CN102896107A - Novel process flow, method and device for ultrasonic bottle washing - Google Patents

Novel process flow, method and device for ultrasonic bottle washing Download PDF

Info

Publication number
CN102896107A
CN102896107A CN 201210168836 CN201210168836A CN102896107A CN 102896107 A CN102896107 A CN 102896107A CN 201210168836 CN201210168836 CN 201210168836 CN 201210168836 A CN201210168836 A CN 201210168836A CN 102896107 A CN102896107 A CN 102896107A
Authority
CN
China
Prior art keywords
bottle
lye
ultrasonic
water
technological process
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
CN 201210168836
Other languages
Chinese (zh)
Inventor
刘利华
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Individual
Original Assignee
Individual
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Individual filed Critical Individual
Priority to CN 201210168836 priority Critical patent/CN102896107A/en
Publication of CN102896107A publication Critical patent/CN102896107A/en
Pending legal-status Critical Current

Links

Images

Landscapes

  • Cleaning In General (AREA)
  • Cleaning By Liquid Or Steam (AREA)

Abstract

The invention relates to a novel process flow, a method and a device for ultrasonic bottle washing. The novel process flow and the method for the ultrasonic bottle washing can be seen in figures of the abstract. Since a bottle washer generates a large amount of scale during bottle washing, the problem of residual scale exists and can not be solved for a long time, and is in urgent need of being solved for energy conservation and emission reduction. On the basis of the original technology, original bottle box transmission of the bottle washer, a water pump, an ultrasonic device and the like are used to form the process flow of the bottle washing. The device for the ultrasonic bottle washing in figures from (1-5) to (6-5) produces a microcosmic external force for high-pressure washing, the diameter of each ultrasonic cavitation bubble is smaller than 0.001mm (millimeter), and about 100MPa negative pressure is generated so that enormous cavitation energy for the bottle washing is produced. Afterward-descaling of the bottle washer is changed into online cleaning, sterilizing and descaling, and a self-cleaning function and a sterilizing function are added. Cleaning efficiency of beer bottle cleaning is increased. The method for the ultrasonic bottle washing is applicable to the bottle washer for food and drug containers such as feeing bottles, medicine bottles and white wine bottles.

Description

Ultrasonic wave wash bottle new technological flow and method and ultrasonic wave bottle washing equipment
Technical field:
Patent of the present invention " ultrasonic wave wash bottle new technological flow and method and ultrasonic wave bottle washing equipment ".Rear title: (Fig. 1) technological process method, (Fig. 2) ultrasonic equipment.Belong to the bottle washing machine in the food and medicine packaging facilities.Install (Fig. 2) ultrasonic equipment additional in bottle washing machine (Fig. 1) technological process method, the original mode of cleaning with current of bottle washing machine, change into take current as carrier, with the ultrasonic cavitation energy in water, produce highdensity cavitation, beer bottle inside and outside had very strong cleaning action, improve the clean rate of cleaning beer bottle, increased the function of descaling sterilization.Its meaning is creatively the bottle washing machine technological principle to be carried out perfect, has increased a kind of external force of Ultrasonic Cleaning beer bottle, has possessed ability, self-cleaning function and the sterilizing function of microcosmic high pressure high density cleaning and descaling.Creatively afterwards cleaning and descaling sterilization, realize the sterilization of on-line operation cleaning and descaling.
Technical background:
The beer bottle that uses now has new bottle and returnable bottle.Wherein, returnable bottle accounts for about 80% of beer bottle consumption, and the spot of returnable bottle, greasy dirt, bacterial plaque, foreign matter are residual more, cleans with current to be difficult to wash off, affects product quality and the output of beer.
The present situation of bottle washing machine: the design principle of bottle washing machine is applicating fluid technology, the pressure of water and the flow of current, usefulness high-temperature water, highly basic cleaning beer bottle.During bottle washing machine clean and reuse bottle, there is the material of the very difficult cleanings such as residual dirt, greasy dirt, bacterial plaque, spot, has the part Beer bottle washing unclean.Residual spot, dirt are arranged behind the part Beer bottle washing.The serious bottle washing machine jet pipe nozzle that stops up.Bottle washing machine can generate a lot of incrustation scale dirts in the bottle washing machine when wash bottle, the severe contamination bottle washing machine produces secondary pollution in the cleaning process, the puzzlement beer industry.This is so far unsolved problem of long-term existence, is beer industry energy-saving and emission-reduction, environmental protection urgent problem.
The technology that bottle washing machine adopts is that the beer bottle connecting gear is by bottle box, chain and lye tank (vat) such as the common trait of Chinese patent 200620063381.9, the wiper mechanisms such as temperature, hot water storgae formation.The feature of patent of the present invention is at lye tank (vat), has increased in (Fig. 1) technological process method on the basis of the wiper mechanisms such as temperature, hot water storgae, and water pump connects (Fig. 2) ultrasonic equipment, consists of the clean cycle system.Ultrasonic cleaning technology has been used on basis at traditional bottle washing machine, and the force of explosion with ultrasonic cavitation produces cleans beer bottle, and cleansing power is got a promotion, and clean rate is improved, and has increased Ultrasonic Cleaning descaling sterilization function.
Summary of the invention:
Patent of the present invention (Fig. 1) technological process method is according to the problem that exists in the production process, repeatedly tests through scene repeatedly, invents this method.On the basis of the original technology of bottle washing machine, utilize (10) bottle box transmission system in bottle washing machine (Fig. 1) the technological process method, (1-3) (2-3) (3-3) (4-3) (5-3) function of water pump current clean cycle system installs in (Fig. 1) technological process method (1-5) (2-5) (3-5) (4-5) (5-5) (6-5) (Fig. 2) ultrasonic equipment additional.Ultrasonic wave belongs to microcosmic external force high-pressure wash, and hyperacoustic cavitation energy is huge.
Former wash bottle method is to squeeze into jet pipe with the water in the pump handle tank, enter upper and lower nozzle to the inside and outside spray cleaning of beer bottle, this cleaning method of using current still has the part beer bottle to be difficult to clean up for spot, greasy dirt, bacterial plaque, the residual more returnable bottle of foreign matter.
Because (10) chain-driving bottle box rotates in bottle washing machine (Fig. 1) the technological process method, the bottle box carries the bottle running, hundreds of row bottle box, up to ten thousand bottles are cleaned simultaneously, and the narrow space in the bottle washing machine, the water of bottle washing machine are recyclings, can produce a lot of accumulation of muds in bottle washing machine, form secondarily polluted water, it is low that beer bottle is cleaned rate, and bacterium exceeds standard.The bottle washing machine energy-saving and emission-reduction, energy-conservation little row, cleaner production, food security, environmental protection does not have the difficult problem of solution for many years.
The present invention (Fig. 1) technological process method, design as required (Fig. 2) ultrasonic equipment, the ultrasonic equipment that uses is to utilize the current of water pump as carrier, current were flowed through in time of ultrasonic equipment, obtain highdensity cavitation, make current hyperacoustic cavitation energy be delivered to the up and down nozzle of bottle washing machine, with the energy of hyperacoustic cavitation explosion generation, to cleaning inside and outside the beer bottle, can clean up the dirt inside and outside the beer bottle, spot, bacterial plaque.Facts have proved: the clean rate raising of beer bottle reaches 99.9%.What beer bottle was cleaned is limpid transparent, very clean, and the mushroom index descends.Nozzle no longer stops up, and the nozzle of former bottle washing machine stops up because of scaling, needs to change once in per 4 hours, uses the ultrasonic equipment rear nozzle no longer to stop up, and does not need to change jet pipe again.The dirt incrustation scale reduces gradually in the bottle washing machine.The present invention also is applicable to the bottle washing machine of the food and medicine containers such as feeding bottle, medicine bottle.
Description of drawings:
Fig. 1 is ultrasonic wave wash bottle new technological flow and method, Fig. 1-the 1st, and the left-half of the exploded view of Fig. 1, Fig. 1-2 is the right half part of the exploded view of Fig. 1, is the full figure of Fig. 1 after Fig. 1-1 and Fig. 1-2 are merged.Fig. 1 be explanation in bottle washing machine, formed by a plurality of wash bottles unit, each unit forms independently bottle washing system, one " ultrasonic wave bottle washing equipment " is installed (Fig. 2) in each unit.
Fig. 2 is the key equipment in the technological process of the present invention.It is the part among ultrasonic wave wash bottle new technological flow of the present invention and method Fig. 1." ultrasonic wave bottle washing equipment " is equipment structure diagram (Fig. 2).
The specific embodiment:
Bottle washing machine (Fig. 1) technological process method is advanced a bottle platform (10) chain bottle box (11) by (1) No. 1 (2) No. 2 (3) No. 3 lye tank (vat) of lye tank (vat) of lye tank (vat) (4) hot water storgaes (5) warm water tanks (6) cold water area (7) poster removers (8) bottle outlet platforms (9) and is formed the bottle washing machine main body, (1-5) (2-5) (3-5) (4-5) (5-5) (6-5) (Fig. 2) ultrasonic equipment in the water pump that the bottle washing machine main body is outside and each tank connects and (Fig. 1) the technological process method; The water pump of each tank connects (Fig. 2) ultrasonic equipment, can be installed in before the pump or behind the pump, also can serial or parallel connection, consist of current clean cycle system, and consist of (Fig. 1) technological process method.
: the present invention is the exit of No. 1 lye pump of No. 1 lye tank (vat) (1) lye tank (vat) current clean cycle systems (Fig. 1) technological process methods (1-3), connect (Fig. 2) ultrasonic equipment by cavitation after, alkali lye via (1-6) jet pipe to (1-7), (1-9) nozzle, be sprayed onto the inside and outside cleaning beer bottle of (1-8) beer bottle, reach the purpose that improves the bottle washing machine cleansing power.Alkali lye current clean cycle system flow is that the beer bottle of No. 1 lye tank (vat) of (Fig. 1) technological process method (1-8) is sent into (1) No. 1 lye tank (vat) immersion by (10) chain bottle box, the alkali lye of (1) No. 1 lye tank (vat) flows into (1-3) No. 1 lye pump by (1-2) No. 1 lye pump entry mouth mask, No. 1 lye pump is squeezed into (1-5) (Fig. 2) ultrasonic equipment to alkali lye through (1-4) No. 1 lye pump outlet pipe, the alkali lye current by the ultrasonic echography cavitation after, enter (1-7) outer spraying nozzle and (1-9) interior spraying nozzle through (1-6) jet pipe, in (1-8) beer bottle, outer spray cleans.
The present invention is the exit of (2), (2-3) No. 2 lye pumps in No. 2 lye tank (vat) alkali lye current clean cycle systems (Fig. 1) the technological process method, connect (Fig. 2) ultrasonic equipment by cavitation after, alkali lye is via (3-6) jet pipe warp (2-7), (2-9) nozzle, be sprayed onto the inside and outside cleaning beer bottle of (2-8) beer bottle, reach the purpose that improves the bottle washing machine cleansing power.Alkali lye current clean cycle system flow is by (2-8) No. 2 lye tank (vat)s, beer bottle is sent into (2) by (10) chain bottle box, in (Fig. 1) the technological process method in No. 2 lye tank (vat)s, the alkali lye of (2) No. 2 lye tank (vat)s flows into (2-3) No. 2 lye pumps by (2-2) No. 2 lye pump entry mouth mask, No. 2 lye pump is squeezed into (2-5) (Fig. 2) ultrasonic equipment to alkali lye through (2-4) No. 2 lye pump outlet pipes, the alkali lye current by the ultrasonic echography cavitation after, enter (2-7) outer spraying nozzle and (2-9) interior spraying nozzle through jet pipe, in (2-8) beer bottle, outer spray cleans.
The present invention is (3) (3-3) exit of No. 3 lye pumps in No. 3 lye tank (vat) alkali lye current clean cycle systems (Fig. 1) the technological process method, after connecting (Fig. 2) ultrasonic equipment cavitation, alkali lye via (3-6) jet pipe through nozzle (3-7), (3-9), be sprayed onto the inside and outside cleaning beer bottle of (3-8) beer bottle, reach the purpose that improves the bottle washing machine cleansing power.Alkali lye water circulation purging system flow process is to be sent in (3) (Fig. 1) technological process method in No. 3 lye tank (vat)s by (10) chain bottle box by the beer bottle of (3-8) No. 3 lye tank (vat)s, the alkali lye of (3) No. 3 lye tank (vat)s flows into (3-3) No. 3 lye pumps by (3-3) No. 3 lye pump entry mouth mask, No. 3 lye pump is squeezed into (3-5) (Fig. 2) ultrasonic equipment to alkali lye through (3-4) No. 3 lye pump outlet pipes, the alkali lye current by the ultrasonic echography cavitation after through (3-6) jet pipe, enter (3-7) outer spraying nozzle and (3-9) in spraying nozzle, the inside and outside spray of (3-8) beer bottle is cleaned.
The present invention be in No. 4 hot water storgae hot water current clean cycle systems (Fig. 1) the technological process method (4) (4-3) exit of No. 4 heat-exchanger pumps connect (Fig. 2) ultrasonic equipment by cavitation after, via (4-6) jet pipe to nozzle (4-7), (4-9), be sprayed onto the inside and outside cleaning beer bottle of (4-8) beer bottle, reach the purpose that improves the bottle washing machine cleansing power.Hot water circuit purging system flow process is to be sent in (4) (Fig. 1) technological process method in No. 4 hot water storgaes by (10) chain bottle box by the beer bottle of (4-8) No. 4 hot water storgaes, the hot water of (4) No. 4 hot water storgaes enters mouth mask by (4-2) No. 4 heat-exchanger pumps and flows into (4-3) No. 4 heat-exchanger pumps, No. 4 heat-exchanger pump is squeezed into (4-5) (Fig. 2) ultrasonic equipment to hot water through (4-4) No. 4 heat-exchanger pump outlet pipes, after the ultrasonic echography cavitation, enter (4-7) outer spraying nozzle and (4-9) interior spraying nozzle through jet pipe, in (4-8) beer bottle, outer spray cleans.
The present invention be in No. 5 warm water tank warm water current clean cycle systems (Fig. 1) the technological process method (5) (5-3) exit of No. 5 warm water pumps connect (Fig. 2) ultrasonic equipment by cavitation after, warm water via jet pipe to nozzle (5-7), (5-9), be sprayed onto the inside and outside cleaning beer bottle of (5-8) beer bottle, reach the purpose that improves the bottle washing machine cleansing power.Warm water circulation purging system flow process is sent in (5) (Fig. 1) technological process method in No. 5 warm water tanks by (10) chain bottle box by the beer bottle of (5-8) No. 5 warm water tanks, the warm water of (5) No. 5 warm water tanks enters mouth mask by (5-2) No. 5 warm water pumps and flows into (5-3) No. 5 warm water pumps, No. 5 warm water pump is squeezed into (5-5) (Fig. 2) ultrasonic equipment to warm water through (5-4) No. 5 warm water pump outlet pipes, through entering (5-7) outer spraying nozzle and (5-9) interior spraying nozzle through jet pipe after the ultrasonic echography cavitation, in (5-8) beer bottle, outer spray cleans.
The present invention is (6) No. 6 cold water inlet places in (Fig. 1) technological process method, the series connection (Fig. 2) ultrasonic equipment by cavitation after, cold water via (6-6) jet pipe to nozzle (6-8), (6-10), be sprayed onto the inside and outside cleaning beer bottle of (6-9) beer bottle, reach the purpose that improves the bottle washing machine cleansing power.Cold water purging system flow process is to send into (6) (Fig. 1) in the cold water area by (6-8) No. 6 cold water area beer bottles by (10) chain bottle box, (6-6) water inlet pipe is by (6-2) water meter, flow into (6-3) valve, cold water enters (6-4) water inlet pipe, flow into (6-5) (Fig. 2) ultrasonic equipment, after the ultrasonic echography cavitation, enter (6-8) cold water through (6-7) jet pipe and enter outer spraying nozzle and (6-10) spraying nozzle in the cold rinse bank, in (6-9) cold water area beer bottle, outer spray cleans.
The present invention is (1-5) (2-5) (3-5) (4-5) (5-5) (6-5) (Fig. 2) ultrasonic equipment in (Fig. 1) technological process method, its effect is power supply (11) power supply, design as required more than 1, the main body of branched (2) transducer group forming apparatus, electric energy is transformed into mechanical energy, by (6) transducer probe emission ultrasonic wave, produce cavitation, (9) current that enter in (7) ultrasonic equipment are done cavitation process, increase cavitation density, along (1-6)-(5-6) of (8) water (flow) direction in (14) outlet pipe inflow (Fig. 1) technological process method, (6-7) jet pipe, flow along (10) water (flow) direction, with current as carrier, utilize ultrasonic cavitation act on beer bottle inside and outside clean.The present invention also is applicable to the bottle washing machine of the food and medicine containers such as feeding bottle, medicine bottle.
(Fig. 2) ultrasonic equipment is by (1) ultrasonic transducer outer cover, and (2) transducer a period of time is comprised of the multi-disc piezoelectric ceramics, and transducer was comprised of a plurality of a period of time, and ultrasonic equipment is comprised of branched transducer.Ultrasonic equipment minimum power 1kw, peak power 40kw, the scope of operating frequency is 10khz to 40khz, (3) transducer cover (4) flange (5) transducer body rack (6) transducer probe (7) ultrasonic equipment (8) water (flow) direction (11) power line (12) body adpting flange (13) water inlet pipe (14) outlet pipe.

Claims (6)

1. patent of the present invention provides a kind of " ultrasonic wave wash bottle new technological flow and method and ultrasonic wave bottle washing equipment " (Fig. 1).Rear title: (Fig. 1) technological process method, (Fig. 2) ultrasonic equipment.Each exit of pump and cold water pipe at bottle washing machine connect (Fig. 2) ultrasonic equipment, and the original current cleaning way of bottle washing machine, creationary changing into take water as carrier is with the mode of Ultrasonic Cleaning beer bottle.The technological process method: bottle washing machine is to advance a bottle platform (10) chain bottle box (11) bottle washing machine main body by (1) No. 1 (2) No. 2 (3) No. 3 lye tank (vat) of lye tank (vat) of lye tank (vat) (4) hot water storgaes (5) warm water tanks (6) cold water area (7) poster removers (8) bottle outlet platforms (9) in (Fig. 1) technological process method, in the water pump of outside each tank and (Fig. 1) technological process method (1-5) (2-5) (3-5) (4-5) (5-5) (6-5) (Fig. 2) ultrasonic equipment connect, the water pump of each tank series connection ultrasonic equipment can be installed in before the pump or behind the pump, can serial or parallel connection, current clean cycle system be can both consist of, (Fig. 1) technological process method and ultrasonic equipment formed.No. 1 lye tank (vat): alkali lye water current clean cycle system flow is sent into (1) No. 1 lye tank (vat) by the beer bottle of (1-8) No. 1 lye tank (vat) in (Fig. 1) technological process method by (10) chain bottle box and is soaked, the alkali lye of No. 1 lye tank (vat) flows into (1-3) No. 1 lye pump by (1-2) No. 1 lye pump entry mouth mask, No. 1 lye pump is squeezed into (1-5) (Fig. 2) ultrasonic equipment to alkali lye through (1-4) outlet pipe, the alkali lye current by the ultrasonic echography cavitation after, through (1-6) jet pipe enter (1-7) outer spraying nozzle and (1-9) in spraying nozzle, in the interior beer bottle of (1-8) No. 1 lye tank (vat), outer spray cleans.No. 2 lye tank (vat)s: alkali lye water current clean cycle system flow is to be sent in (2) (Fig. 1) technological process method in No. 2 lye tank (vat)s by (10) chain bottle box by the beer bottle of (2-8) No. 2 lye tank (vat)s in (Fig. 1) technological process method, the alkali lye of (2) No. 2 lye tank (vat)s flows into (2-3) No. 2 lye pumps by (2-2) No. 2 lye pump entry mouth mask, No. 2 lye pump is squeezed into (2-5) (Fig. 2) ultrasonic equipment to alkali lye through (2-4) No. 2 lye pump outlet pipes, the alkali lye current by the ultrasonic echography cavitation after, through (2-6) jet pipe enter (2-7) outer spraying nozzle and (2-9) in spraying nozzle, in the interior beer bottle of (2-8) No. 2 lye tank (vat)s, outer spray cleans.No. 3 lye tank (vat)s: alkali lye water current clean cycle system flow is to send into (3) by the beer bottle of (3-8) No. 3 lye tank (vat)s in (Fig. 1) technological process method by (10) chain bottle box to see in (Fig. 1) technological process method in No. 3 lye tank (vat)s, the alkali lye of (3) No. 3 lye tank (vat)s flows into (3-3) No. 3 lye pumps by (3-3) No. 3 lye pump entry mouth mask, No. 3 lye pump is squeezed into (3-5) (Fig. 2) ultrasonic equipment to alkali lye through (3-4) No. 3 lye pump outlet pipes, the alkali lye current by the ultrasonic echography cavitation after, through (3-6) jet pipe enter (3-7) outer spraying nozzle and (3-9) in spraying nozzle, in the interior beer bottle of (3-8) No. 3 lye tank (vat)s, outer spray cleans.No. 4 hot water storgaes: hot water current clean cycle system flow is to be sent in (4) (Fig. 1) technological process method in No. 4 hot water storgaes by (10) chain bottle box by the beer bottle of (4-8) No. 4 hot water storgaes in (Fig. 1) technological process method, the hot water of (4) No. 4 hot water storgaes enters mouth mask by (4-2) No. 4 heat-exchanger pumps and flows into (4-3) No. 4 heat-exchanger pumps, No. 4 heat-exchanger pump is squeezed into (4-5) (Fig. 2) ultrasonic equipment to hot water through (4-4) No. 4 heat-exchanger pump outlet pipes, after the ultrasonic echography cavitation, through (4-6) jet pipe enter (4-7) outer spraying nozzle and (4-9) in spraying nozzle, in the interior beer bottle of (4-8) No. 4 hot water storgaes, outer spray cleans.No. 5 warm water tanks: warm water current clean cycle system flow is to be sent in (5) (Fig. 1) technological process method in No. 5 warm water tanks by (10) chain bottle box by the beer bottle of (5-8) No. 5 warm water tanks in (Fig. 1) technological process method, the warm water of (5) No. 5 warm water tanks enters mouth mask by (5-2) No. 5 warm water pumps and flows into (5-3) No. 5 warm water pumps, No. 5 warm water pump is squeezed into (5-5) (Fig. 2) ultrasonic equipment to warm water through (5-4) No. 5 warm water pump outlet pipes, after the ultrasonic echography cavitation, through (5-6) jet pipe enter (5-7) outer spraying nozzle and (5-9) in spraying nozzle, in the interior beer bottle of (5-8) No. 5 warm water tanks, outer spray cleans.No. 6 cold water area: cold water purging system flow process is to be sent in (6) cold water area by (10) chain bottle box by (6-8) No. 6 cold water area beer bottles in (Fig. 1) technological process method, (6-6) water inlet pipe is by (6-2) water meter, flow into (6-3) valve, cold water enters (6-4) water inlet pipe, flow into (6-5) (Fig. 2) ultrasonic equipment, after the ultrasonic echography cavitation, through (6-7) jet pipe enter (6-8) (5-6) cold water enter the outer spraying nozzle of beer bottle and (6-10) in the cold rinse bank beer bottle, outer nozzle is in (6-9) cold water area beer bottle, outer spray cleans.The ultrasonic wave bottle washing equipment: the present invention is (1-5) (2-5) (3-5) (4-5) (5-5) (6-5) i.e. (Fig. 2) ultrasonic equipment in (Fig. 1) technological process method, its effect is by (11) Power supply, designing as required transducer (2) transducer was comprised of a plurality of a period of time, a period of time is comprised of the multi-disc piezoelectric ceramics, and the ultrasonic wave bottle washing equipment is comprised of branched transducer.Electric energy is transformed into mechanical energy, by (6) transducer probe emission ultrasonic wave, produce cavitation, the current that enter in (7) ultrasonic wave bottle washing equipment are done cavitation process, increase cavitation density, flow along water (flow) direction (Fig. 2) ultrasonic equipment (8), (10) water (flow) direction, flow into (1-6) (2-6) (3-6) (4-6) (5-6) (6-7) jet pipe in (Fig. 1) technological process method through outlet pipe.As carrier, make the ultrasonic cavitation energy with current inside and outside beer bottle, it is cleaned.The present invention also is applicable to the bottle washing machine of the food and medicine containers such as feeding bottle, medicine bottle.
2. according to claim 1 described in (Fig. 1) technological process method, bottle washing machine is at No. 1, No. 2, No. 3 lye tank (vat)s, the exit of the water pump of warm water tank, hot water storgae water pump, cold water inlet connect (Fig. 2) ultrasonic equipment, can be before pump or behind the pump, can serial or parallel connection, by the current of cavitation via jet pipe to inner and outer nozzles, be sprayed onto on the inside and outside wall of beer bottle, clean beer bottle, reach the purpose of the cleansing power that improves beer bottle.
3. described according to claim 1, in (Fig. 1) the technological process method, the bottle washing machine cold water inlet connects (Fig. 2) ultrasonic equipment by cavitation, cold water via jet pipe to inner and outer nozzles, be sprayed onto on the inside and outside wall of beer bottle, clean beer bottle, reach and improve the purpose of cleaning the beer bottle ability.
4. according to claim 1 (Fig. 1) technological process method is described, (Fig. 2) ultrasonic equipment of bottle washing machine is when work, (6) ultrasonic transducer probe produces cavitation by (7) ultrasonic wave bottle washing equipment, act in the water, take water as carrier current in (Fig. 1) technological process method (1-6) (2-6) (3-6) ((4-6) (5-6), (6-7) jet pipe flows to (1-7) to (5-7), (6-8) nozzle, to (1-8) (2-8) (3-8) (4-8) (5-8), (6-9) dirt of beer bottle, incrustation scale, spot, behind the materials such as bacterial plaque, can produce explosion, with incrustation scale, spot, bacterial plaque smashes and comes off, and reaches the purpose of cleaning and descaling.
5. according to claim 1 (Fig. 1) technological process method is described, (Fig. 1) technological process method is connected in respectively in the system of (1) (2) (3) lye tank (vat), (4) warm water tank, (5) hot water storgae, (6) cold water area in the bottle washing machine, continuous, on-line operation, take water as carrier, the ultrasonic cavitation energy is inside and outside beer bottle, to its cleaning.
6. according to claim 1 (Fig. 1) technological process method is described, and (Fig. 2) a period of time of (2) transducer of ultrasonic equipment is comprised of the multi-disc piezoelectric ceramics, and transducer was comprised of a plurality of a period of time, and ultrasonic equipment is comprised of branched transducer.Ultrasonic equipment minimum power 1kw, peak power 40kw,, the scope of operating frequency is 10khz to 40khz.
CN 201210168836 2012-05-21 2012-05-21 Novel process flow, method and device for ultrasonic bottle washing Pending CN102896107A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN 201210168836 CN102896107A (en) 2012-05-21 2012-05-21 Novel process flow, method and device for ultrasonic bottle washing

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN 201210168836 CN102896107A (en) 2012-05-21 2012-05-21 Novel process flow, method and device for ultrasonic bottle washing

Publications (1)

Publication Number Publication Date
CN102896107A true CN102896107A (en) 2013-01-30

Family

ID=47568765

Family Applications (1)

Application Number Title Priority Date Filing Date
CN 201210168836 Pending CN102896107A (en) 2012-05-21 2012-05-21 Novel process flow, method and device for ultrasonic bottle washing

Country Status (1)

Country Link
CN (1) CN102896107A (en)

Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103769388A (en) * 2014-01-23 2014-05-07 张家港市贝奇尔机械有限公司 Ultrasonic wave bottle and box integral pre-washing machine
CN105880214A (en) * 2014-12-16 2016-08-24 宁波润德机械制造有限公司 Ultrasonic bottle cleaning machine
CN105921451A (en) * 2016-05-24 2016-09-07 揭阳市美得福电子有限公司 Electric inductor cleaning device and tin welding and cleaning integrated machine
CN106269699A (en) * 2016-11-21 2017-01-04 无锡艾科瑞思产品设计与研究有限公司 A kind of continuous washing machine of soaking and rushing of external-placed type supersonic
CN106628958A (en) * 2017-01-10 2017-05-10 衡阳运输机械有限公司 High-efficiency environmental-friendly belt conveyor cleaning device
CN106739866A (en) * 2016-12-20 2017-05-31 石昌远 Temperature reducing device for vehicle tire
CN106975635A (en) * 2017-05-15 2017-07-25 张超 Install the bottle washing apparatus of ultrasonic wave cleaning in a kind of bottle washing machine additional
CN109261667A (en) * 2018-08-01 2019-01-25 广州风行乳业股份有限公司 A kind of recycling method of suitable coagulating type yoghurt vial

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103769388A (en) * 2014-01-23 2014-05-07 张家港市贝奇尔机械有限公司 Ultrasonic wave bottle and box integral pre-washing machine
CN105880214A (en) * 2014-12-16 2016-08-24 宁波润德机械制造有限公司 Ultrasonic bottle cleaning machine
CN105921451A (en) * 2016-05-24 2016-09-07 揭阳市美得福电子有限公司 Electric inductor cleaning device and tin welding and cleaning integrated machine
CN105921451B (en) * 2016-05-24 2018-08-24 揭阳市美得福电子有限公司 A kind of inductance cleaning device and scolding tin clean all-in-one machine
CN106269699A (en) * 2016-11-21 2017-01-04 无锡艾科瑞思产品设计与研究有限公司 A kind of continuous washing machine of soaking and rushing of external-placed type supersonic
CN106739866A (en) * 2016-12-20 2017-05-31 石昌远 Temperature reducing device for vehicle tire
CN106628958A (en) * 2017-01-10 2017-05-10 衡阳运输机械有限公司 High-efficiency environmental-friendly belt conveyor cleaning device
CN106975635A (en) * 2017-05-15 2017-07-25 张超 Install the bottle washing apparatus of ultrasonic wave cleaning in a kind of bottle washing machine additional
CN109261667A (en) * 2018-08-01 2019-01-25 广州风行乳业股份有限公司 A kind of recycling method of suitable coagulating type yoghurt vial

Similar Documents

Publication Publication Date Title
CN102896107A (en) Novel process flow, method and device for ultrasonic bottle washing
CN109341408B (en) Plate heat exchanger Integral cleaning method
CN206898017U (en) A kind of bottle washing machine
CN207222496U (en) A kind of gas-liquid mixed strong disturbance two-way type hydraulic system cleaning device
CN205690962U (en) The system of ultrasonic cleaning heat exchanger Jiao dirt
CN104018172A (en) Cold rolling degreasing device and degreasing method for stainless steel cold rolling continuous unit
CN204021835U (en) Load-transfer device cleaning machine
CN108745240A (en) A kind of new chemical chemical waste liquid specification recovery processing device
CN206496523U (en) It is a kind of can automatic desludging Hot water units
CN202779092U (en) Jetting circulation device for bottle washer soaking alkali pool
CN106311685A (en) Non-halt efficient scale removing equipment of horizontal reboiler
CN106115958B (en) Papermaking boiler feedwater treatment device and cation resin layer washing method
CN112474585A (en) Ultrasonic technology coupling chemical cleaning treatment system and method for membrane assembly
CN105056557A (en) Scale-preventing and clean-intensifying system and process applied to evaporator
CN205161826U (en) Water -saving stem tuber belt cleaning device
CN102895830B (en) Washing device for acetylene gas
CN106975635A (en) Install the bottle washing apparatus of ultrasonic wave cleaning in a kind of bottle washing machine additional
CN202762549U (en) Industrial fume purification unit with online self-cleaning function
CN202860338U (en) Washing device for acetylene gas
CN107971308A (en) A kind of portable pipe steam fog cleaning machine
CN108914494B (en) High-pressure pulse jet washing machine
CN202304587U (en) Multi-tube pass shell and tube heat exchange equipment employing high-pressure contaminant sluicing
CN202803656U (en) Cleaning system for solar silicon wafer
CN201959950U (en) Ultrasonic cleaning equipment
CN206177126U (en) High -pressure cleaning device

Legal Events

Date Code Title Description
C06 Publication
PB01 Publication
C02 Deemed withdrawal of patent application after publication (patent law 2001)
WD01 Invention patent application deemed withdrawn after publication

Application publication date: 20130130