CN113120831A

CN113120831A - Continuous sterilization system

Info

Publication number: CN113120831A
Application number: CN201911400981.8A
Authority: CN
Inventors: 王青
Original assignee: Shandong Zhihui Environmental Engineering Co ltd
Current assignee: Shandong Zhonglian Pratt & Whitney Intelligent Equipment Co ltd
Priority date: 2019-12-31
Filing date: 2019-12-31
Publication date: 2021-07-16
Anticipated expiration: 2039-12-31
Also published as: CN113120831B

Abstract

The utility model provides a continuous sterilization system, is including bottle sterilizing equipment, bottle conveyor, the upright jar device, jar body list row device and the detection turning device that connect gradually, it includes bottle conveyor to found the jar device, bottle conveyor includes the frame, be provided with conveying axle I and conveying axle II in the frame, the winding has conveyer belt I on conveying axle I and the conveying axle II, be provided with rotatable upright jar wheel on the conveying axle I, it can switch in centre gripping bottle jar and the two kinds of states of releasing the bottle jar to found the jar wheel, the upper end of founding the jar wheel is provided with the guide block, the lower extreme of founding the jar wheel is provided with pushes away the dog. In founding the canning and putting, the bottle under the state of lying overturns 90 along with the rotation of conveying axle I and becomes upright state, and the bottle of upright state receives pushing away that pushes away the dog and keeps off the effect and no longer rotates along with conveying axle I, and the bottle of upright state breaks away from the centre gripping of left dog and right dog, and the bottle of standing up is difficult for taking place askew phenomenon.

Description

Continuous sterilization system

Technical Field

The invention relates to the technical field of sterilization devices, in particular to a continuous sterilization system.

Background

With the rapid development of the food industry, the technical requirements for assembly line equipment in the field of food machinery are increasing day by day. The existing continuous sterilization system comprises a bottle and can sterilization device, a bottle and can conveying device, a can erecting device, a can body single-row device and a detection turnover device.

The bottles conveyed by the bottle conveying device need to be subjected to vertical can treatment (the bottles are turned from a horizontal state to an upright state, the horizontal state is a horizontal state, and the upright state is a vertical state), the existing vertical can device is not reasonable in design, turning is generally completed by the aid of the gravity of the bottles, so that the bottles are conveyed smoothly, a flow bottleneck of the whole assembly line is easily formed, the processing capacity of the assembly line is insufficient, and the requirement of large-scale production is difficult to meet; in the process of erecting the can, the bottle can is easy to continue to rotate along with the can erecting wheel after being clamped and erected, and the bottle can is easy to fall after being erected.

In addition, when the cauldron that disinfects among the current sterilizing equipment carries out steam sterilization to the bottle, at first to letting in hot water in the cauldron that disinfects, the hot water begins to carry the bottle in the cauldron that disinfects after advancing the water level of setting for in the cauldron that disinfects, the bottle constantly gets into the cauldron that disinfects through hydrothermal cushioning effect in, the product preheats through hot water, along with the product of putting into more and more, the hydrothermal liquid level constantly risees in the cauldron that disinfects, and hot water can be discharged with the cold air in the cauldron that disinfects. When the product is subjected to steam sterilization, hot water in the sterilization kettle needs to be emptied, and then steam is injected into the sterilization kettle. In the prior art, hot water entering a sterilization kettle is recycled, and the hot water can continuously exchange heat with the outside through a pipeline in the conveying process, so that part of heat is dissipated into the air; the hot water gets into disinfect the cauldron after and disinfect the cauldron and disinfect the product in the cauldron and carry out the heat exchange, the lower cover device setting of cauldron of disinfecting is at normal atmospheric temperature inslot, and the heat in the cauldron of disinfecting can scatter and disappear along with the heat exchange of the water in lower cover device and the normal atmospheric temperature basin, causes the temperature drop in the cauldron of disinfecting, and hydrothermal temperature drop, the method that generally adopts for solving above-mentioned problem is: after cold air in the sterilization kettle is discharged through the hot water, steam is introduced into the sterilization kettle to discharge the hot water, and then the discharged hot water is heated to reach the temperature required by the next discharge of the cold air in the sterilization kettle, so that the energy consumption is increased.

The bottle after the bottle sterilizing device disinfects discharges from the cauldron that disinfects and carries cooling in to the basin, and conveyor in current basin and the basin is the straight line and arranges, occupies great space on length direction, requires that the workshop place must have sufficient length, does not solve above-mentioned problem, sets up the conveyor in basin and the basin into the form that the bend was carried, but through the turn, the product after disinfecting distributes inhomogeneously. This is a disadvantage of the prior art.

Disclosure of Invention

The invention aims to solve the technical problem that the prior art is insufficient, and provides a continuous sterilization system, wherein bottles in a lying state are turned over by 90 degrees to be in an upright state along with the rotation of a conveying shaft I, the bottles in the upright state are not rotated along with the conveying shaft I under the pushing action of a pushing stop block, the bottles in the upright state are separated from the clamping of a left stop block and a right stop block, and the upright bottles are not prone to being tilted.

The scheme is realized by the following technical measures: the utility model provides a continuous sterilization system, is including bottle sterilizing equipment, bottle conveyor, the upright jar device, jar body list row device and the detection turning device that connect gradually, it includes bottle conveyor to found the jar device, bottle conveyor includes the frame, be provided with conveying axle I and conveying axle II in the frame, the winding has conveyer belt I on conveying axle I and the conveying axle II, be provided with rotatable upright jar wheel on the conveying axle I, it can switch in centre gripping bottle jar and the two kinds of states of releasing the bottle jar to found the jar wheel, the upper end of founding the jar wheel is provided with the guide block, the lower extreme of founding the jar wheel is provided with pushes away the dog. Adopt this technical scheme, in founding the canning and putting, the bottle under the state of lying overturns 90 along with the rotation of conveying axle I and becomes upright state, and the bottle of upright state receives pushing away that pushes away the dog and keeps off the effect and no longer rotates along with conveying axle I, and the bottle of upright state breaks away from the centre gripping of left dog and right dog, and the bottle of standing up is difficult for taking place askew phenomenon.

A can erecting device comprises a bottle conveying mechanism, the bottle conveying mechanism comprises a rack, a conveying shaft I and a conveying shaft II are arranged on the rack, a conveying belt I is wound on the conveying shaft I and the conveying shaft II, a rotatable can erecting wheel is arranged on the conveying shaft I, the can erecting wheel comprises a rotary drum sleeved on the conveying shaft I, a left baffle sleeved on the conveying shaft I in a sliding mode is arranged on the left side of the rotary drum, a right baffle sleeved on the conveying shaft I in a sliding mode is arranged on the right side of the rotary drum, a left spring is arranged on the left side of the left baffle, the left spring is sleeved on the conveying shaft I, a spring locking device is arranged at the left end of the left spring, a right spring is arranged on the right side of the right baffle, the right spring is sleeved on the conveying shaft I, and a spring locking device is arranged at the right end of the right spring; the conveying belt I is wound on a rotary drum on the conveying shaft I and a conveying wheel on the conveying shaft II, the conveying shaft I or the conveying shaft II is driven to rotate by a power device, and a guide block is fixedly arranged above the rotary drum. By adopting the technical scheme, the bottles in the flat lying state move forwards under the conveying action of the conveying belt I, the front ends of the bottles in the flat lying state firstly touch the left baffle and the right baffle, at the moment, the bottles in the flat lying state are positioned at the upper parts of the rear end edges of the left baffle and the right baffle, the bottles in the flat lying state horizontally move onto the rotary drum along the conveying belt I under the action of the guide blocks, in the process, the bottles in the flat lying state can extrude the left baffle and the right baffle to the left side and the right side, under the left and the right restoring forces of the left spring and the right spring, the bottles in the flat lying state are clamped by the left baffle and the right baffle, and the bottles in the flat lying state rotate 90 degrees along with the vertical can wheel to form the vertical state; the left baffle and the right baffle have a clamping effect on the bottles in the rotating process, the bottles rotate smoothly, and only the rotating cylinders with different sizes need to be replaced when the bottles with different types are rotated; left side spring and right spring all overlap and establish on conveying axle I, and the elastic restoring force that is used in the left baffle of founding the jar wheel and right baffle is more steady, has improved the stability of founding jar action.

Preferably, the spring locking device is a locking nut in threaded connection with the transmission shaft I. Locking nut and I threaded connection of conveying axle can adjust the rate of tension of left spring and right spring.

A can erecting device comprises a bottle conveying mechanism, the bottle conveying mechanism comprises a rack, a conveying shaft I and a conveying shaft II are arranged on the rack, the conveying shaft I and the conveying shaft II are wound with a conveying belt I, the conveying shaft I is provided with a plurality of rotatable vertical tank wheels, each vertical tank wheel comprises a rotary drum sleeved on the conveying shaft I, a left baffle arranged on the left side of the rotary drum and a right baffle arranged on the right side of the rotary drum, the left baffle and the right baffle are both sleeved on the transmission shaft I in a sliding manner, a left spring is arranged on the left side of the leftmost vertical tank wheel, the left side of the left spring is provided with a spring locking device, the right side of the rightmost vertical tank wheel is provided with a right spring, a spring locking device is arranged on the right side of the right spring, an intermediate spring is arranged between every two adjacent vertical tank wheels, and the intermediate spring is sleeved on the conveying shaft I; the conveying belt I is wound on a rotary drum on the conveying shaft I and a conveying wheel on the conveying shaft II, the conveying shaft I or the conveying shaft II is driven to rotate by a power device, and guide blocks which correspond to the vertical tank wheels one to one are fixedly arranged above the rotary drum. By adopting the technical scheme, the bottles in the flat lying state move forwards under the conveying action of the conveyor belt I, the front ends of the bottles in the flat lying state firstly touch the left baffle and the right baffle, at the moment, the bottles in the flat lying state are positioned at the upper parts of the rear end edges of the left baffle and the right baffle, under the action of the guide blocks, the bottles in the flat lying state horizontally move onto the rotary drum along the conveyor belt I, in the process, the bottles in the flat lying state can extrude the left baffle and the right baffle to the left and the right, under the left and the right of restoring forces of the left spring, the right spring and the middle spring, the left baffle and the right baffle in each vertical tank wheel can clamp the bottles in the flat lying state, and the bottles in the flat lying state are in the vertical state along with the rotation of the vertical tank wheels by 90 degrees; the left baffle and the right baffle in each vertical tank wheel play a role in clamping the bottles in the rotating process, the bottles rotate smoothly, and when the bottles of different types are rotated, only the rotating cylinders of different sizes need to be replaced; left side spring, right spring and middle spring all overlap and establish on conveying axle I, and the elastic restoring force that is used in the left baffle of founding the jar wheel and right baffle is more steady, has improved the stability of founding jar action.

Preferably, two middle springs sleeved on the conveying shaft I are arranged between two adjacent vertical tank wheels, and a spring locking device is arranged between the two middle springs. By adopting the technical scheme, two independent spring locking devices are arranged between the two middle springs, and each spring locking device correspondingly adjusts the tension degree of one middle spring.

Preferably, the spring locking device is a locking nut in threaded connection with the transmission shaft I. Adopt this technical scheme, lock nut and I threaded connection of conveying axle can adjust the rate of tension of left spring, right spring and middle spring.

A bottle and can overturning device comprises a bottle and can conveying mechanism, wherein the bottle and can conveying mechanism comprises a rack, a conveying shaft I and a conveying shaft II are arranged on the rack, a conveying belt I is wound on the conveying shaft I and the conveying shaft II, a plurality of rotatable bottle and can overturning wheels are arranged on the conveying shaft I, the bottle and can overturning wheels comprise a rotating drum sleeved on the conveying shaft I, a left baffle plate slidably sleeved on the rotating shaft I is arranged on the left side of the rotating drum, and a right baffle plate slidably sleeved on the rotating shaft I is arranged on the right side of the rotating drum; every bottle upset wheel all is connected with the independent straining device who provides the clamp force for left baffle and right baffle, straining device includes the tensioning axle, the axis direction of tensioning axle along axis of rotation I runs through left baffle, rotary drum and right baffle, the left side of tensioning axle is provided with spring locking device, the right side of tensioning axle is provided with spring locking device, be provided with left spring between spring locking device and the left baffle, be provided with right spring between spring locking device and the right baffle, left side spring and right spring are all established on the tensioning axle. By adopting the technical scheme, the bottles in the flat lying state move forwards under the conveying action of the conveying belt I, the front ends of the bottles in the flat lying state firstly touch the left baffle and the right baffle, at the moment, the bottles in the flat lying state are positioned at the upper parts of the rear end edges of the left baffle and the right baffle, the bottles in the flat lying state horizontally move onto the rotary drum along the conveying belt I under the action of the guide blocks, in the process, the bottles in the flat lying state can extrude the left baffle and the right baffle to the left side and the right side, under the left and the right restoring forces of the left spring and the right spring, the bottles in the flat lying state are clamped by the left baffle and the right baffle, and the bottles in the flat lying state turn over by 90 degrees to be in an upright state along with the rotation of the rotating shaft I; the bottle jar of upright state receives the fender effect that pushes away the dog and no longer rotates along with axis of rotation I, and the bottle jar of upright state breaks away from the centre gripping of left dog and right dog. The tension of the left spring and the right spring can be adjusted by the spring locking device.

Preferably, the spring locking device is a locking nut in threaded connection with the tensioning shaft.

A can erecting device comprises a bottle conveying mechanism, wherein the bottle conveying mechanism comprises a rack, a conveying shaft I and a conveying shaft II are arranged on the rack, a conveying belt I is wound on the conveying shaft I and the conveying shaft II, a plurality of rotatable can erecting wheels are arranged on the conveying shaft I, each can erecting wheel comprises a rotating drum sleeved on the conveying shaft I, a left baffle arranged on the left side of the rotating drum and a right baffle arranged on the right side of the rotating drum, and the left baffle and the right baffle are slidably sleeved on the conveying shaft I; the tensioning mechanism comprises a tensioning shaft, the tensioning shaft penetrates through the left baffle, the rotary drum and the right baffle of all vertical tank wheels along the axis direction of the conveying shaft I, a left spring is arranged on the left side of the vertical tank wheel at the leftmost position, the left end of the tensioning shaft is connected with a spring locking device, a right spring is arranged on the right side of the vertical tank wheel at the rightmost position, the right end of the tensioning shaft is connected with the spring locking device, an intermediate spring is arranged between every two adjacent vertical tank wheels, and the left spring, the right spring and the intermediate spring are all sleeved on the tensioning shaft; the conveying belt I is wound on a rotary drum on the conveying shaft I and a conveying wheel on the conveying shaft II, the conveying shaft I or the conveying shaft II is driven to rotate by a power device, and guide blocks which correspond to the vertical tank wheels one to one are fixedly arranged above the rotary drum. By adopting the technical scheme, the bottles in the flat lying state move forwards under the conveying action of the conveyor belt I, the front ends of the bottles in the flat lying state firstly touch the left baffle and the right baffle, at the moment, the bottles in the flat lying state are positioned at the upper parts of the rear end edges of the left baffle and the right baffle, under the action of the guide blocks, the bottles in the flat lying state horizontally move onto the rotary drum along the conveyor belt I, in the process, the bottles in the flat lying state can extrude the left baffle and the right baffle to the left and the right, under the left and the right of restoring forces of the left spring, the right spring and the middle spring, the left baffle and the right baffle in each vertical tank wheel can clamp the bottles in the flat lying state, and the bottles in the flat lying state are in the vertical state along with the rotation of the vertical tank wheels by 90 degrees; the left baffle and the right baffle in each vertical tank wheel play a role in clamping the bottles in the rotating process, the bottles rotate smoothly, and when the bottles of different types are rotated, only the rotating cylinders of different sizes need to be replaced; the utility model discloses a tank wheel, including left side spring, right spring and middle spring, the tensioning axle is established to left side spring, right spring and middle spring are all established on the tensioning axle, and a plurality of upright jar wheels use same tensioning axle, the tensioning axle receives great resistance in the axial direction, the difficult axial of tensioning axle rocks.

Preferably, two middle springs sleeved on the tensioning shaft are arranged between two adjacent vertical tank wheels, and a spring locking device is arranged between the two middle springs. By adopting the technical scheme, two independent spring locking devices are arranged between the two middle springs, and each spring locking device correspondingly adjusts the tension degree of one middle spring.

Preferably, the spring locking device is a locking nut in threaded connection with the tensioning shaft. By adopting the technical scheme, the locking nut is in threaded connection with the tensioning shaft, so that the tensity of the left spring, the right spring and the middle spring can be adjusted.

Preferably, the guide block is fixedly connected with the rack, the rear part of the guide block is a guide pressing end, and the middle part of the guide block is provided with an arc-shaped groove. Adopt this technical scheme, the direction pressure at guide block rear portion is held the end and can be played the direction and is pressed the effect of holding to the bottle of the state of lying for the bottle under the state of lying is to controlling both ends extrusion left baffle and right baffle and moving to the rotary drum, and the arc recess at guide block middle part makes the bottle rotate smoothly.

Preferably, when the bottle is located right above the drum, the contact point of the bottle and the left baffle is a contact point a, the contact point of the bottle and the right baffle is a contact point b, and the chord length of a connecting line between the contact point a and the contact point b is greater than the length of the drum in the axial direction. Adopt this technical scheme, when the bottle is located the rotary drum directly over, the bottle can receive the centre gripping of left baffle and right baffle.

Preferably, the left baffle and the right baffle can rotate along with the conveying shaft I. By adopting the technical scheme, when the tank is erected, the rotary drum, the left baffle and the right baffle all rotate, so that the tank is erected smoothly.

Preferably, the left baffle and the right baffle are of mutually matched disc-shaped structures. By adopting the technical scheme, the left baffle and the right baffle are arranged to be disc-shaped structures, so that the cylindrical bottles and cans can conveniently enter between the left baffle and the right baffle.

Preferably, the rotating drum is provided with a positioning hole, and the rotating drum is fixedly connected with the conveying shaft I through a bolt through the positioning hole, or the rotating drum is connected with the conveying shaft I through a key.

Preferably, all be provided with the spout on left side baffle and the right baffle, be provided with on the conveying axle I with spout complex slide rail.

Preferably, the conveyor belt I is arranged along a guide groove in the rack, and the vertical tank wheels correspond to the guide groove one by one. By adopting the technical scheme, the conveyor belt I is arranged in the guide groove on the rack, and the bottles and cans run on the conveyor belt I.

Preferably, a baffle is fixedly arranged on the rack, and bottle through grooves corresponding to the guide grooves one to one are formed in the baffle. By adopting the technical scheme, the bottles and cans pass through the baffle plate one by one, and then the bottle erecting operation is carried out one by one.

Preferably, a conveying belt II is arranged in front of the conveying belt I along the running direction of the bottles and cans. Adopt this technical scheme, the bottle jar of upright state receives pushing away of pushing away the dog and keeps off the effect and no longer rotate along with conveying axle I, and the bottle jar of upright state breaks away from the centre gripping of left dog and right dog, moves along with conveyer belt II forward.

Preferably, be provided with the bolt hole on the guide block, the guide block passes through screw rod and bolt fastening on the link, be provided with on the link with screw rod complex bar hole I, bar hole I sets up along the fore-and-aft direction. By adopting the technical scheme, the position of the front and rear directions of the guide block can be adjusted through the strip-shaped hole I, so that the guide block is matched with the position of the vertical tank wheel.

Preferably, the left and right sides of link set up with locating lever complex bar hole II, the locating lever is fixed to be set up in the frame, bar hole II sets up along left and right directions. By adopting the technical scheme, the position of the left and right directions of the guide block is adjusted through the strip-shaped hole II, so that the guide block is matched with the position of the vertical tank wheel.

Preferably, a walking beam is fixedly arranged on the rack, and the walking beam spans the rack along the left-right direction. By adopting the technical scheme, the walking beam is arranged, so that the operation personnel can conveniently overhaul or observe.

Preferably, the bottle sterilization device is including disinfecting the cauldron, it is connected with the hot-water tank to disinfect the cauldron, the hot-water tank passes through hot water outlet pipe line and disinfects the cauldron intercommunication, it passes through hot water return pipe line and hot-water tank intercommunication to disinfect the cauldron, hot water return pipe line includes hot water return pipe line I and hot water return pipe line II, the one end of hot water return pipe line I and the lower part intercommunication of the cauldron of disinfecting, the other end and hot-water tank intercommunication, the one end of hot water return pipe line II and the upper portion intercommunication of the cauldron of disinfecting, the other end and hot-water tank intercommunication, be provided with hot-water pump and hot water outlet valve on the hot water outlet pipe line, be provided with hot water return valve I on the hot water return pipe line I, be provided with hot water return valve. By adopting the technical scheme, at the stage of discharging cold air in the kettle body by using hot water, under the action of a hot water pump, the hot water in the hot water tank enters the kettle body through a hot water outlet pipeline, and after the hot water entering the kettle body discharges the cold air in the kettle body, the hot water in the kettle body flows back to the hot water tank through a hot water return pipeline I; after steam in the kettle body is sterilized, under the action of a hot water pump, hot water in a hot water tank enters the kettle body through a hot water outlet pipeline to exchange heat with the kettle body and products in the kettle body, and hot water after heat exchange flows back to the hot water tank through a hot water return pipeline II, so that the hot water circulating device for the sterilization kettle can facilitate hot water in the hot water tank to empty cold air in the kettle body; on the other hand, after the steam sterilization is finished, hot water in the hot water tank conveniently enters the kettle body to carry out heat exchange, so that the hot water flowing back to the hot water tank after the heat exchange reaches the temperature required by next evacuation of cold air in the kettle body.

Preferably, the upper portion of the sterilization kettle is connected with a steam inlet pipeline, the steam inlet pipeline comprises a steam inlet main pipe, a steam inlet main valve is arranged on the steam inlet main pipe, a steam diffusion pipe is arranged on the upper portion of the sterilization kettle, the steam inlet main pipe is communicated with the steam diffusion pipe, and a plurality of steam outlet holes are formed in the steam diffusion pipe. By adopting the technical scheme, high-temperature steam can be introduced into the kettle body by utilizing the steam inlet pipeline, and hot water for emptying cold air in the kettle body is discharged into the hot water tank.

Preferably, the steam inlet pipeline further comprises a steam inlet auxiliary pipe, a steam inlet auxiliary valve is arranged on the steam inlet auxiliary pipe, an air inlet of the steam inlet auxiliary pipe is arranged above the sterilization kettle, and the steam diffusion pipe is arranged below the air inlet of the steam inlet auxiliary pipe. By adopting the technical scheme, when the liquid level of hot water in the kettle body is higher than the steam diffusion pipe, steam is injected into the kettle body by adopting the steam inlet auxiliary pipe to discharge the hot water in the kettle body into the hot water tank.

Preferably, the cauldron that disinfects is connected with liquid level detection device I, liquid level detection device I sets up the below at the steam diffusion tube on cauldron upper portion that disinfects, liquid level detection device I is liquid level display I or the level sensor I who is connected with the controller. Adopt this technical scheme, use the steam admission auxiliary pipe to the internal in-process that discharges the internal hot water of cauldron to the hot-water tank through steam in to the cauldron, after the below of the internal hot water liquid level of cauldron to liquid level detection device I, start the steam admission main pipe and inject steam to the internal cauldron.

Preferably, the bottle and tank sterilization device further comprises a warm water tank, the warm water tank is communicated with the lower part of the sterilization kettle through a warm water outlet pipeline, and a warm water pump and a warm water outlet valve are arranged on the warm water outlet pipeline. By adopting the technical scheme, after the steam sterilization is finished, hot water is circularly injected into the kettle body under the action of the hot water pump to absorb the heat of the kettle body and products so as to reach the temperature required by next evacuation of cold air in the kettle body; and after the hot water pump is stopped, warm water is injected into the kettle body through the warm water pump, and the hot water in the kettle body is discharged into the hot water tank through the hot water outlet pipeline II. The lower part of the sterilization kettle is connected with a cold water pipe water outlet pipe, a cold water outlet valve is arranged on the cold water outlet pipe, when the warm water is subjected to sufficient heat exchange with a bottle tank in the sterilization kettle, the cold water outlet valve is opened, the cold water is injected into the sterilization kettle through a cooling water outlet pipe, the warm water in the sterilization kettle is discharged into a warm water tank, and the cold water outlet pipe can be communicated with a cold water tower; and finally, opening a lower end enclosure of the sterilization kettle, and enabling the sterilized bottle tank in the sterilization kettle and cold water in the sterilization kettle to enter the water tank.

Preferably, the sub-unit connection who disinfects the cauldron has temperature-detecting device, the sub-unit connection of the cauldron body has heating device, heating device includes the steam diffusion tube, steam diffusion tube and steam admission pipeline intercommunication, be provided with the steam admission valve on the steam admission pipeline, be provided with a plurality of steam outlet on the steam diffusion tube. By adopting the technical scheme, the hot water can continuously exchange heat with the outside through the pipeline in the conveying process, and part of heat is dissipated into the air; the hot water enters the kettle body and then exchanges heat with the kettle body and products in the kettle body, but the lower cover device connected with the kettle body is arranged in the normal-temperature water tank, and the heat in the kettle body can be dissipated along with the heat exchange between the lower cover device of the kettle body and the water in the normal-temperature water tank, so that the temperature in the kettle body is reduced. When the temperature detection device detects that the temperature in the kettle body is lower than the set lower temperature limit, the heating device starts to heat the kettle body; and when the temperature detection device detects that the temperature in the kettle body is higher than the set upper limit, the heating device stops. In the process of discharging cold air by using hot water and sterilizing by using steam, the temperature detection device and the heating device are always matched with each other to repeat the process, so that the temperature in the kettle body is always kept in dynamic balance, and the stability of process parameters is ensured. The steam diffusion pipe is of a circular ring structure, and the steam outlets are uniformly distributed on the steam diffusion pipe. The steam diffusion pipe is arranged to be of a circular ring-shaped structure, a bottle can is conveniently placed or discharged to the kettle body, the steam outlet holes are evenly distributed on the steam diffusion pipe, and steam is uniformly diffused into the kettle body through the steam diffusion pipe. The steam diffusion pipe comprises a plurality of arc pipes, and two adjacent arc pipes are fixedly connected through a connecting flange; the connecting flange is fixedly connected with the inner wall of the sterilization kettle. The steam diffusion pipe is fixedly connected with the kettle body through the connecting flange, so that the steam diffusion pipe cannot move and is more firmly fixed.

The upper end of the sterilization kettle is provided with an upper end socket, the lower end of the sterilization kettle is provided with a lower end socket, the lower end socket is soaked in the water tank, the lower end socket comprises an inner end socket and an outer end socket, the inner end socket and the outer end socket are fixedly connected in a sealing mode, heat insulation filling is arranged in an interlayer between the inner end socket and the outer end socket, and a drain pipe joint and/or a drain outlet which are used for communicating the inside and the outside of the sterilization kettle are/is arranged on the lower end socket. By adopting the technical scheme, the heat insulation interlayer is arranged in the interlayer between the outer end enclosure and the inner end enclosure of the sterilization kettle, so that the heat exchange between the sterilization kettle and the water in the normal-temperature water tank is effectively reduced, and the generation of condensed water in the sterilization kettle is reduced.

Preferably, the heat insulation filler is an inert gas layer, and the outer sealing head is provided with a vacuumizing port and an inflating port which are communicated with an interlayer between the inner sealing head and the outer sealing head. By adopting the technical scheme, air in the interlayer between the inner sealing head and the outer sealing head is pumped out through the vacuumizing port, and inert gas is filled into the interlayer between the inner sealing head and the outer sealing head through the inflating port.

Preferably, the inner end enclosure and the outer end enclosure are both welded with the flange;

preferably, a water filtering plate is fixedly arranged in the lower end enclosure, and water filtering holes are formed in the water filtering plate. Adopt this technical scheme, the comdenstion water that produces in the cauldron that disinfects can fall into the lower part of lower cover device through the drainage hole, the drainage board can block the bottom that the product in the cauldron that disinfects falls into the lower cover device, guarantees to disinfect to the product.

Preferably, the conveying mechanism comprises a conveying frame, a transmission shaft arranged on the conveying frame and a conveying belt wound on the transmission shaft. Preferably, the transmission shaft comprises a driven shaft and a rotating shaft driven by a power mechanism, and the conveying belt is wound on the driving shaft and the driven shaft matched with the driving shaft to rotate circularly.

Preferably, conveyor is including row jar conveying mechanism, cooling conveying mechanism and the buffering conveying mechanism that sets gradually, conveyor is provided with the conveying mechanism that turns at the turn. By adopting the technical scheme, the tank discharging and conveying mechanism is used for conveying sterilized products to the cooling and conveying mechanism, the products conveyed by the tank discharging and conveying mechanism are cooled again in the conveying process of the cooling and conveying mechanism, the cooling and conveying mechanism conveys the products to the buffering and conveying mechanism, and the turning and conveying mechanism is arranged for reducing the space occupied by the conveying device in the length direction.

Preferably, conveyor is including arranging a jar conveying mechanism, turn conveying mechanism, cooling conveying mechanism and buffering conveying mechanism that set gradually, it is provided with the branch flitch to arrange between jar conveying mechanism and the turn conveying mechanism, it is provided with the branch flitch between turning conveying mechanism and the cooling conveying mechanism. By adopting the technical scheme, the turning conveying mechanism is arranged between the tank discharging conveying mechanism and the cooling conveying mechanism.

Preferably, the material distributing plate comprises a material guiding plate I and a material guiding plate II, wherein the material guiding plate I is obliquely arranged, the width of the material guiding plate I is gradually reduced from high to low, one oblique side face of the material guiding plate I is connected with the material guiding plate II, the material guiding plate II is obliquely arranged, one end of the material guiding plate II connected with the material guiding plate I is high, and the material guiding plate I and the material guiding plate II are fixedly connected or integrally formed. By adopting the technical scheme, the material distributing plate is used for connecting the tank arranging conveying mechanism and the turning conveying mechanism as well as the turning conveying mechanism and the cooling conveying mechanism, and the products are conveyed from the tank arranging conveying mechanism to the turning conveying mechanism and then from the turning conveying mechanism to the cooling conveying mechanism according to the conveying direction of the products; arranging a material distribution plate between the tank arrangement conveying mechanism and the turning conveying mechanism, connecting the end with larger width of a material guide plate I in the material distribution plate with the tail end of the tank arrangement conveying mechanism, connecting one end of a material guide plate II in the material distribution plate with the initial end of the turning conveying mechanism, enabling a product on the tank arrangement conveying mechanism to slide forwards along the inclined material guide plate I, enabling the product on the material guide plate I to fall onto the material guide plate II in the forward sliding process and further slide forwards along the material guide plate II, and enabling the product on the material guide plate I to dispersedly slide onto the material guide plate II and be dispersedly conveyed onto the turning conveying mechanism as the width of the material guide plate I is gradually reduced from high to low; set up the branch flitch between turn conveying mechanism and cooling conveying mechanism, with the great one end of I width of stock guide in this branch flitch and turn conveying mechanism's end-to-end connection, the one end that will divide in the flitch stock guide II is connected with cooling conveying mechanism's initial end, the last product of turn conveying mechanism slides along the stock guide I of slope forward, product on the stock guide I can fall to stock guide II at the gliding in-process forward, and then slide forward along stock guide II, because stock guide I reduces gradually by its width from high to low, product on the stock guide I can the dispersion slide to stock guide II on and the dispersion is carried to cooling conveying mechanism.

Preferably, be provided with strutting arrangement on the transmission shaft, strutting arrangement includes two supporting mechanism, and two supporting mechanism set up the both sides at the carriage, supporting mechanism is including setting up the supporting seat at the transmission shaft both ends, the supporting seat includes the easy griss slide bearing with transmission shaft clearance fit installation, the aligning cover is installed to easy griss slide bearing's outside interference fit, the bearing frame is installed to the outside clearance fit of aligning cover, the aligning cover is the curved surface with the fitting surface of bearing frame, the carriage fixed connection of bearing frame and transfer chain. Adopt this technical scheme, in this strutting arrangement, transmission shaft and easy griss slide bearing clearance fit, easy griss slide bearing need not the lubrication, because this strutting arrangement sets up under water, and water can play cooling and lubricated effect to easy griss slide bearing, has reduced the maintenance time, has reduced the operation cost, aligning cover and easy griss slide bearing interference fit, aligning cover and bearing frame clearance fit, the aligning cover is the curved surface with the fitting surface of bearing frame, sets up the aligning cover and can make automatic alignment when assembling the bearing frame at transmission shaft both ends for the bearing frame at transmission shaft both ends is concentric.

Preferably, the bearing block is a stainless steel bearing block, and the bearing block is fixedly connected with the conveying frame of the conveying line through bolts.

Preferably, the transmission shaft includes the driven shaft and by power unit driven driving shaft, be provided with sealing device on the driving shaft, sealing device establishes at the epaxial wear-resisting cover of driving including the cover, the cover is equipped with a dish board on wear-resisting sheatheeing in, be provided with the packing between dish board and the wear-resisting cover, the one end of wear-resisting cover is provided with the breach, fixedly connected with connecting block can be dismantled in breach department to wear-resisting cover, connecting block and driving shaft connection and transmission torque, fixedly connected with sealing mechanism can be dismantled to the other end of wear-resisting cover. According to the technical scheme, the power mechanism is arranged outside the water tank, the sealing device is arranged to prevent water in the water tank from flowing out of the water tank along the driving shaft, the sealing mechanism is arranged to prevent water from flowing out of the wear-resistant sleeve and the driving shaft, and the packing is arranged to prevent water from flowing out of the disc plate and the wear-resistant sleeve. During installation, the sealing mechanism and the wear-resistant sleeve are installed on the driving shaft, the connecting block is connected with the driving shaft and fixed with one end of the wear-resistant sleeve, the sealing mechanism is fixedly connected with the other end of the wear-resistant sleeve, and finally the wear-resistant sleeve is wound with the packing and the disc installing plate. When the wear-resistant sleeve is disassembled, the sealing mechanism and the connecting block are disassembled from two ends of the wear-resistant sleeve, the wear-resistant sleeve can be disassembled from the main feeding shaft, and therefore the wear-resistant sleeve is very convenient to install and disassemble and convenient to maintain.

Preferably, the sealing mechanism comprises a sealing ring and a sealing ring gland detachably and fixedly connected with the wear-resistant sleeve, and the sealing ring is arranged between the sealing ring gland and the wear-resistant sleeve; the connecting block is provided with a bulge, and the driving shaft is provided with a key groove matched with the bulge; the seal ring gland is connected with the wear-resistant sleeve through a fixing bolt I; a seal ring groove I is formed in the seal ring gland, and a seal ring groove II matched with the seal ring groove I is formed in the wear-resistant sleeve; the connecting block is connected with the wear-resistant sleeve through a fixing bolt II.

Therefore, compared with the prior art, the invention has prominent substantive features and remarkable progress, and the beneficial effects of the implementation are also obvious.

Drawings

FIG. 1 is a schematic diagram of a continuous sterilization system;

FIG. 2 is a schematic structural view of a sterilization kettle;

FIG. 3 is a schematic structural diagram of a lower head of a sterilization kettle;

FIG. 4 is an enlarged view of a portion A of FIG. 3;

FIG. 5 is a schematic view of the structure of the vapor diffusion tube of FIG. 3;

FIG. 6 is a first schematic structural diagram of a material distributing plate;

FIG. 7 is a second schematic structural view of a material distributing plate;

FIG. 8 is a third schematic structural view of a material distributing plate;

FIG. 9 is a first schematic view of the conveying device in the water tank;

FIG. 10 is a second schematic view of the conveying device in the water tank;

FIG. 11 is a schematic view of the transmission device for the conveying mechanism (the sealing device is not shown);

FIG. 12 is a schematic structural view of the support device;

FIG. 13 is a schematic view of the structure of the sealing device;

FIG. 14 is a cross-sectional view A-A of FIG. 13;

FIG. 15 is a partial schematic view of a drive shaft;

FIG. 16 is a cross-sectional structural view of the wear sleeve;

FIG. 17 is a schematic structural view of the vertical tank device;

FIG. 18 is a schematic perspective view of the canister installation;

FIG. 19 is an enlarged view of portion A of FIG. 18;

FIG. 20 is a first schematic view of a vertical tank wheel in use;

FIG. 21 is a first structural view of a vertical tank wheel;

FIG. 22 is a first schematic view of the fitting structure of the vertical tank wheel and the push stopper;

FIG. 23 is a first schematic structural view of a guide block;

FIG. 24 is a schematic view showing a second usage state of the vertical tank wheel;

FIG. 25 is a third schematic view showing a use state of the vertical tank wheel;

FIG. 26 is a fourth schematic view showing a use state of the vertical tank wheel;

FIG. 27 is a second schematic structural view of the vertical tanker;

FIG. 28 is a second schematic view of the fitting structure of the vertical drum and the push stopper;

FIG. 29 is a fifth schematic view of the use state of the vertical tank wheel;

FIG. 30 is a third schematic structural view of the vertical tank wheel;

FIG. 31 is a third schematic view of the fitting structure of the vertical tank wheel and the push stopper;

fig. 32 is a sixth schematic view of the use state of the vertical tank wheel.

In the figure: 1-a sterilization device, 1.1-a sterilization kettle, 1.2-a hot water tank, 1.5-a hot water pump, 1.6-a hot water outlet valve, 1.10-a steam inlet auxiliary pipe, 1.11-a steam inlet auxiliary valve, 1.12-a steam inlet main pipe, 1.13-a steam inlet main valve, 1.14-a steam diffusion pipe, 1.15-a connecting flange, 1.16-a liquid level detection device I, 1.29-a warm water outlet valve, 1.30-a warm water return valve, 1.31-a warm water tank, 1.32-a warm water, 1.43-a hot water return pipe I, 1.44-a hot water return valve I, 1.45-a hot water return pipe II, 1.46-a hot water return valve II, 1.47-a temperature detection device I, 1.48-a temperature detection device II, 1.49-a warm water outlet pipe, 1.50-a warm water return pipe, 1.51-a liquid level detection device II, 1.52-a cold water outlet pipe III, 1.53-cold water outlet valve, 1.54-upper end enclosure, 1.55-lower end enclosure; 2-conveying device, 2.1-transmission shaft, 2.1.1-key slot, 2.2-wear-resistant sleeve, 2.2.1-bolt hole I, 2.2.2-bolt hole II, 2.3-packing, 2.4-disc plate, 2.5-sealing ring, 2.6-sealing ring gland, 2.7-fixing bolt I, 2.8-connecting block, 2.8.1-bulge, 2.9-fixing bolt II, 2.10-easy-griss sliding bearing, 2.11-aligning sleeve, 2.12-bearing seat, 2.13-conveying frame, 2.14-conveying belt, 2.15-water tank, 2.16-tank-discharging conveying mechanism, 2.17-distributing plate, 2.17.1-guide plate I, 2.17.2-guide plate II, 2.18-turning conveying mechanism, 2.19-cooling conveying mechanism, 2.20-buffering conveying mechanism and 2.21-power mechanism; 3.1-transfer shaft I, 3.2-drum, 3.2.1-pilot hole, 3.3-left flap, 3.4-right flap, 3.5-can, 3.6-tension shaft, 3.7-left spring, 3.8-right spring, 3.9-lock nut, 3.10-middle spring, 3.11-conveyor I, 3.12-push stop, 3.13-guide block, 3.13.1-arc groove, 3.13.2-guide hold-down end, 3.14-transfer shaft II, 3.15-transfer wheel, 3.16-conveyor II, 3.17-frame, 3.18-guide groove, 3.19-flap, 3.19.1-can through groove, 3.20-walking beam, 3.21-link, 3.22-screw, 3.23-bolt, 3.24-strip hole I, 3.25-pilot rod, 3.26-strip hole II; 4-tank single-row device; 5-detecting the turnover device.

Detailed Description

In order to clearly illustrate the technical features of the present solution, the following explains the present solution by way of specific embodiments and with reference to the accompanying drawings.

As shown in the figure, the continuous sterilization system comprises a bottle and can sterilization device, a bottle and can conveying device, a can erecting device, a can body single-row device and a detection turnover device which are sequentially connected.

The vertical can device comprises a bottle conveying mechanism, the bottle conveying mechanism comprises a rack, a conveying shaft I and a conveying shaft II are arranged on the rack, a conveying belt I is wound on the conveying shaft I and the conveying shaft II, a rotatable vertical can wheel is arranged on the conveying shaft I, the vertical can wheel can be switched between two states of clamping a bottle and releasing the bottle, a guide block is arranged at the upper end of the vertical can wheel, and a push stop block is arranged at the lower end of the vertical can wheel. In founding the canning and putting, the bottle under the state of lying overturns 90 along with the rotation of conveying axle I and becomes upright state, and the bottle of upright state receives pushing away that pushes away the dog and keeps off the effect and no longer rotates along with conveying axle I, and the bottle of upright state breaks away from the centre gripping of left dog and right dog, and the bottle of standing up is difficult for taking place askew phenomenon.

The can erecting device comprises a bottle conveying mechanism which comprises a bottle conveying mechanism, the bottle conveying mechanism comprises a frame, the machine frame is provided with a transmission shaft I and a transmission shaft II, the transmission shaft I and the transmission shaft II are wound with a transmission belt I, a rotatable vertical tank wheel is arranged on the conveying shaft I and comprises a rotary drum sleeved on the conveying shaft I, the left side of the rotary drum is provided with a left baffle which is sleeved on the conveying shaft I in a sliding way, the right side of the rotary drum is provided with a right baffle which is sleeved on the conveying shaft I in a sliding way, a left spring is arranged on the left side of the left baffle plate, the left spring is sleeved on the conveying shaft I, a spring locking device is arranged at the left end of the left spring, a right spring is arranged on the right side of the right baffle plate, the right spring is sleeved on the conveying shaft I, and a spring locking device is arranged at the right end of the right spring; the conveying belt I is wound on a rotary drum on the conveying shaft I and a conveying wheel on the conveying shaft II, the conveying shaft I or the conveying shaft II is driven to rotate by a power device, and a guide block is fixedly arranged above the rotary drum. The bottle in the flat lying state moves forwards under the conveying action of the conveying belt I, the front end of the bottle in the flat lying state firstly touches the left baffle and the right baffle, at the moment, the bottle in the flat lying state is positioned at the upper parts of the rear end edges of the left baffle and the right baffle, under the action of the guide block, the bottle in the flat lying state horizontally moves to the rotary drum along the conveying belt I, in the process, the bottle in the flat lying state can extrude the left baffle and the right baffle to the left side and the right side, under the left and the right of the restoring force of the left spring and the right spring, the bottle in the flat lying state is clamped by the left baffle and the right baffle, and the bottle in the flat lying state rotates 90 degrees along with the vertical can wheel to form an upright state; the left baffle and the right baffle have a clamping effect on the bottles in the rotating process, the bottles rotate smoothly, and only the rotating cylinders with different sizes need to be replaced when the bottles with different types are rotated; left side spring and right spring all overlap and establish on conveying axle I, and the elastic restoring force that is used in the left baffle of founding the jar wheel and right baffle is more steady, has improved the stability of founding jar action.

The can erecting device comprises a bottle conveying mechanism, the bottle conveying mechanism comprises a rack, a conveying shaft I and a conveying shaft II are arranged on the rack, the conveying shaft I and the conveying shaft II are wound with a conveying belt I, the conveying shaft I is provided with a plurality of rotatable vertical tank wheels, each vertical tank wheel comprises a rotary drum sleeved on the conveying shaft I, a left baffle arranged on the left side of the rotary drum and a right baffle arranged on the right side of the rotary drum, the left baffle and the right baffle are both sleeved on the transmission shaft I in a sliding manner, a left spring is arranged on the left side of the leftmost vertical tank wheel, the left side of the left spring is provided with a spring locking device, the right side of the rightmost vertical tank wheel is provided with a right spring, a spring locking device is arranged on the right side of the right spring, an intermediate spring is arranged between every two adjacent vertical tank wheels, and the intermediate spring is sleeved on the conveying shaft I; the conveying belt I is wound on a rotary drum on the conveying shaft I and a conveying wheel on the conveying shaft II, the conveying shaft I or the conveying shaft II is driven to rotate by a power device, and guide blocks which correspond to the vertical tank wheels one to one are fixedly arranged above the rotary drum. The bottle cans in the flat lying state move forwards under the conveying action of the conveying belt I, the front ends of the bottle cans in the flat lying state firstly touch the left baffle and the right baffle, the bottle cans in the flat lying state are positioned at the upper parts of the rear end edges of the left baffle and the right baffle at the moment, the bottle cans in the flat lying state horizontally move to the rotary drum along the conveying belt I under the action of the guide blocks, the bottle cans in the flat lying state can extrude the left baffle and the right baffle to the left side and the right side in the process, the left baffle and the right baffle in each vertical can wheel can clamp the bottle cans in the flat lying state under the left side and the right side of restoring force of the left spring, the right spring and the middle spring, and the bottle cans in the flat lying state rotate 90 degrees to be in the vertical state along with the vertical can wheels; the left baffle and the right baffle in each vertical tank wheel play a role in clamping the bottles in the rotating process, the bottles rotate smoothly, and when the bottles of different types are rotated, only the rotating cylinders of different sizes need to be replaced; left side spring, right spring and middle spring all overlap and establish on conveying axle I, and the elastic restoring force that is used in the left baffle of founding the jar wheel and right baffle is more steady, has improved the stability of founding jar action.

Preferably, two middle springs sleeved on the conveying shaft I are arranged between two adjacent vertical tank wheels, and a spring locking device is arranged between the two middle springs. Two independent spring locking devices are arranged between the two middle springs, and the tension of one middle spring is correspondingly adjusted by each spring locking device.

Preferably, the spring locking device is a locking nut in threaded connection with the transmission shaft I. Locking nut and I threaded connection of conveying axle can adjust the rate of tension of left spring, right spring and middle spring.

The can erecting device comprises a bottle conveying mechanism, the bottle conveying mechanism comprises a rack, a conveying shaft I and a conveying shaft II are arranged on the rack, a conveying belt I is wound on the conveying shaft I and the conveying shaft II, a plurality of rotatable bottle overturning wheels are arranged on the conveying shaft I, the bottle overturning wheels comprise a rotating drum sleeved on the conveying shaft I, a left baffle slidably sleeved on the rotating shaft I is arranged on the left side of the rotating drum, and a right baffle slidably sleeved on the rotating shaft I is arranged on the right side of the rotating drum; every bottle upset wheel all is connected with the independent straining device who provides the clamp force for left baffle and right baffle, straining device includes the tensioning axle, the axis direction of tensioning axle along axis of rotation I runs through left baffle, rotary drum and right baffle, the left side of tensioning axle is provided with spring locking device, the right side of tensioning axle is provided with spring locking device, be provided with left spring between spring locking device and the left baffle, be provided with right spring between spring locking device and the right baffle, left side spring and right spring are all established on the tensioning axle. The bottle in the flat lying state moves forwards under the conveying action of the conveying belt I, the front end of the bottle in the flat lying state firstly touches the left baffle and the right baffle, at the moment, the bottle in the flat lying state is positioned at the upper parts of the rear end edges of the left baffle and the right baffle, the bottle in the flat lying state horizontally moves to the rotary drum along the conveying belt I under the action of the guide block, in the process, the bottle in the flat lying state can extrude the left baffle and the right baffle to the left side and the right side, the bottle in the flat lying state is clamped by the left baffle and the right baffle under the left-right restoring force of the left spring and the right spring, and the bottle in the flat lying state overturns 90 degrees along with the rotation of the rotating shaft I to be in an upright state; the bottle jar of upright state receives the fender effect that pushes away the dog and no longer rotates along with axis of rotation I, and the bottle jar of upright state breaks away from the centre gripping of left dog and right dog. The tension of the left spring and the right spring can be adjusted by the spring locking device.

The tank erecting device comprises a tank conveying mechanism, the tank conveying mechanism comprises a rack, a conveying shaft I and a conveying shaft II are arranged on the rack, a conveying belt I is wound on the conveying shaft I and the conveying shaft II, a plurality of rotatable tank erecting wheels are arranged on the conveying shaft I, each tank erecting wheel comprises a rotary drum sleeved on the conveying shaft I, a left baffle arranged on the left side of the rotary drum and a right baffle arranged on the right side of the rotary drum, and the left baffle and the right baffle are slidably sleeved on the conveying shaft I; the tensioning mechanism comprises a tensioning shaft, the tensioning shaft penetrates through the left baffle, the rotary drum and the right baffle of all vertical tank wheels along the axis direction of the conveying shaft I, a left spring is arranged on the left side of the vertical tank wheel at the leftmost position, the left end of the tensioning shaft is connected with a spring locking device, a right spring is arranged on the right side of the vertical tank wheel at the rightmost position, the right end of the tensioning shaft is connected with the spring locking device, an intermediate spring is arranged between every two adjacent vertical tank wheels, and the left spring, the right spring and the intermediate spring are all sleeved on the tensioning shaft; the conveying belt I is wound on a rotary drum on the conveying shaft I and a conveying wheel on the conveying shaft II, the conveying shaft I or the conveying shaft II is driven to rotate by a power device, and guide blocks which correspond to the vertical tank wheels one to one are fixedly arranged above the rotary drum. The bottle cans in the flat lying state move forwards under the conveying action of the conveying belt I, the front ends of the bottle cans in the flat lying state firstly touch the left baffle and the right baffle, the bottle cans in the flat lying state are positioned at the upper parts of the rear end edges of the left baffle and the right baffle at the moment, the bottle cans in the flat lying state horizontally move to the rotary drum along the conveying belt I under the action of the guide blocks, the bottle cans in the flat lying state can extrude the left baffle and the right baffle to the left side and the right side in the process, the left baffle and the right baffle in each vertical can wheel can clamp the bottle cans in the flat lying state under the left side and the right side of restoring force of the left spring, the right spring and the middle spring, and the bottle cans in the flat lying state rotate 90 degrees to be in the vertical state along with the vertical can wheels; the left baffle and the right baffle in each vertical tank wheel play a role in clamping the bottles in the rotating process, the bottles rotate smoothly, and when the bottles of different types are rotated, only the rotating cylinders of different sizes need to be replaced; the utility model discloses a tank wheel, including left side spring, right spring and middle spring, the tensioning axle is established to left side spring, right spring and middle spring are all established on the tensioning axle, and a plurality of upright jar wheels use same tensioning axle, the tensioning axle receives great resistance in the axial direction, the difficult axial of tensioning axle rocks.

Two middle springs sleeved on the tensioning shaft are arranged between two adjacent vertical tank wheels, and a spring locking device is arranged between the two middle springs. Two independent spring locking devices are arranged between the two middle springs, and the tension of one middle spring is correspondingly adjusted by each spring locking device.

The spring locking device is a locking nut in threaded connection with the tensioning shaft. The locking nut is in threaded connection with the tensioning shaft, and the tensity of the left spring, the right spring and the middle spring can be adjusted.

The guide block is fixedly connected with the rack, the rear part of the guide block is a guide pressing end, and an arc-shaped groove is formed in the middle of the guide block. The guide pressing end at the rear part of the guide block can play a role in guiding and pressing the bottle in the lying state, so that the bottle in the lying state extrudes the left baffle and the right baffle to the left end and the right end and moves to the rotary drum, and the arc-shaped groove in the middle of the guide block enables the bottle to smoothly rotate.

When the bottle is positioned right above the rotary drum, the contact point of the bottle and the left baffle is a contact point a, the contact point of the bottle and the right baffle is a contact point b, and the chord length of a connecting line between the contact point a and the contact point b is larger than the length of the rotary drum in the axial direction. When the bottle is located directly over the rotary drum, the bottle can be held by the left and right baffles.

Preferably, the left baffle and the right baffle can rotate along with the conveying shaft I. When the tank is erected, the rotary drum, the left baffle and the right baffle all rotate, so that the tank is erected smoothly.

The left baffle and the right baffle are of disc-shaped structures matched with each other. By adopting the technical scheme, the left baffle and the right baffle are arranged to be disc-shaped structures, so that the cylindrical bottles and cans can conveniently enter between the left baffle and the right baffle.

The rotary drum is provided with a positioning hole and is fixedly connected with the conveying shaft I through a bolt, or the rotary drum is connected with the conveying shaft I through a key.

All be provided with the spout on left side baffle and the right baffle, be provided with on the conveying axle I with spout complex slide rail.

Conveyer belt I sets up along the guide way in the frame, found jar wheel and guide way one-to-one. Conveyer belt I sets up in the guide way in the frame, and the bottle jar moves on conveyer belt I.

The rack is fixedly provided with a baffle, and the baffle is provided with bottle through grooves which correspond to the guide grooves one by one. The bottles and cans pass through the baffle one by one, and then the operation of erecting the cans is carried out one by one.

And a conveying belt II is arranged in front of the conveying belt I along the running direction of the bottles and cans. The bottle jar of upright state receives the fender effect that pushes away the dog and no longer rotates along with conveying axle I, and the bottle jar of upright state breaks away from the centre gripping of left dog and right dog, moves forward along with conveyer belt II.

Be provided with the bolt hole on the guide block, the guide block passes through screw rod and bolt fastening on the link, be provided with on the link with screw rod complex bar hole I, bar hole I sets up along the fore-and-aft direction. The position of guide block fore-and-aft direction is adjusted to accessible bar hole I for the guide block matches with founding the tank wheel position.

The left and right sides of link set up with locating lever complex bar hole II, the locating lever is fixed to be set up in the frame, bar hole II sets up along left and right directions. The position of the left direction and the right direction of the guide block is adjusted through the strip-shaped hole II, so that the guide block is matched with the vertical tank wheel in position.

The frame is fixedly provided with a walking beam, and the walking beam stretches across the frame along the left and right directions. Be provided with walking beam, make things convenient for operating personnel to overhaul or observe.

The bottle sterilization device comprises a sterilization kettle, the sterilization kettle is connected with a hot water tank, the hot water tank is communicated with the sterilization kettle through a hot water outlet pipeline, the sterilization kettle is communicated with the hot water tank through a hot water return pipeline, the hot water return pipeline comprises a hot water return pipeline I and a hot water return pipeline II, one end of the hot water return pipeline I is communicated with the lower portion of the sterilization kettle, the other end of the hot water return pipeline is communicated with the hot water tank, one end of the hot water return pipeline II is communicated with the upper portion of the sterilization kettle, the other end of the hot water return pipeline is communicated with the hot water tank, a hot water pump and a hot water outlet valve are arranged on the hot water outlet pipeline, a hot water return valve I is arranged on the hot water return pipeline I, and a hot water. At the stage of discharging cold air in the kettle body by using hot water, under the action of a hot water pump, the hot water in the hot water tank enters the kettle body through a hot water outlet pipeline, and after the hot water entering the kettle body discharges the cold air in the kettle body, the hot water in the kettle body flows back to the hot water tank through a hot water return pipeline I; after steam in the kettle body is sterilized, under the action of a hot water pump, hot water in a hot water tank enters the kettle body through a hot water outlet pipeline to exchange heat with the kettle body and products in the kettle body, and hot water after heat exchange flows back to the hot water tank through a hot water return pipeline II, so that the hot water circulating device for the sterilization kettle can facilitate hot water in the hot water tank to empty cold air in the kettle body; on the other hand, after the steam sterilization is finished, hot water in the hot water tank conveniently enters the kettle body to carry out heat exchange, so that the hot water flowing back to the hot water tank after the heat exchange reaches the temperature required by next evacuation of cold air in the kettle body.

The upper portion of the sterilization kettle is connected with a steam inlet pipeline, the steam inlet pipeline comprises a steam inlet main pipe, a steam inlet main valve is arranged on the steam inlet main pipe, a steam diffusion pipe is arranged on the upper portion of the sterilization kettle, the steam inlet main pipe is communicated with the steam diffusion pipe, and a plurality of steam outlet holes are formed in the steam diffusion pipe. High-temperature steam can be introduced into the kettle body by using a steam inlet pipeline, and hot water for emptying cold air in the kettle body is discharged into a hot water tank.

The steam admission pipeline further comprises a steam admission auxiliary pipe, a steam admission auxiliary valve is arranged on the steam admission auxiliary pipe, an air inlet of the steam admission auxiliary pipe is arranged above the sterilization kettle, and a steam diffusion pipe is arranged below the air inlet of the steam admission auxiliary pipe. When the liquid level of the hot water in the kettle body is higher than the steam diffusion pipe, steam is injected into the kettle body by adopting the steam inlet auxiliary pipe to discharge the hot water in the kettle body into the hot water tank.

The sterilization kettle is connected with a liquid level detection device I, the liquid level detection device I is arranged below a steam diffusion pipe on the upper portion of the sterilization kettle, and the liquid level detection device I is a liquid level display I or a liquid level sensor I connected with a controller. In the process of discharging hot water in the kettle body to a hot water tank through steam in the kettle body by using the steam inlet auxiliary pipe, after the liquid level of the hot water in the kettle body reaches the position below the liquid level detection device I, the steam inlet main pipe is started to inject steam into the kettle body.

The bottle sterilization device further comprises a warm water tank, the warm water tank is communicated with the lower portion of the sterilization kettle through a warm water outlet pipeline, and a warm water pump and a warm water outlet valve are arranged on the warm water outlet pipeline. After the steam sterilization is finished, hot water is circularly injected into the kettle body under the action of a hot water pump to absorb the heat of the kettle body and products so as to reach the temperature required by next evacuation of cold air in the kettle body; and after the hot water pump is stopped, warm water is injected into the kettle body through the warm water pump, and the hot water in the kettle body is discharged into the hot water tank through the hot water outlet pipeline II. The lower part of the sterilization kettle is connected with a cold water pipe water outlet pipe, a cold water outlet valve is arranged on the cold water outlet pipe, when the warm water is subjected to sufficient heat exchange with a bottle tank in the sterilization kettle, the cold water outlet valve is opened, the cold water is injected into the sterilization kettle through a cooling water outlet pipe, the warm water in the sterilization kettle is discharged into a warm water tank, and the cold water outlet pipe can be communicated with a cold water tower; and finally, opening a lower end enclosure of the sterilization kettle, and enabling the sterilized bottle tank in the sterilization kettle and cold water in the sterilization kettle to enter the water tank.

The sub-unit connection who disinfects the cauldron has temperature-detecting device, the sub-unit connection of the cauldron body has heating device, heating device includes the steam diffusion tube, steam diffusion tube and steam admission pipeline intercommunication, be provided with the steam admission valve on the steam admission pipeline, be provided with a plurality of steam outlet on the steam diffusion tube. During the conveying process of the hot water, the hot water continuously exchanges heat with the outside through a pipeline, and part of heat is radiated to the air; the hot water enters the kettle body and then exchanges heat with the kettle body and products in the kettle body, but the lower cover device connected with the kettle body is arranged in the normal-temperature water tank, and the heat in the kettle body can be dissipated along with the heat exchange between the lower cover device of the kettle body and the water in the normal-temperature water tank, so that the temperature in the kettle body is reduced. When the temperature detection device detects that the temperature in the kettle body is lower than the set lower temperature limit, the heating device starts to heat the kettle body; and when the temperature detection device detects that the temperature in the kettle body is higher than the set upper limit, the heating device stops. In the process of discharging cold air by using hot water and sterilizing by using steam, the temperature detection device and the heating device are always matched with each other to repeat the process, so that the temperature in the kettle body is always kept in dynamic balance, and the stability of process parameters is ensured. The steam diffusion pipe is of a circular ring structure, and the steam outlets are uniformly distributed on the steam diffusion pipe. The steam diffusion pipe is arranged to be of a circular ring-shaped structure, a bottle can is conveniently placed or discharged to the kettle body, the steam outlet holes are evenly distributed on the steam diffusion pipe, and steam is uniformly diffused into the kettle body through the steam diffusion pipe. The steam diffusion pipe comprises a plurality of arc pipes, and two adjacent arc pipes are fixedly connected through a connecting flange; the connecting flange is fixedly connected with the inner wall of the sterilization kettle. The steam diffusion pipe is fixedly connected with the kettle body through the connecting flange, so that the steam diffusion pipe cannot move and is more firmly fixed.

The upper end of the sterilization kettle is provided with an upper end socket, the lower end of the sterilization kettle is provided with a lower end socket, the lower end socket is soaked in the water tank, the lower end socket comprises an inner end socket and an outer end socket, the inner end socket and the outer end socket are fixedly connected in a sealing mode, heat insulation filling is arranged in an interlayer between the inner end socket and the outer end socket, and a drain pipe joint and/or a drain outlet which are used for communicating the inside and the outside of the sterilization kettle are/is arranged on the lower end socket. The heat insulation interlayer is arranged in the interlayer between the outer end enclosure and the inner end enclosure of the sterilization kettle, so that the heat exchange between the sterilization kettle and the water in the normal-temperature water tank is effectively reduced, and the generation of condensed water in the sterilization kettle is reduced.

The heat insulation filling is an inert gas layer, and the outer sealing head is provided with a vacuumizing port and an inflating port which are communicated with the interlayer between the inner sealing head and the outer sealing head. Air in an interlayer between the inner sealing head and the outer sealing head is pumped out through the vacuumizing port, and inert gas is filled into the interlayer between the inner sealing head and the outer sealing head through the inflating port.

The inner seal head and the outer seal head are both welded with the flange.

And a water filtering plate is fixedly arranged in the lower end socket and is provided with water filtering holes. The comdenstion water that produces in the cauldron that disinfects can fall into the lower part of lower cover device through the drainage hole, the drainage board can block the bottom that the product in the cauldron that disinfects falls into the lower cover device, guarantees the effect of disinfecting to the product.

The conveying mechanism comprises a conveying frame, a transmission shaft arranged on the conveying frame and a conveying belt wound on the transmission shaft. Preferably, the transmission shaft comprises a driven shaft and a rotating shaft driven by a power mechanism, and the conveying belt is wound on the driving shaft and the driven shaft matched with the driving shaft to rotate circularly.

The conveying device comprises a tank discharging conveying mechanism, a cooling conveying mechanism and a buffering conveying mechanism which are sequentially arranged, and the conveying device is provided with a turning conveying mechanism at a turning position. The tank discharging and conveying mechanism is used for conveying sterilized products to the cooling conveying mechanism, the products conveyed by the tank discharging and conveying mechanism are cooled again in the conveying process of the cooling conveying mechanism, the cooling conveying mechanism conveys the products to the buffering conveying mechanism, and the turning conveying mechanism is arranged for reducing the space occupied by the conveying device in the length direction.

The conveying device comprises a tank discharging conveying mechanism, a turning conveying mechanism, a cooling conveying mechanism and a buffering conveying mechanism which are sequentially arranged, a material distributing plate is arranged between the tank discharging conveying mechanism and the turning conveying mechanism, and a material distributing plate is arranged between the turning conveying mechanism and the cooling conveying mechanism. And the turning conveying mechanism is arranged between the tank discharging conveying mechanism and the cooling conveying mechanism.

Divide the flitch to include at stock guide I and stock guide II, I slope of stock guide sets up, stock guide I is by its width reduces gradually from high to low, an slope side and the stock guide II of stock guide I are connected, II slopes of stock guide set up, the one end that stock guide II is connected with stock guide I is high, II fixed connection or integrated into one piece of stock guide I and stock guide. The material distribution plate is used for connecting the tank arrangement conveying mechanism, the turning conveying mechanism and the cooling conveying mechanism, and conveying the products from the tank arrangement conveying mechanism to the turning conveying mechanism and then from the turning conveying mechanism to the cooling conveying mechanism according to the conveying direction of the products; arranging a material distribution plate between the tank arrangement conveying mechanism and the turning conveying mechanism, connecting the end with larger width of a material guide plate I in the material distribution plate with the tail end of the tank arrangement conveying mechanism, connecting one end of a material guide plate II in the material distribution plate with the initial end of the turning conveying mechanism, enabling a product on the tank arrangement conveying mechanism to slide forwards along the inclined material guide plate I, enabling the product on the material guide plate I to fall onto the material guide plate II in the forward sliding process and further slide forwards along the material guide plate II, and enabling the product on the material guide plate I to dispersedly slide onto the material guide plate II and be dispersedly conveyed onto the turning conveying mechanism as the width of the material guide plate I is gradually reduced from high to low; set up the branch flitch between turn conveying mechanism and cooling conveying mechanism, with the great one end of I width of stock guide in this branch flitch and turn conveying mechanism's end-to-end connection, the one end that will divide in the flitch stock guide II is connected with cooling conveying mechanism's initial end, the last product of turn conveying mechanism slides along the stock guide I of slope forward, product on the stock guide I can fall to stock guide II at the gliding in-process forward, and then slide forward along stock guide II, because stock guide I reduces gradually by its width from high to low, product on the stock guide I can the dispersion slide to stock guide II on and the dispersion is carried to cooling conveying mechanism.

Be provided with strutting arrangement on the transmission shaft, strutting arrangement includes two supporting mechanism, and two supporting mechanism set up the both sides at the carriage, supporting mechanism is including setting up the supporting seat at the transmission shaft both ends, the supporting seat includes the easy griss slide bearing with transmission shaft clearance fit installation, the aligning cover is installed to easy griss slide bearing's outside interference fit, the bearing frame is installed to the outside clearance fit of aligning cover, the aligning cover is the curved surface with the fitting surface of bearing frame, the carriage fixed connection of bearing frame and transfer chain. In this strutting arrangement, transmission shaft and easy griss slide bearing clearance fit, easy griss slide bearing need not the lubrication, because this strutting arrangement sets up under water, and water can play cooling and lubricated effect to easy griss slide bearing, has reduced and has maintained the maintenance time, has reduced the operation cost, aligning cover and easy griss slide bearing interference fit, aligning cover and bearing frame clearance fit, the aligning cover is the curved surface with the fitting surface of bearing frame, sets up the aligning cover and can make automatic alignment when assembling the bearing frame at transmission shaft both ends for the bearing frame at transmission shaft both ends is concentric.

The bearing block is a stainless steel bearing block, and the bearing block is fixedly connected with the conveying frame of the conveying line through bolts.

The transmission shaft includes the driven shaft and by power unit driven driving shaft, be provided with sealing device on the driving shaft, sealing device establishes at the epaxial wear-resisting cover of driving including the cover, the cover is equipped with a set board on the wear-resisting cover, be provided with the packing between set board and the wear-resisting cover, the one end of wear-resisting cover is provided with the breach, fixedly connected with connecting block can be dismantled in breach department to wear-resisting cover, connecting block and driving shaft connection and transmission torque, fixedly connected with sealing mechanism can be dismantled to the other end of wear-resisting cover. The power mechanism is arranged outside the water tank, the sealing device is arranged to prevent water in the water tank from flowing out of the water tank along the driving shaft, the sealing mechanism is arranged to prevent water from flowing out of the wear-resistant sleeve and the driving shaft, and the packing is arranged to prevent water from flowing out of the wear-resistant sleeve and the disc plate. During installation, the sealing mechanism and the wear-resistant sleeve are installed on the driving shaft, the connecting block is connected with the driving shaft and fixed with one end of the wear-resistant sleeve, the sealing mechanism is fixedly connected with the other end of the wear-resistant sleeve, and finally the wear-resistant sleeve is wound with the packing and the disc installing plate. When the wear-resistant sleeve is disassembled, the sealing mechanism and the connecting block are disassembled from two ends of the wear-resistant sleeve, the wear-resistant sleeve can be disassembled from the main feeding shaft, and therefore the wear-resistant sleeve is very convenient to install and disassemble and convenient to maintain.

The sealing mechanism comprises a sealing ring and a sealing ring gland detachably and fixedly connected with the wear-resistant sleeve, and the sealing ring is arranged between the sealing ring gland and the wear-resistant sleeve; the connecting block is provided with a bulge, and the driving shaft is provided with a key groove matched with the bulge; the seal ring gland is connected with the wear-resistant sleeve through a fixing bolt I; a seal ring groove I is formed in the seal ring gland, and a seal ring groove II matched with the seal ring groove I is formed in the wear-resistant sleeve; the connecting block is connected with the wear-resistant sleeve through a fixing bolt II.

The technical features of the present invention that are not described in the present invention can be implemented by or using the prior art, and are not described herein again, of course, the above description is not limited to the present invention, and the present invention is not limited to the above embodiments, and variations, modifications, additions or substitutions that are made by those skilled in the art within the spirit and scope of the present invention should also fall within the protection scope of the present invention.

Claims

1. The utility model provides a continuous type sterilization system, includes bottle sterilizing equipment, bottle conveyor, the upright jar device that connects gradually, jar body list device and detection turning device, characterized by: the vertical can device comprises a bottle conveying mechanism, the bottle conveying mechanism comprises a rack, a conveying shaft I and a conveying shaft II are arranged on the rack, a conveying belt I is wound on the conveying shaft I and the conveying shaft II, a rotatable vertical can wheel is arranged on the conveying shaft I, the vertical can wheel can be switched between two states of clamping a bottle and releasing the bottle, a guide block is arranged at the upper end of the vertical can wheel, and a push stop block is arranged at the lower end of the vertical can wheel.

2. The continuous sterilization system according to claim 1, wherein: the conveying device comprises a conveying shaft I, a rotary drum, a left spring, a right spring, a left spring sleeve, a spring locking device and a spring locking device, wherein the conveying shaft I is provided with a rotatable vertical tank wheel, the vertical tank wheel comprises the rotary drum sleeved on the conveying shaft I, the left side of the rotary drum is provided with the left baffle sleeved on the conveying shaft I in a sliding manner, the right side of the rotary drum is provided with the right baffle sleeved on the conveying shaft I in a sliding manner, the left side of the left baffle is provided with the left spring, the left spring sleeve is arranged on the conveying shaft I, the right side of the right baffle; the conveying belt I is wound on a rotary drum on the conveying shaft I and a conveying wheel on the conveying shaft II, the conveying shaft I or the conveying shaft II is driven to rotate by a power device, and a guide block is fixedly arranged above the rotary drum;

preferably, the spring locking device is a locking nut in threaded connection with the transmission shaft I;

or a plurality of rotatable vertical tank wheels are arranged on the conveying shaft I, each vertical tank wheel comprises a rotary drum sleeved on the conveying shaft I, a left baffle arranged on the left side of the rotary drum and a right baffle arranged on the right side of the rotary drum, the left baffle and the right baffle are slidably sleeved on the conveying shaft I, a left spring is arranged on the left side of the vertical tank wheel at the leftmost position, a spring locking device is arranged on the left side of the left spring, a right spring is arranged on the right side of the vertical tank wheel at the rightmost position, a spring locking device is arranged on the right side of the right spring, an intermediate spring is arranged between every two adjacent vertical tank wheels, and the intermediate spring is sleeved on the conveying shaft I; the conveying belt I is wound on a rotary drum on the conveying shaft I and conveying wheels on the conveying shaft II, the conveying shaft I or the conveying shaft II is driven to rotate by a power device, and guide blocks which correspond to the vertical tank wheels one by one are fixedly arranged above the rotary drum;

preferably, two middle springs sleeved on the conveying shaft I are arranged between two adjacent vertical tank wheels, and a spring locking device is arranged between the two middle springs; preferably, the spring locking device is a locking nut in threaded connection with the transmission shaft I;

or a plurality of rotatable bottle and can overturning wheels are arranged on the rotating shaft I, each bottle and can overturning wheel comprises a rotating drum sleeved on the conveying shaft I, a left baffle slidably sleeved on the rotating shaft I is arranged on the left side of the rotating drum, and a right baffle slidably sleeved on the rotating shaft I is arranged on the right side of the rotating drum; each bottle and can overturning wheel is connected with an independent tensioning mechanism for providing clamping force for a left baffle and a right baffle, each tensioning mechanism comprises a tensioning shaft, each tensioning shaft penetrates through the left baffle, the rotary drum and the right baffle along the axis direction of the rotating shaft I, a spring locking device is arranged on the left side of each tensioning shaft, a spring locking device is arranged on the right side of each tensioning shaft, a left spring is arranged between each spring locking device and the left baffle, a right spring is arranged between each spring locking device and the right baffle, and the left spring and the right spring are both sleeved on the tensioning shafts;

preferably, the spring locking device is a locking nut in threaded connection with the tensioning shaft;

or a plurality of rotatable vertical tank wheels are arranged on the conveying shaft I, each vertical tank wheel comprises a rotary drum sleeved on the conveying shaft I, a left baffle arranged on the left side of the rotary drum and a right baffle arranged on the right side of the rotary drum, and the left baffle and the right baffle are slidably sleeved on the conveying shaft I; the tensioning mechanism comprises a tensioning shaft, the tensioning shaft penetrates through the left baffle, the rotary drum and the right baffle of all vertical tank wheels along the axis direction of the conveying shaft I, a left spring is arranged on the left side of the vertical tank wheel at the leftmost position, the left end of the tensioning shaft is connected with a spring locking device, a right spring is arranged on the right side of the vertical tank wheel at the rightmost position, the right end of the tensioning shaft is connected with the spring locking device, an intermediate spring is arranged between every two adjacent vertical tank wheels, and the left spring, the right spring and the intermediate spring are all sleeved on the tensioning shaft;

preferably, two middle springs sleeved on the tensioning shaft are arranged between two adjacent vertical tank wheels, and a spring locking device is arranged between the two middle springs; preferably, the spring locking device is a locking nut in threaded connection with the tensioning shaft.

3. The continuous sterilization system according to claim 2, wherein: the guide block is fixedly connected with the rack, the rear part of the guide block is a guide pressing end, and the middle part of the guide block is provided with an arc-shaped groove;

preferably, when the bottle is positioned right above the rotating drum, a contact point a between the bottle and the left baffle is a contact point a, a contact point b between the bottle and the right baffle is a contact point b, and the chord length of a connecting line between the contact point a and the contact point b is greater than the length of the rotating drum in the axial direction;

preferably, the left baffle and the right baffle can rotate along with the conveying shaft I;

preferably, the left baffle and the right baffle are of mutually matched disc-shaped structures;

preferably, the rotating drum is provided with a positioning hole, and the rotating drum is fixedly connected with the conveying shaft I through a bolt through the positioning hole, or the rotating drum is connected with the conveying shaft I through a key;

preferably, sliding grooves are formed in the left baffle and the right baffle, and sliding rails matched with the sliding grooves are arranged on the conveying shaft I;

preferably, the conveyor belt I is arranged along a guide groove on the rack, and the vertical tank wheels correspond to the guide groove one by one;

preferably, a baffle is fixedly arranged on the rack, and bottle and can through grooves corresponding to the guide grooves one to one are formed in the baffle;

preferably, a conveying belt II is arranged in front of the conveying belt I along the running direction of the bottles and cans;

preferably, the guide block is provided with a bolt hole, the guide block is fixed on the connecting frame through a screw and a bolt, the connecting frame is provided with a strip-shaped hole I matched with the screw, and the strip-shaped hole I is arranged along the front-back direction;

preferably, the left side and the right side of the connecting frame are provided with strip-shaped holes II matched with the positioning rods, the positioning rods are fixedly arranged on the rack, and the strip-shaped holes II are arranged along the left and right directions;

preferably, a walking beam is fixedly arranged on the rack, and the walking beam spans the rack along the left-right direction.

4. The continuous sterilization system according to claim 1, wherein: the bottle and tank sterilization device comprises a sterilization kettle, the sterilization kettle is connected with a hot water tank, the hot water tank is communicated with the sterilization kettle through a hot water outlet pipeline, the sterilization kettle is communicated with the hot water tank through a hot water return pipeline, the hot water return pipeline comprises a hot water return pipeline I and a hot water return pipeline II, one end of the hot water return pipeline I is communicated with the lower part of the sterilization kettle, the other end of the hot water return pipeline I is communicated with the hot water tank, one end of the hot water return pipeline II is communicated with the upper part of the sterilization kettle, the other end of the hot water return pipeline II is communicated with the hot water tank, a hot water pump and a hot water outlet valve are arranged on the hot water outlet pipeline, a hot water return valve I is arranged on the hot water return pipeline I;

preferably, the upper part of the sterilization kettle is connected with a steam inlet pipeline, the steam inlet pipeline comprises a steam inlet main pipe, a steam inlet main valve is arranged on the steam inlet main pipe, a steam diffusion pipe is arranged on the upper part of the sterilization kettle, the steam inlet main pipe is communicated with the steam diffusion pipe, and a plurality of steam outlet holes are formed in the steam diffusion pipe;

preferably, the steam inlet pipeline further comprises a steam inlet auxiliary pipe, a steam inlet auxiliary valve is arranged on the steam inlet auxiliary pipe, an air inlet of the steam inlet auxiliary pipe is arranged above the sterilization kettle, and the steam diffusion pipe is arranged below the air inlet of the steam inlet auxiliary pipe;

preferably, the sterilization kettle is connected with a liquid level detection device I, the liquid level detection device I is arranged below a steam diffusion pipe at the upper part of the sterilization kettle, and the liquid level detection device I is a liquid level display I or a liquid level sensor I connected with a controller;

preferably, the bottle and tank sterilization device further comprises a warm water tank, the warm water tank is communicated with the lower part of the sterilization kettle through a warm water outlet pipeline, and a warm water pump and a warm water outlet valve are arranged on the warm water outlet pipeline;

preferably, the sub-unit connection who disinfects the cauldron has temperature-detecting device, the sub-unit connection of the cauldron body has heating device, heating device includes the steam diffusion tube, steam diffusion tube and steam admission pipeline intercommunication, be provided with the steam admission valve on the steam admission pipeline, be provided with a plurality of steam outlet on the steam diffusion tube.

5. The continuous sterilization system according to claim 4, wherein: an upper end socket is arranged at the upper end of the sterilization kettle, a lower end socket is arranged at the lower end of the sterilization kettle, the lower end socket is soaked in the water tank, the lower end socket comprises an inner end socket and an outer end socket, the inner end socket and the outer end socket are fixedly connected in a sealing manner, heat insulation filling is arranged in an interlayer between the inner end socket and the outer end socket, and a drain pipe joint and/or a drain outlet for communicating the inside and the outside of the sterilization kettle are/is arranged on the lower end socket;

preferably, the heat insulation filler is an inert gas layer, and the outer sealing head is provided with a vacuumizing port and an inflating port which are communicated with an interlayer between the inner sealing head and the outer sealing head;

preferably, a water filtering plate is fixedly arranged in the lower end enclosure, and water filtering holes are formed in the water filtering plate.

6. The continuous sterilization system according to claim 4, wherein: the bottle and can conveying device is arranged below the lower end enclosure and comprises a plurality of conveying mechanisms which are arranged in the water tank and matched with each other, and the conveying device is connected with two corresponding conveying mechanisms at the turning position through a material distributing plate;

preferably, the conveying mechanism comprises a conveying frame, a transmission shaft arranged on the conveying frame and a conveying belt wound on the transmission shaft;

preferably, the conveying device comprises a tank discharging conveying mechanism, a cooling conveying mechanism and a buffering conveying mechanism which are sequentially arranged, and the conveying device is provided with a turning conveying mechanism at a turning position;

preferably, conveyor is including arranging a jar conveying mechanism, turn conveying mechanism, cooling conveying mechanism and buffering conveying mechanism that set gradually, it is provided with the branch flitch to arrange between jar conveying mechanism and the turn conveying mechanism, it is provided with the branch flitch between turning conveying mechanism and the cooling conveying mechanism.

7. The continuous sterilization system according to claim 6, wherein: divide the flitch to include at stock guide I and stock guide II, I slope of stock guide sets up, stock guide I is by its width reduces gradually from high to low, an slope side and the stock guide II of stock guide I are connected, II slopes of stock guide set up, the one end that stock guide II is connected with stock guide I is high, II fixed connection or integrated into one piece of stock guide I and stock guide.

8. The sterilizer of claim 6, wherein: be provided with strutting arrangement on the transmission shaft, strutting arrangement includes two supporting mechanism, and two supporting mechanism set up the both sides at the carriage, supporting mechanism is including setting up the supporting seat at the transmission shaft both ends, the supporting seat includes the easy griss slide bearing with transmission shaft clearance fit installation, the aligning cover is installed to easy griss slide bearing's outside interference fit, the bearing frame is installed to the outside clearance fit of aligning cover, the aligning cover is the curved surface with the fitting surface of bearing frame, the carriage fixed connection of bearing frame and transfer chain.

9. The sterilizer of claim 6, wherein: the transmission shaft includes the driven shaft and by power unit driven driving shaft, be provided with sealing device on the driving shaft, sealing device establishes at the epaxial wear-resisting cover of driving including the cover, the cover is equipped with a set board on the wear-resisting cover, be provided with the packing between set board and the wear-resisting cover, the one end of wear-resisting cover is provided with the breach, fixedly connected with connecting block can be dismantled in breach department to wear-resisting cover, connecting block and driving shaft connection and transmission torque, fixedly connected with sealing mechanism can be dismantled to the other end of wear-resisting cover.

10. The sterilizer of claim 6, wherein: the sealing mechanism comprises a sealing ring and a sealing ring gland detachably and fixedly connected with the wear-resistant sleeve, and the sealing ring is arranged between the sealing ring gland and the wear-resistant sleeve; the connecting block is provided with a bulge, and the driving shaft is provided with a key groove matched with the bulge; the seal ring gland is connected with the wear-resistant sleeve through a fixing bolt I; a seal ring groove I is formed in the seal ring gland, and a seal ring groove II matched with the seal ring groove I is formed in the wear-resistant sleeve; the connecting block is connected with the wear-resistant sleeve through a fixing bolt II.