the warm water tube (2)；

Cavity (112) are offered inside the cystosepiment (11)；

The cystosepiment (11) offers several through-holes (113)；

The cavity (112) is in communication with the outside by the through-hole (113).

5. the flow configuration in a kind of air conditioner water cold accumulation system according to claim 4, which is characterized in that

The buffer board (5) is detachable to be assemblied in the water pot (1).

6. the flow configuration in a kind of air conditioner water cold accumulation system according to claim 1, which is characterized in that

Observation window (12) are offered on the water pot (1)；

Top of the observation window (12) close to the water pot (1)；

The glass for closing the observation window (12) is provided on the observation window (12).

7. the flow configuration in a kind of air conditioner water cold accumulation system according to claim 6, which is characterized in that

The baffle (13) for blocking glass is hinged on the water pot (1).

8. the flow configuration in a kind of air conditioner water cold accumulation system according to claim 7, which is characterized in that

The baffle (13) and the water pot (1) are provided with the fixing piece for limiting the baffle (13) rotation.