CN105901468A - Assembly line type ultrahigh-pressure sterilizing equipment - Google Patents

Abstract

Assembly line type ultrahigh-pressure sterilizing equipment. The invention relates to assembly line type ultrahigh-pressure equipment. The ultrahigh-pressure equipment is characterized by at least comprising a force-bearing framework (101), an ultrahigh-pressure tank body (201), end plates which are used for fixing the ultrahigh-pressure tank body (201) and guide rails which are located at the two sides of a force-bearing seat (203). The ultrahigh-pressure equipment comprises at least two ultrahigh-pressure tank bodies (201), wherein the at least two ultrahigh-pressure tank bodies (201) move along the guide rails arranged on the force-bearing framework through the end plates fixed at the two ends of each ultrahigh-pressure tank body under the action of a driving system, so that the at least two ultrahigh-pressure tank bodies (201) can alternately enter the force-bearing framework (101). According to the assembly line type ultrahigh-pressure equipment provided by the invention, the ultrahigh-pressure tank bodies to be processed are alternately fed to the force-bearing framework by the driving system for ultrahigh-pressure sterilizing, so that a continuous processing process for the ultrahigh-pressure sterilizing of food is achieved, the production efficiency of food processing is increased, and a sterilizing procedure is simplified.

Description

A kind of continuous-flow type supertension sterilize equipment

Technical field

The present invention relates to superhigh pressure technique field, particularly relate to a kind of continuous-flow type supertension sterilize equipment.

Background technology

Traditional food sterilization method is the processing method using pasteurization.The method can eliminate micro-life effectively Thing, enzyme and microbial spore, to prevent food decay.But, this pasteurization method needs long time to transmit heat Measuring, and nutritional labeling is more easily damaged, the color of food and taste all can be deteriorated.In recent years, along with people are to food nutrition With healthy pay attention to day by day, it is desirable to be able to eliminate the food processing method of drawbacks described above.Thus, a kind of use supertension is developed Carry out the food processing method of sterilizing.

Food supertension sterilize is exactly in the ultrahigh pressure vessel sealed, and uses water as medium to materials such as flexible packaging foods Impose the pressure of 400～600MPa or apply the pressure with 100～1000MPa with high-level hydraulic pressure oil, thus killing the most almost All of antibacterial, yeast and mold, and nutritional labeling will not be caused as high temperature sterilization to destroy and flavor variations.Superelevation The mechanism of pressure sterilizing is by destroying the non-covalent bond in tropina, making protein higher structure destroy, thus cause albumen Matter coagulator enzyme inactivates.Supertension also can cause somatic cells film rupture, makes chemical constituent in thalline produce outflow etc. multiple carefully Cellular damage, these combined factors cause microorganism dead, reach the purpose of preserved food.

Chinese patent CN102283418B discloses superelevation isostatic cool pressing continuous sterilization process and the dress of a kind of liquid food Putting, its method uses the following step: (1) will leave raw material storage tank in through the liquid food squeezed the juice, filter, clarify and allocate In；(2) being continuously pumped into from raw material storage tank in high-pressure bottle by liquid food by high-pressure pump, the volume of this high-pressure bottle is: Output flow × the dwell time of the volume=high-pressure pump of high-pressure bottle, the dwell time is 5-20min；(3) high-pressure bottle is full of Liquid charging stock also reaches the operating pressure of sterilizing requirement, and operating pressure is 300MPa-600MPa, opens spray after reaching operating pressure Head, liquid pressure release is also injected in intermediate storage tank, and the output flow of high-pressure pump is consistent with the ejection flow of shower nozzle, so that pressure is steady It is scheduled on the operating pressure of requirement.Though foregoing invention can to realize the batch operation mode of supertension sterilize, but foregoing invention is adopted Be by high-pressure pump, in advance the most packaged liquid food to be pumped into ultrahigh pressure vessel pressurize and pack again after sterilizing, because of The operating process of this follow-up packing device and staff is required to carry out in an aseptic environment, on the one hand can not complete to protect Demonstrate,prove the integral asepsis at follow-up packaging process to operate；On the other hand this also further increases operation easier.

Summary of the invention

For the deficiency of prior art, the invention provides a kind of continuous-flow type supertension sterilize equipment.Pass through ultra-high pressure cylinder Body transverse moving mechanism and supertension cylinder body alignment system realize continuous-flow type and process the effect of food sterilizing.Described " continuous-flow type " Working method refers to: this extra-high tension unit can be to there being pending article to perform continuous-flow type superelevation in the way of approximating the most intermittently Pressure processes operation.In the case of twin-tub, single load-bearing frame, " continuous-flow type " working method refers to: twice ultra high pressure treatment process Between interval be as short as only within several minutes；In the case of multi-cylinder, two load-bearing frames, two ultra high pressure treatment processes are permissible , interval may not be there is, or be as short as the most several seconds in executed in parallel；In the case of multi-cylinder, many load-bearing frames, some superelevation Pressure treatment progress with executed in parallel, can reach the ideal operating conditions of Non-intermittent.

The invention provides a kind of continuous-flow type extra-high tension unit, described extra-high tension unit include at least one load-bearing frame, Supertension cylinder body, for fixing the end plate of described supertension cylinder body and lay respectively at least one of described load-bearing frame both sides Guide rail,

Wherein, at least two ultra-high pressure cylinder body laterally can move along described at least one guide rail relative to described load-bearing frame Dynamic so that one of described at least two supertension cylinder body enter be positioned at ultra high pressure treatment station within described load-bearing frame it Time, other supertension cylinder bodies) it is positioned at the dress unloading station outside described load-bearing frame and/or maintenance station.

According to a kind of preferred implementation, described supertension cylinder body is by being fixed on the end plate at its two ends on described guide rail Mobile, wherein, described guide rail at least includes being arranged at described load-bearing frame both sides and orbital direction and described load-bearing frame phase The first vertical guide rail and the second guide rail.

According to a kind of preferred implementation, described extra-high tension unit also includes leading around described load-bearing frame and described first The 3rd guide rail that rail and the second guide rail are arranged.

According to a kind of preferred implementation, described load-bearing frame is formed with axial two ends and has arcuate structure, it is sufficient to accommodate The space of described supertension cylinder body, the ultra high pressure treatment station of described supertension cylinder body is positioned at the space of described load-bearing frame, Described dress unloading station and/or maintenance station are located around on the 3rd guide rail of described load-bearing frame.

According to a kind of preferred implementation, described continuous-flow type extra-high tension unit include supertension cylinder body described at least two and At least two load-bearing frame；

Or, described continuous-flow type extra-high tension unit includes at least three supertension cylinder body and at least two load-bearing frame；

Or, described continuous-flow type extra-high tension unit includes at least four supertension cylinder body and at least two load-bearing frame；

Or, described continuous-flow type extra-high tension unit includes at least five supertension cylinder body (201) and at least three load Framework.

According to a kind of preferred implementation, described dress unloading station is positioned at the first guide rail homonymy with described load-bearing frame The end positions of the 3rd guide rail, described check man is positioned at the two ends of the 3rd guide rail of the second guide rail homonymy with described load-bearing frame Position.

According to a kind of preferred implementation, described guide rail includes the first guide rail and the second guide rail, described first guide rail and the Two guide rails are symmetricly set in the both sides of described load-bearing frame,

Wherein, described end plate includes that the first end plate and the second end plate, described first end plate are by the first end plate top and End plate is constituted, and described second end plate is to be made up of the second end plate top and the second end plate bottom,

Wherein, the urceolus of described supertension cylinder body connects with described first end plate and described second end plate at its two ends contact portion Divide and be formed with bulge-structure,

Described end plate includes the first plate that length flushes along described supertension cylinder body horizontal axis with described bulge-structure, Vertical with described first plate and extend to along described supertension cylinder body by urceolus inner core inner diameter edge the second plate and with institute State that the second plate is vertical and the 3rd plate along described supertension cylinder body horizontal axis extension.

According to a kind of preferred implementation, described supertension cylinder body laterally moves relative to described load-bearing frame from the first guide rail Entering described ultra high pressure treatment station, after completing supertension sterilize, described supertension cylinder body is led along first under drive system effect Rail moves to initial position, is positioned at the supertension cylinder body of the second guide rail and enters load-bearing frame under drive system effect and carry out supertension Sterilizing,

Described extra-high tension unit also includes the first plug and the second plug removably connected with described supertension cylinder body, institute State at least two supertension cylinder body and share described first plug and described second plug,

Described first plug and the second plug reach the superelevation of ultra high pressure treatment position can seal in the way of depressurization Cylinder pressure body body, described first plug and described second plug have for being situated between to described supertension cylinder body body input supertension The medium intake line of matter.

According to a kind of preferred implementation, the supertension cylinder body completing charging passes through after arriving ultra high pressure treatment station Alignment pin locks so that it is align with the axis of described first plug and the second plug in the axis of inner chamber.

According to a kind of preferred implementation, described extra-high tension unit also includes the first block and the second block, described first Block and the second block realize moving by supertension cylinder body under high pressure by connecting the 5th hydraulic cylinder and the 6th hydraulic cylinder The deboost produced is transferred to described load-bearing frame.

According to a preferred implementation, the invention discloses a kind of ultrahigh pressure treatment equipment, comprising: treat for placement Process the supertension cylinder body of article and for transmitting the deboost set up in described ultra-high pressure cylinder body by supertension extremely First block of described load-bearing frame and the second block, described ultrahigh pressure treatment equipment also includes by least two independent of each other The split type load-bearing frame that load body is constituted, wherein, separation distance from each other is passed through respectively more than each load body of respective thickness Water is cut the multi-layered board processed and is constituted side by side；And each load body of described load-bearing frame is respectively provided with what water was cut into Inside opening, thus the axial two ends in each load body form curved force-bearing base, described load body is respectively by two Curved force-bearing base is held to support described first block and described second block with ralocatable mode.According to this embodiment, split Formula load-bearing frame can unexpectedly bear the biggest propulsive thrust, and due to well-ventilated, contributes to the present invention good It is applicable to continuous-flow type long working, is significantly better than the integral type vertical load mount structure of prior art.What is more important, this This horizontal arrangement of disclosure of the invention may be used for significantly larger supertension cylinder body.

The Advantageous Effects of the present invention is present in the following aspects:

(1) present invention uses at least two supertension cylinder body to realize supertension cylinder body by drive system and alternately enters load Framework carries out continuous autoclaving, thus realizes continuous-flow type operation.And the food in ultra-high pressure cylinder body is packed in advance, logical Cross supertension sterilize to realize a step and complete sterilization processes, it is not necessary to follow-up carry out sterile working；

(2) present invention is by arranging guide rail in force-bearing base both sides, realizes ultra-high pressure cylinder by drive system and control system Body is movable into and out load-bearing frame, and by controlling autoclaved time and the motion track of cylinder body so that at load frame After supertension cylinder body sterilizing in frame completes, laterally moved out load-bearing frame to initial position, and by superelevation pending for opposite side Cylinder pressure body moves into load-bearing frame superelevation process station and realizes continuous operation.

(3) present invention also uses the mode of at least two load-bearing frame operation side by side, by common sparing the 3rd guide rail and Multiple supertension cylinder body common operational so that equipment can be operated in the way of approximating the most intermittently, effectively provides supertension Treatment effeciency.

Accompanying drawing explanation

Fig. 1 is the sectional view of extra-high tension unit of the present invention；

Fig. 2 is the top view of extra-high tension unit force-bearing base of the present invention；With

Fig. 3 is the sectional view of supertension cylinder body of the present invention.

Reference numerals list

101: load-bearing frame the 103a: the first plug

103b: the second plug the 104a: the first block

104b: the second block the 105a: the first power transmission block

105b: the second power transmission block 106a: the arch section of load-bearing frame

107a: the first the 107b: the first end plate bottom, end plate top

108a: the second the 108b: the second end plate bottom, end plate top

201: supertension cylinder body the 202a: the first hydraulic cylinder

202b: the second hydraulic cylinder the 202c: the three hydraulic cylinder

202d: the four hydraulic cylinder 203: force-bearing base

204a: the five hydraulic cylinder the 204b: the six hydraulic cylinder

205a: the first guide rail the 205b: the second guide rail

301: inner core 302: urceolus

303: hexagon socket cap head screw 304: Inlet and outlet water cap

306:O RunddichtringO 307: bulge-structure

308: end plate connecting plate 309: alignment pin lining

311: spring washer

Detailed description of the invention

It is described in detail below in conjunction with the accompanying drawings.

The invention provides a kind of continuous-flow type extra-high tension unit.The continuous-flow type extra-high tension unit of the present invention is in temperature being Under+5 DEG C～+60 DEG C full liquid phase ultra-high pressure conditions, food is processed.

Fig. 1 is the sectional view of extra-high tension unit of the present invention.As it is shown in figure 1, the extra-high tension unit of the present invention at least includes holding Power framework 101, supertension cylinder body 201 and for fixing the end plate of described supertension cylinder body 201.According to the one side of being preferable to carry out Formula, described end plate at least includes that the first end plate for same supertension cylinder body and the second end plate, described first end plate are by can The first end plate top 107a and the first end plate bottom 107b of the fixing supertension cylinder body of dismounting is constituted；Described second end plate be by The second end plate top 108a and the second end plate bottom 108b of dismountable fixing supertension cylinder body is constituted.

Extra-high tension unit also includes the first block 104a and the second block 104b.Horizontal being positioned over of supertension cylinder body 201 is held In power framework 101.First block 104a and the second block 104b is for directly or indirectly connecting load-bearing frame 101 and ultra-high pressure cylinder Body 201.According to a kind of preferred implementation, load-bearing frame 101 is to be made up of two groups of steel plates, and often group steel plate is passed through by 6 steel plates Water is cut processing technique and is formed with the hollow space that be enough to accommodate supertension cylinder body 201.The structure energy formed is assembled by single steel plate Enough bear bigger pressure, and compare the load-bearing frame of unitary solid structure, save defective material, reduce cost.Water cuts processing can So that steel plate to carry out the disposable cutting processing of arbitrary curve, will not produce heat and harmful substance during cutting, material is without thermal effect Should, need not or be prone to secondary operations after Water Cutting, safe and environment-friendly, low cost, speed are fast, efficiency is high.Described load-bearing frame has Having curved structure inside axial two ends, outside is the load-bearing frame of the fold-line-shaped structure being 120 ° to 140 ° in interior angle.Described Fold-line-shaped structure be cut corner by rectangular each laminate material along consistent tangent line after formed, and the extended line of described tangent line Parallelogram is surrounded, it is preferred that extended line intersects composition square after intersecting each other.The face that contacts with each other between each layer steel plate Long-pending more than the 80% of its relative area, and between two groups of sheet materials, the width in gap is 1～3: 1 with the ratio often organizing sheet metal thickness, Preferably 2.5: 1.It addition, the width of framework is 2～1: 1 with the ratio of the thickness of framework inside described load-bearing frame, preferably 1.5: 1；Additionally inside it, the length-width ratio of framework is 5～6: 1, preferably 6: 1, and the length-width ratio of outer side frame body is 2～4: 1, preferably 3: 1.Root According to a kind of preferred implementation, described load-bearing frame forms the structure with oval space, the radius of its hollow space circular arc It is 1: 1.5～2.5 with the length ratio of closest approach outside this circular arc center of circle to load-bearing frame.Force-bearing base 203 is load-bearing frame 101 For supporting the base of supertension cylinder body.The axial two ends of force-bearing base 203 have arcuate structure.

Length-width ratio inside load-bearing frame frame-type is the biggest, and the length-width ratio that can accommodate cylindric high pressure cylinder body is the biggest, then stifled The surface area of head is the least, and internal liquid pressure one way or another is equal, and major part pressure is born by high pressure cylinder body, and plug holds Be subject to will pressure the least, the pressure passing to load-bearing frame is the least, the highest to the utilization rate of load-bearing frame, same to phase Capacity with the high pressure cylinder body of external surface area is the least, and therefore the utilization rate of supertension sterilize device is the highest.Otherwise but, Length-width ratio inside load-bearing frame frame-type is the least, and the capacity of the high pressure cylinder body of identical external surface area is the biggest, and load-bearing frame is subject to The power arrived is the biggest, the highest to the performance requirement of load-bearing frame.It is thus desirable to according to the thickness of practical situation, such as framework And material, the length-width ratio of load-bearing frame inner side edge is made suitably selection.According to a preferred embodiment of the present invention, hold The length-width ratio of power framework inner side edge is 5～6: 1, it is furthermore preferred that the length-width ratio of load-bearing frame inner side edge is 6: 1, can either make height Cylinder pressure body has bigger capacity, also can play the performance of load-bearing frame in safety range to a greater degree.

In the case of length-width ratio inside load-bearing frame is certain, the thickness of load-bearing frame will be to affect it to bear supertension The principal element of ability, the hyperpressure that particularly semi-cylindrical block bears can be disperseed by the force-bearing base of arc or arch And passing to the long side of load-bearing frame horizontal direction, the power being subject at force-bearing base will be maximum.Therefore the framework at force-bearing base Thickness also overall performance on load-bearing frame plays important impact.According to a preferred embodiment of the present invention, force-bearing base Inner arc radius and this circular arc center of circle to the length of closest approach (i.e. at the framework thickness minimum at force-bearing base) outside force-bearing base The ratio of degree is 1: 1.5～2.5, with preferably this ratio is 1: 2.Now can play load in safety range to a greater degree The performance of framework, can accommodate again the high pressure cylinder body of more capacity, fully improves the utilization rate of supertension sterilize device.

According to one preferred embodiment, described load-bearing frame is made up of at least two group sheet materials, and often group sheet material is by least Six layers of steel plate are constituted side by side, and the area that contacts with each other between the most each layer steel plate is more than the 80% of its opposite face area.Compared to The load-bearing frame of unitary solid structure, lamellar steel plate assembles the multiple structure formed, it is possible to preferably disperse stress, deformation range Bigger, stability and safety are more preferable, and can save material, reduce cost.

The group quantity of sheet material is the most, is less susceptible to adjust its position, due to load-bearing frame hyperpressure to be used for, the most partially The power that difference will make different plates group be subject to produces the biggest difference so that device security and stability reduce.The layer of sheet material Number is the most, and installation requirement is the highest, and the manufacturing cost of equipment is the highest, and the number of plies of sheet material is the fewest, then to load-bearing frame holding capacity Dispersibility the poorest, safety is the lowest.According to a preferred embodiment of the present invention, two groups are used to be respectively 6 Rotating fields Sheet material, simple structure, low cost, convenient for installation and maintenance, the stability of equipment is more preferable.

First block 104a and the second block 104b and load-bearing frame 101 use the connected mode of float support.I.e. first Block 104a and the second block 104b fits with load-bearing frame 101 but fixes and be connected.For anti-stop block sliding, described load Inside framework, in framework, bus with the first block and the second block is arranged with location lever in parallel, in the framework horizontal direction of inner side Outer ledge be provided with locating stop piece.The deboost that supertension cylinder body 201 produces is by the first block 104a and second gear Block 104b is transferred to load-bearing frame 101.The first block 104a and the second block 104b of the present invention and load-bearing frame 101 use floating The dynamic connected mode supported, above-mentioned first block 104a and the second block 104b connects the 5th hydraulic cylinder 204a and the 6th respectively Hydraulic cylinder 204b is used for the block relative movement at force-bearing base 203 arcuate structure.At load-bearing frame 101 because of the feelings of stress deformation Under condition, the first block 104a and the second block 104b and load-bearing frame 101 keep relative displacement, so that the first block 104a With second remain to bigger contact area between block 104b and load-bearing frame 101.On the other hand, the present invention is held by setting Power framework 101, is placed in supertension cylinder body 201 in load-bearing frame 101, can be used for bearing the huge of supertension cylinder body 201 generation Deboost so that ultrahigh pressure treatment equipment is difficult to potential safety hazard occur, and, the supertension cylinder body 201 of the present invention is horizontal Place, compared to vertical placement of the prior art, have and put, take that material is convenient and the higher advantage of safety.

The axle of load-bearing frame 101 it is arranged at according to a preferred implementation, the first block 104a and the second block 104b To two ends.First block 104a and the second block 104b is the three-dimensional part with arcuate structure.First block 104a and second gear It is the structure that the arch section 106a with force-bearing base matches that block 104b has the face of arcuate structure.First block 104a and second The arch section 106a of the arcuate structure of block 104b and force-bearing base matches so that the first block 104a and the second block 104b Plane-plane contact is realized with load-bearing frame 101.First block and second block of the present invention have the arch section with force-bearing base The structure that 106a matches so that the two fits tightly, it is possible to realize plane-plane contact.On the other hand, the present invention is by load-bearing frame 101 positions placing the first block 104a and the second block 104b are set to arcuate structure, and load-bearing frame 101 stress can be made equal Even, and be unlikely to deform when bearing relatively noticeable effort so that load-bearing frame 101 can bear bigger pressure.Preferably, exist Before assembling the first block 104a and the second block 104b, to the first block 104a and the second block 104b and load-bearing frame 101 Polish in the position of contact so that the two fits tightly, and works with the face way of contact.

According to a preferred implementation, load-bearing frame 101 is used for accommodating supertension cylinder body and is at ultra high pressure treatment The space of station is oval.Ultra high pressure treatment station refers to that supertension cylinder body is in the space of load-bearing frame and its inner chamber Aliging with the axis of described first plug and the second plug in axis, thus carries out the position of supertension sterilize.In first gear Block 104a and the second block 104b is semicylinder.First block 104a and the second block 104b has the face of arcuate structure with ellipse The arch section 106a of circular load-bearing frame matches.The structure of the first block 104a and the second block 104b is not limited to semicolumn Body, it is also possible to be that at least face is the three-dimensional part of arcuate structure, as spherical.First block 104a and the second block 104b has arc The face of face structure contacts with load-bearing frame 101.The space of load-bearing frame is also not necessarily limited to ellipse.Load-bearing frame 101 and first gear The position of block 104a and the second block 104b contact is correspondingly the cambered surface phase with the first block 104a and the second block 104b The structure joined.There is the first block 104a and the second block 104b of globoidal structure to uniformly transfer supertension cylinder body 201 and work Axial force to load-bearing frame 101, and eliminate issuable non-axial force when supertension cylinder body 201 works, be effectively ensured super High pressure cylinder body 102 does not produce the deformation not permitted in design.

According to a preferred implementation, supertension cylinder body 201 include supertension cylinder body body and with supertension cylinder body this The first plug 103a that body removably connects and the second plug 103b.First plug 103a and the second plug 103b is used for sealing super The two ends of high pressure cylinder body body.First plug 103a and the second plug 103b has medium intake line.By the first plug The medium intake line of 103a and the second plug 103b inputs supertension medium to set up superelevation pressure ring to supertension cylinder body body Border.The first plug 103a and the second plug 103b of the present invention cannot be only used for sealing the two ends of supertension cylinder body body, also may be used In supertension cylinder body, supertension medium is injected by the medium intake line in the first plug 103a and the second plug 103b.

According to a kind of preferred implementation, supertension cylinder body 201 also includes the first end plate 107 He of fixing supertension body Second end plate 108.Described first end plate and the second end plate are that shape is identical and be symmetrically arranged on same supertension cylinder body two ends End plate.Above-mentioned end plate is dismountable with supertension cylinder body body to be connected.First plug 103a is other in the sealing supertension cylinder body time-division It is in sealing contact with the first end plate top 107a and the first end plate bottom 107b.Second plug 103b seal supertension cylinder body another It is in sealing contact with the second end plate top 108a and the second end plate bottom 108b respectively during end.Described first end plate and the second end plate one Aspect is used for supporting supertension cylinder body and moves along guide rail, thus into and out load-bearing frame；On the other hand at supertension cylinder body When moving to ultra high pressure treatment station, lock described supertension cylinder body by the alignment pin played the role of positioning so that it is in inner chamber Axis aligns with the axis of described first plug and the second plug, it is simple to supertension cylinder body 201 accurately determining in operating position Position.Described alignment pin is connected to supertension cylinder body by spring, and it is fixed that cylinder body moves to being pushed by spring during ultra high pressure treatment station Hole, position produces the signal of telecommunication, and supertension cylinder body stops mobile, and electrical equipment is installed in hole in location.

The assembling of the load-bearing frame of the present invention comprises the steps:

1, use outer-hexagonal service bolt that 6 water are cut the steel plate of processing to pre-install on flat board；Wherein every steel plate can not Have overlap, burr, collide with, greasy dirt, the placement of each steel plate to cut with water processing place keep consistent.

2, semicircle first block and the second block are respectively placed in that the load-bearing frame being made up of 6 steel plates is formed two In the circular arc of side, and connect above-mentioned two block by adjusting rod, and gradually afterburning, observe the stress situation of change of steel plate, bolt Pretension the most therewith, but the most locked.

3, until 6 steel plates are fully contacted with block, when adjusting rod no longer changes, by the tightest for bolt order according to the m type Gu it is until locked.

4, adjusting rod is unclamped, the red gallbladder powder of uniform application on the convex surface of block, again give adjusting rod afterburning, to no longer changing Till, to unclamp adjusting rod, check the arc surface of 6 steel plates and the situation that contacts of block convex surface, manual amendment repeats.Until 6 steel plates uniform contact simultaneously, and contact surface reaches more than 80%.

5, after above-mentioned passed examination, again by afterburning for adjusting rod to no longer change time, replace bolt one by one with selling directly to households, And weld at two ends.During replacement, only sell directly to households after complete firm welding at first, could allow sequentially to unclamp according to the m type the Two support bolts are replaced.The additional coupling mechanism force of frock to be used when replacing, on the other hand selling external diameter directly to households can not be with steel plate endoporus Wall contacts, and available tissue sheet paves at two ends.

6, unclamp adjusting rod, block is taken out, complete to assemble.

Fig. 3 shows the sectional view of the supertension cylinder body for extra-high tension unit of the present invention.The supertension cylinder body of the present invention 201 bodies are the combined sleeve structures that the urceolus 302 become with composite steel system by rustless steel inner core 301 is constituted.Described supertension Cylinder body is the tube-in-tube structure become with composite steel system by internal layer stainless steel cylinder, the multilamellar sleeve of described telescoping structure each other it Between snugly assemble.Supertension cylinder body body is cylindrically so that its uniform force when supertension state.Supertension The internal layer a diameter of 200～400mm of cylinder body body.The internal layer a length of 1800～2600mm of supertension cylinder body body.Supertension The tube structure of cylinder body 201 can bear the supertension peripheral force of system work.Supertension cylinder body 201 is used for placing pending thing Material.Forming ultra-high voltage environment in supertension cylinder body 201, put into by treating material in supertension cylinder body 201, treating material exists Processing procedure is completed under ultra-high voltage environment.According to a preferred implementation, extra-high tension unit includes at least two group ultra-high pressure cylinders Body.At least two group supertension cylinder bodies are horizontal relative to load-bearing frame by the first guide rail and the second guide rail being positioned at load-bearing frame both sides To move into and/or removal load-bearing frame 101 so that at least two group supertension cylinder body alternately ultra high pressure treatment set-up procedures and Ultra high pressure treatment process.At least two group supertension cylinder bodies make ultrahigh pressure treatment equipment be capable of continuous treatment technique, real Existing continuous-flow type food processing technology.Two groups of supertension cylinder bodies share the first plug 103a and the second plug 103b.At least two groups surpass High pressure cylinder body one in working order time be placed in load-bearing frame 101；Another cylinder body body then holds by guide rail is laterally moved out Power framework 101, enters dress unloading station, and both ends open, it is simple to handling ultra high pressure treatment thing.The extra-high tension unit of the present invention Use at least two group supertension cylinder body bodies to realize continuous-flow type and process technique, can save the ultra high pressure treatment time, improve superelevation Pressure treatment effeciency.

It is symmetricly set in is at supertension according to a preferred implementation, the first plug 103a and the second plug 103b The two ends of the supertension cylinder body body of science and engineering position.First plug 103a and the second plug 103b has identical structure.First blocks up Head 103a and the second plug 103b promotes plug move and make plug partial insertion supertension cylinder body body by hydraulic tappet Two ends are to realize the sealing of supertension cylinder body body.Hydraulic tappet is nested in hydraulic cylinder.Hydraulic tappet is relative to hydraulic cylinder energy Enough carry out telescopic moving.First plug 103a and the second plug 103b also has triangular washer, U circle and sealing ring dividing plate.Triangle Packing ring, U circle and sealing ring diaphragm housing ring is connected on plug and fits with the outer surface of plug.Triangular washer, U circle and sealing ring every Plate is for seal plug and supertension cylinder body body.Triangular washer, U circle and sealing ring dividing plate can improve plug and cylinder body body it Between connect stability and the reliability of sealing.

According to a preferred implementation, between the first plug 103a and the first block 104a, it is provided with the first power transmission block 105a.The second power transmission block 105b it is provided with between second plug 103b and the second block 104b.First power transmission block 105a and Second power transmission block 105b is respectively used at the first plug 103a and the first block 104a, the second plug 103b and the second block Set up power transmission between 104b to connect.Preferably, the face that the first power transmission block 105a and the first plug 103a contacts with each other is shape The planar structure matched.The face that first power transmission block 105a and the first block 104a contacts with each other also putting down for mating shapes Face structure.Similarly, the planar junction that face is mating shapes that the second power transmission block 105b and the second plug 103b contacts with each other Structure.The face that second power transmission block 105b and the second block 104b contacts with each other is also for the planar structure of mating shapes.Described One power transmission block 105a and the second power transmission block 105b is to be made up of two parts respectively, and two parts of above-mentioned power transmission block are in phase It is each provided with semi-circular recesses so that forming the cylindrical hole that can accommodate hydraulic stem when it contacts on contact surface.According to one Preferred implementation, the deboost produced in supertension cylinder body 201 is to pass to load-bearing frame 101 in the following way: The deboost produced in supertension cylinder body 201 is transferred to the first power transmission block by the first plug 103a and the second plug 103b 105a and the second power transmission block 105b.Deboost is transferred to first by the first power transmission block 105a and the second power transmission block 105b Block 104a and the second block 104b, then by the first block 104a and the second block 104b, deboost is transferred to load-bearing frame 101.After completing supertension sterilize, two parts of power transmission block first separate, and are pulled the first plug and second respectively by hydraulic stem Plug separates with supertension cylinder body.

With reference to Fig. 3, according to a kind of preferred implementation, the urceolus 302 of described supertension cylinder body body is at its two ends and the The part that end plate and the second end plate contact has bulge-structure 307.Described bulge-structure 307 be formed at supertension cylinder body with End plate contacts part for fixing both sides end plate.As it is shown on figure 3, the first end plate top 107a and the first end plate bottom 107b in Z-shaped is tightly connected with the two ends of supertension cylinder body body.Described first end plate includes that length and above-mentioned bulge-structure are along superelevation The first plate that cylinder pressure body horizontal axis flushes, described first plate is entered by hexagon socket cap head screw 303 with bulge-structure 307 Row is fixing.Described first end plate also include vertical with above-mentioned first plate and along supertension cylinder body body by described urceolus to inner core side To the second plate of the inner diameter edge extending to inner core, above-mentioned second plate passes through Inlet and outlet water cap 304 and hexagon socket cap head screw 303 It is fixed to supertension cylinder body body.Described first end plate also includes vertical with above-mentioned second plate and along supertension cylinder body horizontal axis 3rd plate of extension.Same.Second end plate has the structure identical with the first end plate, is also by above-mentioned three kinds of structural slab structures Become.Include on 3rd plate of described first end plate top 107a and the first end plate bottom 107b that corresponding formed objects groove is used In mounting O-shaped sealing ring 306 for supertension cylinder body due to the sealing in plug repeatedly motor process and prevent high pressure liquid The leakage of body.Described first end plate top 107a and described first end plate bottom 107b is by being positioned at the O RunddichtringO of the 3rd plate Connect, and the distance between the 3rd plate of the 3rd plate of described first end plate 107a and described first end plate bottom 107b is with upper The inner core internal diameter stating supertension cylinder body is equal.

As described in Figure 3, described supertension cylinder body 201 also includes being connected with the first end plate bottom 107b and the second end plate 108b The end plate connecting plate 308 connect, is provided for the alignment pin lining 309 that alignment pin is fixing, through spring washer on end plate connecting plate 308 311 and hexagon socket cap head screw 303 carry out sealing and fixing.Described alignment pin lining 309 is in for supertension cylinder body During operating position, alignment pin is fixing.According to a kind of preferred implementation, described end plate connecting plate 308 is symmetrical arranged at least two Above-mentioned alignment pin lining 309, enters the fixing of load-bearing frame working region for supertension cylinder body.

Described end plate is dismountable with described supertension cylinder body to be connected, and wherein, described extra-high tension unit includes at least two Supertension cylinder body, described at least two supertension cylinder body is by being connected and fixed on the described end plate at its two ends along being arranged on load frame Guide rail on frame move realize multiple supertension cylinder body in described load-bearing frame into and out.A supertension wherein When cylinder body carries out ultra high pressure treatment in being in load-bearing frame, another supertension cylinder body is added pending thing at dress unloading station Material, enters the second guide rail entrance armed state being positioned at load-bearing frame side along the 3rd guide rail arranged around load-bearing frame. Described 3rd guide rail moves to dress unloading station and/maintenance station for supertension cylinder body, and enters the superelevation of load-bearing frame Pressure processes station.Described 3rd guide rail can be arranged around load-bearing frame, it is preferred that described 3rd guide rail can be oval, Circle, rectangle etc..The supertension cylinder body processed is removed after ultra high pressure treatment process completes by servo drive system Load-bearing frame also draws off, through the 3rd guide rail entrance dress unloading station, the material processed, and then this completes the supertension cylinder body of discharging Enter maintenance station along the 3rd guide rail equipment is overhauled, continue after completing maintenance to move to dress rampman along the 3rd guide rail Position.When above-mentioned supertension cylinder body is in discharging and maintenance process, another supertension cylinder body having installed food subject to sterilization moves into Load-bearing frame carries out ultra high pressure treatment, and each supertension cylinder body can carry out feeding-supertension sterilize-discharging-overhauled-feed Journey, it is achieved continuous-flow type processing technique.

Fig. 2 shows the top view of the force-bearing base of extra-high tension unit load-bearing frame base of the present invention.Wherein said supertension The first end plate bottom 107b and the second end plate bottom 108b of cylinder body are connected with guide rail.According to a kind of preferred implementation, described Guide rail is made up of the first guide rail 205a being positioned at load-bearing frame both sides and the second guide rail 205b.As in figure 2 it is shown, described first leads Rail 205a and the second guide rail 205b is symmetricly set in the both sides of force-bearing base 203, for support and the loopy moving of supertension cylinder body.

With reference to Fig. 2, force-bearing base 203 also includes the first hydraulic cylinder 202a, the second hydraulic cylinder 202b, the 3rd hydraulic cylinder 203c and the 4th hydraulic cylinder 204d.It is arranged on force-bearing base 203 working position moving into load-bearing frame for supertension cylinder body Location when putting.

The power that the present invention drives supertension cylinder body to move laterally into or remove load-bearing frame comes from servo drive system.Super High pressure cylinder body being accurately positioned and moving forward and backward in force-bearing base relies on the hydraulic cylinder effect being arranged on force-bearing base.

The workflow of the continuous-flow type extra-high tension unit of the present invention includes: the present invention selects and is positioned at force-bearing base the first guide rail Supertension cylinder body 1 and the supertension cylinder body 2 being positioned at force-bearing base the second guide rail.After pending article are put into ultra-high pressure cylinder body, End plate is installed on the two ends of supertension cylinder body body, the supertension of end plate will be connected by connecting servo motor driving system Cylinder body 1 enters laterally in load-bearing frame by the first guide rail, mobile to operating position.Treat that supertension cylinder body 1 moves to working position Putting, alignment pin inserts the hole, location of force-bearing base, completes being accurately positioned of supertension cylinder body.Such as Fig. 2, the first block and the second block Connect the 5th hydraulic cylinder 204a and the 6th hydraulic cylinder 204b at force-bearing base two ends respectively.First hydraulic cylinder 202a, second Hydraulic cylinder 202b, the 3rd hydraulic cylinder 203c and the 4th hydraulic cylinder 204d promote and enter ultra-high pressure cylinder under plug duty Body seals, and after pressure release completes, removes supertension cylinder body.Treat that supertension cylinder body enters into operating position and completes alignment pin standard After determining position, plug is advanced to operating position and ultra-high pressure cylinder body forms airtight cavity volume.During supercharging, first control system starts Main oil pump, simultaneously closes off automatic decompression valve, then by low pressure water injection pump big flow water-filling in container, when being full of water in container After, start the work of supertension origin system and carry out supercharging.When pressure transducer detects that supertension cylinder interior pressure reaches preset value After, supertension origin system stops supercharging, enters container packing stage.Pressurize timer starts timing, after reaching Preset Time, protects Pressure timer stops timing.At packing stage, if pressure leakage is to ftercompction setting value, supertension origin system is actuated for automatically Ftercompction, ftercompction to pressure set points stops.Packing stage terminates rear releasing pressure automatically.During pressure release, control system open automatic leakage Pressure valve, pressure is released by pressure duct.

When ultrahigh pressure treatment equipment is in original state, by artificial by pending replenishment to supertension cylinder body 1.Blowing After completing, supertension cylinder body 1 moves to ultra high pressure treatment station along the first guide rail under the drive of servomotor.Supertension cylinder body After 201 shift-in working position steps complete, supertension block guide pin inserts supertension cylinder body and the hole, location of load-bearing frame 101, Realization is accurately positioned, and makes the axis of the first plug 103a and the second plug 103b and the axis of supertension cylinder body 201 simultaneously Precise alignment.First plug 103a and the second plug 103b is carried out in entering supertension cylinder body body under the effect of hydraulic jack Water-stop.When the first plug 103a and the second plug 103b triggers liquid-level switch, stop advancing, be ready for big flow superelevation Pressure medium injects.In ultra-high pressure cylinder body, supertension medium is injected, when supertension cylinder body is installed above by medium intake line Spilling water water flow switch action time, stop supertension medium inject.Supertension medium injected after the first plug 103a and the Two plug 103b go deep into ultra-high pressure cylinder intracoelomic cavity further, carry out high pressure sealing.Complete supertension cylinder body 201 supercharging.Work as superelevation After cylinder pressure body completes high pressure sealing, the first power transmission block 105a and the second power transmission block 105b enters station.First power transmission block 105a and the second power transmission block 105b acts on the first plug 103a and the second plug 103b for transmitting supertension cylinder body 2 Deboost is to the first block 104a and the second block 104b, then by the first block 104a and the second block 104b by this active force It is transferred to load-bearing frame 101.

According to a preferred implementation, the supertension medium injected in ultra-high pressure cylinder body is that deionization softens pure water. The pH that deionization used softens pure water is 7～8.Equipment all can be caused damage by supertension medium peracid or alkali excessively.Spent from Son softens pure water need to keep a less dissolubility.Because solute under supertension, as calcium carbonate can tend to precipitation, precipitation Valve, sealing ring, ultrahigh pressure pipeline and supertension cylinder body can be caused damage.Preferably, deionization used softens pure water for distillation Or general deionized water, and carry out the conventional sense of water quality before use.According to a kind of preferred implementation, to super High pressure cylinder body injects in the pressure process of supertension medium, and the extract system of supertension cylinder body connection simultaneously carries out pumping process.

Set threshold value when supertension cylinder interior pressure reaches supertension cylinder pressure, close medium intake line in plug, Supertension cylinder body enters packing stage.

Supertension cylinder body completes the ultra high pressure treatment to material in packing stage.After supertension process completes, supertension Cylinder body enters the pressure release stage.Open medium intake line in plug.First power transmission block 105a and the second power transmission block 105b returns To initial position.When the first power transmission block 105a and the second power transmission block 105b returns after initial position step completes, the first plug 103a and Two plug 103b removal supertension cylinder bodies are to water-break position, when triggering water level switch, and the first plug 103a and the second plug 103b Stop motion.After the first plug 103a and the second plug 103b triggers water level switch, water way unit evacuates in ultra-high pressure cylinder body Medium.According to a kind of preferred implementation, in the pressure leak process to supertension cylinder body, supertension cylinder body connection simultaneously is bled and is System is inflated process.After completing supertension cylinder body draining, the first plug 103a and the second plug 103b is retracted into initial position. Supertension block guide pin is extracted to initial position, and supertension cylinder body unlocks.After supertension cylinder body has unlocked, supertension cylinder body 1 leads to Cross the first guide rail to move under servomotor drives to initial position, take out ultra high pressure treatment article in cylinder body.Complete supertension Process overall process.It is positioned at another pending supertension cylinder body 2 of the second guide rail 205b under servo electrical machinery system promotes simultaneously Going successively to load-bearing frame and carry out supertension sterilize, such at least two supertension cylinder body is alternately and repeatedly operated, it is achieved food The supertension sterilize efficient, easy of product processes.

A preferred embodiment of the invention, the present invention uses two load-bearing frames and at least two ultra-high pressure cylinder The mode of operation of body, its operation principle includes:

Said two load-bearing frame uses the mode of parallel arranged, and each load-bearing frame also includes being positioned at the first of its both sides Guide rail and the second guide rail.

Supertension cylinder body 1, after the dress unloading station being positioned at the 3rd guide rail loads treating material, moves along the 3rd guide rail To the position arranged side by side with the first guide rail, entered the ultra high pressure treatment work of load-bearing frame 1 along the first guide rail by servo drive system Position carries out supertension sterilize, and in sterilization process, extra-high tension unit carries out aforesaid pressurization, pressurize and pressure release to supertension cylinder body Journey.When this supertension cylinder body 1 is in running order, the second supertension cylinder body 2 enters dress unloading station and feeds, and has fed Moved to load-bearing frame 2 by the 3rd guide rail after one-tenth, entered the ultra high pressure treatment station of load-bearing frame 2 by servo drive system Carry out supertension sterilize.So can effectively shorten the process time.

After the supertension cylinder body in load-bearing frame 1 completes sterilizing works, return to hold under the effect of servo drive system The initial position of power framework 1 first guide rail, then returns dress unloading station along the 3rd guide rail and carries out discharging.After discharging completes, should Supertension cylinder body moves along the 3rd guide rail and overhauls this supertension cylinder body to maintenance station, is at this supertension cylinder body and unloads When material and maintenance process, another supertension cylinder body 3 having completed handling material work can go successively to be in the load of idle condition Ultra high pressure treatment station in framework 1 is operated.Juxtaposition arrangement is used between said two load-bearing frame.According to one Select excellent embodiment, around the 3rd guide rail between two load-bearing frames can common sparing track, for example formed as following shape The 3rd guide rail: 00.

According to a kind of preferred implementation, the present invention can use two load-bearing frames and four supertension cylinder bodies to fit into row Continuous-flow type operation, shortens the ultra high pressure treatment time, improves work efficiency.

A preferred embodiment of the invention, the present invention can use three load-bearing frames and five supertension cylinder bodies Coordinate mode of operation, in this embodiment, around the 3rd guide rail between three load-bearing frames can common sparing track, such as It is formed as the 3rd guide rail of shape: 000.Preferably, the 3rd guide rail arranges multiple dress unloading station and maintenance station, So that multiple supertension cylinder bodies are operated simultaneously, it is ensured that occur without equipment idle condition, thus improve work efficiency further.

The continuous-flow type extra-high tension unit of the present invention uses at least two supertension cylinder body to be driven down by servo electrical machinery system Process along the guide rail alternately supertension sterilize being arranged at load-bearing frame both sides, it is possible to achieve continuous-flow type Food processing processing work Skill, and carry out aseptic formula operation again without follow-up, integral type supertension sterilize can be realized and process.And the continuous-flow type of the present invention Food after extra-high tension unit process, meets client to food safety and the requirement of nutrition, it is not necessary to add food additive.With biography System hot-working is compared, and can not only keep the original delicate flavour of food and delicious food, and the shelf-life is longer, it is adaptable to meat, seafood, fruit The various food such as class, greengrocery.Continuous-flow type processing technique makes the course of processing easier simultaneously.Highly efficient.

It should be noted that above-mentioned specific embodiment is exemplary, those skilled in the art can be open in the present invention Find out various solution under the inspiration of content, and these solutions also belong to disclosure of the invention scope and fall into this Within bright protection domain.It will be understood by those skilled in the art that description of the invention and accompanying drawing thereof be illustrative and not Constitute limitations on claims.Protection scope of the present invention is limited by claim and equivalent thereof.

Claims (10)

1. a continuous-flow type extra-high tension unit, it is characterised in that described extra-high tension unit includes at least one load-bearing frame (101), supertension cylinder body (201), be used for fixing the end plate of described supertension cylinder body (201) and laying respectively at described load frame At least one guide rail of frame (101) both sides,

Wherein, at least two supertension cylinder body (201) can be along described at least one guide rail relative to described load-bearing frame (101) Transverse shifting so that one of described at least two supertension cylinder body (201) is within entrance is positioned at described load-bearing frame (101) When ultra high pressure treatment station, other supertension cylinder bodies (201) are positioned at the dress unloading station outside described load-bearing frame (101) And/or maintenance station.

2. continuous-flow type extra-high tension unit as claimed in claim 1, it is characterised in that described supertension cylinder body (201) is by solid End plate due to its two ends moves on described guide rail, and wherein, described guide rail at least includes being arranged at described load-bearing frame (101) The first guide rail (205a) that both sides and orbital direction are perpendicular with described load-bearing frame (101) and the second guide rail (205b).

3. continuous-flow type extra-high tension unit as claimed in claim 2, it is characterised in that described extra-high tension unit also includes around institute State load-bearing frame (101) and described first guide rail (205a) and the 3rd guide rail that the second guide rail (205b) is arranged.

4. continuous-flow type extra-high tension unit as claimed in claim 1, it is characterised in that described load-bearing frame (101) is formed with axle To two ends, there is arcuate structure, it is sufficient to accommodate the space of described supertension cylinder body (201), at the supertension of described supertension cylinder body Science and engineering position is positioned at the space of described load-bearing frame (101), described dress unloading station and/or maintenance station be located around described in hold On 3rd guide rail of power framework (101).

5. the continuous-flow type extra-high tension unit as described in one of Claims 1-4, it is characterised in that described continuous-flow type supertension sets For including supertension cylinder body (201) described at least two and at least two load-bearing frame (101)；

Or, described continuous-flow type extra-high tension unit includes at least three supertension cylinder body (201) and at least two load-bearing frame (101)；

Or, described continuous-flow type extra-high tension unit includes at least four supertension cylinder body (201) and at least two load-bearing frame (101)；

Or, described continuous-flow type extra-high tension unit includes at least five supertension cylinder body (201) and at least three load-bearing frame (101)。

6. the continuous-flow type extra-high tension unit as described in one of Claims 1-4, it is characterised in that described dress unloading station is positioned at With the end positions of the 3rd guide rail of the first guide rail homonymy of described load-bearing frame (101), described check man is positioned at and holds with described The end positions of the 3rd guide rail of the second guide rail homonymy of power framework (101).

7. continuous-flow type extra-high tension unit as claimed in claim 1, it is characterised in that described guide rail includes the first guide rail (205a) With the second guide rail (205b), described first guide rail (205a) and the second guide rail (205b) are symmetricly set in described load-bearing frame (101) both sides,

Wherein, described end plate include the first end plate and the second end plate, described first end plate be by the first end plate top (107a) and First end plate (107b) is constituted, and described second end plate is by the second end plate top (108a) and the second end plate bottom (108b) structure Become,

Wherein, the urceolus (302) of described supertension cylinder body contacts with described first end plate and described second end plate at its two ends It is formed in part with bulge-structure (307),

Described end plate includes first that length and described bulge-structure (307) flush along described supertension cylinder body horizontal axis Plate, vertical with described first plate and extend to along described supertension cylinder body by urceolus inner core inner diameter edge the second plate and with Described second plate is vertical and the 3rd plate along described supertension cylinder body horizontal axis extension.

8. the continuous-flow type extra-high tension unit as described in one of Claims 1-4, it is characterised in that described supertension cylinder body (201) Described ultra high pressure treatment station is moved laterally into relative to described load-bearing frame from the first guide rail, after completing supertension sterilize, described Supertension cylinder body (201) moves to initial position along the first guide rail under drive system effect, is positioned at the ultra-high pressure cylinder of the second guide rail Body (201) enters load-bearing frame under drive system effect and carries out supertension sterilize,

Described extra-high tension unit also includes the first plug (103a) and the second plug removably connected with described supertension cylinder body (103b), described at least two supertension cylinder body shares described first plug (103a) and described second plug (103b),

Described first plug (103a) and the second plug (103b) reach ultra high pressure treatment position can seal in the way of depressurization The supertension cylinder body body put, described first plug (103a) and described second plug (103b) have for described supertension The medium intake line of cylinder body body input supertension medium.

9. the continuous-flow type extra-high tension unit as described in one of Claims 1-4, it is characterised in that complete the ultra-high pressure cylinder of charging Body is locked by alignment pin after arriving ultra high pressure treatment station so that it is the axis of inner chamber and described first plug and second The axis alignment of plug.

10. continuous-flow type extra-high tension unit as described in one of Claims 1-4, it is characterised in that described extra-high tension unit also includes First block (104a) and the second block (104b), described first block (104a) and the second block (104b) are by connecting the 5th Hydraulic cylinder (204a) and the 6th hydraulic cylinder (204b) realize the mobile deboost under high pressure produced by supertension cylinder body It is transferred to described load-bearing frame (101).