CN202569788U - Energy-saving refrigeration filtering unit - Google Patents
Energy-saving refrigeration filtering unit Download PDFInfo
- Publication number
- CN202569788U CN202569788U CN 201220107040 CN201220107040U CN202569788U CN 202569788 U CN202569788 U CN 202569788U CN 201220107040 CN201220107040 CN 201220107040 CN 201220107040 U CN201220107040 U CN 201220107040U CN 202569788 U CN202569788 U CN 202569788U
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- pump
- wine
- coarse filtration
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Abstract
The utility model discloses an energy-saving refrigeration filtering unit, which comprises a refrigerating unit, a cold medium tank, a primary heat exchanger, a secondary heat exchanger, a balance tank, a buffering tank, a rough filtering tank, a fine filtering tank and a pre-coating tank, wherein each component is connected through a pipeline. The energy-saving refrigeration filtering unit has the technical effects: energy-saving lower-temperature filtering is applied to a filter in which diatomite is taken as a filter aid, so that refrigeration, soil hanging, filtering, soil adding, soil discharging and cleaning are integrated, and a good filtering effect, high filtering efficiency and low unit fault rate are achieved.
Description
Technical field
The utility model relates to a kind of filter.
Background technology
Adopt the filter of diatomite as filter aid, have the characteristics of good filtration effect, owing in filter process, need to hang soil and add soil, also need unload soil after the filtration, therefore, the inapplicable employing diatomite of present filter at low temperature is as the filter of filter aid.
The utility model content
The purpose of the utility model provides a kind of energy-conservation freezing and filtering unit that adopts diatomite as filter aid.
The technical scheme of the utility model is, a kind of energy-conservation freezing and filtering unit comprises refrigeration unit, the refrigerant jar, and the one-level heat exchanger, two-stage heat exchanger, compensator, surge tank, the coarse filtration jar, smart filtering tank, the precoating jar, above-mentioned each parts connect through pipeline:
Refrigeration unit through pipeline through refrigeration pump, refrigeration valve one, refrigerant jar, refrigeration valve two, refrigeration temperature control device, get back to refrigeration unit; Through refrigerant valve one, refrigerant pump, one-level heat exchanger, refrigerant valve two are got back to the refrigerant jar to the refrigerant jar through pipeline;
Advance the wine main valve and pass through pipeline through surge tank; Wine inlet valve one, net filter, advance wine pump, wine inlet valve two, two-stage heat exchanger, one-level heat exchanger, advance the wine temperature controller, wine inlet valve three, coarse filtration pump, coarse filtration wine inlet valve connect the coarse filtration jar; The two ends of coarse filtration pump balanced valve connect the two ends of coarse filtration pump respectively through pipeline; On the pipeline between surge tank and the precoating jar, be connected with precoating jar wine inlet valve; The two ends of advancing wine pump balanced valve are connected on the into two ends of wine pump respectively through pipeline, the row's of being connected to wine valve on the pipeline between wine inlet valve one and the net filter;
The precoating jar hangs through coarse filtration through pipeline that native valve one, coarse filtration pump, coarse filtration wine inlet valve, coarse filtration jar, coarse filtration are hung native valve two, coarse filtration is hung native visor and got back to the precoating jar;
The precoating jar hangs through essence filter through pipeline that native valve one, smart filter pump, coarse filtration wine inlet valve, smart filter tank, smart filter are hung native valve two, smart filter is hung native visor and got back to the precoating jar;
The coarse filtration jar connects compensator through pipeline through strainer valve one, filtration balanced valve, smart filter pump, strainer valve two, smart filter tank, strainer valve three, filtration visor, strainer valve four, two-stage heat exchanger, filtration balanced valve, strainer valve five; Compensator is connected to out the wine valve; The two ends of smart filter pump balanced valve connect the two ends of smart filter pump respectively through pipeline, on the pipeline that filters between balanced valve and the strainer valve five, the sample survey valve are arranged;
An end that adds pump connects the precoating jar through pipeline through adding native valve one, the other end through pipeline through add native valve two be connected between coarse filtration wine inlet valve and the coarse filtration jar pipeline on;
Surplus wine recovery valve one through pipeline through the surplus wine recovery valve four of coarse filtration jar be connected on the coarse filtration jar, and the surplus wine recovery valve five of smart filter tank be connected on the smart filter tank; Surplus wine recovery valve 21 terminations are advanced the wine pump; The surplus wine recovery valve three of another termination; Surplus wine recovery valve three other ends are external, and the pipeline and the surplus wine recovery valve two that filter between visor and the strainer valve four are communicated with pipeline between the surplus wine recovery valve three, and air bleeding valve one passes through pipeline one termination coarse filtration jar; Another termination precoating jar, air bleeding valve two are through the smart filter tank of pipeline one termination, another termination precoating jar;
Cleaning interface is connected on the pipeline between wine inlet valve three and the coarse filtration pump through cleaning valve one through pipeline; And be connected on the pipeline between smart filter pump balanced valve and the smart filter tank through cleaning valve two; Pipeline between smart filter pump balanced valve and the smart filter tank and surplus wine recovery valve are communicated with pipeline between the surplus wine recovery valve of smart filter tank; Add pump and connect the coarse filtration jar through pipeline through cleaning valve three, cleaning valve four, cleaning valve five-way piping one end connects coarse filtration pump and cleaning valve three respectively, another termination coarse filtration jar; The smart filter pump of cleaning valve 61 terminations, the smart filter tank of another termination; The smart filter pump of the cleaning valve termination July 1st, the smart filter tank of another termination; On the pipeline of cleaning valve Aug. 1st termination cleaning valve seven and smart filter pump; The other end is taken on the pipeline between filter visor and the strainer valve three, cleaning valve 91 termination precoating jars, and another termination is added pump; The coarse filtration bottom valve is arranged on the coarse filtration jar, smart filter tank bottom valve is arranged on smart filter tank.
The utility model has following technique effect, energy-saving low-temperature is filtered to be used in adopt on the filter of diatomite as filter aid, realizes refrigeration, hangs soil, filters, adds soil, unload soil, clean integrated, good filtration effect, filter efficiency is high, the unit fault rate is low.
Description of drawings
Fig. 1 is the structural representation of the utility model.
The specific embodiment
As shown in Figure 1, a kind of energy-conservation freezing and filtering unit comprises refrigeration unit 48, refrigerant jar 49, and one-level heat exchanger 50, two-stage heat exchanger 51, compensator 52, surge tank 54, coarse filtration jar 64, smart filtering tank 56, precoating jar 58, above-mentioned each parts connect through pipeline:
Refrigeration unit 48 through pipeline through refrigeration pump 67, refrigeration valve 1, refrigerant jar 49, refrigeration valve 2 42, refrigeration temperature control device 69, get back to refrigeration unit 48; Through refrigerant valve 1, refrigerant pump 68, one-level heat exchanger 50, refrigerant valve 2 43 are got back to refrigerant jar 49 to refrigerant jar 49 through pipeline;
Advance wine main valve 1 and pass through pipeline through surge tank 54; Wine inlet valve 1, net filter 55, advance wine pump 53, wine inlet valve 27, two-stage heat exchanger 51, one-level heat exchanger 50, advance wine temperature controller 70, wine inlet valve 3 11, coarse filtration pump 63, coarse filtration wine inlet valve 13 connect coarse filtration jar 64; The two ends of coarse filtration pump balanced valve 12 connect the two ends of coarse filtration pump 63 respectively through pipeline; On the pipeline between surge tank 54 and the precoating jar 58, be connected with precoating jar wine inlet valve 31; The two ends of advancing wine pump balanced valve 6 are connected on the into two ends of wine pump 53 respectively through pipeline, the row's of being connected to wine valve 3 on the pipeline between wine inlet valve 1 and the net filter 55;
Precoating jar 58 hangs through coarse filtration through pipeline that native valve 1, coarse filtration pump 63, coarse filtration wine inlet valve 13, coarse filtration jar 64, coarse filtration are hung native valve 2 26, coarse filtration is hung native visor 61 and got back to precoating jar 58;
Precoating jar 58 hangs through essence filter through pipeline that native valve 1, smart filter pump 65, coarse filtration wine inlet valve 34, smart filter tank 56, smart filter are hung native valve 2 29, smart filter is hung native visor 57 and got back to precoating jar 58;
Coarse filtration jar 64 connects compensator 52 through pipeline through strainer valve 1, filtration balanced valve 20, smart filter pump 65, strainer valve 2 34, smart filter tank 56, strainer valve 3 40, filtration visor 66, strainer valve 4 41, two-stage heat exchanger 51, filtration balanced valve 4, strainer valve 58; Compensator 52 is connected to out wine valve 10; The two ends of smart filter pump balanced valve 33 connect the two ends of smart filter pump 65 respectively through pipeline, on the pipeline that filters between balanced valve 4 and the strainer valve 58, sample survey valve 9 are arranged;
An end that adds pump 62 connects precoating jars 58 through pipeline through adding native valve 1, the other end through pipeline through add native valve 2 14 be connected between coarse filtration wine inlet valve 13 and the coarse filtration jar 64 pipeline on;
Surplus wine recovery valve 1 through pipeline through the surplus wine recovery valve 4 47 of coarse filtration jar be connected on the coarse filtration jar 64, and the surplus wine recovery valve 5 38 of smart filter tank be connected on the smart filter tank 56; Surplus wine recovery valve 251 terminations are advanced wine pump 53; The surplus wine recovery valve 3 60 of another termination; Surplus wine recovery valve 3 60 other ends are external, and the pipeline and the surplus wine recovery valve 25 that filter between visor 66 and the strainer valve 4 41 are communicated with pipeline between the surplus wine recovery valve 3 60, and air bleeding valve 1 passes through pipeline one termination coarse filtration jar 64; Another termination precoating jar 58, air bleeding valve 2 28 are through the smart filter tank 56 of pipeline one termination, another termination precoating jar 58;
Cleaning interface 71 is connected on the pipeline between wine inlet valve 3 11 and the coarse filtration pump 63 through cleaning valve 1 through pipeline; And be connected on the pipeline between smart filter pump balanced valve 33 and the smart filter tank 56 through cleaning valve 2 32; Pipeline between smart filter pump balanced valve 33 and the smart filter tank 56 and surplus wine recovery valve 25 are communicated with pipeline between the surplus wine recovery valve 38 of smart filter tank; Add pump 62 and connect coarse filtration jar 64 through pipeline through cleaning valve 3 17, cleaning valve 4 16, cleaning valve 5 15 connects coarse filtration pump 63 and cleaning valve 3 17, another termination coarse filtration jar 64 respectively through pipeline one end; The smart filter pump 65 of cleaning valve 6 35 1 terminations, the smart filter tank 56 of another termination; The smart filter pump 65 of cleaning valve 7 37 1 terminations, the smart filter tank 56 of another termination; On the pipeline of cleaning valve 8 36 1 termination cleaning valves 7 37 and smart filter pump 65; The other end is taken on the pipeline between filter visor 66 and the strainer valve 3 40; Cleaning valve 9 21 1 termination precoating jars 58; Another termination is added pump 62, and coarse filtration bottom valve 18 is arranged on coarse filtration jar 64, and smart filter tank bottom valve 39 is arranged on smart filter tank 56.
The operation of the utility model:
One, refrigeration unit starts:
Open refrigeration valve 1, refrigeration valve 2 42, refrigerant valve 1, refrigerant pump 68, refrigerant valve 2 43 start refrigeration unit, refrigerant pump;
Two, advance the wine operation:
Open into wine main valve 1, wine inlet valve 1, wine inlet valve 27, wine inlet valve 3 11, coarse filtration wine inlet valve 13, strainer valve 1, strainer valve 2 34, air bleeding valve 1, air bleeding valve 2 28, precoating jar wine inlet valve 31, start and advance wine pump 53; Make and be full of wine in the unit;
Three, hang the soil operation:
1, the coarse filtration jar is hung soil:
Open coarse filtration and hang native valve 1, coarse filtration wine inlet valve 13, coarse filtration and hang native valve 2 26, start precoating jar 58, coarse filtration pump 63, soil is hung in 64 circulations to the coarse filtration jar, up to coarse filtration hang native visor 61 limpid till, coarse filtration jar 64 filtering layers form;
2, smart filter tank is hung soil:
Open smart filter and hang native valve 1, coarse filtration wine inlet valve 34, smart filter and hang native valve 2 29, start precoating jar 58, smart filter pump 65, soil is hung in smart filter tank 56 circulations, up to the essence filter hang native visor 57 limpid till, smart filter tank 56 filtering layers form;
Four, refrigeration systemic circulation operation:
Open wine inlet valve 3 11, coarse filtration wine inlet valve 13, strainer valve 1, strainer valve 2 34, strainer valve 3 40, surplus wine recovery valve 25, wine inlet valve 27; Start and advance wine pump 53, coarse filtration pump 63, smart filter pump 65; Regulate wine pump balanced valve 6, coarse filtration pump balanced valve 12, smart filter pump balanced valve 33, filter balanced valve 20, to wine refrigeration in the unit;
Five, normal filtration:
Open into wine main valve 1, wine inlet valve 1, wine inlet valve 27, wine inlet valve 3 11, coarse filtration wine inlet valve 13, strainer valve 1, strainer valve 2 34, strainer valve 3 40, strainer valve 4 41, strainer valve 58, go out wine valve 10; Start and advance wine pump 53, coarse filtration pump 63, smart filter pump 65, regulate wine pump balanced valve 6, coarse filtration pump balanced valve 12, smart filter pump balanced valve 33, filter balanced valve 20, filter balanced valve 4; In filtration,, open and add native valve 1, add native valve 2 14, start smart filter pump 65, add 62 pairs of coarse filtration jars 64 of pump and add soil according to the filtration situation;
Six, surplus wine reclaimer operation:
After filter finishing, the surplus wine in the unit is reclaimed, connect surplus wine recovery valve 1, surplus wine recovery valve 3 60, open air bleeding valve 1, air bleeding valve 2 28, surplus wine recovery valve 4 47, surplus wine recovery valve 5 38 start smart filter pump 65 and reclaim surplus wine;
Seven, cleaning operation:
After filtering end; Unit is cleaned; Connect the water source at cleaning interface 71; Open cleaning valve 1, cleaning valve 2 32, cleaning valve 3 17, cleaning valve 5 15, cleaning valve 4 16, coarse filtration and hang native valve 2 26, cleaning valve 8 36, smart filter and hang native valve 2 29, cleaning valve 6 35, cleaning valve 7 37, cleaning valve 9 21, coarse filtration and hang native valve 1, smart filter and hang native valve 1, coarse filtration bottom valve 18, smart filter tank bottom valve 39, start the water source pump and clean.
Claims (1)
1. an energy-conservation freezing and filtering unit comprises refrigeration unit (48), refrigerant jar (49), one-level heat exchanger (50); Two-stage heat exchanger (51), compensator (52), surge tank (54), coarse filtration jar (64); Smart filtering tank (56), precoating jar (58), above-mentioned each parts connect through pipeline, it is characterized in that:
Refrigeration unit (48) through pipeline through refrigeration pump (67), refrigeration valve one (44), refrigerant jar (49), refrigeration valve two (42), refrigeration temperature control device (69), get back to refrigeration unit (48); Through refrigerant valve one (46), refrigerant pump (68), one-level heat exchanger (50), refrigerant valve two (43) are got back to refrigerant jar (49) to refrigerant jar (49) through pipeline;
Advance wine main valve (1) and pass through pipeline through surge tank (54); Wine inlet valve one (2), net filter (55), advance wine pump (53), wine inlet valve two (7), two-stage heat exchanger (51), one-level heat exchanger (50), advance wine temperature controller (70), wine inlet valve three (11), coarse filtration pump (63), coarse filtration wine inlet valve (13) connect coarse filtration jar (64); The two ends of coarse filtration pump balanced valve (12) connect the two ends of coarse filtration pump (63) respectively through pipeline; On the pipeline between surge tank (54) and the precoating jar (58), be connected with precoating jar wine inlet valve (31); The two ends of advancing wine pump balanced valve (6) are connected on the into two ends of wine pump (53) respectively through pipeline, the row's of being connected to wine valve (3) on the pipeline between wine inlet valve one (2) and the net filter (55);
Precoating jar (58) hangs through coarse filtration through pipeline that native valve one (23), coarse filtration pump (63), coarse filtration wine inlet valve (13), coarse filtration jar (64), coarse filtration are hung native valve two (26), coarse filtration is hung native visor (61) and got back to precoating jar (58);
Precoating jar (58) hangs through essence filter through pipeline that native valve one (30), smart filter pump (65), coarse filtration wine inlet valve (34), smart filter tank (56), smart filter are hung native valve two (29), smart filter is hung native visor (57) and got back to precoating jar (58);
Coarse filtration jar (64) connects compensator (52) through pipeline through strainer valve one (19), filtration balanced valve (20), smart filter pump (65), strainer valve two (34), smart filter tank (56), strainer valve three (40), filtration visor (66), strainer valve four (41), two-stage heat exchanger (51), filtration balanced valve (4), strainer valve five (8); Compensator (52) is connected to out wine valve (10); The two ends of smart filter pump balanced valve (33) connect the two ends of smart filter pump (65) respectively through pipeline, on the pipeline that filters between balanced valve (4) and the strainer valve five (8), sample survey valve (9) are arranged;
An end that adds pump (62) connects precoating jar (58) through pipeline through adding native valve one (24), the other end through pipeline through add native valve two (14) be connected between coarse filtration wine inlet valve (13) and the coarse filtration jar (64) pipeline on;
Surplus wine recovery valve one (25) through pipeline through the surplus wine recovery valve four (47) of coarse filtration jar be connected on coarse filtration jar (64) go up, and the surplus wine recovery valve five (38) of smart filter tank be connected on the smart filter tank (56); Surplus wine recovery valve two (5) one terminations are advanced wine pump (53); The surplus wine recovery valve three (60) of another termination; Surplus wine recovery valve three (60) other ends are external, and the pipeline and the surplus wine recovery valve two (5) that filter between visor (66) and the strainer valve four (41) are communicated with pipeline between the surplus wine recovery valve three (60), and air bleeding valve one (27) passes through pipeline one termination coarse filtration jar (64); Another termination precoating jar (58), air bleeding valve two (28) are through the smart filter tank (56) of pipeline one termination, another termination precoating jar (58);
Cleaning interface (71) is connected on the pipeline between wine inlet valve three (11) and the coarse filtration pump (63) through cleaning valve one (22) through pipeline; And be connected on the pipeline between smart filter pump balanced valve (33) and the smart filter tank (56) through cleaning valve two (32); Pipeline between smart filter pump balanced valve (33) and the smart filter tank (56) and surplus wine recovery valve (25) are communicated with pipeline between the surplus wine recovery valve of smart filter tank (38); Add pump (62) and connect coarse filtration jar (64) through cleaning valve three (17), cleaning valve four (16) through pipeline; Cleaning valve five (15) connects coarse filtration pump (63) and cleaning valve three (17) respectively through pipeline one end; Another termination coarse filtration jar (64), the smart filter pump (65) of cleaning valve six (35) one terminations, the smart filter tank (56) of another termination; The smart filter pump (65) of cleaning valve seven (37) one terminations, the smart filter tank (56) of another termination; On the pipeline of cleaning valve eight (36) one termination cleaning valves seven (37) and smart filter pump (65); The other end is taken on the pipeline between filter visor (66) and the strainer valve three (40); Cleaning valve nine (21) one termination precoating jars (58); Another termination is added pump (62), and coarse filtration bottom valve (18) is arranged on coarse filtration jar (64), and smart filter tank bottom valve (39) is arranged on smart filter tank (56).
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN 201220107040 CN202569788U (en) | 2012-03-20 | 2012-03-20 | Energy-saving refrigeration filtering unit |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN 201220107040 CN202569788U (en) | 2012-03-20 | 2012-03-20 | Energy-saving refrigeration filtering unit |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN202569788U true CN202569788U (en) | 2012-12-05 |
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| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN 201220107040 Expired - Lifetime CN202569788U (en) | 2012-03-20 | 2012-03-20 | Energy-saving refrigeration filtering unit |
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| CN (1) | CN202569788U (en) |
Cited By (7)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN102600663A (en) * | 2012-03-20 | 2012-07-25 | 湘潭林海机械制造有限公司 | Energy-saving low-temperature filter unit |
| CN108759201A (en) * | 2018-07-16 | 2018-11-06 | 高云芝 | A kind of freezing filtration device of double refrigeration systems |
| CN109055157A (en) * | 2018-09-20 | 2018-12-21 | 劲牌有限公司 | A kind of energy-efficient continuous freezing and filtering system and process of health-care spirit |
| CN109876524A (en) * | 2019-02-22 | 2019-06-14 | 高云芝 | A kind of freezing and filtering unit |
| CN110384976A (en) * | 2019-08-11 | 2019-10-29 | 高云芝 | A kind of technique of freezing and filtering unit |
| CN115612590A (en) * | 2022-11-09 | 2023-01-17 | 湘潭林海机械制造有限公司 | Freezing energy-conserving filter unit that stews |
| CN115678731A (en) * | 2022-11-09 | 2023-02-03 | 湘潭林海机械制造有限公司 | Double-mode large-temperature-difference freezing filter unit |
-
2012
- 2012-03-20 CN CN 201220107040 patent/CN202569788U/en not_active Expired - Lifetime
Cited By (8)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN102600663A (en) * | 2012-03-20 | 2012-07-25 | 湘潭林海机械制造有限公司 | Energy-saving low-temperature filter unit |
| CN108759201A (en) * | 2018-07-16 | 2018-11-06 | 高云芝 | A kind of freezing filtration device of double refrigeration systems |
| CN109055157A (en) * | 2018-09-20 | 2018-12-21 | 劲牌有限公司 | A kind of energy-efficient continuous freezing and filtering system and process of health-care spirit |
| CN109876524A (en) * | 2019-02-22 | 2019-06-14 | 高云芝 | A kind of freezing and filtering unit |
| CN109876524B (en) * | 2019-02-22 | 2021-10-26 | 高云芝 | Freezing filter unit |
| CN110384976A (en) * | 2019-08-11 | 2019-10-29 | 高云芝 | A kind of technique of freezing and filtering unit |
| CN115612590A (en) * | 2022-11-09 | 2023-01-17 | 湘潭林海机械制造有限公司 | Freezing energy-conserving filter unit that stews |
| CN115678731A (en) * | 2022-11-09 | 2023-02-03 | 湘潭林海机械制造有限公司 | Double-mode large-temperature-difference freezing filter unit |
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Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| CX01 | Expiry of patent term | ||
| CX01 | Expiry of patent term |
Granted publication date: 20121205 |