CN206334852U - Vacuum pressure conveying formula sieves feeding station - Google Patents
Vacuum pressure conveying formula sieves feeding station Download PDFInfo
- Publication number
- CN206334852U CN206334852U CN201621324819.4U CN201621324819U CN206334852U CN 206334852 U CN206334852 U CN 206334852U CN 201621324819 U CN201621324819 U CN 201621324819U CN 206334852 U CN206334852 U CN 206334852U
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- feeding station
- screening
- vacuum pressure
- screening container
- accelerating chamber
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Abstract
The utility model provides a kind of vacuum pressure conveying formula and sieves feeding station, including feeding station support, the feeding station cavity for being installed on feeding station support, shock-absorbing spring, the screening container below feeding station cavity, the vibrator being installed in screening container and the screen cloth being installed in screening container.Material flow export is connected by the first flexible pipe with the material inlet of screening container, and screening container is supported at feeding station support by shock-absorbing spring.Wherein, vacuum pressure conveying formula screening feeding station of the present utility model also includes the accelerating chamber being located at below screening container correspondence and the negative pressure pump connected with accelerating chamber, the material outlet of screening container is connected by the second flexible pipe with accelerating chamber, and accelerating chamber is connected by suction line with feeding station cavity.Vacuum pressure conveying formula screening feeding station of the present utility model can reduce height and make material input open height suitable, the dust collection and recovery produced during feeding intake can just be used without configuring special dust seperator, save the energy and reduce waste.
Description
Technical field
The utility model is related to screening field, more particularly to a kind of used vacuum pressure conveying formula screening of food powder screening
Feeding station.
Background technology
As economic continues to develop and scientific and technical continuous progress, the booming offer for production manufacturing is strong
Strong technology and supporting substances, so as to accelerate the developing steps for manufacturing industry.
Wherein, in food service industry, it is often applied to screening plant and the powder in food is sieved, by different
The Powder screen of grain size branch away and the need for meeting food, therefore so that screening plant is favored by food manufacturer.
It is well known that applied to the screening plant in air-transport system before screening, it is necessary to which workman throws granular material
It is put at the feeding station in air-transport system, then the granular material in feeding station is delivered to screening by air-transport system and sets
Sieved for interior, and the granular material after sieving is transported at corresponding equipment in the presence of air-transport system and held again
The corresponding operation of row, realizes the purpose of automated job.
But, the deduster that existing screening feeding station is required for configuration special could absorb the dust produced when feeding intake,
And the height of existing screening feeding station is higher, and workman need to be transported to granular material higher position when feeding intake, relatively elaborate,
Production efficiency is not only reduced, and also add the maintenance cost of equipment investment and post facility.
Therefore, it is badly in need of wanting a kind of vacuum pressure conveying formula screening feeding station to overcome above-mentioned defect.
Utility model content
The purpose of this utility model is to provide a kind of vacuum pressure conveying formula screening feeding station, can reduce height and make to feed intake
Entrance height is suitable, the dust collection and recovery produced during feeding intake can just be used without configuring special dust seperator, saves
Save the energy and reduce and waste, and compact conformation.
To achieve the above object, a kind of vacuum pressure conveying formula screening feeding station of the utility model offer, including feeding station support,
It is installed on the feeding station cavity at the feeding station support, shock-absorbing spring, the screening below feeding station cavity correspondence
Container, the vibrator being installed in the screening container and the screen cloth being installed in the screening container.The feeding station cavity
With material input port and material flow export, the material flow export passes through the first flexible pipe and the material inlet of the screening container
Connection, the screening container is supported at the feeding station support by the shock-absorbing spring.Wherein, negative pressure of the present utility model
Suction and conveying formula screening feeding station also includes accelerating chamber and the negative pressure pump connected with the accelerating chamber, the material outlet of the screening container
Connected by the second flexible pipe with the accelerating chamber, the accelerating chamber is connected by suction line with the feeding station cavity.
It is preferred that the material inlet is formed at the top end of the screening container, the material outlet is formed at described
The bottom end of screening container.
It is preferred that the top of the accelerating chamber and second soft pipe connection, the side wall difference of the bottom of the accelerating chamber
Connected with the suction line and negative pressure pump.
It is preferred that the sidewall horizontal of the bottom of the accelerating chamber extend two in heteropleural arrange adapters, an institute
State adapter to connect with the suction line, another described adapter is connected with the negative pressure pump.
It is preferred that the shock-absorbing spring is four groups and is respectively arranged at the surrounding of the screening container.
It is preferred that the tapered structure of screening container.
It is preferred that above-below direction arrangement of the suction line along the feeding station support.
Compared with prior art, because vacuum pressure conveying formula of the present utility model screening feeding station also includes accelerating chamber and with adding
The negative pressure pump of fast room connection, the material outlet of screening container is connected by the second flexible pipe with accelerating chamber, and accelerating chamber passes through suction line
Connected with feeding station cavity, therefore the dust produced during feeding intake is inhaled into pipe in the presence of negative pressure pump and siphoned away, without
Configuration special dust seperator can just use the dust collection and recovery produced during feeding intake, save the energy and reduce waste;
Again because screening container is located at feeding station cavity correspondence lower section and accelerating chamber is located at screening container correspondence lower section, on the one hand cause this
The vacuum pressure conveying formula of utility model sieves the compact conformation of feeding station, on the other hand reduces vacuum pressure conveying formula of the present utility model
Sieve the height of feeding station so that the input that feeds intake open height is suitable and is easy to the dosing operation of workman.
Brief description of the drawings
Fig. 1 is the side view that vacuum pressure conveying formula of the present utility model sieves feeding station.
Fig. 2 is front view of the vacuum pressure conveying formula screening feeding station after suction line is hidden shown in Fig. 1.
Embodiment
In order to describe technology contents of the present utility model, construction feature in detail, below in conjunction with embodiment and coordinate accompanying drawing
It is described further.
Fig. 1 and Fig. 2 is referred to, vacuum pressure conveying formula screening feeding station 100 of the present utility model includes feeding station support 10, subtracted
Shake spring (not shown), be installed at feeding station support 10 feeding station cavity 20, positioned at feeding station cavity 20 correspondence lower section
Screening container 30, be installed in screening container 30 vibrator (not shown), be installed in screening container 30 screen cloth 40,
Accelerating chamber 60 below the correspondence of screening container 30 and the negative pressure pump (not shown) connected with accelerating chamber 60.Specifically, exist
In the present embodiment, feeding station support 10 is closed-in construction, and feeding station cavity 20 is also placed through in closed-in construction, further to drop
Low vacuum pressure conveying formula of the present utility model sieves the height of feeding station 100, but is not limited.
Feeding station cavity 20 has material input port (not shown) and material flow export 21, and material flow export 21 passes through the
One flexible pipe 50 is connected with the material inlet 31 of screening container 30, to ensure to pass through material by the material that material flow export 21 is flowed out
Import 31 is flow in screening container 30.Screening container 30 is supported at feeding station support 10 by shock-absorbing spring so that vibrator
The purpose for reliably driving screening container 30 to sieve material;For example, in the present embodiment, screening container 30 is in cone
Shape structure is in order to the flowing of material;And shock-absorbing spring is four groups and is respectively arranged at the surrounding of screening container 30, to ensure
Screening container 30 does more steady reliable screening motion under the driving of vibrator, certainly, in other embodiments, shock-absorbing spring
It can also be two groups, three groups or five groups, therefore not illustrated and be limited with this.
Meanwhile, the material outlet 32 of screening container 30 is connected by the second flexible pipe 70 with accelerating chamber 60, to ensure by material
The material that outlet 32 is flowed out reliably is flow in accelerating chamber 60.Accelerating chamber 60 is connected by suction line 80 with feeding station cavity 20
It is logical, siphoned away with the dust produced during being fed intake by suction line 80 in the presence of negative pressure pump, hence in so that this practicality is new
The vacuum pressure conveying formula of type sieves the more compact structure of feeding station 100.For example, in the present embodiment, material inlet 31 is formed
In the top end of screening container 30, material outlet 32 is formed at the bottom end of screening container 30, to be effectively reduced screening container
30 height, but be not limited.More specifically, as follows:
As shown in Figures 1 and 2, the top of accelerating chamber 60 is connected with the second flexible pipe 70, the side wall point of the bottom of accelerating chamber 60
Do not connected with suction line 80 and negative pressure pump;Specifically, in the present embodiment, extend to the sidewall horizontal of the bottom of accelerating chamber 60
Two adapters 61 in heteropleural arrangement a, adapter 61 is connected with suction line 80, and another adapter 61 is connected with negative pressure pump, and compared with
It is excellent, above-below direction arrangement of the suction line 80 along feeding station support 10 so that vacuum pressure conveying formula screening of the present utility model is thrown
The more compact structure at material station 100, but be not limited.
Compared with prior art, because vacuum pressure conveying formula of the present utility model screening feeding station 100 also includes accelerating chamber 60
And the negative pressure pump connected with accelerating chamber 60, the material outlet 31 of screening container 30 connected by the second flexible pipe 70 with accelerating chamber 60,
Accelerating chamber 60 is connected by suction line 80 with feeding station cavity 20, therefore the dust produced during feeding intake is in the effect of negative pressure pump
Under be inhaled into pipe 80 and siphoned away, the dust collection and recovery produced during feeding intake can just be made without configuring special dust seperator
With the saving energy and reduction are wasted;Again because screening container 30 is located at the correspondence of feeding station cavity 20 lower section and accelerating chamber 60 is located at
The correspondence of screening container 30 lower section, on the one hand make it that vacuum pressure conveying formula of the present utility model sieves the compact conformation of feeding station 100, separately
On the one hand the height that vacuum pressure conveying formula of the present utility model sieves feeding station 100 is reduced so that the input that feeds intake open height is suitable
And it is easy to the dosing operation of workman.
Above disclosed is only preferred embodiments of the present utility model, it is impossible to the power of the utility model is limited with this
Sharp scope, therefore the equivalent variations made according to the utility model claim, belong to the scope that the utility model is covered.
Claims (7)
1. a kind of vacuum pressure conveying formula sieves feeding station, including feeding station support, the feeding station that is installed at the feeding station support
Cavity, shock-absorbing spring, the screening container below feeding station cavity correspondence, the vibration being installed in the screening container
Device and the screen cloth being installed in the screening container, the feeding station cavity have material input port and material flow export, described
Material flow export is connected by the first flexible pipe with the material inlet of the screening container, and the screening container passes through the vibration damping bullet
Spring is supported at the feeding station support, it is characterised in that the vacuum pressure conveying formula screening feeding station also includes being located at the sieve
Accelerating chamber and the negative pressure pump that is connected with the accelerating chamber below partial volume device correspondence, the material outlet of the screening container pass through the
Two flexible pipes are connected with the accelerating chamber, and the accelerating chamber is connected by suction line with the feeding station cavity.
2. vacuum pressure conveying formula according to claim 1 sieves feeding station, it is characterised in that the material inlet is formed at institute
The top end of screening container is stated, the material outlet is formed at the bottom end of the screening container.
3. vacuum pressure conveying formula according to claim 1 sieves feeding station, it is characterised in that the top of the accelerating chamber and institute
The second soft pipe connection is stated, the side wall of the bottom of the accelerating chamber is connected with the suction line and negative pressure pump respectively.
4. vacuum pressure conveying formula according to claim 3 sieves feeding station, it is characterised in that the side of the bottom of the accelerating chamber
Wall it is horizontally extending go out two adapters for being arranged in heteropleural, an adapter connects with the suction line, connects described in another
Pipe is connected with the negative pressure pump.
5. vacuum pressure conveying formula according to claim 1 sieves feeding station, it is characterised in that the shock-absorbing spring be four groups and
It is respectively arranged at the surrounding of the screening container.
6. vacuum pressure conveying formula according to claim 1 sieves feeding station, it is characterised in that the tapered knot of the screening container
Structure.
7. vacuum pressure conveying formula according to claim 1 sieves feeding station, it is characterised in that the suction line feeds intake described in
Stand support above-below direction arrangement.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201621324819.4U CN206334852U (en) | 2016-12-05 | 2016-12-05 | Vacuum pressure conveying formula sieves feeding station |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201621324819.4U CN206334852U (en) | 2016-12-05 | 2016-12-05 | Vacuum pressure conveying formula sieves feeding station |
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Publication Number | Publication Date |
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CN206334852U true CN206334852U (en) | 2017-07-18 |
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CN201621324819.4U Active CN206334852U (en) | 2016-12-05 | 2016-12-05 | Vacuum pressure conveying formula sieves feeding station |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108499845A (en) * | 2018-05-31 | 2018-09-07 | 华中科技大学 | A kind of anti-blocking charging device for vacuum pressure conveying |
-
2016
- 2016-12-05 CN CN201621324819.4U patent/CN206334852U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108499845A (en) * | 2018-05-31 | 2018-09-07 | 华中科技大学 | A kind of anti-blocking charging device for vacuum pressure conveying |
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