CN111457592B - Energy-saving water heater pipeline - Google Patents

Abstract

The invention discloses an energy-saving water heater pipeline which comprises a water conveying pipe, wherein a water outlet and a water inlet are formed in the side wall of the water conveying pipe in a penetrating mode, an elastic belt is fixed on the inner wall of the water conveying pipe, a plurality of control grooves are formed in the inner wall of the water conveying pipe, a connecting spring is fixed at the inner bottom of each control groove, a control magnetic block in sealing sliding connection with the inner wall of the corresponding control groove is fixed on one side, close to the elastic belt, of each connecting spring, and a plurality of thrust grooves corresponding to the control grooves one by one are formed in the inner wall of the water conveying pipe. Has the advantages that: through the elastic action of the elastic band, when hot water stops supplying, hot water remained in the water pipe is extruded to flow back to the water heater, so that the recycling of thermal resources is ensured, the waste of heat energy is avoided, meanwhile, a large amount of cold water which is not needed is not supplied due to the cooling of the residual hot water in the water pipe when the hot water is subsequently supplied, and the purpose of saving energy and resources is achieved.

Description

Energy-saving water heater pipeline

Technical Field

The invention relates to the technical field of water pipes, in particular to an energy-saving water heater pipe.

Background

The water heater can quickly provide hot water for people, so that showers and the like of people are not influenced by seasons and weather, the life quality of people is improved, and the water heater is very convenient to use and is popular with the majority of users;

the existing water pipe of the water heater only plays a role in water delivery, certain hot water still remains in the water delivery pipe when the hot water is not used, the hot water cannot be utilized or cannot return to the water heater, heat is completely dissipated into cold water after a certain time, waste of thermal resources is caused, and during subsequent use, the first-choice output of the cold water is the residual cold water, so that a user cannot obtain timely hot water supply, and the cold water is not utilized usually, so that waste of water resources is caused, and therefore an energy-saving water heater pipeline is urgently needed.

Disclosure of Invention

The invention aims to solve the problem of resource waste caused by hot water remained in a water heater pipeline in the prior art, and provides an energy-saving water heater pipeline.

In order to achieve the purpose, the invention adopts the following technical scheme: the energy-saving water heater pipeline comprises a water conveying pipe, wherein a water outlet and a water inlet are formed in the side wall of the water conveying pipe in a penetrating mode, an elastic belt is fixed on the inner wall of the water conveying pipe, a plurality of control grooves are formed in the inner wall of the water conveying pipe, a connecting spring is fixed at the bottom of each control groove, a control magnetic block in sealing sliding connection with the inner wall of the corresponding control groove is fixed on one side, close to the elastic belt, of each connecting spring, a plurality of thrust grooves corresponding to the control grooves one to one are formed in the inner wall of the water conveying pipe, a pushing magnetic block is fixed on the inner wall of each thrust groove, a plurality of expansion magnetic blocks are fixed on the inner wall of the elastic belt, and a trigger mechanism is arranged inside each thrust groove.

In the above energy-saving water heater pipeline, the trigger mechanism includes a trigger groove opened on the inner wall of the thrust groove near the corresponding control groove, a return spring is fixed at the bottom of the trigger groove, and a magnetic isolating block is fixed at one end of the return spring far from the control groove.

In foretell energy-saving water heater pipeline, trigger mechanism is including offering in the thrust groove and being close to the trigger groove on the inner wall of corresponding control groove one side, the interior bottom in trigger groove is fixed with reset spring, the one end that reset spring kept away from the control groove is fixed with the heat altered strip, the one end that reset spring was kept away from to the heat altered strip is fixed with the magnetic path that resets, the one end that the heat altered strip was kept away from to the magnetic path that resets is fixed with at a distance from the magnetic path.

Compared with the prior art, the invention has the advantages that:

1. according to the invention, through the elastic action of the elastic belt, when the hot water stops supplying, the hot water remained in the water pipe is extruded and flows back to the water heater, so that the recycling of thermal resources is ensured, the waste of heat energy is avoided, and meanwhile, a large amount of unnecessary cold water is not supplied due to the cooling of the residual hot water in the water pipe when the hot water is supplied subsequently, so that the waste of water resources in the subsequent using process is effectively avoided, and the purpose of saving energy and resources is achieved;

2. in the invention, in the hot water supply process, the control magnetic block has larger pressure difference on two sides due to high-speed flowing water flow, so that the magnetic isolating block is shifted to push the magnetic block to act on the expansion magnetic block, the elastic belt keeps an expansion state in the hot water supply process, the water yield in the hot water supply process is effectively ensured, the additional increase of water supply pressure is not needed, and the waste of energy is avoided;

3. according to the invention, the thermal change strips are arranged, so that after hot water enters the water conveying pipe, the heat of the hot water is quickly transferred to the thermal change strips, and then the thermal change strips are contracted, so that the magnetic isolating blocks are driven to shift, the pushing magnetic blocks can quickly act on the expansion magnetic blocks, no requirement is provided for the supply water pressure of the hot water, even if the water pressure is lower, the flow speed of the hot water is slower, the expansion of the elastic band can be realized, the stability of the supply amount of the hot water is ensured, the requirement on a water heater is lower, and the application range is wider;

4. in the invention, because the elastic band is in a contraction state at the beginning, the water yield at the initial stage of hot water supply is limited and is small, a large amount of hot water cannot be sprayed immediately even if a user touches the water valve by mistake, a certain reaction time is given to the user to process the false touch result, and further the damage to the user caused by water flow impact is avoided.

Drawings

FIG. 1 is a schematic structural diagram of a pipeline of an energy-saving water heater according to the present invention;

FIG. 2 is an enlarged view of portion A of FIG. 1;

FIG. 3 is a schematic structural diagram of another embodiment of an energy-saving water heater pipe according to the present invention;

fig. 4 is an enlarged schematic view of a portion B in fig. 3.

In the figure: the device comprises a water delivery pipe 1, a water outlet 2, a water inlet 3, an elastic belt 4, an expansion magnetic block 5, a control groove 6, a connecting spring 7, a control magnetic block 8, a thrust groove 9, a pushing magnetic block 10, a trigger groove 11, a return spring 12, a magnetic isolating block 13, a return magnetic block 14 and a thermal change strip 15.

Detailed Description

The following examples are for illustrative purposes only and are not intended to limit the scope of the present invention.

Example 1

Referring to fig. 1-2, an energy-saving water heater pipeline, including raceway 1, the lateral wall of raceway 1 runs through and has seted up delivery port 2 and water inlet 3, the inner wall of raceway 1 is fixed with elastic webbing 4, a plurality of control groove 6 have been seted up to the inner wall of raceway 1, the interior bottom of every control groove 6 all is fixed with coupling spring 7, one side that every coupling spring 7 is close to elastic webbing 4 all is fixed with and corresponds control groove 6 inner wall sealing sliding connection's control magnetic path 8, control magnetic path 8 has certain magnetic attraction effect for circular magnetic path to separating magnetic path 13, a plurality of thrust groove 9 with a plurality of control groove 6 one-to-one are seted up to the inner wall of raceway 1, the inner wall of every thrust groove 9 all is fixed with promotion magnetic path 10, the inner wall of raceway 4 is fixed with a plurality of inflation magnetic path 5, the inside of every thrust groove 9 all is equipped with trigger mechanism.

Trigger mechanism is close to the trigger groove 11 on the inner wall of corresponding control groove 6 one side including seting up in thrust groove 9, and the interior bottom in trigger groove 11 is fixed with reset spring 12, and reset spring 12 keeps away from the one end of control groove 6 and is fixed with and separates magnetic path 13, separates magnetic path 13 and is made by nickel, can completely cut off the magnetic force effect of promotion magnetic path 10 to inflation magnetic path 5, and a plurality of inflation magnetic paths 5 and a plurality of promotion magnetic path 10 positions one-to-one.

In the invention, when hot water is filled in the water pipe 1, the elastic belt 4 is in a contraction state and is close to the inner wall of one side of the water pipe 1, which is provided with the control groove 6, and the gap between the elastic belt 4 and the water pipe 1 is small, when the hot water is required to be supplied, the hot water enters the water pipe 1 through the water inlet 3, because the gap between the elastic belt 4 and the water pipe 1 is small, the hot water can rapidly penetrate through the water pipe 1 under the pushing action of water pressure and flows out from the water outlet 2 even if no water is reserved in the water pipe 1, so that the water outlet speed is ensured, the water outlet quantity of the hot water is small when the hot water is supplied due to the small gap, when continuous water flows in the water pipe 1, the water flow speed of the control magnetic block 8 far away from one side of the control groove 6 is high, according to the relative relation between the fluid pressure and the flow speed, the pressure of the control magnetic block 8 far away from one side of the control groove 6 is small under the state, therefore, the connecting spring 7 extends under the action of pressure, so that the control magnetic block 8 slides towards the direction close to the trigger groove 11 and further moves to a position corresponding to the trigger groove 11 firstly, the magnetic separation block 13 moves towards the inside of the trigger groove 11 under the action of the magnetic force of the control magnetic block 8, the magnetic block 10 is pushed to exert obvious magnetic repulsion on the expansion magnetic block 5, the elastic belt 4 deforms and expands in cooperation with the pressure of hot water input, the inner space of the water conveying pipe 1 is fully utilized, the supply of hot water is guaranteed, the initial small water quantity is gradually changed into the conventional water quantity, and a user can have enough time to adjust the water yield even if touching a large-water-quantity valve by mistake at the beginning, and cannot be impacted by water flow under the condition of no preparation;

when hot water is not required to be supplied, the hot water in the water conveying pipe 1 does not flow any more, and then the pressure difference between two sides of the control magnetic block 8 is lost, so that the control magnetic block 8 is reset under the elastic action of the connecting spring 7, the same magnetic isolating block 13 also loses the magnetic action and resets under the elastic action of the resetting spring 12, and then the pushing magnetic block 10 repels the expansion magnetic block 5 again, so that the elastic belt 4 contracts under the elastic action and synchronously extrudes the residual hot water in the elastic belt, the hot water slowly flows back to the water heater from the water inlet 3 to be stored, the waste of hot water resources is avoided, and finally only trace hot water is remained in the water conveying pipe 1, the part of water flows out when being supplied next time, the quantity is less, the waste of water resources is less, and the water resources are protected to a certain extent.

Example 2

Referring to fig. 3-4, energy-saving water heater pipeline, including raceway 1, the lateral wall of raceway 1 runs through and has seted up delivery port 2 and water inlet 3, the inner wall of raceway 1 is fixed with elastic webbing 4, a plurality of control groove 6 have been seted up to the inner wall of raceway 1, the interior bottom of every control groove 6 all is fixed with coupling spring 7, one side that every coupling spring 7 is close to elastic webbing 4 all is fixed with and corresponds 6 inner wall sealing sliding connection's of control groove control magnetic path 8, a plurality of thrust groove 9 with a plurality of control groove 6 one-to-one are seted up to the inner wall of raceway 1, the inner wall of every thrust groove 9 all is fixed with promotion magnetic path 10, the inner wall of elastic webbing 4 is fixed with a plurality of inflation magnetic paths 5, the inside of every thrust groove 9 all is equipped with trigger mechanism.

Trigger mechanism is close to the trigger groove 11 that corresponds on the inner wall of control groove 6 one side including seting up in thrust groove 9, the interior bottom of trigger groove 11 is fixed with reset spring 12, reset spring 12 keeps away from the one end of control groove 6 and is fixed with heat change strip 15, heat change strip 15 is made for thermal deformation metal material, the one end that reset spring 12 was kept away from to heat change strip 15 is fixed with reset magnetic block 14, mutual repulsion when reset magnetic block 14 was close to with control magnetic block 8, the one end that heat change strip 15 was kept away from to reset magnetic block 14 is fixed with and separates magnetic block 13, control magnetic block 8 is located the one side that trigger groove 11 kept away from control groove 6 bottom all the time when there is not external force influence.

In the invention, when hot water is supplied, the hot water enters the water conveying pipe 1 through the water inlet 3, the temperature of the hot water is high, the heat of the hot water is quickly transferred to the thermal change strips 15 in the flowing process, so that the thermal change strips 15 are deformed and shrunk by heating, the magnetic isolating blocks 13 move towards the inside of the trigger groove 11, and the magnetic repulsion action of the magnetic blocks 10 on the expansion magnetic blocks 5 is further generated, so that the water conveying quantity of the elastic belt 4 deformed water conveying pipe 1 is increased, the water outlet quantity is not influenced, when the water flow velocity in the water conveying pipe 1 is stable, the control magnetic blocks 8 are influenced by the pressure difference, even if the water flow in the water conveying pipe 1 is increased, the pressure of the water body on the control magnetic blocks 8 is increased, and the control magnetic blocks 8 can still keep a certain position under the support of the connecting springs 7 without influencing the internal components of the trigger groove 11;

when the hot water supply is finished, the water flow in the water pipe 1 does not flow out any more, the control magnetic block 8 is not influenced by the pressure difference, the water amount in the water pipe 1 is increased, the weight is increased, the control magnetic block 8 is increased under the action of the gravity of the water, the control magnetic block 8 moves towards the inside of the control groove 6 and gradually moves to the position of the trigger groove 11, so that the reset magnetic block 14 is influenced by the magnetic repulsion of the control magnetic block 8 to drive the magnetic separation block 13 to move towards the inside of the thrust groove 9, the push magnetic block 10 does not influence the expansion magnetic block 5 any more, the elastic belt 4 is contracted, the pressure on the control magnetic block 8 is larger under the elastic force action of the elastic belt 4 in the contraction process of the elastic belt 4, the control magnetic block 8 keeps the magnetic force action on the reset magnetic block 14, the effective backflow of the hot water is ensured, and the recycling of thermal resources is realized;

thereby the deformation through thermal change strip 15 realizes the quick inflation of elastic webbing 4 and guarantees hot water supply volume, as long as hot water temperature reaches the requirement can, need not make the requirement to hydrothermal supply water pressure, even if the water pressure of hot water supply is less, hot water flow velocity still can guarantee hot water supply in time and sufficient when slower, guarantee that hot water is convenient that hot water uses, and can use elastic webbing 4 that the elasticity coefficient is great, make hydrothermal backward flow speed accelerate, further reduce thermal loss.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical scope of the present invention and the equivalent alternatives or modifications according to the technical solution and the inventive concept of the present invention within the technical scope of the present invention.

Claims (1)

1. The energy-saving water heater pipeline comprises a water conveying pipe (1) and is characterized in that a water outlet (2) and a water inlet (3) are formed in the side wall of the water conveying pipe (1) in a penetrating mode, an elastic belt (4) is fixed on the inner wall of the water conveying pipe (1), a plurality of control grooves (6) are formed in the inner wall of each control groove (6), a connecting spring (7) is fixed at the inner bottom of each control groove (6), a control magnetic block (8) in sealing sliding connection with the inner wall of the corresponding control groove (6) is fixed on one side, close to the elastic belt (4), of each connecting spring (7), a plurality of thrust grooves (9) corresponding to the control grooves (6) one by one are formed in the inner wall of the water conveying pipe (1), a plurality of pushing magnetic blocks (10) are fixed on the inner wall of each thrust groove (9), a plurality of expansion magnetic blocks (5) are fixed on the inner wall of the elastic belt (4), a trigger mechanism is arranged in each thrust groove (9);

the trigger mechanism comprises a trigger groove (11) formed in the inner wall of one side, close to the corresponding control groove (6), of the thrust groove (9), a return spring (12) is fixed to the inner bottom of the trigger groove (11), and a magnetic isolating block (13) is fixed to one end, far away from the control groove (6), of the return spring (12); or

Trigger mechanism is close to trigger groove (11) on corresponding control groove (6) one side inner wall including offering in thrust groove (9), the interior bottom in trigger groove (11) is fixed with reset spring (12), the one end that control groove (6) were kept away from in reset spring (12) is fixed with heat change strip (15), the one end that reset spring (12) were kept away from in heat change strip (15) is fixed with reset magnetic path (14), the one end that heat change strip (15) were kept away from in reset magnetic path (14) is fixed with at a distance from magnetic path (13).

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