CN209688991U - Water storage type electric heating water path system and wall-mounted furnace - Google Patents

Abstract

The utility model discloses a water storage formula electrical heating water route system, including the heating member, first ooff valve, the second ooff valve, the energy storage jar, the radiator, heating leaving water temperature probe, energy storage jar temperature probe, heating outlet pipe way, heating return water pipeline, the water outlet end of heating member is crossed heating outlet pipe way and at least one radiator intercommunication through first ooff valve all the way, the end of intaking is crossed heating return water pipeline and at least one radiator intercommunication through second ooff valve all the way, the water outlet end of energy storage jar sets up to two and respectively with the second ooff valve, heating outlet pipe way intercommunication, the end of intaking of energy storage jar sets up to two and respectively with first ooff valve, heating return water pipeline intercommunication. The utility model also discloses a hanging stove. The utility model discloses not only reduce economic cost, also played energy saving and emission reduction's effect moreover.

Description

A kind of storage-type electric heating water circuit system and wall-hung boiler

Technical field

The utility model belongs to wall-hung boiler technical field, and in particular to a kind of storage-type electric heating water circuit system and wall Hang furnace.

Background technique

It is existing electricity wall-hung boiler in use, as long as heating temperature miss the mark temperature, after having heating demands, no matter Heating mode is opened in peak of power consumption or electricity consumption ebb, is heated.When peak times of power consumption electricity cost be up to 1.5 yuan/ Degree, and the electricity charge are 0.3 yuan/degree when electricity consumption ebb, and the electric common power of wall-hung boiler is in 8kw to 18kw, so heating not enough warp Ji, higher cost.

Utility model content

In view of this, the main purpose of the utility model is to provide a kind of storage-type electric heating water circuit system, solution It has determined in the prior art in electricity consumption low peak period, heat cannot be stored in time, led to the cost that heats, the problem of waste of energy；This The purpose of utility model, which also resides in, provides a kind of wall-hung boiler.

In order to achieve the above objectives, a kind of storage-type electric heating water that the technical solution of the utility model is realized in Road system, including calandria, first switch valve, second switch valve, energy storage canister, radiator, heating leaving water temperature probe, energy storage canister The water outlet of temp probe, heating outlet pipeline, heating water return pipeline, the calandria passes through heating through first switch valve all the way Outlet pipeline is connected to at least one radiator, and water inlet end passes through heating water return pipeline and at least one through second switch valve all the way Radiator connection, the water outlet of the energy storage canister are set as two and are connected to respectively with second switch valve, heating outlet pipeline, The water inlet end of the energy storage canister is set as two and is connected to respectively with first switch valve, heating water return pipeline, and the heating goes out Coolant-temperature gage probe is arranged between calandria water outlet and first switch valve, energy storage canister temp probe setting energy storage canister into Between water end (W.E.) and heating water return pipeline.

Preferably, further include first circulation pump, second circulation pump, the setting of first circulation pump calandria water inlet end with Between second switch valve；The second circulation pump is arranged between the water inlet end of energy storage canister and heating water return pipeline.

It preferably, further include check valve, between one end and calandria water outlet and first switch valve of the check valve Piping connection, the piping connection between the other end and first circulation pump and second switch valve.

It preferably, further include expansion tank, the expansion tank is located at calandria water outlet and check valve and first switch Between valve connectivity part.

Preferably, the calandria water inlet end and first follows between bad pump and is provided with water flow sensing unit, silicon-controlled, the water Flow sensor is arranged close to the backwater end of calandria.

Preferably, cooling water inlet is provided between the second switch valve and check valve and first circulation pump connectivity part.

Preferably, temperature controller is additionally provided between the calandria water outlet and heating leaving water temperature probe.

The another technical solution of the utility model is achieved in that a kind of wall-hung boiler, including furnace body, burner and on The heating water circuit system stated, the burner and heating water circuit system are respectively arranged in the furnace body, and the burner is used for For heating water circuit system heating.

Compared with prior art, for the utility model when being in electricity consumption low peak period, when there is heating to have demand, system is automatic It is heated to radiator, when in heating demands interval, system carries out heating energy storage to the water in energy storage canister automatically again, simultaneously In peak times of power consumption, system also uses the hot water in energy storage canister to heat radiator, not only reduce in this way it is economical at This, and also play the effect of energy-saving and emission-reduction.

Detailed description of the invention

Fig. 1 is a kind of storage-type electric heating water circuit system figure provided by the embodiment of the utility model.

Specific embodiment

In order to make the purpose of the utility model, technical solutions and advantages more clearly understood, below in conjunction with attached drawing and implementation Example, the present invention will be further described in detail.It should be appreciated that specific embodiment described herein is only used to explain The utility model is not used to limit the utility model.

A kind of storage-type electric heating water circuit system provided by the embodiment of the utility model, as shown in Figure 1, including heating Body 10, first switch valve 11, second switch valve 12, energy storage canister 13, radiator 14, heating leaving water temperature probe 15, energy storage tank temperature Degree probe 16, heating outlet pipeline 17, heating water return pipeline 18, the water outlet of calandria 10 passes through through 11 1 tunnel of first switch valve Heating outlet pipeline 17 is connected to at least one radiator 14, and water inlet end passes through heating water return pipeline through 12 1 tunnel of second switch valve 18 are connected to at least one radiator 14, the water outlet of energy storage canister 13 be set as two and respectively with second switch valve 12, adopt Warm outlet pipeline 17 is connected to, the water inlet end of energy storage canister 13 be set as two and respectively with first switch valve 11, heating return pipe Road 18 is connected to, and heating leaving water temperature probe 15 is arranged between 10 water outlet of calandria and first switch valve 11, energy storage canister temperature Between the water inlet end and heating water return pipeline 18 of 16 setting energy storage canister 13 of probe；The water circuit system be in electricity consumption low peak period when, When there is heating to have demand, system is heated to radiator 14 automatically, when in heating demands interval, system is again automatic to storage Water in energy tank 13 carries out heating energy storage, while in peak times of power consumption, system also uses the hot water in energy storage canister 13 to heat dissipation Device 14 is heated, and not only reduces economic cost in this way, and also plays the effect of energy-saving and emission-reduction.

It further, further include first circulation pump 19, second circulation pump 20, first circulation pump 19 is arranged in calandria (10) Between water inlet end and second switch valve 12；The water inlet end and heating water return pipeline 18 of energy storage canister 13 is arranged in second circulation pump 20 Between.

It further, further include check valve 21, one end of check valve 21 and calandria (10) water outlet and first switch valve Piping connection between 11, the piping connection between the other end and first circulation pump 19 and second switch valve 12.

It further, further include expansion tank 22, the expansion tank 22 is located at 10 water outlet of calandria and check valve 21 Between 11 connectivity part of first switch valve.

Further, 10 water inlet end of calandria and first follows between bad pump 19 and is provided with water flow sensing unit 23, silicon-controlled 24, Water flow sensing unit 23 is arranged close to the backwater end of calandria 10.

Further, second switch valve 12 and check valve 21 and first circulation pump and are provided with cooling water inlet between 19 connectivity parts 25。

Further, temperature controller 26 is additionally provided between 10 water outlet of calandria and heating leaving water temperature probe 15.

The utility model embodiment provide can a kind of wall-hung boiler, including furnace body, burner and above-mentioned heating water circuit system, Burner and heating water circuit system are respectively arranged in the furnace body, and burner is used for as heating water circuit system heating.

A kind of heating control method of storage-type wall-hung boiler provided by the embodiment of the utility model, this method are broadly divided into two Kind, a kind of control method for electricity consumption low peak period；A kind of control method for peak times of power consumption；

1) control method when electricity consumption low peak period are as follows: when set temperature T1 and heating the leaving water temperature probe 15 of temperature controller 30 The difference of the coolant-temperature gage T2 of acquisition (then shows there are heating demands) when being less than preset temperature threshold (10~30 DEG C), first switch valve 11 and second switch valve 12 close with the connection of energy storage canister 13, open the connection with radiator 14, first circulation water pump 19 starts Operation (enters heating mode)；As the coolant-temperature gage T2 of 15 acquisition of set temperature T1 and heating leaving water temperature probe of temperature controller 30 When equal, first circulation water pump 19 stops operating after rotating 3min and (stops heating mode)；At this point, working as the setting temperature of energy storage canister 13 The difference for spending the coolant-temperature gage T3 that T4 and energy storage canister temp probe 16 acquire is less than preset temperature threshold (10~30 DEG C), then exists First circulation water pump 19 continues to rotate 3min after 7min；When the set temperature T4 of energy storage canister 13 is adopted with energy storage canister temp probe 16 When the difference of the coolant-temperature gage T3 of collection is greater than preset temperature threshold (10~30 DEG C), then first switch valve 11 and second switch valve 12 The connection with energy storage canister 13 is opened, the connection with radiator 14 is closed, first circulation water pump 19 starts turning, and calandria 10 opens With starting to carry out energy storage mode (heating the water in energy storage canister 13), reciprocation cycle.

2) control method of peak times of power consumption are as follows: when room temperature T5 is lower than 10~30 DEG C of preset temperature threshold, second Water circulating pump 20 starts turning, and is heated using the hot water (heat) in energy storage canister 13, until room temperature is higher than target temperature At 5 degree of degree, stop operating after second circulation water pump rotation 3min (heating mode for stopping energy storage canister).

The utility model is when being in electricity consumption low peak period, and when there is heating to have demand, system gives radiator 14 to carry out automatically Heating, when in heating demands interval, system carries out heating energy storage to the water in energy storage canister 13 automatically again, while in peak of power consumption When the phase, system also uses the hot water in energy storage canister 13 to heat radiator 14, not only reduces economic cost in this way, and Also play the effect of energy-saving and emission-reduction.

The above, the only preferred embodiment of the utility model, are not intended to limit the protection of the utility model Range.

Claims (8)

1. a kind of storage-type electric heating water circuit system, which is characterized in that including calandria (10), first switch valve (11), Second switch valve (12), energy storage canister (13), radiator (14), heating leaving water temperature probe (15), energy storage canister temp probe (16), Heating outlet pipeline (17), heating water return pipeline (18), the water outlet of the calandria (10) through first switch valve (11) all the way It is connected to by heating outlet pipeline (17) at least one radiator (14), water inlet end is through second switch valve (12) all the way by adopting Warm water return pipeline (18) are connected to at least one radiator (14), and the water outlet of the energy storage canister (13) is set as two and divides Be not connected to second switch valve (12), heating outlet pipeline (17), the water inlet end of the energy storage canister (13) be set as two and It is connected to respectively with first switch valve (11), heating water return pipeline (18), heating leaving water temperature probe (15) setting is being heated Between body (10) water outlet and first switch valve (11), the water inlet end of energy storage canister temp probe (16) setting energy storage canister (13) Between heating water return pipeline (18).

2. a kind of storage-type electric heating water circuit system according to claim 1, which is characterized in that further include first following Ring pumps (19), second circulation pump (20), and the first circulation pump (19) is arranged in calandria (10) water inlet end and second switch valve (12) between；The second circulation pump (20) is arranged between the water inlet end and heating water return pipeline (18) of energy storage canister (13).

3. a kind of storage-type electric heating water circuit system according to claim 2, which is characterized in that further include check valve (21), the piping connection between one end and calandria (10) water outlet and first switch valve (11) of the check valve (21), separately Piping connection between one end and first circulation pump (19) and second switch valve (12).

4. a kind of storage-type electric heating water circuit system according to claim 3, which is characterized in that further include swelling water Case (22), the expansion tank (22) are located at calandria (10) water outlet and check valve (21) and first switch valve (11) connectivity part Between.

5. a kind of storage-type electric heating water circuit system according to claim 4, which is characterized in that the calandria (10) water inlet end and first follows between bad pump (19) and is provided with water flow sensing unit (23), silicon-controlled (24), the water flow sensing unit (23) backwater end close to calandria (10) is arranged.

6. a kind of storage-type electric heating water circuit system according to claim 5, which is characterized in that the second switch Cooling water inlet (25) are provided between valve (12) and check valve (21) and first circulation pump (19) connectivity part.

7. a kind of storage-type electric heating water circuit system described in -6 any one according to claim 1, which is characterized in that institute It states and is additionally provided with temperature controller (26) between calandria (10) water outlet and heating leaving water temperature probe (15).

8. a kind of wall-hung boiler, which is characterized in that including furnace body, burner and the heating as described in claim 1-7 any one Water circuit system, the burner and heating water circuit system are respectively arranged in the furnace body, and the burner is used to take to be described Warm water circuit system heating.