CN203559038U - Energy-saving brewer equipment - Google Patents
Energy-saving brewer equipment Download PDFInfo
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- CN203559038U CN203559038U CN201320591099.8U CN201320591099U CN203559038U CN 203559038 U CN203559038 U CN 203559038U CN 201320591099 U CN201320591099 U CN 201320591099U CN 203559038 U CN203559038 U CN 203559038U
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- storage tank
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- heat exchanger
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Abstract
The utility model discloses energy-saving brewer equipment which comprises at least one mash kettle, and at least one boiler positioned at the downstream of the mash kettle in the process. The equipment also comprises a heat energy recovery device, wherein the heat energy recovery device comprises a heat exchanger and an energy storage tank, wherein the heat exchanger is used for heating water which enters the heat exchanger by utilizing steam from the boilers; the energy storage tank is connected with the heat exchanger and has a thermal insulation function; water is stored in the energy storage tank; the water continuously circulates to enter the heat exchanger to be heated and returned in the beer brewing process; the water heated in the energy storage tank enters an outer wall jacket of the mash kettle through continuous circulation and returns, so that the mash kettle is heated. According to the energy-saving brewer equipment, the heat energy recovery energy is fully utilized, steam consumption is reduced, the service frequency and consumption of CIP are reduced, the use amount of enzyme preparations is reduced, and the service life of equipment is prolonged.
Description
Technical field
The utility model relates to a kind of Brewage energy-efficient equipment.
Background technology
Brew-house's brewing room belongs to hot-zone, is to consume steam rich and influential family, account for 1/2nd of total brew-house consumption vapour, and the major equipment of brewing room consumption steam is brew kettle and boiling pot.
Now the heating medium of brew kettle all adopts raw steam, and the problem of bringing is that the large and heating jacket of steam consumption easily produces water hammer, easy to leak after chuck life-time service.
Utility model content
The purpose of this utility model is, a kind of Brewage energy-efficient equipment is provided, and reduces the consumption of raw steam and reduces chuck seepage.
The utility model provides a kind of Brewage energy-efficient equipment, comprises at least one boiling pot that is positioned at brew kettle downstream at least one brew kettle, technique, also comprises heat-energy recovering apparatus, and heat-energy recovering apparatus comprises:
Heat exchanger, utilizes the steam heating from boiling pot to enter the water in heat exchanger;
Energy storage tank, is connected with heat exchanger, has heat insulation function, in energy storage tank, stores water, and in Brewage process, the continuous circulation of water enters heat exchanger heats and returns;
The outer wall chuck that in energy storage tank, warmed-up water can enter brew kettle by continuous circulation returns again, to brew kettle is heated.
Further, also comprise hot water generating machine, in order to the outer wall chuck of the hot water of generation constantly cyclically being sent into brew kettle in the production starting stage, brew kettle is heated.
Further, hot water generating machine comprises thermal source and plate-type heat exchanger, and thermal source, in order to provide heat to plate-type heat exchanger, is provided with switch between thermal source and plate-type heat exchanger, in order to switch on or off both connections.
Further, water after heat exchanger heats, in the process through energy storage tank with energy storage tank in water make to enter after part thermal exchange the outer wall chuck of brew kettle, then return and enter energy storage tank, Returning heat-exchanger after in energy storage tank.
Preferably, the water outlet of heat exchanger by upper hose through the water-in that is communicated to described plate-type heat exchanger behind the top in described energy storage tank, the water outlet of described plate-type heat exchanger is communicated with the water inlet of the outer wall chuck of described brew kettle by upper hose, the water inlet of described heat exchanger by outfall sewer through the water outlet that is communicated with the outer wall chuck of described brew kettle behind the bottom in described energy storage tank;
Upper hose is positioned in the part of described energy storage tank several holes is set, and is connected in energy storage tank, makes water after heat exchanger heats be mixed and make part thermal exchange with water convection current in energy storage tank by described hole;
Outfall sewer is positioned in the part of described energy storage tank several holes is set, and is connected in energy storage tank, Returning heat-exchanger after making the water that returns from outer wall chuck and water energy storage tank mixing.
Further, on upper hose or outfall sewer, be provided with pump.
Preferably, heat exchanger is tubular heat exchange.
Preferably, boiling pot comprises vapor recovery pipeline, in order to collect the steam from boiling pot, the intracavity inter-connection of the housing of vapor recovery pipeline and tubular heat exchange.
By such structure, adopt energy recovery, the heat energy of the secondary steam that boiling pot is produced becomes high-temperature-hot-water (98 ℃) with hot water heat exchange and is stored in energy storage tank.
High-temperature-hot-water heat energy storage when brew kettle need to heat is delivered to brew kettle, uses high-temperature-hot-water to heat brew kettle.
Produce the starting stage, refer to while there is no high-temperature-hot-water deposit in energy storage tank when producing beginning, can adopt raw steam to heat low-temperature water heating (75 ℃) by plate-type heat exchanger and make it to become high-temperature-hot-water, then heat brew kettle with this high-temperature-hot-water.
The beneficial effects of the utility model:
Energy-conservation: to make full use of the energy of energy recovery, solve the problem that total evaporation is greater than amount usable, maintain thermal energy balance.Reduce the consumption of raw steam.
Consumption reduction: high-temperature-hot-water Heating temperature is than raw steam low (give birth to steam be generally 130 ℃), more gentle, can not make pot wall side temperature difference too large, had not only reduced frequency but also unlikely saccharifying enzyme inactivation when moment, high temperature contacted of fouling.Reduce frequency of utilization and the consumption of CIP (Clean In Place situ cleaning), reduce the usage quantity of zymin.
The extension device life-span: because heating jacket material is high-temperature water rather than steam, therefore reduced the impact of water hammer to chuck, extend the work-ing life of chuck.
Accompanying drawing explanation
Fig. 1 is the schema of the Brewage energy-efficient equipment of a preferred embodiment of the present utility model.
Embodiment
Below in conjunction with accompanying drawing, introduce the utility model.As shown in Figure 1, preferred embodiment of the utility model provides a kind of Brewage energy-efficient equipment, comprises two boiling pots 1 that are positioned at brew kettle 4 downstreams in a brew kettle 4, technique, also comprises a set of heat-energy recovering apparatus, and this heat-energy recovering apparatus comprises:
Heat exchanger 2, utilizes the steam heating from boiling pot 1 to enter the water in heat exchanger 2;
Energy storage tank 3, is connected with heat exchanger 2, has heat insulation function, in energy storage tank 3, stores water, and in Brewage process, the continuous circulation of water enters heat exchanger 2 heating and returns;
The outer wall chuck 6 that in energy storage tank 3, warmed-up water can enter brew kettle 4 by continuous circulation returns again, to brew kettle 4 heating.
Also comprise hot water generating machine 5, in order to the hot water of generation is constantly cyclically sent in the production starting stage to 6 pairs of brew kettles of outer wall chuck, 4 heating of brew kettle 4.
Wherein, hot water generating machine 5 comprises thermal source 51 and plate-type heat exchanger 52, and thermal source 51, in order to provide heat to plate-type heat exchanger 52, is provided with switch between thermal source 51 and plate-type heat exchanger 52, in order to switch on or off both connections.
Further, water after heat exchanger 2 heating, in the process through energy storage tank 3 with energy storage tank 3 in water make to enter after part thermal exchange the outer wall chuck 6 of brew kettle 4, then return and enter energy storage tank 3, Returning heat-exchanger after energy storage tank 3 is interior.
The water outlet of heat exchanger 2 by upper hose 8 through the water-in that is communicated to above-mentioned plate-type heat exchanger 52 behind the top in described energy storage tank 3, the water outlet of plate-type heat exchanger 52 is communicated with the water inlet of the outer wall chuck 6 of brew kettles 4 by upper hose 8, the water inlet of heat exchanger 2 by outfall sewer 9 through the water outlet that is communicated with the outer wall chuck 6 of brew kettle 4 behind the bottom in energy storage tank 3;
Upper hose 8 is positioned in the part of energy storage tank 3 several holes is set, and is connected in energy storage tank 3, makes water after heat exchanger 2 heating be mixed and make part thermal exchange with water convection current in energy storage tank 3 by hole;
Outfall sewer 9 is positioned in the part of described energy storage tank 3 several holes is set, and is connected in energy storage tank 3, Returning heat-exchanger 2 after making the water that returns from outer wall chuck 6 and water energy storage tank 3 mixing.
On upper hose 8 or outfall sewer 9, can be respectively arranged with pump b1 and b2.
In the present embodiment, heat exchanger 2 can be tubular heat exchange 2.
Boiling pot 1 comprises vapor recovery pipeline 7, in order to collect the steam from boiling pot 1, the intracavity inter-connection of the housing of vapor recovery pipeline 7 and tubular heat exchange 2.
Below describe the embodiment of the present embodiment in detail.
The first embodiment of the present embodiment: as shown in Figure 1, in Wort boiling process, the secondary steam that boiling pot 1 produces, is supplied to tubular heat exchange 2 after collecting by vapor recovery pipeline 7.On tubular heat exchange 2, be provided with steam-in and outlet, and condensation-water drain.The upper hose being communicated with brew kettle 8 on energy storage tank 3 right sides and the valve closes on outfall sewer 9 will be positioned at.The water prestoring in energy storage tank 3, flows out from the outfall sewer 9 of energy storage tank 3 bottoms by pump b2, and constantly circulated and sent in tubular heat exchange 2, the water after steam heating, process upper hose 8 flow back into again the top of energy storage tank.So move in circles, steam heat energy is converted to the high-temperature-hot-water of 98 ℃, be stored in energy storage tank 3.
Because upper hose 8 is positioned in the part of energy storage tank 3, several holes are set, are connected with energy storage tank 3 inside; Outfall sewer 9 is positioned in the part of described energy storage tank 3 several holes is set, be connected with energy storage tank 3 inside, so when water passes in and out energy storage tank 3 from a plurality of holes, can not form and impact and turbulent flow, make in energy storage tank 3, the high-temperature-hot-water on top and the low-temperature water heating of bottom can not occur to stir and mix, and can keep for a long time hot cold stratification state.
Energy storage tank 3 is provided with thermal insulation layer, when brew kettle 4 need to heat, in the outer wall chuck 6 that the high-temperature-hot-water on conveying capacity hold-up vessel 3 tops is delivered to brew kettle 4 by upper hose 8 by pump b1, brew kettle 4 is heated, the low-temperature water heating that converts 75 ℃ of left and right after heating to is back to the bottom of energy storage tank 3, so move in circles, can complete the heating to brew kettle 4.
Generally, the time that boiling pot 1 boils is approximately 2 hours, and it is approximately 0.5 hour that brew kettle 4 needs the time of heating.Because boiling process is positioned at the downstream of Mashing process, therefore both generally can not be synchronous on the time, but likely synchronous when brew-house's quantity-produced.
When producing the starting stage, while there is no high-temperature-hot-water deposit in energy storage tank 3, and brew kettle 4 be when need to heat, can adopt the raw steam 51 of opening as thermal source to heat low-temperature water heatings (75 ℃) by plate-type heat exchanger 52 and make it to become high-temperature-hot-water, then heat brew kettle 4 with this high-temperature-hot-water.Now, energy storage tank 3, pump b1, plate-type heat exchanger 52, brew kettle 4, energy storage tank 3 form a closed endless chain.
The second embodiment of the present embodiment, equally with reference to Fig. 1.If when boiling pot 1 boils, brew kettle 4 needs heating just.By the upper hose 8 being communicated with brew kettle 4 on energy storage tank 3 right sides and the valve opening on outfall sewer 9.The water prestoring in energy storage tank 3, flows out from the outfall sewer 9 of energy storage tank 3 bottoms by pump b2, and constantly circulated and sent in tubular heat exchange 2, the water after steam heating, process upper hose 8 flow back into again the top of energy storage tank 3.Because upper hose 8 is positioned in the part of energy storage tank 3, several holes are set, with in energy storage tank 3, be connected, water after over-heat-exchanger 2 heating mixes with water convection current in energy storage tank 3 by hole after making part thermal exchange sends into plate-type heat exchanger 52 through pump b1, then enters the bottom that turns back to energy storage tank 3 after the outer wall chuck 6 of brew kettle 4.Because outfall sewer 9 is positioned in the part of described energy storage tank 3, several holes are set, and are connected in energy storage tank 3, Returning heat-exchanger 2 after making the water that returns from outer wall chuck 6 and water energy storage tank 3 mixing.So circulate repeatedly, until brew kettle 4 has heated.Then close the valve being communicated with between energy storage tank 3 and brew kettle 4.Now change back to the first embodiment, tubular heat exchange 2, energy storage tank 3, pump b2, tubular heat exchange 2 form a closed endless chain.
When producing the starting stage, while there is no high-temperature-hot-water deposit in energy storage tank 3, can adopt equally the raw steam 51 of opening as thermal source to make it to become high-temperature-hot-water by plate-type heat exchanger 52 heating low-temperature water heatings (75 ℃), then heat brew kettle 4 with this high-temperature-hot-water.
More than enumerated preferred embodiment of the present utility model, but the utility model is not limited to this, those skilled in the art can be according to the functionally similar equipment of actual selection, such as hot water generating machine 5, also can adopt other heating or heat-exchange equipment, as long as can heat the water in upper hose.Allly take identical technique means or implement as the interest field that following claim was contained, all do not depart from category of the present utility model but applicant's interest field.
Claims (8)
1. a Brewage energy-efficient equipment, comprises at least one boiling pot that is positioned at described brew kettle downstream at least one brew kettle, technique, it is characterized in that, also comprise heat-energy recovering apparatus, described heat-energy recovering apparatus comprises:
Heat exchanger, utilizes the steam heating from described boiling pot to enter the water in described heat exchanger;
Energy storage tank, is connected with described heat exchanger, has heat insulation function, in described energy storage tank, stores water, and in Brewage process, the continuous circulation of described water enters described heat exchanger heats and returns;
The outer wall chuck that in described energy storage tank, warmed-up water can enter described brew kettle by continuous circulation returns again, to described brew kettle heating.
2. Brewage energy-efficient equipment as claimed in claim 1, is characterized in that, also comprises hot water generating machine, in order to the outer wall chuck of the hot water of generation constantly cyclically being sent into described brew kettle in the production starting stage, brew kettle is heated.
3. Brewage energy-efficient equipment as claimed in claim 2, it is characterized in that, described hot water generating machine comprises thermal source and plate-type heat exchanger, described thermal source is in order to provide heat to described plate-type heat exchanger, between described thermal source and described plate-type heat exchanger, be provided with switch, in order to switch on or off both connections.
4. the Brewage energy-efficient equipment as described in claim 1 or 2 or 3, it is characterized in that, water after described heat exchanger heats, in the process through described energy storage tank with described energy storage tank in water make to enter after part thermal exchange the outer wall chuck of described brew kettle, then return and enter described energy storage tank, after in energy storage tank, return to described heat exchanger.
5. Brewage energy-efficient equipment as claimed in claim 4, it is characterized in that, the water outlet of described heat exchanger by upper hose through the water-in that is communicated to described plate-type heat exchanger behind the top in described energy storage tank, the water outlet of described plate-type heat exchanger is communicated with the water inlet of the outer wall chuck of described brew kettle by upper hose, the water inlet of described heat exchanger by outfall sewer through the water outlet that is communicated with the outer wall chuck of described brew kettle behind the bottom in described energy storage tank;
Described upper hose is positioned in the part of described energy storage tank several holes is set, and is connected in described energy storage tank, makes water after heat exchanger heats be mixed and make part thermal exchange with water convection current in described energy storage tank by described hole;
Described outfall sewer is positioned in the part of described energy storage tank several holes is set, and is connected in described energy storage tank, after making the water that returns from described outer wall chuck and water described energy storage tank mixing, returns to described heat exchanger.
6. Brewage energy-efficient equipment as claimed in claim 5, is characterized in that, on described upper hose or outfall sewer, is provided with pump.
7. Brewage energy-efficient equipment as claimed in claim 6, is characterized in that, described heat exchanger is tubular heat exchange.
8. Brewage energy-efficient equipment as claimed in claim 7, is characterized in that, described boiling pot comprises vapor recovery pipeline, in order to collect the steam from described boiling pot, the intracavity inter-connection of the housing of described vapor recovery pipeline and described tubular heat exchange.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201320591099.8U CN203559038U (en) | 2013-09-24 | 2013-09-24 | Energy-saving brewer equipment |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201320591099.8U CN203559038U (en) | 2013-09-24 | 2013-09-24 | Energy-saving brewer equipment |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN203559038U true CN203559038U (en) | 2014-04-23 |
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| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201320591099.8U Expired - Fee Related CN203559038U (en) | 2013-09-24 | 2013-09-24 | Energy-saving brewer equipment |
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| Country | Link |
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| CN (1) | CN203559038U (en) |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN104450351A (en) * | 2013-09-24 | 2015-03-25 | 宁波乐惠食品设备制造有限公司 | Energy-saving device for making beer |
-
2013
- 2013-09-24 CN CN201320591099.8U patent/CN203559038U/en not_active Expired - Fee Related
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN104450351A (en) * | 2013-09-24 | 2015-03-25 | 宁波乐惠食品设备制造有限公司 | Energy-saving device for making beer |
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Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| C56 | Change in the name or address of the patentee | ||
| CP01 | Change in the name or title of a patent holder |
Address after: Zhou Xiangshan County town of 315722 Zhejiang city of Ningbo Province as the West Electrical Industrial Park Patentee after: NINGBO LEHUI INTERNATIONAL ENGINEERING EQUIPMENT CO., LTD Address before: Zhou Xiangshan County town of 315722 Zhejiang city of Ningbo Province as the West Electrical Industrial Park Patentee before: Lehui Food Equipment Manufacutre Co., Ltd., Ningbo |
|
| CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20140423 Termination date: 20200924 |
|
| CF01 | Termination of patent right due to non-payment of annual fee |