CN105685199A - Preservation treatment device for conger eel fillets - Google Patents

Abstract

The invention discloses a preservation treatment device for conger eel fillets and relates to preservation treatment devices for food raw materials.The preservation treatment device is provided with a stirrer lifting system, a pressure ultrasonic work chamber component cover rotation drive component, a cover rotating spindle part, a stirrer component, a motor direct-connection reducer, a pressure ultrasonic work chamber component, a discharge component, a bearing part, a machine base and a hydraulic system.The preservation treatment device has the advantages that efficient preservation treatment is performed on the conger eel fillets by using a pressure-ultrasonic-assisting method, preservation treatment efficiency is increased, and cost is lowered; the bearing part is coordinated with a discharge oil cylinder component, so that the preservation treatment device is stable in work and convenient in loading and discharge; a stirrer rotates at low speed to allow the preservation treatment effect to be even and consistent; a temperature-control-medium jacket type preservation treatment container is provided to prevent the preservation treatment process from being affected by environment temperatures; the preservation treatment device is also applicable to the preservation treatment of aquatic products such as squids and shrimps and raw materials such as meat.

Description

Sliced eel temp. preservation processing device

Technical field

The present invention relates to raw-food material temp. preservation processing device, especially relate to a kind of sliced eel temp. preservation processing device。

Background technology

Anguillar japonica (Anguillajaponica), also known as Japanese eel, is commonly called as Anguillar japonica, common eel, is under the jurisdiction of Osteichthyes, Anguillar japonica order, Anguillar japonica section, and Anguillar japonica belongs to。Anguillar japonica body nearly circle elongated, anterior, tubular, afterbody are flat-sided；Kissing short, slightly flat flat, eye is little, is embedded in subcutaneous；The lower jaw relatively upper jaw is slightly prominent, and two jaws and vomer all have serration。Squama is little, is embedded in subcutaneous, arranges in seat shape。Body surface richness mucus, abdominal part down, keeps in dark place, and happiness is got into the cave。

Anguillar japonica is delicious because of its fine and tender taste, rich in multivitamin, protein and the polyene unsaturated fatty acid that is easily absorbed by the body, and very popular, have the title of " in water Radix Ginseng "。China is Anguillar japonica manufacturing country maximum in the world, total about 1700～1800, eel culture field, the whole nation, cultured area about 100,000 mu, annual production about 130,000 tons。

Support eel industry and be always up the field that Fujian agriculture industrialization is the most ripe, be also one of the highest field of agricultural extroversion degree。At present, Fujian Province produce per year Anguillar japonica 7～80,000 tons, account for the whole nation 1/2 and the whole world 1/3, Anguillar japonica and goods year export value reach more than 300,000,000 dollar。

Sliced eel outlet is one of major product of Anguillar japonica processing enterprise, at home in Anguillar japonica processing enterprise, is required for sliced eel is carried out Preservation Treatment, although the technique of this process is otherwise varied, but the Preservation Treatment time is long。So, develop sliced eel efficient fresh-keeping and process device, to the economic benefit improving Anguillar japonica processing enterprise and Anguillar japonica industry, have important practical significance。

Fillet are fresh-keeping utilizes osmosis exactly, penetrates in fillet by antistaling agent active ingredient, increases the retentiveness of fillet；Make to form emulsifying sequestering properties between antistaling agent and hydrone and flesh of fish molecule, improve the fresh and tender degree of fillet, elasticity and local flavor；Suppress microbial growth, make fillet color stability；The principal element affecting osmotic effect has pressure, property of raw material, antistaling agent concentration, temperature, time。

Ultrasound wave has mechanical effect, heat effect and cavitation effect, utilizes instantaneous pressure and pressure change that ultrasonic cavitation effect produces in a liquid, makes some antibacterial lethal, virally inactivated, even destroys the cell wall of certain micro-organisms, thus extending the freshness date of food。

The open preserved egg of Chinese patent 201020613313.1, salted egg's multi-scenarios method high-efficient automatic salting apparatus, it is provided with computer, data line, singlechip controller, add pressure electromagnetic valve, pressure transmitter, unload pressure electromagnetic valve, muffler, Pressure gauge, relief valve, first cover, second cover, 3rd cover, cover adpting flange, outlet pipe, tank body, vertical tank body, fowl egg, egg case, dividing plate, motor, water pump, fluid supplement solenoid valve, dosing pond, self-circulating electrical magnet valve, draining solenoid valve, waste liquid pool, solution circulating device control line, ultrasonic vibrator, add heat pipe, base rack, temperature sensor, type solution concentration sensor, solution, air compressor machine, compression air main valve, liquid level sensor, trailer, door-hinge, seal knocker, door, safety overflow mouth, trachea, trailer slideway, keyboard, liquid crystal display。It is to utilize ultrasound wave and fluctuation pressure that fowl egg are pickled。The deficiency that this device exists is: is not provided with agitator, causes that pickling liquid uneven concentration, product special flavour there are differences；Finished product takes out inconvenience, is not provided with safe self-locking system, there is potential safety hazard。

Summary of the invention

It is an object of the invention to provide a kind of safe, quick, simple to operate, sliced eel temp. preservation processing device that efficiency is higher。

The present invention is provided with: agitator jacking system, manosonication Studio component lid rotary drive assembly, spiral cover spindle unit, agitator assembly, motor direct connection decelerator, manosonication Studio component, discharge assembly, supporting parts, support and hydraulic system；

Described agitator jacking system is used for the integral elevating of agitator assembly, motor direct connection decelerator, manosonication Studio component manosonication Studio component lid；

Described manosonication Studio component lid rotary drive assembly is used for driving the rocking bar reciprocating swing of spiral cover spindle unit；

Described spiral cover spindle unit is used for driving manosonication Studio component manosonication Studio component lid chimeric with the boss groove of manosonication Studio component seat and disengaging；

Described agitator assembly, for sliced eel and fresh-keeping liquid Homogeneous phase mixing, makes the fresh-keeping liquid even concentration in manosonication Studio component, and sliced eel is in suspended state in fresh-keeping liquid；

Described motor direct connection decelerator is for the slow-speed of revolution for agitator of being slowed down by the high rotating speed of motor；

Described manosonication Studio component is used for sliced eel Preservation Treatment, by pressure and hyperacoustic assosting effect, accelerates fresh-keeping liquid active ingredient to sliced eel Preservation Treatment effect, shortens the Preservation Treatment time；

Described discharge assembly is used for the sliced eel after pouring out Preservation Treatment and fresh-keeping liquid；

Described supporting parts are used for supporting manosonication Studio component；

Described support processes the component of device for supporting and fixedly mount sliced eel efficient fresh-keeping；

Described hydraulic system is for by job requirement, providing hydraulic oil to the oil cylinder of the oil cylinder of discharge assembly, the oil cylinder of manosonication Studio component lid rotary drive assembly, agitator jacking system；

Described agitator jacking system is provided with the 1st oil cylinder, lateral frame and the 2nd oil cylinder；

Cylinder piston rod coupling sleeve one end of described 1st oil cylinder is set in piston rod, and the piston rod other end is set in piston, and oil cylinder cylindrical is sleeved in the hole, location of support and connects firmly with support；The cylinder piston rod coupling sleeve other end of described 1st oil cylinder is installed in lateral frame the 1st positioning sleeve, and lateral frame the 1st positioning sleeve is set in lateral frame bar and connects firmly；

Described lateral frame is provided with the 1st positioning sleeve, lateral frame bar and the 2nd positioning sleeve；Described lateral frame bar is set with the 1st positioning sleeve and the 2nd positioning sleeve and is fixed by screw, and screw fixedly mounts spiral cover oil cylinder seat and motor direct connection decelerator；A bearing of lateral frame bar suit spiral cover spindle unit and a bearing of agitator assembly；

Cylinder piston rod coupling sleeve one end of described 2nd oil cylinder is set in piston rod, and the piston rod other end is set in piston, and oil cylinder cylindrical is sleeved in the hole, location of support and connects firmly with support；The cylinder piston rod coupling sleeve other end of described 2nd oil cylinder is installed in lateral frame the 2nd positioning sleeve, and lateral frame the 2nd positioning sleeve is set in lateral frame bar and connects firmly；

Described manosonication Studio component lid rotary drive assembly is provided with oil cylinder and props up bearing and oil cylinder；Piston rod one end of described oil cylinder is by bearing pin and a bearing hinge-coupled, and a bearing is fixed on lateral frame bar, and one end of oil cylinder is by the rocking bar hinge-coupled of bearing pin and spiral cover spindle unit；

Described spiral cover spindle unit is provided with rocking bar, axle, bearing positioning sleeve, bearing cap, the 1st bearing, bearing, the 2nd bearing and gear；Described rocking bar is installed on axle, and circumference is positioned by key, is axially positioned by bearing positioning sleeve；Bearing pin and rocking bar hinge-coupled are passed through in one end of oil cylinder；Supporting cover for seat is loaded on lateral frame bar；Gear is installed on axle；The meshed transmission gear of gear and agitator assembly, axle sleeve is loaded on bearing；

Described agitator assembly is provided with axle, conical gear, the 1st bearing, a bearing, the 2nd bearing, the 3rd bearing, the 4th bearing, agitator and gear；Described conical gear is installed on axle, the conical gear engaged transmission of conical gear and motor direct connection decelerator, passes the conical gear torque of motor direct connection decelerator in axle；1st bearing and the 2nd bearing holder (housing, cover) are loaded on a bearing endoporus；Supporting cover for seat is contained in the hole of lateral frame bar；Described gear set is in the manosonication Studio component cap bore of manosonication Studio component；3rd bearing and the 4th bearing holder (housing, cover) are contained in gear hole；Axle sleeve is loaded in the 1st bearing, the 2nd bearing, the 3rd bearing, the 4th dead eye；Described agitator is installed on axle；

Described motor direct connection decelerator is arranged on lateral frame bar, the conical gear of motor direct connection decelerator and the conical gear engaged transmission of agitator assembly, and motor torque is passed to conical gear；

Described manosonication Studio component is provided with manosonication Studio component lid, compressed air inlet pipe and Pressure gauge assembly, relief valve assembly, supersonic generator assembly, the 1st temperature control medium tube joint, the 2nd temperature control medium tube joint, fork-shaped assembly, rotates discharge rotating assembly, manosonication Studio component seat, liquidometer assembly, exhaust valve component and safety lock assembly；

The boss edge card of described manosonication Studio component lid is contained in the boss groove of manosonication Studio component seat, manosonication Studio component lid is blocked by boss groove respectively or departs from (structure is similar to horizontal sterilizer) to boss groove, and manosonication Studio component lid is held level with both hands platform arcuate groove card dress safety lock assembly eccentric cam；

Described rotation discharge rotating assembly is provided with the 1st bearing, the 1st Y-piece, rotating shaft, the 2nd Y-piece and the 2nd bearing；1st bearing, the 2nd bearing are set with in the 1st bearing block, the 2nd bearing block, and bearing block is fixed on support；Described shaft set is in the 1st bearing and the 2nd bearing, in rotating shaft stage casing, by bolt by fork-shaped assembly and the 1st Y-piece, the 2nd Y-piece clamping rotating shaft；Described fork-shaped assembly is set in the bottom of manosonication Studio component seat；Manosonication Studio component seat can rotate to an angle around the shaft, the material in discharge pressure ultrasound wave Studio component seat；

Described supersonic generator is tightly placed in manosonication Studio component seat by connector；1st temperature control medium tube joint and the 2nd temperature control medium tube joint rotating connection are in supersonic generator interlayer shell side；Relief valve assembly, compressed air inlet pipe and Pressure gauge assembly by joint rotating connection in manosonication Studio component seat lateral surface；Liquidometer assembly, exhaust valve component, by joint rotating connection in manosonication Studio component seat lateral surface；

Described safety lock assembly is provided with the 1st bearing, axle, the 2nd bearing, cam and handle；Handle is combined on cam screw；Cam is installed in axle；1st bearing and the 2nd bearing holder (housing, cover) are loaded in the boss hole of axle and manosonication Studio component seat, and axle sleeve is loaded in dead eye, and are positioned by the 1st bearing, the 2nd bearing, boss, cam, nut and connected firmly；The lower end slot of axle is installed in the valve rod of exhaust valve component, and axle rotates, and controls the open degree of compression air exhaust valve；Cam is stuck on manosonication Studio component lid and holds level with both hands in platform arcuate groove；

Oil cylinder seat one end of described discharge cylinder component is by the boss hinge-coupled with holes outside bearing pin and manosonication Studio component seat, piston rod one end is by the hole hinge-coupled of bearing pin with support, piston action by discharge cylinder component, manosonication Studio component seat rotates around the shaft, completes process for layout operation；

Described supporting parts are fixedly mounted on support；

Described hydraulic system and the oil cylinder of agitator jacking system, the oil cylinder of manosonication Studio component lid rotary drive assembly, discharge assembly oil cylinder be connected。

Described manosonication Studio component can adopt jacket type structure。

Described motor direct connection decelerator can be connected firmly on lateral frame by bolt。

Described manosonication Studio component lid rotary drive assembly can be connected firmly on lateral frame by bolt。

Described supersonic generator can by threaded engagement bottom manosonication Studio component。

Described manosonication Studio component preferably tilts to install；Manosonication Studio component side can by roller supporting。

The seat discharging of described manosonication operating room is by oil cylinder control；Described agitator and manosonication Studio component lid are promoted by oil cylinder and take out。

Described hydraulic system can be provided with the 1st 3-position 4-way guiding valve, the 2nd 3-position 4-way guiding valve, the 3rd 3-position 4-way guiding valve, one-way speed-regulating valve, filter, oil pump, fuel tank, overflow valve, check valve。

Compared with existing food preservation unit, the outstanding advantages of the present invention is as follows:

1) utilize pressure, ultrasonic assistant method first, sliced eel is carried out efficient fresh-keeping process, improve Preservation Treatment efficiency, reduce cost。

2) will supporting parts and discharged oil cylinder component with the use of, make working stability of the present invention, dress, discharging are convenient。

3) low speed rotation of agitator, makes fresh-keeping effect uniformity。

4) temperature control medium jacket type Preservation Treatment container is set, it is to avoid Preservation Treatment process is influenced by ambient temperature。

5) it is contemplated that the present invention may be use with the Preservation Treatment of the raw material such as the aquatic products such as squid, shrimp and meat。

Accompanying drawing explanation

Fig. 1 is the structure composition schematic diagram of the embodiment of the present invention。

Fig. 2 is the agitator jacking system structure composition schematic diagram of the embodiment of the present invention。

Fig. 3 is the manosonication Studio component lid rotary drive assembly structure composition schematic diagram of the embodiment of the present invention。

Fig. 4 is the agitator assembly structure composition schematic diagram of the embodiment of the present invention。

Fig. 5 is the manosonication Studio component structure composition schematic diagram of the embodiment of the present invention。

Fig. 6 is the discharge assembly structure composition schematic diagram of the embodiment of the present invention。

Detailed description of the invention

Referring to Fig. 1～6, the embodiment of the present invention is provided with: agitator jacking system 1, manosonication Studio component lid rotary drive assembly 2, spiral cover spindle unit 3, agitator assembly 4, motor direct connection decelerator 5, manosonication Studio component 6, discharge assembly 7, supporting parts 8, support 9 and hydraulic system 10。

Described agitator jacking system 1 is made up of the 1st oil cylinder 101, lateral frame the 102, the 2nd oil cylinder 103。

Described 1st oil cylinder 101 is by nut 10101, nut 10102, cylinder piston rod coupling sleeve 10103, 1st sliding seal lid 101041, 1st sliding seal 101051, 1st piston rod guide sleeve 101061, 1st oil cylinder transparent cover 101071, 1st fixing seals 101081, 2nd sliding seal 101052, 1st hydraulic oil pipe joint 101091, piston rod 10110, oil cylinder 10111, 1st piston sliding seal 101121, 2nd piston sliding seal 101122, piston 10113, 2nd hydraulic oil pipe joint 101092, 2nd fixing seals 101082, 2nd oil cylinder transparent cover 101072, 3rd sliding seal 101053, 2nd piston rod guide sleeve 101062, 4th sliding seal 101054, 2nd sliding seal lid 101042 forms。

Described cylinder piston rod coupling sleeve 10103 one end is set in piston rod 10110, screw and pin connect firmly；The piston rod other end is set in piston 10113, nut fasten；Piston 10113 sliding sleeve is in oil cylinder 10111, peripheral groove card dress sliding seal 101121,101122；1st sliding seal lid 101041 is set in the 1st oil cylinder transparent cover 101071, and is fixed by screw；1st oil cylinder transparent cover endoporus suit the 1st piston rod guide sleeve 101061, two ends are set with sliding seal 101051,101052, peripheral groove card dress fixing seals 101081, screw and oil cylinder connect firmly；1st hydraulic oil pipe joint 101091, the 2nd hydraulic oil pipe joint 101092 is combined on oil cylinder outer wall screw respectively；2nd sliding seal lid 101042 is set in the 2nd oil cylinder transparent cover 101072, and is fixed by screw；2nd oil cylinder transparent cover endoporus suit the 2nd piston rod guide sleeve 101062, two ends are set with sliding seal, and the 2nd oil cylinder transparent cover peripheral groove card fills the 2nd fixing seals 101082, and oil cylinder transparent cover is connected firmly by screw and oil cylinder；Oil cylinder cylindrical is sleeved in the hole, location of support 9, and is connected firmly by screw and support。

Cylinder piston rod coupling sleeve 10103 other end of described 1st oil cylinder 101 is installed in lateral frame the 1st positioning sleeve 1021, and circumference is positioned by key, is axially fixed by nut 10101, nut 10102, and lateral frame the 1st positioning sleeve is set in lateral frame bar 1022, and is connected firmly by screw。

Described lateral frame 102 is provided with the 1st positioning sleeve 1021, lateral frame bar the 1022 and the 2nd positioning sleeve 1023；

Described lateral frame bar 1022 is set with the 1st positioning sleeve the 1021 and the 2nd positioning sleeve 1023, and is fixed by screw；Screw the fixed installation oil cylinder seat 201 of manosonication Studio component lid rotary drive assembly 2, motor direct connection decelerator 5；The bearing propping up bearing, agitator assembly 4 of suit spiral cover spindle unit 3, and fixed by screw。

Described 2nd oil cylinder 103 is by nut 10301, nut 10302, cylinder piston rod coupling sleeve 10303, 1st sliding seal lid 103041, 1st sliding seal 103051, 1st piston rod guide sleeve 103061, 1st oil cylinder transparent cover 103071, 1st fixing seals 103081, 2nd sliding seal 103052, 1st hydraulic oil pipe joint 103091, piston rod 10310, oil cylinder 10311, 1st piston sliding seal 103121, 2nd piston sliding seal 103122, piston 10313, 2nd hydraulic oil pipe joint 103092, 2nd fixing seals 103082, 2nd oil cylinder transparent cover 103072, 3rd sliding seal 103053, 2nd piston rod guide sleeve 103062, 4th sliding seal 103054, 2nd sliding seal lid 103042 forms。

Described cylinder piston rod coupling sleeve 10303 one end is set in piston rod 10310, screw and pin connect firmly；The piston rod other end is set in piston 10313, nut fasten；Piston 10313 sliding sleeve is in oil cylinder 10311, peripheral groove card dress sliding seal 103121,103122；1st sliding seal lid 103041 is set in the 1st oil cylinder transparent cover 103071, and is fixed by screw；1st oil cylinder transparent cover endoporus suit the 1st piston rod guide sleeve 103061, two ends are set with sliding seal 103051,103052, peripheral groove card dress fixing seals 103081, screw and oil cylinder connect firmly；1st hydraulic oil pipe joint 103091, the 2nd hydraulic oil pipe joint 103092 is combined on oil cylinder outer wall screw respectively；2nd sliding seal lid 103042 is set in the 2nd oil cylinder transparent cover 103072, and is fixed by screw；2nd oil cylinder transparent cover endoporus suit the 2nd piston rod guide sleeve 103062, two ends are set with sliding seal, and the 2nd oil cylinder transparent cover peripheral groove card fills the 2nd fixing seals 103082, and oil cylinder transparent cover is connected firmly by screw and oil cylinder；Oil cylinder cylindrical is sleeved in the hole, location of support 9, and is connected firmly by screw and support。

The cylinder piston rod coupling sleeve 10303 of described 2nd oil cylinder 103 is installed in lateral frame the 2nd positioning sleeve 1023, and circumference is positioned by key, is axially fixed by nut 10301,10302, and lateral frame the 2nd positioning sleeve is set in lateral frame bar 1022, and is connected firmly by screw。

Described manosonication Studio component lid rotary drive assembly 2 is propped up bearing 201 by oil cylinder, oil cylinder 202 forms。

One end of the piston rod of described oil cylinder 202 is by bearing pin and bearing 201 hinge-coupled, and a bearing is fixed on lateral frame bar 1022 by screw, and one end of oil cylinder is by rocking bar 301 hinge-coupled of bearing pin and spiral cover spindle unit 3。

Described spiral cover spindle unit 3 is made up of rocking bar 301, axle 302, bearing positioning sleeve 303, bearing cap the 304, the 1st bearing 30501, bearing the 306, the 2nd bearing 30502, gear 307。

Described rocking bar 301 is installed on axle 302, and circumference is positioned by key, is axially positioned by bearing positioning sleeve 303, and is fixed by nut；Bearing pin and rocking bar hinge-coupled are passed through in oil cylinder 202 one end；Positioning sleeve 303 is set in axle, is axially positioned by bearing and rocking bar, and is fixed by nut；1st bearing holder (housing, cover) is loaded on bearing 306 endoporus, axially by a bearing and bearing cap location；2nd bearing holder (housing, cover) is loaded on bearing 306 endoporus, axially by a bearing, shaft shoulder location, and is fixed by nut；Prop up bearing 306 and be set in lateral frame bar 1022, and fixed by screw；Gear 307 is installed on axle, and is fixed by nut；Gear 307 and gear 415 engaged transmission, be transmitted to gear 415 by the swing of rocking bar 301, drives gear 415；Axle 302 is set in bearing, is radially positioned by bearing, axially by bearing, a bearing, bearing cap, positioning sleeve, rocking bar, nut location, and fixes。

Described agitator assembly 4 is made up of conical gear locking nut 401, axle 402, conical gear 403, bearing retainer nut the 404, the 1st bearing (ball) cover the 4051, the 1st bearing 4061, bearing the 407, the 1st positioning sleeve the 4081, the 2nd bearing the 4062, the 2nd bearing (ball) cover the 4052, the 3rd bearing the 4063, the 2nd positioning sleeve the 4082, the 4th bearing the 4064, the 1st sealing gasket the 4091, the 2nd sealing gasket 4092, set 410, locking nut 411, sealing member 412, locking nut 413, agitator 414, gear 415。

Described conical gear 403 is installed on axle 402, and circumference is positioned by key, is axially positioned and fixed by the shaft shoulder and conical gear locking nut 401, and the conical gear torque of motor direct connection decelerator is passed in axle 402 by and the conical gear engaged transmission of motor direct connection decelerator；1st bearing the 4061 and the 2nd bearing 4062 is set in bearing 407 endoporus, is axially positioned and fixed by the shaft shoulder, the 1st positioning sleeve 4081, bearing retainer nut the 404, the 1st bearing (ball) cover 4051；Prop up bearing 407 be sleeved in the hole of lateral frame bar 1022 and fixed by screw。

Described gear 415 is set in manosonication Studio component manosonication Studio component lid 601 hole, pin, screw and manosonication Studio component lid 601 connect firmly；3rd bearing the 4063 and the 4th bearing 4064 is sleeved in gear 415 hole, is axially positioned and fixed by the shaft shoulder, the 2nd positioning sleeve 4082, set 410, locking nut 413；Sealing member 412 cylindrical is set in gear 415 endoporus, and inner circle coordinates with set 410, keeps axle two ends seal isolation；1st sealing gasket 4091 and the 2nd sealing gasket 4092 are rotatably compressed by screw, locking nut 411 and are sealed。

Axle sleeve is loaded in the 1st bearing the 4061, the 2nd bearing the 4062, the 3rd bearing the 4063, the 4th bearing 4064 hole, axially by bearing retainer nut 404, locking nut the 413, the 1st positioning sleeve the 4081, the 2nd positioning sleeve 4082, bearing, bearing cap, shaft shoulder location, and fixed by bearing retainer nut 404, locking nut 413。

Described agitator 414 is installed on axle, and circumference is positioned by key, is axially positioned by the shaft shoulder and gland, and is fixed by screw。

Described motor direct connection decelerator 5, is arranged on lateral frame by bolt, conical gear 403 transmission of the conical gear of motor direct connection decelerator 5 and agitator assembly 4, and motor torque is passed to conical gear 403。

Described manosonication Studio component 6 by manosonication Studio component lid 601, compressed air inlet pipe and Pressure gauge assembly 602, relief valve assembly 603, supersonic generator assembly the 604, the 1st temperature control medium tube joint the 60501, the 2nd temperature control medium tube joint 60502, fork-shaped assembly 606, rotate discharge rotating assembly 607, manosonication Studio component seat 608, liquidometer assembly 609, exhaust valve component 610, safety lock assembly 611 form。

Described gear 415 is set in manosonication Studio component lid 601, seals with sealing gasket, and is fastened by screw and nut；The boss edge card of manosonication Studio component lid 601 is contained in the boss groove of manosonication Studio component seat 608, and can rotate to an angle along groove, manosonication Studio component lid 601 is blocked by groove respectively or departs from (structure is similar to horizontal sterilizer) to groove, and manosonication Studio component lid 601 upper end platform arcuate groove is installed in the eccentric cam 61103 of safety lock assembly 611。

Described rotation discharge rotating assembly 607 is made up of the 1st locking nut the 607011, the 1st bearing the 607021, the 1st bearing cap the 607031, the 1st bearing block the 607041, the 1st Y-piece 607051, rotating shaft the 60706, the 2nd Y-piece the 607052, the 2nd bearing block the 607042, the 2nd bearing cap the 607032, the 2nd bearing the 607022, the 2nd locking nut 607012。

1st bearing 607021 is set in the 1st bearing block 607041, by bearing block, bearing cap, locking nut location, and fastens；1st bearing cap 607031 is set in the 1st bearing block, and is fixed by screw；Bearing block is fixed on support 9 by screw。

2nd bearing 607022 is set in the 2nd bearing block 607042, by bearing block, bearing cap, locking nut location, and fastens；2nd bearing cap 607032 is set in the 2nd bearing block, and is fixed by screw；Bearing block is fixed on support 9 by screw。

Described rotating shaft 60706 is set in bearing, and two ends are by the shaft shoulder, bearing location, and fixed by locking nut；In rotating shaft stage casing, by bolt effect, fork-shaped assembly the 606 and the 1st Y-piece the 607051, the 2nd Y-piece 607052 being held on rotating shaft, rotating shaft 60706 supports manosonication Studio component 6。

Described fork-shaped assembly 606 is set in the bottom of manosonication Studio component seat 608, screw connect firmly with it；Manosonication Studio component seat is 60706 rotation around the shaft, and the material in discharge pressure ultrasound wave Studio component seat；Supersonic generator 60401 is combined on supersonic generator connector 60402；Supersonic generator connector is tightly placed in manosonication Studio component seat 608, and is connected firmly by screw；1st temperature control medium tube joint the 60501, the 2nd temperature control medium tube joint 60502 is combined on manosonication Studio component seat 608 interlayer outer side face；Relief valve assembly 603, compressed air inlet pipe and Pressure gauge assembly 602 by joint rotating connection in manosonication Studio component seat 608 lateral surface；Liquidometer assembly 609, exhaust valve component 610, by joint rotating connection in manosonication Studio component seat lateral surface；Oil cylinder seat one end of discharge cylinder component 7 is by the boss hinge-coupled with holes outside bearing pin and manosonication Studio component seat, piston action by discharge cylinder component 7, manosonication Studio component seat is 60706 rotation around the shaft, completes process for layout operation。

Oil cylinder piston one end of described discharge assembly 7 is by the hole hinge-coupled of bearing pin with support 9, and oil cylinder seat one end is by the boss hinge-coupled with holes outside bearing pin and manosonication Studio component seat。

When device is in the operation of sliced eel Preservation Treatment, manosonication Studio component seat 608 and cover radially compressed power ultrasound wave Studio component supporting parts the 1st supporting parts the 801, the 2nd support parts the 802, the 3rd support parts 803 support, and by the piston pulling force effect of discharge cylinder component 7, it is in steady statue, is axially supported by rotating shaft 60706。

Described safety lock assembly 611 is made up of the 1st bearing 611011, axle the 61102, the 2nd bearing 611012, cam 61103, handle 61104。

Handle 61104 is combined on cam 61103 screw；Cam is installed in axle 61102, and circumference is positioned by key, is axially positioned by bearing and nut, and fixes；1st bearing the 611011, the 2nd bearing 611012 is set in the boss hole of axle and ultrasound wave operating room seat, by the shaft shoulder, boss, cam orientation, and is fastened by nut；Axle 61102 is set in dead eye, and is positioned by the 1st bearing, the 2nd bearing, boss, cam, nut and connected firmly；The lower end slot of axle is installed in the valve rod of exhaust valve component 610, and axle rotates, and controls the open degree of compression air exhaust valve；Cam 61103 is stuck in the platform arcuate groove of manosonication Studio component lid 601 upper end, and lid is blocked by cam effect, it is impossible to rotate；Cam is completely disengaged with manosonication Studio component lid 601 upper end platform arcuate groove, and when not having draught head inside and outside manosonication Studio component 6, lid just can rotate。Handle 61104 progressively rotates, and exhaust valve opening degree increases, and progressively discharges gas；When the compression air in manosonication Studio component 6 does not drain completely, air bleeding valve air vent has gas to spray, show there is draught head inside and outside manosonication Studio component, manosonication Studio component lid 601 is made to open by static friction, when only there is no draught head inside and outside manosonication Studio component, cam 61103 just can be made completely disengaged with the platform arcuate groove of manosonication Studio component lid 601 upper end, reach safety lock effect。

Described manosonication Studio component supporting parts 8 are supported parts the 801, the 2nd supporting parts the 802, the 3rd supporting parts 803 by the 1st and form。

Described 1st supporting parts the 801, the 2nd supporting parts the 802, the 3rd supporting parts 803 are bolted and are arranged on support 9。

Described support 9 is in order to install and to support each assembly of sliced eel temp. preservation processing device。

Described hydraulic system 10 is made up of the 1st 3-position 4-way guiding valve the 10011, the 2nd 3-position 4-way guiding valve the 10012, the 3rd 3-position 4-way guiding valve 10013, one-way speed-regulating valve 1002, filter 1003, oil pump 1004, fuel tank 1005, overflow valve 1006, check valve 1007。

Operation principle and the using method of the present invention are as follows:

Start hydraulic system；Operate the 1st 3-position 4-way guiding valve 10011, make hydraulic oil enter the oil cylinder piston left end of discharge assembly 7, make manosonication Studio component seat 608 be in Preservation Treatment duty；Operating the 1st 3-position 4-way guiding valve 10011, about the oil cylinder piston of discharge assembly 7, two chamber hydraulic oil are in closed state。According to technological requirement, add fresh-keeping liquid in manosonication Studio component seat 608 by solid-liquid ratio；Refrigeration system temperature control medium enters chuck through the chuck the 2nd joint (A) 60502 of manosonication Studio component seat 608, discharge from the 1st joint (B) 60501, in maintenance manosonication Studio component seat 608 working chamber, temperature of liquid is to meeting technological requirement, sliced eel is delivered to manosonication Studio component seat 608, starts the supersonic generator 60401 of supersonic generator assembly 604；Operating the 2nd 3-position 4-way guiding valve 10012 makes hydraulic oil enter the 1st oil cylinder 101 through hydraulic oil pipe joint 101091, enters the 2nd oil cylinder 103 epicoele through hydraulic oil pipe joint 103091；Lateral frame 102 and the assembly being mounted above, manosonication Studio component manosonication Studio component lid 601 and agitator, under the piston action of the 1st oil cylinder the 101, the 2nd oil cylinder 103, being down to the plane of manosonication Studio component lid 601 and manosonication Studio component seat 608 upper boss groove, the boss of manosonication Studio component lid 601 is inserted in manosonication Studio component seat 608 inner cylinder face；Operate the 2nd 3-position 4-way guiding valve 10012, make the 1st oil cylinder the 101, the 2nd oil cylinder 103 piston upper and lower chamber hydraulic oil be in closed state；Operate the 3rd 3-position 4-way guiding valve 10013, hydraulic oil is made to enter the oil cylinder 202 piston left end of manosonication Studio component lid rotary drive assembly 2, oil cylinder seat promotes rocking bar 301 rotationally clockwise by bearing pin, axle 302 with rocking bar 301 key connecting, gear 307 also turns over certain angle in the lump, engage with gear 307 and and the gear 415 that connects firmly of manosonication Studio component lid 601 also rotate in the lump, manosonication Studio component lid 601 edge lug boss enters in manosonication Studio component seat 608 boss groove (such as the lid of pressure cooker and screwing of pot)；Along the circumferential direction, manosonication Studio component lid 601 and manosonication Studio component seat 608 boss groove have certain thickness difference, along with manosonication Studio component lid 601 rotates into, manosonication Studio component lid 601 edge lug boss and 608 boss groove short transverse gaps disappear, until closely sealed。When lid bears intrinsic pressure, lid can not depart from 608 boss grooves；It is axially arranged with sealing, it is prevented that bear intrinsic pressure and produce leakage between manosonication Studio component lid 601 and 608 boss；Start motor direct connection decelerator 5, drive agitator 414 to rotate, fresh-keeping liquid and sliced eel are mixed, so as to be uniformly distributed。

By technological requirement, compress the air interface from compressed air inlet pipe and Pressure gauge assembly 602, entering manosonication Studio component 6, so far, the sliced eel being in Preservation Treatment being carried out manosonication Preservation Treatment, until meeting technological requirement。

When Preservation Treatment end-of-job, close the intake valve of compressed air inlet pipe and Pressure gauge assembly 602；The progressively handle 61104 of spin safe lock set 611, the compression air in manosonication Studio component is discharged from the air vent of exhaust valve component 610 therewith, until manosonication Studio component 6 external and internal pressure is equal；The cam separating pressure ultrasound wave Studio component lid 601 upper end platform arcuate groove of spin safe lock set 611；

Operate the 3rd 3-position 4-way guiding valve 10013, hydraulic oil is made to enter the oil cylinder 202 of manosonication Studio component lid rotary drive assembly 2, piston right-hand member, oil cylinder pulls rocking bar 301 counterclockwise to rotate by bearing pin, with the axle 302 of rocking bar 301 key connecting, gear 307 also together with turn over certain angle, engage with gear 307 and and the gear 415 that connects firmly of manosonication Studio component lid 601 also rotate in the lump, manosonication Studio component lid 601 edge lug boss separating pressure ultrasound wave Studio component seat 608 boss groove；Operating the 3rd 3-position 4-way guiding valve 10013, make manosonication Studio component spiral cover drive the oil cylinder 202 of assembly 2, piston two ends hydraulic oil is closed state。

Operate the 2nd 3-position 4-way guiding valve 10012, hydraulic oil is made to enter agitator jacking system the 1st oil cylinder the 101, the 2nd oil cylinder 103 piston cavity of resorption, lateral frame 102 and the parts being mounted above, manosonication Studio component manosonication Studio component lid 601 and agitator, piston action by the 1st oil cylinder the 101, the 2nd oil cylinder 103 rises, until agitator rises to meets discharging requirement for height；Operate the 2nd 3-position 4-way guiding valve 10012, make the 1st oil cylinder the 101, the 2nd oil cylinder 103 piston upper and lower cavity hydraulic oil be in closed state。

Stop supersonic generator work, stop refrigeration system temperature control medium and feed。

Operate the 1st 3-position 4-way guiding valve 10011, hydraulic oil is made to enter the upper piston area of unloading fuel tank 7, the thrust that manosonication Studio component seat 608 is overlapped by the oil cylinder of discharge assembly 7,60706 goes to discharge position around the shaft, the sliced eel handled well and fresh-keeping liquid is drawn off。So far, a cycle of operation is completed。

Claims (10)

1. sliced eel temp. preservation processing device, it is characterised in that be provided with: agitator jacking system, manosonication Studio component lid rotary drive assembly, spiral cover spindle unit, agitator assembly, motor direct connection decelerator, manosonication Studio component, discharge assembly, supporting parts, support and hydraulic system；

Described agitator jacking system is used for the integral elevating of agitator assembly, motor direct connection decelerator, manosonication Studio component manosonication Studio component lid；

Described manosonication Studio component lid rotary drive assembly is used for driving the rocking bar reciprocating swing of spiral cover spindle unit；

Described spiral cover spindle unit is used for driving manosonication Studio component manosonication Studio component lid chimeric with the boss groove of manosonication Studio component seat and disengaging；

Described agitator assembly, for sliced eel and fresh-keeping liquid Homogeneous phase mixing, makes the fresh-keeping liquid even concentration in manosonication Studio component, and sliced eel is in suspended state in fresh-keeping liquid；

Described motor direct connection decelerator is for the slow-speed of revolution for agitator of being slowed down by the high rotating speed of motor；

Described manosonication Studio component is used for sliced eel Preservation Treatment, by pressure and hyperacoustic assosting effect, accelerates fresh-keeping liquid active ingredient to sliced eel Preservation Treatment effect, shortens the Preservation Treatment time；

Described discharge assembly is used for the sliced eel after pouring out Preservation Treatment and fresh-keeping liquid；

Described supporting parts are used for supporting manosonication Studio component；

Described support processes the component of device for supporting and fixedly mount sliced eel efficient fresh-keeping；

Described hydraulic system is for by job requirement, providing hydraulic oil to the oil cylinder of the oil cylinder of discharge assembly, the oil cylinder of manosonication Studio component lid rotary drive assembly, agitator jacking system。

2. sliced eel temp. preservation processing device as claimed in claim 1, it is characterised in that described agitator jacking system is provided with the 1st oil cylinder, lateral frame and the 2nd oil cylinder；

Cylinder piston rod coupling sleeve one end of described 1st oil cylinder is set in piston rod, and the piston rod other end is set in piston, and oil cylinder cylindrical is sleeved in the hole, location of support and connects firmly with support；The cylinder piston rod coupling sleeve other end of described 1st oil cylinder is installed in lateral frame the 1st positioning sleeve, and lateral frame the 1st positioning sleeve is set in lateral frame bar and connects firmly；

Described lateral frame is provided with the 1st positioning sleeve, lateral frame bar and the 2nd positioning sleeve；Described lateral frame bar is set with the 1st positioning sleeve and the 2nd positioning sleeve and is fixed by screw, and screw fixedly mounts spiral cover oil cylinder seat and motor direct connection decelerator；A bearing of lateral frame bar suit spiral cover spindle unit and a bearing of agitator assembly；

Cylinder piston rod coupling sleeve one end of described 2nd oil cylinder is set in piston rod, and the piston rod other end is set in piston, and oil cylinder cylindrical is sleeved in the hole, location of support and connects firmly with support；The cylinder piston rod coupling sleeve other end of described 2nd oil cylinder is installed in lateral frame the 2nd positioning sleeve, and lateral frame the 2nd positioning sleeve is set in lateral frame bar and connects firmly。

3. sliced eel temp. preservation processing device as claimed in claim 1, it is characterised in that described manosonication Studio component lid rotary drive assembly is provided with oil cylinder and props up bearing and oil cylinder；Piston rod one end of described oil cylinder is by bearing pin and a bearing hinge-coupled, and a bearing is fixed on lateral frame bar, and one end of oil cylinder is by the rocking bar hinge-coupled of bearing pin and spiral cover spindle unit；

Described spiral cover spindle unit is provided with rocking bar, axle, bearing positioning sleeve, bearing cap, the 1st bearing, bearing, the 2nd bearing and gear；Described rocking bar is installed on axle, and circumference is positioned by key, is axially positioned by bearing positioning sleeve；Bearing pin and rocking bar hinge-coupled are passed through in one end of oil cylinder；Supporting cover for seat is loaded on lateral frame bar；Gear is installed on axle；The meshed transmission gear of gear and agitator assembly, axle sleeve is loaded on bearing。

4. sliced eel temp. preservation processing device as claimed in claim 1, it is characterised in that described agitator assembly is provided with axle, conical gear, the 1st bearing, a bearing, the 2nd bearing, the 3rd bearing, the 4th bearing, agitator and gear；Described conical gear is installed on axle, the conical gear engaged transmission of conical gear and motor direct connection decelerator, passes the conical gear torque of motor direct connection decelerator in axle；1st bearing and the 2nd bearing holder (housing, cover) are loaded on a bearing endoporus；Supporting cover for seat is contained in the hole of lateral frame bar；Described gear set is in the manosonication Studio component cap bore of manosonication Studio component；3rd bearing and the 4th bearing holder (housing, cover) are contained in gear hole；Axle sleeve is loaded in the 1st bearing, the 2nd bearing, the 3rd bearing, the 4th dead eye；Described agitator is installed on axle。

5. sliced eel temp. preservation processing device as claimed in claim 1, it is characterised in that described motor direct connection decelerator is arranged on lateral frame bar, the conical gear of motor direct connection decelerator and the conical gear engaged transmission of agitator assembly, pass to conical gear by motor torque。

6. sliced eel temp. preservation processing device as claimed in claim 1, it is characterised in that described manosonication Studio component is provided with manosonication Studio component lid, compressed air inlet pipe and Pressure gauge assembly, relief valve assembly, supersonic generator assembly, the 1st temperature control medium tube joint, the 2nd temperature control medium tube joint, fork-shaped assembly, rotates discharge rotating assembly, manosonication Studio component seat, liquidometer assembly, exhaust valve component and safety lock assembly；

The boss edge card of described manosonication Studio component lid is contained in the boss groove of manosonication Studio component seat, manosonication Studio component lid is blocked by boss groove respectively or departs from boss groove, and manosonication Studio component lid is held level with both hands platform arcuate groove card dress safety lock assembly eccentric cam；

Described rotation discharge rotating assembly is provided with the 1st bearing, the 1st Y-piece, rotating shaft, the 2nd Y-piece and the 2nd bearing；1st bearing, the 2nd bearing are set with in the 1st bearing block, the 2nd bearing block, and bearing block is fixed on support；Described shaft set is in the 1st bearing and the 2nd bearing, in rotating shaft stage casing, by bolt by fork-shaped assembly and the 1st Y-piece, the 2nd Y-piece clamping rotating shaft；Described fork-shaped assembly is set in the bottom of manosonication Studio component seat；Manosonication Studio component seat can rotate to an angle around the shaft, the material in discharge pressure ultrasound wave Studio component seat；

Described supersonic generator is tightly placed in manosonication Studio component seat by connector；1st temperature control medium tube joint and the 2nd temperature control medium tube joint rotating connection are in supersonic generator interlayer shell side；Relief valve assembly, compressed air inlet pipe and Pressure gauge assembly by joint rotating connection in manosonication Studio component seat lateral surface；Liquidometer assembly, exhaust valve component, by joint rotating connection in manosonication Studio component seat lateral surface；

Described safety lock assembly is provided with the 1st bearing, axle, the 2nd bearing, cam and handle；Handle is combined on cam screw；Cam is installed in axle；1st bearing and the 2nd bearing holder (housing, cover) are loaded in the boss hole of axle and manosonication Studio component seat, and axle sleeve is loaded in dead eye, and are positioned by the 1st bearing, the 2nd bearing, boss, cam, nut and connected firmly；The lower end slot of axle is installed in the valve rod of exhaust valve component, and axle rotates, and controls the open degree of compression air exhaust valve；Cam is stuck on manosonication Studio component lid and holds level with both hands in platform arcuate groove。

7. sliced eel temp. preservation processing device as claimed in claim 1, it is characterized in that oil cylinder seat one end of described discharge cylinder component is by the boss hinge-coupled with holes outside bearing pin and manosonication Studio component seat, piston rod one end is by the hole hinge-coupled of bearing pin with support, piston action by discharge cylinder component, manosonication Studio component seat rotates around the shaft, completes process for layout operation。

8. sliced eel temp. preservation processing device as claimed in claim 1, it is characterised in that described supporting parts are fixedly mounted on support；

Described hydraulic system and the oil cylinder of agitator jacking system, the oil cylinder of manosonication Studio component lid rotary drive assembly, discharge assembly oil cylinder be connected。

9. sliced eel temp. preservation processing device as claimed in claim 1, it is characterised in that described manosonication Studio component adopts jacket type structure；

Described motor direct connection decelerator can be connected firmly on lateral frame by bolt；

Described manosonication Studio component lid rotary drive assembly can be connected firmly on lateral frame by bolt；

Described supersonic generator can by threaded engagement bottom manosonication Studio component。

10. sliced eel temp. preservation processing device as claimed in claim 1, it is characterised in that described manosonication Studio component tilts to install；Manosonication Studio component side can by roller supporting；

The seat discharging of described manosonication operating room is by oil cylinder control；Described agitator and manosonication Studio component lid are promoted by oil cylinder and take out；

Described hydraulic system can be provided with the 1st 3-position 4-way guiding valve, the 2nd 3-position 4-way guiding valve, the 3rd 3-position 4-way guiding valve, one-way speed-regulating valve, filter, oil pump, fuel tank, overflow valve, check valve。