CN209128396U - Syrup cooling device for beer processing - Google Patents

Abstract

The utility model provides a kind of syrup cooling device for beer processing, it include: cavity, at least partly pipeline, radiating fin and wind-force structure in the cavity and for the syrup that circulates, the at least partly pipeline is arranged in the radiating fin, the radiating fin and the wind-force structure are set in the cavity, heat transfer can occur for at least partly pipeline and the radiating fin, the wind-force structure passes through ventilation opening and extraneous circulation toward or away from the radiating fin, the cavity.Cost is effectively reduced, volume can be also reduced, is readily transported and uses.It can also be convenient for applied to household scene.

Description

Syrup cooling device for beer processing

Technical field

The utility model relates to beer manufacture field more particularly to a kind of syrup cooling devices for beer processing.

Background technique

Beer processing technology is broadly divided into two steps point, the production and cooling of first step syrup, second step fermentation process.Syrup Manufacturing process in there is the procedure to be that the syrup after boiling cooled to rapidly room temperature temperature.

It is industrial generally to be cooled down rapidly using heat exchanger, generally use the heat exchange mode of plate heat exchanger to be cooled down, But the case where this cost of equipment is expensive, will cause higher cost.

Utility model content

The utility model provides a kind of syrup cooling device for beer processing, to solve the problems, such as higher cost.

It is according to the present utility model in a first aspect, provide it is a kind of for beer processing syrup cooling device, cavity, position In at least partly pipeline, radiating fin and wind-force structure in the cavity and for the syrup that circulates, at least partly pipeline It is arranged in the radiating fin, the radiating fin and the wind-force structure are set in the cavity, described at least partly to manage Heat transfer can occur for road and the radiating fin, and for the wind-force structure toward or away from the radiating fin, the cavity is logical Cross ventilation opening and extraneous circulation.

Optionally, the ventilation opening includes the air outlet set on the upside of the cavity, and set on the non-of the cavity The air inlet of upper side position, the radiating fin are located on the downside of the air outlet；

If the wind-force structure be air exhausting structure, the wind-force structure be located at the radiating fin with it is described at least partly The downside of pipeline；If the wind-force structure be exhaust structure, the wind-force structure be located at the radiating fin with it is described at least The upside of section of tubing, and the wind-force structure is located at the downside of the air outlet.

Optionally, the air outlet and/or the air inlet are equipped with cell structure.

Optionally, the cell structure is that at least two gap rules arrange to be formed, and the gap is following one of any Shape: circle, polygon, rectangle.

Optionally, the device further includes shell, and the cavity is disposed in the housing, and the bottom of the shell is set There are syrup intlet and syrup outlet, the syrup intlet is connected to the import of at least partly pipeline, and the syrup outlet connects Pass to the outlet of at least partly pipeline.

Optionally, there is the shell opening being connected to inside and outside the cavity and flip structure, the flip structure to pass through Rotary shaft rotation is connected to the shell, and the flip structure can block when rotating to first position in the opening, described Flip structure can be adapted to be raised when rotating to the second position.

Optionally, the shell is equipped with locking structure, and the shell is in described first by locking structure locking The flip structure of position and/or the second position.

Optionally, the locking structure is at least one of: buckle structure, hasp structure, hasp structure, screw thread knot Structure.

Optionally, the device further includes molasses pump, the molasses pump be used for open time control sugaring slurry it is described extremely It circulates in small part pipeline.

Optionally, the device further includes controller, and the controller connects the molasses pump, to control the sugar The work of stock pump, the controller are also connected with the wind-force structure, to control the work of the wind-force structure.

Optionally, the device further includes temperature sensor, the temperature sensor for detect it is following at least it One: in at least partly pipeline in the pipe temperature and the cavity of the syrup temp of syrup, at least partly pipeline Environment temperature；

The controller includes transmitting line and comparison circuit, the comparison circuit connect the temperature sensor with it is described Transmitting line；

The transmitting line connects the molasses pump, with the control when receiving the trigger signal that the comparison circuit is sent The work of the molasses pump, and/or, the transmitting line connects the wind-force structure, to receive the comparison circuit hair The work of the wind-force structure is controlled when the trigger signal sent；

The comparison circuit includes at least one of:

It is higher or lower than described first for the syrup temp and the first temperature threshold, and in the syrup temp The first comparator of the trigger signal is issued when temperature threshold；

It is higher or lower than described second for the pipe temperature and second temperature threshold value, and in the pipe temperature The second comparator of the trigger signal is issued when temperature threshold；

It is higher or lower than the third for the environment temperature and third temperature threshold, and in the environment temperature The second comparator of the trigger signal is issued when temperature threshold.

Syrup cooling device provided by the utility model for beer processing utilizes the heat dissipation being set in cavity Fin and the wind-force structure, can be conducted to the radiating fin for the heat of at least partly pipeline, in turn, utilize the wind-force Structure can effectively realize the cooling to syrup in pipeline toward or away from the radiating fin, simultaneously as the equipment is without making With bulky and the heat exchange equipment of somewhat expensive, cost is effectively reduced.

Since the utility model is without realizing heat exchange, extraneous refrigerant is provided without the realization for heat exchange, without The equipment such as complicated external water pipe, tracheae, which is arranged, can also reduce volume while cost is reduced, be readily transported and make With.

Simultaneously as volume reduces, it, can also be convenient for applied to household scene in addition to can be applied to industrial scene.

Detailed description of the invention

In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is only It is some embodiments of the utility model, for those of ordinary skill in the art, before not making the creative labor property It puts, is also possible to obtain other drawings based on these drawings.

Fig. 1 is the schematic illustration in an embodiment of the present invention for the syrup cooling device of beer processing；

Fig. 2 is the structural schematic diagram one in an embodiment of the present invention for the syrup cooling device of beer processing；

Fig. 3 is the structural schematic diagram two in an embodiment of the present invention for the syrup cooling device of beer processing；

Fig. 4 is the structural schematic diagram three in an embodiment of the present invention for the syrup cooling device of beer processing；

Fig. 5 is the circuit diagram in an embodiment of the present invention for the syrup cooling device of beer processing.

Description of symbols:

1- cavity；

2- wind-force structure；

3- at least partly pipeline；

4- radiating fin；

5- shell；

6- air outlet；

7- air inlet；

8- flip structure；

9- locking structure；

10- syrup outlet；

11- syrup intlet；

12- circuit interface；

13- molasses pump；

14- comparison circuit；

15- transmitting line；

16- temperature sensor.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.

The specification and claims of the utility model and term " first ", " second ", " third " in above-mentioned attached drawing (if present)s such as " the 4 " are to be used to distinguish similar objects, without being used to describe a particular order or precedence order.It answers The data that the understanding uses in this way are interchangeable under appropriate circumstances, so that the embodiments of the present invention described herein can Implemented with the sequence other than those of illustrating or describing herein.In addition, term " includes " and " having " and they Any deformation, it is intended that cover it is non-exclusive include, for example, containing the process, method of a series of steps or units, being System, product or equipment those of are not necessarily limited to be clearly listed step or unit, but may include be not clearly listed or For the intrinsic other step or units of these process, methods, product or equipment.

The technical solution of the utility model is described in detail with specifically embodiment below.These are specific below Embodiment can be combined with each other, and the same or similar concept or process may be repeated no more in some embodiments.

Fig. 1 is the schematic illustration in an embodiment of the present invention for the syrup cooling device of beer processing.

Referring to FIG. 1, being used for the syrup cooling device of beer processing, comprising: cavity 1 and the interior and use positioned at the cavity 1 In at least partly pipeline 3, radiating fin 4 and wind-force structure 2 of circulation syrup.

The radiating fin 4 is set in the cavity 1 with the wind-force structure 2.In turn, one is formed using cavity 1 It is a to can be used for realizing cooling environment.

In the present embodiment, at least partly pipeline 3 is arranged in the radiating fin 4, at least partly pipeline 3 and institute Heat transfer can be occurred by stating radiating fin 4.In turn, by heat transfer, the heat of the syrup at least partly pipeline 3 can be passed through Contact is dispersed at least partly pipeline 3, conducts by the heat transfer at least partly between pipeline 3 and radiating fin 4 to heat dissipation Fin 4 can be conducive to distributing for the heat of syrup since radiating fin 4 has preferable heat dissipation area and/or heat dissipation shape.

In the present embodiment, the wind-force structure 2 toward or away from the radiating fin 4, the cavity 1 by ventilation opening with External world's circulation.In turn, it can produce the circulation of air by wind-force structure 2, in turn, external air can be drawn by ventilation opening Enter, and inner air drawn, to take away radiating fin 4, and is arranged in the heat of at least partly pipeline 3 of radiating fin, Achieve the purpose that heat distributes.

As it can be seen that using the radiating fin and the wind-force structure that are set in cavity, it can be by least partly pipeline Heat is conducted to the radiating fin, in turn, using the wind-force structure toward or away from the radiating fin, can effectively realize Cooling to syrup in pipeline, simultaneously as the equipment is effectively dropped without using bulky and the heat exchange equipment of somewhat expensive Low cost.

Since the present embodiment is without realizing heat exchange, extraneous refrigerant is provided without the realization for heat exchange, without setting Volume can also be reduced while cost is reduced by setting the equipment such as complicated external water pipe, tracheae, be readily transported and used.

Simultaneously as volume reduces, it, can also be convenient for applied to household scene in addition to can be applied to industrial scene.

Radiating fin 4, it will be appreciated that for the laminated structure that can arbitrarily improve heat dissipation performance by the increase of heat dissipation area.Its In a kind of middle embodiment, radiating fin 4 can be the radiating fin of aluminum, and the size of heat-sinking capability can pass through change The quantity of radiating fin 4, size are realized.In specific implementation process, the size of each radiating fin 4, shape, arrangement density can be with Be it is all identical, be also possible to different, if being different, can be distinguished with the experience or theory analysis of Temperature Distribution, Such as close to the size of vent position it is larger or arrangement density it is higher, it is remoter from ventilation opening, size it is smaller or Density of arranging is lower.

At least partly pipeline 3, it can be understood as the pipeline for the syrup that can circulate is in cavity 1 for realizing heat dissipation Part can connect the inlet and outlet of syrup by connecting pipe etc..It can be annular in shape, such as helical form, can also be in folding Threadiness is also described as snakelike.No matter as it can be seen that the shape of at least partly pipeline 3, all without departing from retouching for the present embodiment It states.

Fig. 2 is the structural schematic diagram one in an embodiment of the present invention for the syrup cooling device of beer processing；Fig. 3 It is the structural schematic diagram two in an embodiment of the present invention for the syrup cooling device of beer processing；Fig. 4 is that this is practical new Structural schematic diagram three in one embodiment of type for the syrup cooling device of beer processing.

Fig. 2, Fig. 3 and Fig. 4 are please referred to, the ventilation opening includes the air outlet 6, Yi Jishe set on the upside of the cavity 1 In the air inlet 7 of the non-upper side position of the cavity 1, the radiating fin 4 is located at 6 downside of air outlet.

If the wind-force structure 2 is air exhausting structure, the wind-force structure 2 be located at the radiating fin 4 with it is described at least The downside of section of tubing 3；If the wind-force structure 2 is exhaust structure, the wind-force structure 2 be located at the radiating fin 4 with The upside of at least partly pipeline 3, and the wind-force structure 2 is located at the downside of the air outlet.

The air exhausting structure and exhaust structure are directed to for the radiating fin 4 and at least partly pipeline 3, right Its outlet air, then it is air exhausting structure, and to its exhausting, then it is exhaust structure.In specific implementation process, wind-force structure 2 can be Fan.

In one of embodiment, the device further includes shell 5, and the cavity 1 may be disposed at the shell 5 It is interior, so, air outlet 6 may be disposed at the top of shell 5, and air inlet 7 may be disposed at the side wall of shell 5.

Meanwhile shell 5 can be formed directly in cavity 1, cavity 1 can also be formed in inner housing (not shown), in turn, inner casing Body is set in shell 5.

In turn, it since gas is lighter, can be drifted to upside, so, air outlet 6 is set to top, gas can be conducive to To external diffusion, and then the performance of heat dissipation can be effectively improved.

In one of embodiment, the air outlet 6 and/or the air inlet 7 are equipped with cell structure.Cell structure can The gap for being interpreted as being capable of forming outlet air can be avoided physical contents disengaging cavity 1 again, and then to cavity 1 and exterior space The structure protected.

In specific implementation process, cell structure can be elongated gap and arrange to be formed, and can also be rounded seam Gap arranges to be formed, and can also be and arranges to be formed in the gap of polygon.The gap is also possible to polynary shape.That is: the described lattice Grid structure is that at least two gap rules arrange to be formed, and the gap is following one of any shape: circle, polygon, rectangle.

In one of embodiment, the bottom of the shell 5 is equipped with syrup intlet 11 and syrup outlet 10, the syrup Import 11 is connected to the import of at least partly pipeline 3, and the syrup outlet 10 is connected to going out for at least partly pipeline 3 Mouthful.

Fig. 2 and Fig. 3 are please referred to, the shell 5 has the opening and flip structure 8 for being connected to 1 inside and outside of chamber, described to turn over Lid structure 8 is connected to the shell 5 by rotary shaft rotation, when rotation of flip structure 8 to first position can block in The opening, when flip structure 8 rotation to the second position, can be adapted to be raised.

Wherein, flip structure 8 is suitable for being raised, and may include that flip structure 8 can have be suitable for being raised to lift portion, should The portion of lifting can match with manpower, such as size, shape are matched with manpower, can also be matched with lifting device, such as automatically Elevating mechanism, it is seen then that the optinal plan of the present embodiment is applicable to be lifted by people, is equally applicable to be lifted by machine.

Opening, may be disposed at shell 5, may also comprise two opening portions for being respectively arranged on inner housing Yu shell 5.In turn, may be used So that the structure that cavity 1 can be connected to outside, can be regarded as being open.

First position, can be arbitrarily to can be achieved the position blocked, and the second position can arbitrarily can be achieved to be raised Position is blocked as long as realizing in first position, and can be realized and be raised in the second position of non-first position, then does not depart from this The description of embodiment embodiment of above.

As it can be seen that by flip structure 8, at the same realize cavity 1 protection and whole device convenient for lifting.

One of embodiment, can be equipped on shell 5 with the matched groove of flip structure 8, in turn, in flip structure 8 When going to first position, flip structure 8 can be inserted into groove.In turn, by the assembly method of grafting, can effective guarantee device one Cause property, the tight type of assembling structure, and space can be saved.

One of embodiment, the shell 5 are equipped with locking structure 9, and the shell 5 is locked by the locking structure 9 Surely the flip structure 8 in the first position and/or the second position.That is: locking structure 9 can be used for locking flip lid The second position of the lockable flip structure 8 relative to shell 5 is gone back in first position of the structure 8 relative to shell 5.

In specific embodiment, the locking structure 8 can be at least one of: buckle structure, hasp structure, hasp Structure, helicitic texture.

It can be seen that the locking structure 8 can be done directly on shell 5 or flip structure 8.

In other optional embodiments, locking structure 8 can directly or indirectly act on rotary shaft, such as may include connecting Connect or be set to the rotation limiting structure of rotary shaft.

In one of embodiment, the device further includes molasses pump, and the molasses pump is used to control when opening Syrup circulates in at least partly pipeline.Wherein, molasses pump can be directly arranged at least partly pipeline 3, may also set up in The pipe section of other connection at least partly pipelines 3.

Molasses pump can be can control for the pump configuration of any realization liquid flowing control by the control of molasses pump start and stop The control whether liquid circulates at least partly pipeline 3.

In specific implementation process, in addition to the control of start and stop, the control of uninterrupted can also be achieved, for example, higher in temperature When, molasses pump can be controlled to slower speed circulation, and to increase the time of cooling heat dissipation, when temperature is lower, molasses pump can It is controlled to faster speed circulation, to reduce the time of cooling heat dissipation.

In addition, can also by molasses pump control syrup circulation, in turn, when temperature is higher, can repeatedly recycle into Row cooling, the number of circulation can be reduced when temperature is lower.

As it can be seen that any mode for being adapted for carrying out cooling control is retouched no matter control means all without departing from the present embodiment The range stated.

Molasses pump can be controlled respectively with wind-force structure 2, such as can be controlled respectively by switch pump and wind switch, Molasses pump can also be controlled together with wind-force structure 2, and in turn, the two can be opened together, can also be closed together.So wherein In a kind of embodiment, molasses pump can be controlled with wind-force structure 2 by the same master switch.

The switch pump, wind switch, master switch may be disposed at shell 5, be suitable for realizing artificial control, meanwhile, those are opened In pass, molasses pump and wind-force structure 2 at least partly, 12 external connection of circuit interface for being set to shell 5 can be passed through.

Further, switch pump may include the first start stop switch, also may include multiple first regulating switches, wind switch can It also may include multiple second regulating switches comprising multiple second start stop switches.

For controlling whether at least partly pipeline 3 circulates syrup, the first regulating switch can be used for controlling first start stop switch The flow of syrup at least partly in pipeline 3；For controlling whether output wind, the second regulating switch can be used for controlling second start stop switch Make the air quantity of exported wind.

It is automatically controlled in addition, device involved in the present embodiment can also be realized by controller.

Fig. 5 is the circuit diagram in an embodiment of the present invention for the syrup cooling device of beer processing.

In one of embodiment, the device further includes controller, and the controller connects the molasses pump 13, to control the work of the molasses pump 13, the controller is also connected with the wind-force structure 2, to control the wind-force structure 2 Work.

In turn, by controller, it can be achieved that the automatic control of molasses pump 13 and wind-force structure 2.

In specific implementation process, automatically controlled to realize, the device may also include temperature sensor 16, described Temperature sensor 16 is for detecting at least one of: the syrup temp of syrup, at least portion in at least partly pipeline The pipe temperature of subtube and the intracorporal environment temperature of the chamber.

Foundation can be provided for the automatic control of controller by temperature sensor 16, it can also be used to the effective anti-of temperature Feedback for example, temperature sensor 16 can connect display, or connects display by controller, and then show institute using display The temperature detected.

In order to detect the syrup temp of syrup at least partly pipeline 3, temperature sensor 16 can be set in pipe, temperature sensing Device 16 can also be set to pipeline, and then detect the temperature of syrup indirectly by pipeline.In order to detect pipe temperature, can also directly set In pipeline, or close to the position of pipeline in cavity 1, and then pass through the indirect temperature for detecting pipeline of the detection of the position temperature Degree.For the temperature in test chamber 1, temperature sensor can be set to the inner wall of shell 5, can also be provided close to the position of pipeline.

In addition, the present embodiment can also test temperature, the temperature of syrup, chamber of the pipeline of multiple positions by multiple sensors Temperature etc. in body 1.

In one of embodiment, referring to FIG. 5, the controller includes transmitting line 15 and comparison circuit 14, institute It states comparison circuit 14 and connects the temperature sensor 16 and the transmitting line 15；

The transmitting line 15 connects the molasses pump 13, in the trigger signal for receiving the transmission of comparison circuit 14 When control the molasses pump 13 start and stop or

The transmitting line 15 connects the wind-force structure 2, in the triggering letter for receiving the transmission of comparison circuit 15 Number when control the start and stop of the wind-force structure 2；

The comparison circuit 14 includes at least one of:

It is higher or lower than described first for the syrup temp and the first temperature threshold, and in the syrup temp The first comparator of the trigger signal is issued when temperature threshold；

It is higher or lower than described second for the pipe temperature and second temperature threshold value, and in the pipe temperature The second comparator of the trigger signal is issued when temperature threshold；

It is higher or lower than the third for the environment temperature and third temperature threshold, and in the environment temperature The second comparator of the trigger signal is issued when temperature threshold.

Embodiment of above has judged automatically whether detected temperature reaches target temperature by comparing circuit, When reaching the corresponding target temperature of temperature threshold, it can stop cooling down or beginning to cool, the control of flow rate of liquid, wind speed can also be passed through Adjust cooling dynamics.

Syrup cooling device provided by the utility model for beer processing utilizes the heat dissipation being set in cavity Fin and the wind-force structure, can be conducted to the radiating fin for the heat of at least partly pipeline, in turn, utilize the wind-force Structure can effectively realize the cooling to syrup in pipeline toward or away from the radiating fin, simultaneously as the equipment is without making With bulky and the heat exchange equipment of somewhat expensive, cost is effectively reduced.

Since the utility model is without realizing heat exchange, extraneous refrigerant is provided without the realization for heat exchange, without The equipment such as complicated external water pipe, tracheae, which is arranged, can also reduce volume while cost is reduced, be readily transported and make With.

Simultaneously as volume reduces, it, can also be convenient for applied to household scene in addition to can be applied to industrial scene.

In the above description, it is to be understood that used term " center ", " length ", " width ", " thickness ", " top End ", " bottom end ", "upper", "lower", "left", "right", "front", "rear", "vertical", "horizontal", "inner", "outside" " axial direction ", " circumferential direction " Equal indicating positions or positional relationship all can be based on the orientation or positional relationship shown in the drawings, and be merely for convenience of describing this reality It is described with novel with simplified, rather than the position of indication or suggestion meaning or original part must have a particular orientation, with specific Construction and operation, therefore should not be understood as limiting the present invention.

In above description unless specifically defined or limited otherwise, term " installation ", " connected ", " connection ", " fixation " etc. It shall be understood in a broad sense, such as may be a fixed connection, may be a detachable connection, or be integrally formed；It can be mechanical connection, It is also possible to be electrically connected or can communicate with each other；It can be directly connected, can also indirectly connected through an intermediary, it can be with Make the connection inside two elements or the interaction relationship of two elements.For the ordinary skill in the art, may be used To understand the concrete meaning of above-mentioned term in the present invention as the case may be.

Finally, it should be noted that the above various embodiments is only to illustrate the technical solution of the utility model, rather than it is limited System；Although the present invention has been described in detail with reference to the aforementioned embodiments, those skilled in the art should Understand: it is still possible to modify the technical solutions described in the foregoing embodiments, or to some or all of Technical characteristic is equivalently replaced；And these are modified or replaceed, it does not separate the essence of the corresponding technical solution, and this is practical new The range of each embodiment technical solution of type.

Claims (10)

1. a kind of syrup cooling device for beer processing characterized by comprising cavity is located in the cavity and uses In at least partly pipeline, radiating fin and the wind-force structure of circulation syrup, at least partly pipeline is arranged in the heat radiating fin Piece, the radiating fin and the wind-force structure are set in the cavity, at least partly pipeline and the radiating fin Heat transfer can occur, the wind-force structure passes through ventilation opening and extraneous stream toward or away from the radiating fin, the cavity It is logical.

2. the apparatus according to claim 1, which is characterized in that the ventilation opening includes going out set on the upside of the cavity Air port, and the air inlet of the non-upper side position set on the cavity, the radiating fin are located on the downside of the air outlet；

If the wind-force structure is air exhausting structure, the wind-force structure is located at the radiating fin and at least partly pipeline Downside；If the wind-force structure be exhaust structure, the wind-force structure be located at the radiating fin with it is described at least partly The upside of pipeline, and the wind-force structure is located at the downside of the air outlet.

3. the apparatus of claim 2, which is characterized in that the air outlet and/or the air inlet are equipped with grid knot Structure.

4. device according to claim 3, which is characterized in that the cell structure is at least two gap rules arrangement shape It is following one of any shape: circle, polygon, rectangle at, the gap.

5. device according to any one of claims 1 to 4, which is characterized in that further include shell, the cavity is set to described In shell, the bottom of the shell is equipped with syrup intlet and syrup outlet, and the syrup intlet, which is connected to, described at least partly manages The import in road, the syrup outlet are connected to the outlet of at least partly pipeline.

6. device according to claim 5, which is characterized in that the shell have the opening that is connected to inside and outside the cavity with Flip structure, the flip structure are connected to the shell by rotary shaft rotation, and the flip structure is rotated to first position When can block in the opening, the flip structure can be adapted to be raised when rotating to the second position.

7. device according to claim 6, which is characterized in that the shell is equipped with locking structure, and the shell passes through institute State the flip structure of the locking structure locking in the first position and/or the second position.

8. device according to claim 7, which is characterized in that the locking structure is at least one of: buckle structure, Hasp structure, hasp structure, helicitic texture.

9. device according to any one of claims 1 to 4, which is characterized in that further include molasses pump, the molasses pump is used for It circulates in at least partly pipeline opening time control sugaring slurry.

10. device according to claim 9, which is characterized in that further include controller, the controller connects the syrup Pump, to control the work of the molasses pump, the controller is also connected with the wind-force structure, to control the work of the wind-force structure Make.