CN209022489U - Oil press - Google Patents
Oil press Download PDFInfo
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- CN209022489U CN209022489U CN201820910041.8U CN201820910041U CN209022489U CN 209022489 U CN209022489 U CN 209022489U CN 201820910041 U CN201820910041 U CN 201820910041U CN 209022489 U CN209022489 U CN 209022489U
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Abstract
This application involves a kind of oil presses, including oil expression portion and feeding portion, the oil expression portion is equipped with feeding inlet, the feeding portion is equipped with feeding port and discharge port, the feeding inlet is located at below the discharge port, for receiving the squeezing material being discharged by the discharge port, conveying portion and heating part are additionally provided between the feeding port and the discharge port, the conveying portion is connected to the feeding port and the discharge port, the conveying portion is located at the bottom of the feeding port, the heating part and the conveying portion are connected, and the heating part is for heating the squeezing material in the conveying portion.Herein described oil press ensure that squeezing material temperature during oil expression is consistent, to obtain effect of preferably extracting oil because in the feeding process to material execution heated in real-time is squeezed.
Description
Technical field
This application involves oil press field more particularly to a kind of oil presses of band heating feeding function.
Background technique
For oil press during oil expression, the squeezing material being squeezed, which needs to have certain temperature, could obtain preferable oil expression
Effect.Current oil press product mostly uses and directly heats squeezing material to oil expression portion during extracting oil or fried in advance to material is squeezed
The mode of system squeezes the temperature of material to be promoted.The mode that material is squeezed for directly heating needs to avoid the excessively high influence oil expression portion of temperature
Service life prevents the too low heating of temperature not in time, to influence fuel-displaced effect again.The mode that material is squeezed for preparatory frying, due to
The speed of oil press oil expression is limited, squeezes material during waiting to be processed in constantly cooling state, effect is extracted oil not in front and back
Unanimously.
Further, it extracts oil for a variety of mixing for squeezing material, the various best oil outlet temperatures for squeezing material are inconsistent, if by various
It squeezes material uniformly to be heated, then can not achieve optimal oil expression effect.If being sent into oil press after separately heating is expected in various squeezinges,
Equally can be longer because of the waiting time, the various temperature squeezed between material neutralize, and influence effect of extracting oil.
Utility model content
The application proposes a kind of oil press, can be realized to material heated in real-time is squeezed, oil expression state keeps steady before and after oil press
Fixed effect.The application includes following technical solution:
A kind of oil press, including oil expression portion and feeding portion, the oil expression portion are equipped with feeding inlet, and the feeding portion is equipped with feeding
Mouth and discharge port, the feeding inlet is located at below the discharge port, described to send for receiving the squeezing material being discharged by the discharge port
Conveying portion and heating part are additionally provided between material mouth and the discharge port, the conveying portion is connected to the feeding port and the discharging
Mouthful, the conveying portion is located at the bottom of the feeding port, and the heating part and the conveying portion are connected, and the heating part is used for pair
Squeezing material in the conveying portion is heated.
Wherein, the conveying portion includes conveying pipeline and rotating vane, and the rotating vane is rotationally connected with the feeding portion
In, the conveying inside pipe wall is matched with the outer diameter of the rotating vane, expects to send from described so that the rotating vane drives to squeeze
Material mouth is sent to the discharge port.
Wherein, the oil press further includes motor and driving section, and the motor drives the rotation by the driving section
Blade is rotated relative to the conveying portion.
Wherein, the oil expression portion further includes press chamber and press chamber, and the motor connects the press chamber, so that the press chamber is opposite
It is rotated in the press chamber to realize oil expression.
Wherein, governor is set on the driving section, the governor is used to adjust the press chamber and the rotating vane
Relative rotation speed.
Wherein, the conveying pipeline is fixedly connected with the rotating vane.
Wherein, the conveying portion is multiple, and multiple conveying portions are arranged side by side in the feeding portion.
Wherein, the feeding port and heating part are also multiple, each corresponding conveying portion of the feeding port, each
Feeding port also corresponds to a heating part.
Wherein, the second governor is equipped between the two neighboring conveying portion, second governor is adjacent for adjusting
Revolving speed between two conveying portions.
Wherein, the feeding port inlet and the feeding inlet inlet are equipped with protective fence, and the protective fence is for preventing
Only manpower or foreign matter enter in the oil press.
Wherein, the protective fence is in the funnel-form to lower recess, expects to can smoothly enter into the feeding port or institute for guiding to squeeze
State feeding inlet.
In herein described oil press, by the heating part in the feeding portion and the conveying portion, sent described
It send after squeezing material heating in material mouth to the discharge port, and by the cooperation between the discharge port and the feeding inlet, will add
Squeezing material after heat is sent into the oil expression portion and extracts oil.Under the cooperation of the heating part and the conveying portion, squeezing can control
Material enters the oil expression portion with uniform speed and consistent temperature and extracts oil, and is conducive to improve oil expression effect, reduce simultaneously
The loss of heat, it is energy saving.
Detailed description of the invention
Fig. 1 is the schematic diagram of herein described oil press;
Fig. 2 is the schematic diagram of another embodiment of herein described oil press;
Fig. 3 a is the schematic diagram of herein described conveying portion;
Fig. 3 b is the schematic diagram of herein described conveying portion;
Fig. 4 is the schematic diagram in herein described oil expression portion;
Fig. 5 is the schematic diagram of another embodiment of herein described feeding portion;
Fig. 6 is the schematic diagram of another embodiment of herein described oil press.
Specific embodiment
Below in conjunction with the attached drawing in the embodiment of the present application, technical solutions in the embodiments of the present application carries out clear, complete
Site preparation description, it is clear that described embodiment is only a part of the embodiment of the application, instead of all the embodiments.Base
Embodiment in the application, those of ordinary skill in the art are obtained all without making creative work
Other embodiments shall fall in the protection scope of this application.
Please refer to oil press 100 shown in FIG. 1.Including oil expression portion 10 and feeding portion 20.Feeding portion 20 will be squeezed to expect to be sent into and be squeezed
Oily portion 10 extracts oil.Oil expression portion 10 is equipped with feeding inlet 11, and feeding portion 20 is equipped with feeding port 21 and discharge port 22.Feeding inlet 11
Positioned at the lower section of discharge port 22, for receiving the squeezing material being discharged by discharge port 22.It is additionally provided with conveying portion 23 in feeding portion 20 and adds
Hot portion 24, wherein for conveying portion 23 between feeding port 21 and discharge port 22, conveying portion 23 is the structure of perforation, conveying portion 23
Positioned at the bottom of feeding port 21, the squeezing material in feeding port 21 can be fallen in conveying portion 23, and be sent by conveying portion 23 to out
Material mouth 22.Heating part 24 is the relationship being fixedly connected with the conveying portion 23, and heating part 24 is for adding conveying portion 23
Heat, and then heat the squeezing material in conveying portion 23.
The application oil press 100 does not heat the squeezing material in feeding port 21 directly, avoids in feeding port 21
It squeezes material and loses temperature because waiting enters oil expression portion 10.The application oil press 100 is carried out using to the squeezing material in conveying portion 23
Heating, and the squeezing material in conveying portion 23 is directly entered squeezing material portion 10 after entering discharge port 22 and carries out squeezing material, may be implemented i.e. hot
The function of squeezing.The delivery rate of conveying portion 23 is matched to the heating temperature of conveying portion 23 by control heating part 24 as a result,
Optimum crushing oil temperature can be preferably maintained at when entering oil expression portion 10 by squeezing material, so that the application oil press 100
Obtain preferably oil expression quality.
It should be understood that heating of the heating part 24 to conveying portion 23, it can be using any general heating in the prior art
Mode, such as infrared heating, Resistant heating, heating agent contact heating (water, oil etc.), carbon fiber contact heating or even bright
Fire such as directly heats at the various heating methods, can be applied to the application oil press 100, realization heating part 24 is to conveying portion
23 heating process.The relationship that is fixedly connected of heating part 24 and conveying portion 23 may be contact or contactless as a result, take
Certainly the heating method in heating part 24 is chosen, and then matches and be preferably fixedly connected with relationship to obtain better heating effect.
On the other hand, the connection in oil expression portion 10 and feeding portion 20, may be a fixed connection, be also possible to rotation connection or
The mode being detachably connected.As long as meeting the top that discharge port 22 is located at feeding inlet 11, squeeze material can from discharge port 22 smoothly into
Enter feeding inlet 11, the technical solution of the application oil press 100 can be realized.In the embodiment in figure 1, oil expression portion 10 and feeding portion
20 are fixedly connected, and oil expression portion 10 is located at the lower section of feeding portion 20.In further embodiments, feeding portion 20 can rotate company
It is connected in oil expression portion 10 (see Fig. 2), wherein hinged point is located at 22 one end of discharge port.As a result, feeding portion 20 can by with squeezing
The rotation angle in oily portion 10 to control the movement speed for squeezing material in conveying portion 23, and then controls and squeezes material in conveying portion 23
Residence time.Cooperate the computer heating control of heating part 24, the heating temperature for squeezing material can be more accurately controlled.
In the embodiment in figure 1, Fig. 1 is not provided with independent discharge port 22, can be regarded as going out in the embodiment of Fig. 1 at this time
Material mouth 22 is integrated in the tail end of conveying portion 23.It squeezes material and feeding inlet 11 is entered by the discharge port 22 of 23 tail end of conveying portion.
A kind of embodiment is shown in Fig. 3 a and Fig. 3 b, and conveying portion 23 includes conveying pipeline 231 and rotating vane 232.Rotating vane
232 need to be rotatablely connected relative to feeding portion 20.That is the needs of rotating vane 232 rotate in feeding portion 20, conveying pipeline 231
Inner wall is matched with the outer diameter of rotating vane 232, is squeezed material and is pushed by the rotation of rotating vane 232 to out in conveying pipeline 231
Material mouth 22, and then extract oil into feeding inlet 11.232 pairs of rotating vane are squeezed the rotary motion expected, thus it is possible to vary squeeze material defeated
State in expects pipe 231 is stirred to material is squeezed, and realizes that material is squeezed in stir-frying, so that the heating for squeezing material is more uniform.
In the embodiment of Fig. 3 a and Fig. 3 b, rotating vane 232 is continuous flight shape, squeezes material in rotating vane
Proceed to discharge port 22 from feeding port 21 in conveying pipeline 231 under 232 promotion.In further embodiments, rotating vane 232
Also it can be set to discrete shape, using the blade shape with notch, or directly stretch out columnar stirring rod, in this way
Setting equally may be implemented to the agitating function for squeezing material, and squeeze movement of the material in conveying pipeline 231 to discharge port 22, then cooperate
Gravity is completed jointly.
It should be understood that one can also be arranged between flight when rotating vane 232 is using continuous flight shape
The shapes such as a little protrusions can allow squeezing to be expected for advanced optimizing rotating vane 232 to the mixing effect for squeezing material in conveying pipeline 231
Heating it is more uniform, it is ensured that squeeze material temperature degree be consistent.
On the other hand, rotating vane 232 is continuous flight shape, squeezes material in conveying pipeline 231 by continuous spiral
Piece is pushed to carry out to feeding port 21, and feeding portion 10 is also possible to lower than oil expression portion 20 at this time, and feeding port 21 is lower than discharge port in other words
22, the whole height of oil press, more compact structure can be compressed in this way.
For conveying pipeline 231, a kind of embodiment, conveying pipeline 231 is fixedly connected with rotating vane 232.That is conveying pipeline 231
It is also rotation connection in feeding portion 20, and the needs of conveying pipeline 231 are rotated together with rotating vane 232.Conveying pipeline 231 rotates
When, outer surface rotates always relative to heating part 24, and such heating effect is more preferable.But the rotation of conveying pipeline 231 needs
Certain Seal Design is carried out between feeding port 21 and discharge port 22, and the rotation of conveying pipeline 231 is avoided to cause feeding port
21 there is gap with the connection of conveying pipeline 231, omit and squeeze material.It should be understood that conveying pipeline 231, which also has, is fixedly connected on feeding
Embodiment in portion 20.I.e. rotating vane 232 is rotated relative to conveying pipeline 231, and conveying pipeline 231 is relative to 21 He of feeding port
Discharge port 22 is to be fixedly connected.Be conducive to the sealed set between conveying pipeline 231 and feeding port 21 and discharge port 22 in this way.
It should be understood that the conveying portion 23 of the application oil press 100 can be not only used for conveying, pivoting leaf can also be passed through
Material returned action is completed in the cooperation of piece 232 and conveying pipeline 231.When oil press 100 completes oil expression work, extra squeezing material needs back
Time receiving by individually rotating rotating vane 232, or rotates rotating vane 232 and conveying pipeline 231 simultaneously, may be implemented to squeeze material
Extra squeezing material is sent back to the position of feeding port 21, while the squeezing material being also blanked in conveying portion 23, is conducive to by feed reversing
New squeezing material operation is carried out next time.
The rotation for driving rotating vane 232 further includes motor 30 and driving section 40 in the application oil press 100.Motor
30 and driving section 40, rotating vane 232 be successively rotatablely connected, motor 30 by driving section 40 drive rotating vane 232 rotate.
In the embodiment in figure 1, driving section 40 is gear.But the application driving section 40 is not limited only to this, and motor 30 can be with
Drive the rotation of rotating vane 232 dynamic by the general kind of drive such as V belt translation, chain conveyer, link transmission, worm and gear
Make.
See Fig. 4, in the oil expression portion 10 of the application oil press 100, is equipped with press chamber 12 and press chamber 13.Wherein press chamber 13 is interior
Chamber is connected to feeding inlet 11, and press chamber 12 is rotated relative to press chamber 13, to push squeezing material to advance in the inner cavity of press chamber 13, and complete
At oil expression.A kind of embodiment, motor 30 are also connected with press chamber 12, i.e. the rotation and squeezing that drive rotating vane 232 simultaneously of motor 30
The rotation of bar 12.Wherein motor 30 drives oil expression of the press chamber 12 when rotating for oil press 100, and motor 30 drives rotating vane
Feeding when 232 rotation for oil press 100.Press chamber 12 is driven with rotating vane 232 by the same driving source, can be made
The revolving speed of the two matches.I.e. the feeding speed of feeding portion 20 is identical as the oil expression speed in oil expression portion 10, squeezes material under the conditions of such
Heating duration in feeding portion 20 be also it is fixed, further matching heating part 24 heating temperature after, can be accurate
Actual temperature of material during oil expression is squeezed in control.Since 100 technical problems to be solved of the application oil press are how to control
The consistency that material temperature degree is squeezed during the entire oil expression of system squeezes the temperature one of material after press chamber 12 and rotating vane 232 rotate synchronously
Cause property is further promoted.
It in the fig. 4 embodiment, is screw oil expeller in herein described oil press 100, press chamber 12 is equipped with spire,
Press chamber 12 will be squeezed material by spire in rotary course and constantly be pushed to the end of press chamber 13, final to realize oil expression movement.By
There is rotation direction in spire, therefore the rotation push of press chamber 12 squeezes material movement as one-directional rotation, can only cooperate the rotation direction of spire
Rotation is just able to achieve oil expression.If press chamber 12 rotates backward, it is impossible to achieve the purpose that push is squeezed and expect and extract oil.It can manage
Solution, the material returned action of press chamber 12 rotated backward to realize oil press 100.
A kind of embodiment, although press chamber 12 is identical as the revolving speed of rotating vane 232, but if the internal diameter and conveying of press chamber 13
The internal diameter of pipe 231 has differences or the lift angle of press chamber 12 and the lift angle of rotating vane 232 have differences, and will cause squeezing material and exists
Feed speed in feeding portion 20 has differences with oil expression speed of the material in oil expression portion 10 is squeezed.In order to match this difference, pass
Governor 41 is also provided in dynamic portion 40.The relative rotation speed of governor 41 adjustable press chamber 12 and rotating vane 232, to protect
The squeezing material feed speed demonstrate,proved in feeding portion 20 is identical as the oil expression speed in oil expression portion 10.
It should be understood that in further embodiments, the driving source of press chamber 12 may not be motor 30.Press chamber 12 can be with
By another motor driven, to mitigate the load of motor 30.And pass through the electricity of the motor of driving press chamber 12 and driving rotating vane 232
The output power of machine 30 is set, and press chamber 12 and the matched effect of 232 revolving speed of rotating vane equally may be implemented.
Embodiment is shown in Fig. 5, and multiple conveying portions 23 are arranged side by side in feeding portion 20.It should be understood that multiple conveying portions 23
It is tightly connected respectively with feeding port 21 and discharge port 22, squeezing material can be sent by multiple conveying portions 23 side by side to feeding inlet 11
It is interior.Multiple conveying portions 23 can extend the feeding speed of conveying portion 23, while relative to same feeding speed only with one
The structure of conveying portion 23, multiple 23 schemes of conveying portion side by side can make conveying portion 23 and the acting surface of heating part 24 bigger,
The heating efficiency for squeezing material is improved, it is energy saving.The scheme of multiple conveying portions 23 needs driving section 40 while driving multiple conveying portions
Rotating vane 232 in 23 rotates, to realize that multiple conveying portions 23 work at the same time.
Further, feeding port 21 is also multiple, the corresponding conveying portion 23 of each feeding port 21, in each feeding port 21
It squeezes material and feeding inlet 11 is all entered by its corresponding conveying portion 23.Heating part 24 is also multiple simultaneously, and each heating part 24 is corresponding
The heating of one conveying portion 23.The heating of feeding port 21 and each conveying portion 23 is separated, it is mixed that a variety of squeezing material may be implemented
Close the function of oil expression.Current oil press will realize this function, carry out the mixing for squeezing material in ingredient mostly, but due to various
It squeezing and expects that respective optimum crushing oil temperature is different, the squeezing material mixed in advance can not respectively reach every kind of optimum crushing oil temperature for squeezing material,
Finally influence into the quality of oil.And separately heat various squeezinges material during feeding, then it can be expected according to various squeezinges respective
Optimum crushing oil temperature control its heating temperature for corresponding to heating part 24, the squeezing material for finally respectively reaching optimum crushing oil temperature exists
Converge in feeding inlet 11, into oil expression portion 10 in realize oil expression.
Further, the second governor 42 is set between two neighboring conveying portion 23, the second governor 42 is adjustable adjacent
Revolving speed between two conveying portions 23.Multiple conveying portions 23 so side by side pass through the adjusting step by step of the second governor 42, phase
There are the difference of revolving speed between mutually, i.e., the feeding speed of each conveying portion 23 occurs different.Such setting is adjustable each
Kind squeezes the proportion between material, has further expanded the oil expression mode of the application oil press 100.
It should be mentioned that feeding inlet 11 is other than receiving the squeezing material that is conveyed by discharge port 22, for not needing partially plus
The squeezing material that heat can directly extract oil can also be directly sent into oil expression portion 10 from feeding inlet 11 and extract oil.A kind of embodiment is shown in
Fig. 6, since feeding and oil expression movement all have rotary motion transmission and squeeze the process expected, and there are the danger of high temperature.In order to prevent
Manpower, which enters in oil press 100, causes unexpected injury or foreign matter to enter influence oil expression quality in oil press 100, in feeding port 21
Inlet and feeding inlet 11 inlet, be equipped with protective fence 50.It the gap of protective fence 50 can be by squeezing material, simultaneously
It can prevent manpower or foreign matter from entering in oil press 100, guarantee the security protection of oil press 100 during the work time.Further,
In order to avoid squeezing material and, because being overflowed outward by protective fence 50 not in time, protective fence 50 being set in the contact process of protective fence 50
It is set to the funnel-form to lower recess, funnelform protective fence 50 can store the squeezing material that part passes through not in time, while guide squeezing
Material can smoothly enter into feeding port 21 or feeding inlet 11.
Embodiments described above does not constitute the restriction to the technical solution protection scope.It is any in above-mentioned implementation
Made modifications, equivalent substitutions and improvements etc., should be included in the protection model of the technical solution within the spirit and principle of mode
Within enclosing.
Claims (10)
1. a kind of oil press, which is characterized in that including oil expression portion and feeding portion, the oil expression portion is equipped with feeding inlet, the feeding
Portion is equipped with feeding port and discharge port, the feeding inlet is located at below the discharge port, is discharged for receiving by the discharge port
Material is squeezed, conveying portion and heating part are additionally provided between the feeding port and the discharge port, the conveying portion is connected to the feeding port
With the discharge port, the conveying portion is located at the bottom of the feeding port, and the heating part and the conveying portion are connected, described to add
Hot portion is for heating the squeezing material in the conveying portion.
2. oil press as described in claim 1, which is characterized in that the conveying portion includes conveying pipeline and rotating vane, the rotation
Rotating vane piece is rotationally connected in the feeding portion, and the conveying inside pipe wall is matched with the outer diameter of the rotating vane, so that institute
It states rotating vane and drives to squeeze and expect to be sent to the discharge port from the feeding port.
3. oil press as claimed in claim 2, which is characterized in that the oil press further includes motor and driving section, the motor
The rotating vane is driven to rotate relative to the conveying portion by the driving section.
4. oil press as claimed in claim 3, which is characterized in that the oil expression portion further includes press chamber and press chamber, and the motor connects
The press chamber is connect, so that the press chamber is rotated relative to the press chamber to realize oil expression.
5. oil press as claimed in claim 4, which is characterized in that set the first governor, first speed regulation on the driving section
Device is used to adjust the relative rotation speed of the press chamber Yu the rotating vane.
6. the oil press as described in any one of claim 2~5, which is characterized in that the conveying pipeline is fixed with the rotating vane
Connection.
7. the oil press as described in any one of Claims 1 to 5, which is characterized in that the conveying portion is multiple, multiple conveyings
Portion is arranged side by side in the feeding portion.
8. oil press as claimed in claim 7, which is characterized in that the feeding port and heating part be also it is multiple, it is each described to send
Material mouth corresponds to a conveying portion, and each feeding port also corresponds to a heating part.
9. oil press as claimed in claim 8, which is characterized in that the second governor is equipped between the two neighboring conveying portion,
Second governor is used to adjust the revolving speed between the two neighboring conveying portion.
10. the oil press as described in any one of Claims 1 to 5, which is characterized in that the feeding port inlet and the feeding inlet
Inlet is equipped with protective fence, and the protective fence is for preventing manpower or foreign matter from entering in the oil press.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201820910041.8U CN209022489U (en) | 2018-06-12 | 2018-06-12 | Oil press |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201820910041.8U CN209022489U (en) | 2018-06-12 | 2018-06-12 | Oil press |
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CN209022489U true CN209022489U (en) | 2019-06-25 |
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CN201820910041.8U Active CN209022489U (en) | 2018-06-12 | 2018-06-12 | Oil press |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108556398A (en) * | 2018-06-12 | 2018-09-21 | 深圳美香创新电器有限公司 | Oil press |
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2018
- 2018-06-12 CN CN201820910041.8U patent/CN209022489U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108556398A (en) * | 2018-06-12 | 2018-09-21 | 深圳美香创新电器有限公司 | Oil press |
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