CN204769839U - Kitchen garbage processing apparatus - Google Patents

Abstract

The utility model discloses a kitchen garbage processing apparatus, include: air heat source pump heats and uses liquid as heat -conducting medium liquid, heating jacket has interior casing and shell body, and the inner chamber that the inner shell bodily form becomes is used for holding kitchen garbage, forms the exocoel between interior casing and the shell body, is provided with the outer wall utating fluid passage who surrounds interior casing in the exocoel, and heating jacket is equipped with a temperature sensor who stretches into the inner chamber, air heat source pump and heating jacket are connected to the liquid pipeline, heat reclaim unit guides the hot -air of inner chamber to heat exchanger, controlling means is connected opening and closing of the temperature control air heat source pump that sets up with the temperature of coming according to temperature sensor conveying and to controlling means with an air heat source pump and a temperature sensor. The utility model provides a technical problem lie in overcoming the shortcoming that current kitchen garbage handled the high or inefficiency of power consumption, provide one kind and can mention energy -conserving kitchen garbage processing apparatus of the highest while with refuse treatment's speed.

Description

A kind of food waste treatment device

Technical field

The utility model relates to field of garbage disposal.Be specially a kind of food waste treatment device.

Background technology

In the modern times that material is highly developed, rubbish be treated as an important problem.In extensive processing mode, all rubbish is mixed together and burns or bury, and this not only causes environment to be subject to secondary pollution, also wastes the useful component in rubbish.Now, environmental administration advocates refuse classification, and some rubbish recycle as paper, plastic bottle etc. are separated.But changing food waste or poured sewer by after the garbage disposer fragmentation of family expenses, or be process together with Other Waste.Up-to-date Method of Food Wastes Disposal is fermented for organic fertilizer, but the time that this mode needs is longer, causes the efficiency comparison of garbage disposal low.What have heats changing food waste, to accelerate garbage decomposition.But this not only can cause power consumption high because of heating large-scale rubbish, and is unfavorable for that when changing food waste temperature is too high rubbish fermentation is organic fertilizer on the contrary.

Utility model content

The technical problem that the utility model solves is that overcoming existing changing food waste process wastes energy or inefficient shortcoming, provides a kind of food waste treatment device energy-conservation can mention the highest by the speed of garbage disposal while.

Food waste treatment device of the present utility model, comprising:

Air heat source pump, described air heat source pump heats liquid and is heat-conducting medium with liquid, and described air heat source pump has the liquid outlet receiving liquid and enter the inlet in it and allow the liquid after heating to flow out;

Heating jacket, described heating jacket has inner housing and shell body, the inner chamber that described inner housing is formed is used for holding changing food waste, exocoel is formed between described inner housing and shell body, the fluid passage that the outer wall around described inner housing spirals is provided with in described exocoel, one end of described fluid passage has inlet, and the other end of described fluid passage has liquid outlet, and described heating jacket is provided with the first temperature sensor stretching into described inner chamber;

Liquid line, the second liquid pipeline of the first liquid pipeline comprising liquid outlet and the inlet of the fluid passage of described heating jacket connecting described air heat source pump and the liquid outlet that is connected the inlet of described air heat source pump and the fluid passage of described heating jacket;

Control device, described control device and described air heat source pump and described first temperature sensor are connected respectively with the temperature sent according to described first temperature sensor and the opening and closing temperature that control device is arranged being controlled to described air heat source pump.

As preferably, the temperature that described air heat source pump transmits at described first temperature sensor is opened automatically lower than during the first design temperature, and described first design temperature is 12 DEG C-80 DEG C.

As preferably, described first design temperature is the arbitrary numerical value in 45 DEG C-70 DEG C.

As preferably, described inner chamber is provided with air inlet and gas outlet, described food waste treatment device also comprises heat reclaim unit, described heat reclaim unit comprises air guiding tube and is located at the heat exchanger at air inlet place of described air heat source pump, described air guiding tube one end is communicated with the gas outlet of described inner chamber, and the other end is communicated with described heat exchanger and the hot-air in the inner chamber of described heating jacket is guided to the air inlet of described heat exchanger to described air heat source pump heats.

As preferably, described second liquid pipeline is also provided with liquid reserve tank, described liquid reserve tank is provided with the emergent heating tube for heating the liquid in described liquid reserve tank, described food waste treatment device also comprises the environment temperature sensor for testing environment temperature, and described control device is connected with the temperature transmitted at described environment temperature sensor lower than opening described emergent heating tube during the second temperature set with described emergent heating tube and described environment temperature sensor respectively.

As preferably, described control device opens described emergent heating tube when receiving the fault message of described air heat source pump.

As preferably, described second liquid pipeline is also provided with filter, and described filter bits is between described heating jacket and described liquid reserve tank.

As preferably, described heating jacket is provided with the safety valve communicated with the fluid passage of described heating jacket, described heating jacket is also provided with the liquid level sensor of liquid level in the described fluid passage of detection, and described control device and described safety valve and liquid level sensor are connected to open described safety valve when described liquid level sensor detects and the liquid level transmitted exceedes the liquid level of setting respectively.

As preferably, described heating jacket is provided with the discharging tube communicated bottom with described fluid passage, and described discharging tube is provided with tapping valve.

As preferably, described heating jacket is also provided with the steam vent that communicates with described fluid passage to be discharged by the process that heats the gas produced in described fluid passage at liquid.

As preferably, described heating jacket is provided with the condensing unit communicated with described steam vent and described gas is cooled to liquid and makes it flow back in described fluid passage.

As preferably, described first liquid pipeline is provided with the first valve in the position of the liquid outlet near described air heat source pump, the position of the inlet of the fluid passage near described heating jacket is provided with the second valve, described second liquid pipeline is provided with the 3rd valve in the position of the inlet near described air heat source pump, the position of the liquid outlet of the fluid passage near described heating jacket is provided with the 4th valve, between circulating pump and liquid reserve tank, is provided with the 5th valve.

Compared to the prior art food waste treatment device of the present utility model, has following beneficial effect:

1, the utility model is heater by air heat source pump, take liquid as heat-conducting medium, heats, thus make changing food waste thermally equivalent to the inner housing of heating jacket.And air heat source pump only needs the electric energy consuming seldom amount, the heat of heating needed for rubbish just can be provided.Meanwhile, the utility model using the temperature of inner chamber rubbish as the condition controlling the unlatching of air heat source pump, thus realizes the automatic unlatching of air heat source pump.Meanwhile, because liquid remains in the scope of control, breed at the temperature that the microorganism in inner chamber is bred at optimum and decompose rubbish, improving the speed of rubbish fermentation, decrease the consumption of electric energy simultaneously.Rubbish is decomposed by the microorganisms fermentation becomes organic fertilizer, can be used for agricultural or urban afforestation, takes full advantage of the organic principle of changing food waste.

2, food waste treatment device also comprises heat reclaim unit, heat reclaim unit comprises the heat exchanger at the air inlet place being located at air heat source pump, and the hot-air in the inner chamber of heating jacket is guided to the air inlet of heat exchanger to air heat source pump and heats by air guiding tube.

3, liquid reserve tank is provided with the emergent heating tube for heating liquid, and when the temperature that environment temperature sensor transmits is lower than the second temperature set, described emergent heating tube opened by control device.In addition, described control device also can open emergent heating tube when receiving the fault message of air heat source pump.Emergent heating tube can be opened to prevent garbage decomposition to be absorbed in stagnation when air heat source pump cisco unity malfunction.

4, heating jacket is also provided with the steam vent communicated with described fluid passage and the condensing unit communicated with steam vent, is cooled to liquid by described and make in its flow back fluid paths.Condensing unit can prevent fluid passage internal gas pressure too high on the one hand, on the other hand, prevents from causing liquid level to decline because of heat-conducting medium evaporation loss.

Accompanying drawing explanation

Fig. 1 is the structural representation of the food waste treatment device of the utility model embodiment.

Reference numeral

1-air heat source pump, 2-heating jacket, 3-first liquid pipeline, 4-second liquid pipeline, 5-first temperature sensor, 6-circulating pump, 7-liquid reserve tank, 8-filter, 9-safety valve, 10-liquid level sensor, 11-discharging tube, 12-tapping valve, 13-first valve, 14-second valve, 15-the 3rd valve, 16-the 4th valve, 17-liquid injection pipe, 18-liquid-filling valve, 19-second temperature sensor, 20-air inlet, 21-gas outlet, 22-heat exchanger, 23-air guiding tube, 24-meets an urgent need heating tube, 25-the 5th valve.

Detailed description of the invention

Fig. 1 is the structural representation of the food waste treatment device of the utility model embodiment.As shown in Figure 1, food waste treatment device of the present utility model, comprises air heat source pump 1, heating jacket 2, the liquid line connecting air heat source pump 1 and heating jacket 2 and control device (not shown), specific as follows:

Air heat source pump 1 is also often called as air source heat pump or air energy heat pump in the art, and three refers to identical device in fact.Air heat source pump 1 has single-stage compressor or double-stage compressor, and in the present embodiment, air heat source pump 1 has double-stage compressor, can obtain more heat from Cryogenic air.Described air heat source pump 1 pair of liquid heats and is heat-conducting medium with liquid, and liquid can be water, also can be conduction oil.Described air heat source pump 1 have receive liquid enter inlet in it and allow heating after the liquid outlet that flows out of liquid, air heat source pump 1 by the heat conduction that obtains from compressed air to heat-conducting medium.

Heating jacket 2 has inner housing (not shown) and shell body (not shown), the inner chamber that described inner housing is formed is used for holding changing food waste, inner chamber is also contained with the microbiological materials for fermented garbage from kitchen, and changing food waste can be decomposed into organic fertilizer under the effect of microorganism.Described inner chamber is provided with air inlet 20 and gas outlet 21, and the air containing oxygen enters inner chamber by air inlet 20, provides oxygen for changing food waste carries out aerobic compost at inner chamber.

Form exocoel between described inner housing and shell body, in described exocoel, be provided with the fluid passage (not shown) that the outer wall around described inner housing spirals.Fluid passage can be the pipeline be located in exocoel, also can be the passage circulated for liquid formed by the compartition of exocoel by dividing plate, dividing plate can with inner housing and shell body one-body molded.One end of described fluid passage has inlet, and the other end of described fluid passage has liquid outlet.Described heating jacket 2 is provided with the liquid injection pipe 17 that communicates with described fluid passage to be injected by liquid in fluid passage and air heat source pump 1, and liquid injection pipe 17 can arrange liquid-filling valve 18.Certainly, liquid injection pipe 17 and liquid-filling valve 18 also can be located on liquid line, as long as can realize injecting liquid in heating jacket 2, liquid line and air heat source pump 1.

Liquid line comprises the first liquid pipeline 3 of the liquid outlet that connects described air heat source pump 1 and the inlet of the fluid passage of described heating jacket 2 and is connected the second liquid pipeline 4 of liquid outlet of the inlet of described air heat source pump 1 and the fluid passage of described heating jacket 2, described second liquid pipeline 4 is provided with the second temperature sensor 19, for having detected after heat exchange in fluid passage the temperature of liquid out.

Described second liquid pipeline 4 is also provided with for the circulation of liquid in described air heat source pump 1, heating jacket 2 and liquid line provides the circulating pump 6 of power.

Described heating jacket 2 is also provided with the first temperature sensor 5 stretching into described inner chamber, and described control device is connected with described air heat source pump 1 and described first temperature sensor 5 with the temperature sent according to described first temperature sensor 5 and the opening and closing temperature that control device is arranged being controlled to described air heat source pump 1.The temperature that described air heat source pump 1 transmits at described first temperature sensor 5 is opened automatically lower than during the first design temperature, and as preferably, described first design temperature is 12 DEG C-80 DEG C.As further preferred, described first design temperature is the arbitrary numerical value in 45 DEG C-70 DEG C.The activity that this set makes the microorganism in inner chamber keep the highest, thus make the efficiency that the decomposition of changing food waste keeps the highest.

The utility model adopts air heat source pump 1 to be heater, take liquid as heat-conducting medium, heats, thus make the changing food waste thermally equivalent being positioned at heating jacket inner chamber to the inner housing of heating jacket 2.And air heat source pump 1 only needs the electric energy consuming seldom amount, the heat of heating needed for rubbish just can be provided.Meanwhile, the utility model using the temperature of changing food waste in inner chamber as the condition controlling the unlatching of air heat source pump 1, thus realizes the automatic unlatching of air heat source pump 1.Make the temperature of inner chamber remain in the scope of control simultaneously, breed at the temperature that microorganism is bred at optimum and decompose rubbish, improving the speed of rubbish fermentation, decrease the consumption of electric energy simultaneously.Rubbish is decomposed by the microorganisms fermentation becomes organic fertilizer, can be used for agricultural or urban afforestation.

Food waste treatment device of the present utility model also comprises heat reclaim unit, described heat reclaim unit comprises heat exchanger 22 and the air guiding tube 23 at the air inlet place being located at described air heat source pump 1, described air guiding tube 23 one end is communicated with the gas outlet 21 of described inner chamber, and the other end is communicated with the air inlet hot-air in the inner chamber of described heating jacket being guided to described heat exchanger 22 pairs of air heat source pumps and heats with described heat exchanger 22.Heat exchanger 22 can be fin around air heat source pump steam inlet or other forms of heat-exchange device.

Air enters inner chamber and provides oxygen to garbage disposal, and while changing food waste carries out aerobic compost, air is heated, and the air ruing out of oxygen is discharged from inner chamber, if directly enter air, can cause thermal loss.Meanwhile, the thermal efficiency of air heat source pump under the condition of 15 DEG C-45 DEG C is the highest.Heat reclaim unit in the utility model is imported in inner chamber in air heat source pump by the air heated, can improve the temperature of air heat source pump air inlet, thus improves the thermal efficiency of air heat source pump, makes the thermal efficiency of air heat source pump reach 1:3.Food waste treatment device of the present utility model, than existing refuse disposal installation economize on electricity more than 60%, has saved the energy greatly.

Described second liquid pipeline 4 is also provided with liquid reserve tank 7, described liquid reserve tank 7 allows described liquid to pass through and the air collected in described air heat source pump 1, heating jacket 2 and liquid line and liquid are added thermogenetic gas, gas is collected in the top of liquid reserve tank 7 liquid level, prevent gas from fluid path, hindering the circulation of liquid, thus make the circulation of liquid more smooth and easy.Liquid in liquid reserve tank 7, between liquid reserve tank 7 and described air heat source pump 1, pumps in air heat source pump 1 by described circulating pump 6.

Described liquid reserve tank 7 is provided with the emergent heating tube 24 for heating the liquid in described liquid reserve tank 7, described food waste treatment device also comprises the environment temperature sensor (not shown) for testing environment temperature, and described control device is connected with the temperature transmitted at described environment temperature sensor lower than opening described emergent heating tube 24 during the second temperature set with described emergent heating tube 24 and described environment temperature sensor respectively.

In the present embodiment, the second temperature set is as-15 DEG C, and when environment temperature is lower than-15 DEG C, air heat source pump cannot work, and now, control device starts emergent heating tube 24, heats, prevent garbage decomposition work to be absorbed in dead state to liquid.In addition, described control device also can open described emergent heating tube 24 when receiving the fault message of described air heat source pump.

Described second liquid pipeline 4 is also provided with filter 8, and described filter 8 is between described heating jacket 2 and described liquid reserve tank 7.Contaminant filter in liquid falls by filter 8, prevents impurity from entering air heat source pump 1 pair of air heat source pump 1 and causes damage, thus improves the service life of air heat source pump 1.

Described heating jacket 2 is provided with the safety valve 9 communicated with the fluid passage of described heating jacket 2, safety valve 9 is relief valve, described heating jacket 2 is also provided with the liquid level sensor 10 of liquid level in the described fluid passage of detection, described control device and described safety valve 9 and liquid level sensor 10 be connected respectively with, control device opens the safety-valve 9 when described liquid level sensor 10 detects and the liquid level transmitted exceedes the liquid level of setting.By above-mentioned setting, the pressure in heating jacket 2 can be prevented excessive and cause danger.

Described heating jacket 2 is provided with the discharging tube 11 communicated bottom with described fluid passage, and described discharging tube 11 is provided with tapping valve 12.When the heat-conducting medium that heat conductivility after needing to change long-time use declines, tapping valve 12 can be opened and discharge all liq, then close tapping valve 12, open liquid-filling valve 18, inject new liquid by liquid injection pipe 17.

Described heating jacket 2 is also provided with the steam vent (not shown) communicated with described fluid passage, and at liquid by the process that heats, partially liq is evaporated to gaseous state and causes fluid passage internal gas pressure to increase.Steam vent also can discharge excessive gas, thus ensures the smooth outflow of liquid.Steam vent can take various forms, and such as, adopt the punctulate screw of tool to be arranged on heating jacket, the pore of screw communicates with fluid passage, and this mode can prevent dust from falling in fluid passage.

As preferably, described heating jacket is provided with the condensing unit (not shown) communicated with described steam vent and described gas is cooled to liquid and makes it flow back in described fluid passage, liquid flow back fluid paths, by steam vent, also separately can establish passage on heating jacket.Condensing unit can prevent fluid passage internal gas pressure too high on the one hand, on the other hand, prevents the frequent fluid infusion because of heat-conducting medium evaporation loss.

Described first liquid pipeline 3 is provided with the first valve 13 in the position of the liquid outlet near described air heat source pump 1, the position of the inlet of the fluid passage near described heating jacket 2 is provided with the second valve 14, described second liquid pipeline 4 is provided with the 3rd valve 15 in the position of the inlet near described air heat source pump 1, the position of the liquid outlet of the fluid passage near described heating jacket 2 is provided with the 4th valve 16, between circulating pump and liquid reserve tank, is provided with the 5th valve 25.Injecting liquid or the process that heats liquid, four valves are all opened, and when the circulation of liquid goes wrong, can close certain as required or multiple or whole valve overhauls.

Above embodiment is only exemplary embodiment of the present utility model, is not used in restriction the utility model, and protection domain of the present utility model is defined by the claims.Those skilled in the art are in essence of the present utility model and protection domain, and the various amendment make the utility model or equivalent replacement also drop in protection domain of the present utility model.

Claims (12)

1. a food waste treatment device, is characterized in that, comprising:

Air heat source pump, described air heat source pump heats liquid and is heat-conducting medium with liquid, and described air heat source pump has the liquid outlet receiving liquid and enter the inlet in it and allow the liquid after heating to flow out;

Heating jacket, described heating jacket has inner housing and shell body, the inner chamber that described inner housing is formed is used for holding changing food waste, exocoel is formed between described inner housing and shell body, the fluid passage that the outer wall around described inner housing spirals is provided with in described exocoel, one end of described fluid passage has inlet, and the other end of described fluid passage has liquid outlet, and described heating jacket is provided with the first temperature sensor stretching into described inner chamber;

Liquid line, the second liquid pipeline of the first liquid pipeline comprising liquid outlet and the inlet of the fluid passage of described heating jacket connecting described air heat source pump and the liquid outlet that is connected the inlet of described air heat source pump and the fluid passage of described heating jacket;

Control device, described control device and described air heat source pump and described first temperature sensor are connected respectively with the temperature sent according to described first temperature sensor and the opening and closing temperature that control device is arranged being controlled to described air heat source pump.

2. food waste treatment device according to claim 1, it is characterized in that, the temperature that described air heat source pump transmits at described first temperature sensor is opened automatically lower than during the first design temperature, and described first design temperature is the arbitrary numerical value in 12 DEG C-80 DEG C.

3. food waste treatment device according to claim 2, is characterized in that, described first design temperature is the arbitrary numerical value in 45 DEG C-70 DEG C.

4. the food waste treatment device according to any one of claim 1-3, it is characterized in that, described inner chamber is provided with air inlet and gas outlet, described food waste treatment device also comprises heat reclaim unit, described heat reclaim unit comprises air guiding tube and is located at the heat exchanger at air inlet place of described air heat source pump, described air guiding tube one end is communicated with the gas outlet of described inner chamber, and the other end is communicated with described heat exchanger and the hot-air in the inner chamber of described heating jacket is guided to the air inlet of described heat exchanger to described air heat source pump heats.

5. the food waste treatment device according to any one of claim 1-3, it is characterized in that, described second liquid pipeline is also provided with liquid reserve tank, described liquid reserve tank is provided with the emergent heating tube for heating the liquid in described liquid reserve tank, described food waste treatment device also comprises the environment temperature sensor for testing environment temperature, and described control device is connected with the temperature transmitted at described environment temperature sensor lower than opening described emergent heating tube during the second temperature set with described emergent heating tube and described environment temperature sensor respectively.

6. food waste treatment device according to claim 5, is characterized in that, described control device opens described emergent heating tube when receiving the fault message of described air heat source pump.

7. food waste treatment device according to claim 5, is characterized in that, described second liquid pipeline is also provided with filter, and described filter bits is between described heating jacket and described liquid reserve tank.

8. food waste treatment device according to claim 5, it is characterized in that, described heating jacket is provided with the safety valve communicated with the fluid passage of described heating jacket, described heating jacket is also provided with the liquid level sensor of liquid level in the described fluid passage of detection, and described control device and described safety valve and liquid level sensor are connected to open described safety valve when described liquid level sensor detects and the liquid level transmitted exceedes the liquid level of setting respectively.

9. food waste treatment device according to claim 5, is characterized in that, described heating jacket is provided with the discharging tube communicated bottom with described fluid passage, and described discharging tube is provided with tapping valve.

10. the food waste treatment device any one of claim 1-3 or according to any one of 6-9, it is characterized in that, described heating jacket is also provided with the steam vent that communicates with described fluid passage to be discharged by the process that heats the gas produced in described fluid passage at liquid.

11. food waste treatment devices according to claim 10, is characterized in that, described heating jacket is provided with the condensing unit communicated with described steam vent and described gas is cooled to liquid and makes it flow back in described fluid passage.

12. food waste treatment devices any one of claim 1-3 or according to any one of 6-9, it is characterized in that, described first liquid pipeline is provided with the first valve in the position of the liquid outlet near described air heat source pump, the position of the inlet of the fluid passage near described heating jacket is provided with the second valve, described second liquid pipeline is provided with the 3rd valve in the position of the inlet near described air heat source pump, the position of the liquid outlet of the fluid passage near described heating jacket is provided with the 4th valve, the 5th valve is provided with between circulating pump and liquid reserve tank.