CN212769832U - Automatic CIP pipeline juice extraction equipment - Google Patents
Automatic CIP pipeline juice extraction equipment Download PDFInfo
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- CN212769832U CN212769832U CN202021056279.2U CN202021056279U CN212769832U CN 212769832 U CN212769832 U CN 212769832U CN 202021056279 U CN202021056279 U CN 202021056279U CN 212769832 U CN212769832 U CN 212769832U
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Abstract
The utility model relates to a CIP automatic pipeline juice extraction device, which comprises a clean water tank, an alkali tank, an acid tank, a storage tank, a discharge pipe, a vacuum suction filter, a mud valve, a mud pipe, a low vacuum juice extraction tank, a high vacuum juice extraction tank, a mixing tank, a first tubular filter, a filtrate pump, a filtrate outlet pipe, a solenoid valve, a feeding pipeline, a high vacuum pipeline, a low vacuum pipeline, a first juice extraction pipe and a second juice extraction pipe; the storage tank passes through the solenoid valve respectively with the clean water jar, the alkali jar, sour jar and row's material union coupling, the vacuum suction filter passes through feed line and is connected with the storage tank, the vacuum suction filter passes through mud valve and is connected with mud pipe, the vacuum suction filter passes through high vacuum pipeline and is connected with high vacuum juice pumping jar, the vacuum suction filter is connected with low vacuum juice pumping jar through low vacuum pipeline, the blending tank is connected with low vacuum juice pumping jar through first juice pipe, the blending tank passes through the second juice pipe and is connected with high vacuum juice pumping jar, first tubular filter is connected with blending tank and filtrate pump respectively, filtrate pump and filtrating drain pipe are connected.
Description
Technical Field
The utility model relates to a CIP equipment technical field especially relates to an automatic pipeline of CIP equipment of squeezing juice.
Background
Object (the article that impurity is more) need arrange the row material pipe and arrange the material and go out when needs use after the storage tank's storage, but arrange the material back and leave the deposit in the storage tank easily and cause the storage tank to pollute, and ordinary CIP pipeline is taken out juice equipment and is generally used the clear water to the jar body and take out juice and wash, but still exists the sedimentary condition of deposit after the washing, takes out the abluent effect of juice relatively poor.
SUMMERY OF THE UTILITY MODEL
Technical problem to be solved
In order to solve the above problems in the prior art, the utility model provides a CIP automatic pipeline equipment of extracting juice has improved the cleaning performance.
(II) technical scheme
In order to achieve the above object, the utility model discloses a main technical scheme include: a CIP automatic pipeline juice pumping device comprises a clean water tank, an alkali tank, an acid tank, a storage tank, a discharge pipe, a vacuum suction filter, a mud valve, a mud discharge pipe, a low-vacuum juice pumping tank, a high-vacuum juice pumping tank, a mixing tank, a first tubular filter, a filtrate pump, a filtrate discharge pipe, an electromagnetic valve, a feeding pipeline, a high-vacuum pipeline, a low-vacuum pipeline, a hot water tank, a hot water pipeline, a first juice discharge pipe and a second juice discharge pipe;
the storage tank passes through the solenoid valve is connected with clean water jar, alkali jar, acid tank and row's material pipe respectively, the vacuum suction filter passes through feed line with the storage tank is connected, the vacuum suction filter passes through hot-water line with the hot-water tank is connected, the vacuum suction filter passes through the mud valve with the mud pipe is connected, the vacuum suction filter passes through high vacuum line with high vacuum juice pumping tank connects, the vacuum suction filter passes through low vacuum line with low vacuum juice pumping tank connects, the blending tank passes through first juice discharging pipe with low vacuum juice pumping tank connects, the blending tank passes through the second juice discharging pipe with high vacuum juice pumping tank connects, first tube filter respectively with the blending tank with the filtrating pump is connected, filtrating pump and filtrating drain pipe are connected.
Further, a second tube filter is also included;
the second tubular filter is respectively connected with the mixing tank and the filtrate pump.
(III) advantageous effects
The utility model has the advantages that: after the materials in the material storage tank are discharged through the discharge pipe, the solution in the acid tank/alkali tank and the sediments in the material storage tank are neutralized according to the acidity and alkalinity of the materials stored in the material storage tank, the neutralized mixed solution is sent to the vacuum suction filter through the feeding pipeline, the mixed solution is subjected to solid-liquid separation under the action of negative pressure, one part of the separated mixed solution enters a low vacuum area of the vacuum suction filter, the other part of the separated mixed solution enters a high vacuum area of the vacuum suction filter, the separated solution filtered mud enters a mud discharge area, the mixed solution in the low vacuum area enters a low vacuum juice pumping tank through a low vacuum pipeline under the action of negative pressure, the mixed solution in the high vacuum area enters a high vacuum juice pumping tank through a high vacuum pipeline under the action of negative pressure, the filtered mud in the mud discharge area is periodically discharged from a mud discharge pipe through the mud discharge valve and is periodically cleaned through hot water provided by a hot water tank, the mixed solution in the high vacuum juice extracting tank and the mixed solution in the low vacuum juice extracting tank are further filtered through the first tubular filter, discharged from the filtrate drain pipe through the filtrate pump, and finally the clean water tank is reused to carry out secondary cleaning on the storage tank and is discharged from the discharge pipe to ensure the cleanliness of the storage tank.
Drawings
FIG. 1 is a schematic structural view of the CIP automatic pipeline juice extractor of the present invention;
Detailed Description
For a better understanding of the present invention, reference will now be made in detail to the present invention, examples of which are illustrated in the accompanying drawings.
Referring to fig. 1, a CIP automatic pipeline juice pumping apparatus includes a clean water tank, an alkali tank, an acid tank, a storage tank, a discharge pipe, a vacuum suction filter, a mud valve, a mud pipe, a low vacuum juice pumping tank, a high vacuum juice pumping tank, a mixing tank, a first tubular filter, a filtrate pump, a filtrate discharge pipe, an electromagnetic valve, a feeding pipeline, a high vacuum pipeline, a low vacuum pipeline, a first juice discharge pipe and a second juice discharge pipe;
the storage tank passes through the solenoid valve is connected with clean water jar, alkali jar, acid tank and row's material pipe respectively, the vacuum suction filter passes through feed line with the storage tank is connected, the vacuum suction filter passes through the play mud valve with play mud union coupling, the vacuum suction filter passes through high vacuum pipeline with high vacuum juice jar is connected, the vacuum suction filter passes through low vacuum pipeline with low vacuum juice jar is connected, the blending tank passes through first row's juice pipe with low vacuum juice jar is connected, the blending tank passes through second row's juice pipe with high vacuum juice jar is connected, first tubular filter respectively with the blending tank with the filtrate pump is connected, filtrate pump and filtrating drain pipe are connected.
From the above description, the beneficial effects of the present invention are: after the materials in the material storage tank are discharged through the discharge pipe, the solution in the acid tank/alkali tank and the sediments in the material storage tank are neutralized according to the acidity and alkalinity of the materials stored in the material storage tank, the neutralized mixed solution is sent to the vacuum suction filter through the feeding pipeline, the mixed solution is subjected to solid-liquid separation under the action of negative pressure, one part of the separated mixed solution enters a low vacuum area of the vacuum suction filter, the other part of the separated mixed solution enters a high vacuum area of the vacuum suction filter, the separated solution filtered mud enters a mud discharge area, the mixed solution in the low vacuum area enters a low vacuum juice pumping tank through a low vacuum pipeline under the action of negative pressure, the mixed solution in the high vacuum area enters a high vacuum juice pumping tank through a high vacuum pipeline under the action of negative pressure, the filtered mud in the mud discharge area is periodically discharged from a mud discharge pipe through the mud discharge valve and is periodically cleaned through hot water provided by a hot water tank, the mixed solution in the high vacuum juice extracting tank and the mixed solution in the low vacuum juice extracting tank are further filtered through the first tubular filter, discharged from the filtrate drain pipe through the filtrate pump, and finally the clean water tank is reused to carry out secondary cleaning on the storage tank and is discharged from the discharge pipe to ensure the cleanliness of the storage tank.
Further, a second tube filter is also included;
the second tubular filter is respectively connected with the mixing tank and the filtrate pump.
From the above description, it can be known that the mixed solution in the high vacuum juice extracting tank and the mixed solution in the low vacuum juice extracting tank can be filtered by the first tubular filter and the second tubular filter at the same time, and the filtering quality is improved.
Example one
Referring to fig. 1, a CIP automatic pipeline juice pumping apparatus includes a clean water tank, an alkali tank, an acid tank, a storage tank, a discharge pipe, a vacuum suction filter, a mud valve, a mud pipe, a low vacuum juice pumping tank, a high vacuum juice pumping tank, a mixing tank, a first tubular filter, a filtrate pump, a filtrate discharge pipe, an electromagnetic valve, a feeding pipeline, a high vacuum pipeline, a low vacuum pipeline, a first juice discharge pipe and a second juice discharge pipe;
the storage tank passes through the solenoid valve is connected with clean water jar, alkali jar, acid tank and row's material pipe respectively, the vacuum suction filter passes through feed line with the storage tank is connected, the vacuum suction filter passes through the play mud valve with play mud union coupling, the vacuum suction filter passes through high vacuum pipeline with high vacuum juice jar is connected, the vacuum suction filter passes through low vacuum pipeline with low vacuum juice jar is connected, the blending tank passes through first row's juice pipe with low vacuum juice jar is connected, the blending tank passes through second row's juice pipe with high vacuum juice jar is connected, first tubular filter respectively with the blending tank with the filtrate pump is connected, filtrate pump and filtrating drain pipe are connected.
Wherein, also include the second tubular filter;
the second tubular filter is respectively connected with the mixing tank and the filtrate pump.
To sum up, the utility model provides a CIP automatic pipeline juice extraction equipment, after the material in the storage tank discharges through arranging the material pipe, come to use solution in the acid tank/alkali jar and the deposit in the storage tank to neutralize according to the acid-base nature of the material of storage tank storage, the mixed solution after the neutralization is sent to the vacuum suction filter through the feed line, the mixed solution carries out solid-liquid separation under the negative pressure effect, one part of the mixed solution that obtains of separation gets into the low vacuum area of vacuum suction filter, another part gets into the high vacuum area of vacuum suction filter, the solution mud filter that obtains of separation gets into row mud district, the mixed solution of low vacuum area gets into low vacuum juice extraction jar through low vacuum pipeline under the negative pressure effect, the mixed solution of high vacuum area gets into high vacuum juice extraction jar through high vacuum pipeline under the negative pressure effect, the mud filter of row mud district regularly discharges from mud pipe through mud valve control, and the hot water that provides through the hot-water cylinder regularly washs, and the mixed solution in the high vacuum juice extraction jar and the mixed solution in the low vacuum juice extraction jar further filter the back through first tube filter, discharge from the filtrating drain pipe through the filtrating pump, and the clean water jar that reuses at last carries out the secondary clearance to the storage tank, discharges from row's material pipe again, guarantees the cleanliness factor of storage tank.
The above mentioned is only the embodiment of the present invention, and not the limitation of the patent scope of the present invention, all the equivalent transformations made by the contents of the specification and the drawings, or the direct or indirect application in the related technical field, are included in the patent protection scope of the present invention.
Claims (2)
1. A CIP automatic pipeline juice pumping device is characterized by comprising a clean water tank, an alkali tank, an acid tank, a storage tank, a discharge pipe, a vacuum suction filter, a mud valve, a mud pipe, a low-vacuum juice pumping tank, a high-vacuum juice pumping tank, a mixing tank, a first tubular filter, a filtrate pump, a filtrate discharge pipe, an electromagnetic valve, a feeding pipeline, a high-vacuum pipeline, a low-vacuum pipeline, a hot water tank, a hot water pipeline, a first juice discharge pipe and a second juice discharge pipe;
the storage tank passes through the solenoid valve is connected with clean water jar, alkali jar, acid tank and row's material pipe respectively, the vacuum suction filter passes through feed line with the storage tank is connected, the vacuum suction filter passes through hot-water line with the hot-water tank is connected, the vacuum suction filter passes through the mud valve with the mud pipe is connected, the vacuum suction filter passes through high vacuum line with high vacuum juice pumping tank connects, the vacuum suction filter passes through low vacuum line with low vacuum juice pumping tank connects, the blending tank passes through first juice discharging pipe with low vacuum juice pumping tank connects, the blending tank passes through the second juice discharging pipe with high vacuum juice pumping tank connects, first tube filter respectively with the blending tank with the filtrating pump is connected, filtrating pump and filtrating drain pipe are connected.
2. The CIP automatic in-line juice extractor device according to claim 1, further comprising a second tube filter;
the second tubular filter is respectively connected with the mixing tank and the filtrate pump.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202021056279.2U CN212769832U (en) | 2020-06-10 | 2020-06-10 | Automatic CIP pipeline juice extraction equipment |
Applications Claiming Priority (1)
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CN202021056279.2U CN212769832U (en) | 2020-06-10 | 2020-06-10 | Automatic CIP pipeline juice extraction equipment |
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CN212769832U true CN212769832U (en) | 2021-03-23 |
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2020
- 2020-06-10 CN CN202021056279.2U patent/CN212769832U/en active Active
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