CN112696889A - Fixation sterilization cooking drying integrated equipment - Google Patents

Abstract

The invention relates to the technical field of drying equipment, in particular to a water-removing sterilizing cooking drying integrated equipment, wherein a material frame is arranged in a drying box, a stainless steel pipeline is arranged around the material frame, a hole on the side wall of the drying box is hermetically connected with the outer wall of the stainless steel pipeline, the stainless steel pipeline penetrates through the side wall of the drying box and is connected with a control system device, a cooling pipeline of a heat exchanger is connected with a heating host machine through a hole of a cooling pipeline of the drying box, the drying box is provided with a circulating fan for guiding the heat of the heat exchanger to the inside of the drying box, and an air return guide plate is arranged in the drying box for separating the material frame from the circulating fan and the heat exchanger. The production time is shortened.

Description

Fixation sterilization cooking drying integrated equipment

Technical Field

The invention relates to the technical field of drying equipment, in particular to water-removing, sterilizing, cooking and drying integrated equipment.

Background

The planted agricultural products need to be dried after being harvested, the traditional drying method adopts the sun drying, and the method of drying the rice by sun drying is more and more unsuitable for the development of modern rural areas, because the field for drying the rice is less and less, the efficiency for drying the rice is too low; some drying equipment special for crop drying appear in the market for this reason, but these drying equipment or simple structure, it is bulky, drying efficiency is not high, and it is inhomogeneous to dry, or it is effectual to dry, but the structure is complicated, and is with high costs, unable large tracts of land popularization and application to current drying equipment does not have the integration function of drying out of green.

Disclosure of Invention

The invention aims to provide a water-removing, sterilizing, cooking and drying integrated device, which meets the production requirement of water-removing, sterilizing, cooking and drying, realizes the free conversion of water-removing, sterilizing, cooking and hot air drying, realizes the integrated processing of each batch, reduces the heat loss caused by frequently taking out materials in the processing process and shortens the production time.

In order to achieve the above object, the present invention provides the following solutions:

a water-removing, sterilizing, cooking and drying integrated device comprises a heating main machine, a drying box, a heat exchanger and a feeding door, wherein a material frame is arranged in the drying box, the material frame is fixedly connected to the bottom of the drying box, a rail partition door is arranged at the central part in the drying box and can divide the drying box into two independent drying space rail partition doors, a stainless steel pipeline is arranged around the material frame and is arranged around the material frame in a U shape, the stainless steel pipeline is connected with a control system arranged on the outer wall of the drying box, a plurality of holes are formed in the side wall of the stainless steel pipeline, the control system is connected with the heating main machine through a hollow pipeline, the heating main machine is connected with the heat exchanger in the drying box, a circulating fan is arranged in the direction of the side wall of the drying box of the heat exchanger, an arc-shaped air guide plate is arranged at the corner of the, the air return induced draft plate is provided with a rectangular frame, the bottom edge of the frame of the air return induced draft plate is fixedly connected with the bottom of the drying box, the top edge opposite to the bottom edge of the frame of the air return induced draft plate is fixedly connected with the top of the drying box, the blocking pieces are arranged in the frame of the air return induced draft plate at equal intervals, two sides of each blocking piece are fixedly connected with the frame of the air return induced draft plate, and gaps between every two adjacent blocking pieces face the heat exchanger.

The principle of the technical scheme of the invention is as follows:

steam is input into a room through a steam pipeline spraying device to perform enzyme deactivation, sterilization and cooking on materials, and two signals of a moisture removal and pressure relief system device and a steam pressure and flow control system device are used for controlling and adjusting the indoor pressure and the temperature and humidity to meet the requirement of a production process.

The beneficial effect that this scheme produced lies in:

1. the method of adopting the water-removing sterilizing cooking chamber to feed steam to replace the air in the inner chamber can effectively prevent the generation of cold air clusters in the inner chamber, ensure the water-removing sterilizing effect, have strong penetrability after feeding steam, fast temperature rise, no dead angle between sterilized objects and save a large amount of energy.

2. The equipment is integrated with drying and sterilization, can be used for multiple purposes, and solves the problem that materials need to be transferred among a plurality of equipment during enzyme deactivation and sterilization.

3. The intelligent water-removing sterilization is carried out by adopting an air energy mode, and the water-removing sterilization can be carried out by adopting two modes of high pressure or normal pressure, so that the equipment has wider application range.

Furthermore, the heating host can be replaced by a steam engine, so that the requirement that workers do not need hot air drying is met, and the production cost is reduced.

Furthermore, the heating main machine can be replaced by an air heater, so that the requirement that workers do not need steam fixation, sterilization and cooking is met, and the production cost is reduced.

Further, indoor return air induced air board and stoving case lateral wall form the trapezium structure, make hot-air persist more for a long time in the material frame region, make the air of material frame can flow to heat exchanger simultaneously.

Further, the middle of the drying box is provided with a track, a track partition door is arranged above the track and can slide on the track, the track partition door can divide the drying box into two independent spaces, and workers can simultaneously perform enzyme deactivation, sterilization and drying on different materials, so that the working efficiency is improved.

Furthermore, dehydrating unit is installed to stoving case lateral wall, is equipment moisture content in the stoving room can give off to the stoving room more fast when drying, has increased work efficiency.

Further, pressure relief device is installed to stoving case lateral wall, automatic pressure relief when the air pressure is too high in the drying chamber, has solved the problem that leads to the material to damage because of the air pressure is too high in the drying chamber, has improved the production yields.

Drawings

Fig. 1 is a schematic top view of embodiment 1 of the present invention.

Fig. 2 is a schematic top view of embodiment 2 of the present invention.

Fig. 3 is a schematic sectional view taken along line a-a of fig. 2.

Fig. 4 is a schematic sectional view taken along line B-B of fig. 2.

Fig. 5 is an enlarged schematic view of the region C of fig. 2.

Fig. 6 is a schematic side view of the region D in fig. 2.

Detailed Description

The embodiment full text (see examples for a specific format) containing a list of reference numbers, which are divided by a pause number, is entered below. (after the copy is completed, click on any area outside the input box)

Reference numerals in the drawings of the specification include: the device comprises a drying box 1, a heating host machine 2, a feeding door 3, a heat exchanger 4, a material frame 5, a track 6, a track partition door 7, a stainless steel pipeline 8, a control system 9, a heat supply pipeline 10, a cooling pipeline 11, a circulating fan 12, an arc plate 13, a return air induced draft plate 14, a pressure relief device 15, a dehumidifying device 16, a piston sleeve 17, a piston 18, a connecting rod 19, a bracket 20, a first spring 21, a roller 22, a water tank 23, an exhaust pipeline 24, a water inlet pipe 25, a T-shaped pipeline 26, a first baffle 27, a filter screen 28, a hinge 29, a pulley 30, a rubber sleeve 31, an air hole 32, a transmission rod 33, a first electromagnet 341, a second electromagnet 342, a first electric wire 351, a second electric wire 352, a power electric wire 353, a power supply 36, a pressure switch 37, a copper sheet 371, a T-shaped rubber block 372, a second spring 373, an iron block 38, a rubber pipe 39, an air injection device 40, A third spring 403, a second groove 404, a third groove 405, a steel ball 406, a fourth spring 407, and a second stop 41.

Example 1:

the embodiment is basically as shown in the attached figure 1:

an integrated device for water-removing, sterilizing, cooking and drying is shown in figure 1 and comprises a heating main machine 2, a drying box 1, a feeding door 3 and a heat exchanger, wherein a material frame 5 is arranged in the drying box 1, the material frame is fixedly connected to the bottom of the drying box 1, a track 6 is arranged at the center part in the drying box 1 along the axis direction, the track 6 is fixedly connected with the bottom of the drying box 1, a first groove is arranged in the direction facing the top of the drying box 1 on the track 6, a track division door 7 is arranged on the track 6 and slides in the first groove through a pulley 30, the drying box 1 is divided into two spaces through sliding of the track division door 7, a stainless steel pipeline 8 is arranged around the material frame 5, the stainless steel pipeline 8 is arranged around the material frame 5 in a U shape, the stainless steel pipeline 8 is 5 cm away from the side edge of the material frame 5, the side wall of the stainless steel pipeline 8 is provided with a plurality of holes for discharging the, the stainless steel pipeline 8 penetrates through the side wall of the drying box 1 to be connected with the control system 9, the control system 9 is connected with the heating main machine 2 through a hollow pipeline, and hot steam generated by the heating main machine 2 can be transmitted to the stainless steel pipeline 8 through the control system 9.

The main machine 2 heats is connected with heat supply pipeline 10, heat supply pipeline 10 passes 1 lateral wall of stoving case and has heat exchanger 4 at 1 internally connected of stoving case, the main machine 2 that heats is connected with cooling duct 11, cooling duct 11 passes 1 lateral wall of stoving case and has heat exchanger 4 at 1 internally connected of stoving case, the nearly 1 lateral wall orientation of stoving case of heat exchanger 4 is equipped with circulating fan 12, circulating fan 12 rotates the incasement air current of drying with higher speed through the fan and flows, set up the regional drainage of material frame 5 with heat exchanger's heat to stoving case 1 fast, 1 corner of stoving case is equipped with circular arc board 13.

The inside of the drying box 1 is provided with a return air induced air plate 14, the return air induced air plate 14 is provided with a rectangular frame, the bottom edge of the frame of the return air induced air plate 14 is fixedly connected with the bottom of the drying box 1, the top edge, opposite to the bottom edge, of the frame of the return air induced air plate 14 is fixedly connected with the top of the drying box 1, two side edges of the return air induced air plate 14 are 20 cm away from the side wall of the drying box 1, so that the material frame 5, the circulating fan 12 and the heat exchanger are separated into two regions, the rectangular frame of the return air induced air plate 14 is provided with second blocking pieces 41 at equal intervals, two sides of each second blocking piece 41 are fixedly connected with the rectangular frame of the return air induced air plate 14, the top of each second blocking piece 41 inclines to the direction of the heat exchanger 4 by 45 degrees, the air in the region where the material frame 5 is located flows to the region where the.

Pressure relief device 15 is installed to stoving case 1 lateral wall, and pressure relief device 15 real-time detection stoving incasement atmospheric pressure when being full of steam in the stoving case 1, detects that 1 inside atmospheric pressure of stoving case surpasss 2bar and opens the relief valve automatically and step down stoving case 1 inside when pressure relief device 15, makes 1 inside atmospheric pressure of stoving case keep below 2 bar.

The specific implementation process is as follows:

the staff puts the material of waiting to dry on material frame 5 earlier, it makes the stoving case become two independent spaces to pass through 6 removals in the track with track partition door 7, the staff opens the high temperature heat pump drying unit that heats host computer 2 (the production of Guangdong Bai shi Teji Ltd., the model is BKGR10FD), the high temperature high pressure steam that heats host computer 2 produced passes through cavity pipeline and control system 9 (the pressure controller of Tianjin Ponshen Send science and technology development Limited company production, the model is PMS-2111) transmits high temperature high pressure steam to stainless steel pipeline 8 in, high temperature high pressure steam penetrates into the stoving case through the hole of stainless steel pipeline 8 lateral wall, carry out high temperature deactivation of enzymes and sterilization to the thing of waiting to dry of stoving incasement portion.

After 30 minutes of enzyme deactivation and sterilization, a worker controls the heating main machine 2 to close a steam manufacturing function, the worker controls the heating main machine 2 to open a drying function, the heating main machine 2 transmits generated hot air to the heat exchanger 4 through the heat supply pipeline 10, the hot air in the heat exchanger 4 heats the surface of the heat exchanger 4, the hot air cooled in the heat exchanger 4 is transmitted back to the heating main machine 2 through the cooling pipeline 11, the heat exchanger 4 diffuses heat to the periphery to heat the air around the heat exchanger 4, the heated air diffuses into the drying box 1 through the circulating fan 12, the air blown out by the circulating fan 12 guides airflow to the material frame 5 through the arc plate 13 arranged at the corner of the drying box 1 to balance the temperature in the drying box 1, the air dries the object to be dried at high temperature, and the moisture generated in the drying process passes through a dehumidifying device 16 (a fresh air ceiling dehumidifier produced by Hangzhou Song cross environmental science and technology limited company, model number SYD-500L), the dried air is guided to the vicinity of the heat exchanger through a return air guide plate 14 to be heated again.

Example 2:

the embodiments are substantially as shown in figures 2 to 6: including stainless steel pipeline 8, stainless steel pipeline 8 is equipped with piston sleeve 17 to 5 side directions of material frame, piston sleeve 17 inner space is connected with 8 inner space of stainless steel pipeline, it makes steam blowout to be equipped with the hole on piston sleeve 17, be equipped with piston 18 in the piston sleeve 17, piston 18 one end passes through connecting rod 19 fixed connection with 5 sides of material frame, material frame 5 keeps away from piston sleeve one end and is equipped with support 20, support 20 and stoving case 1 bottom fixed connection, support 20 is connected through first spring 21 with material frame 5, make material frame 5 make a round trip to slide under the effect of first spring 21, material frame 5 is close to stoving case 1 bottom one end and is equipped with the gyro wheel and makes material frame 5 make a round trip to roll.

When the heating main machine 2 conveys high-temperature and high-pressure steam into the stainless steel pipeline 8, the pressure in the stainless steel pipeline 8 pushes the piston 18 to move towards the material frame 5, the piston 18 pushes the material frame 5 to move through the connecting rod 19, the steam in the stainless steel pipe 8 is discharged to the inside of the drying box 1 through the holes after the piston 18 moves through the holes, when the thrust force applied to the piston 18 is smaller than the first spring 21, the first spring 21 pulls the material frame 5 back, the material frame 5 enables the piston 18 to return to the initial position through the connecting rod 19, at the moment, the pressure inside the stainless steel pipeline 8 is increased continuously due to the fact that the piston 18 blocks the hole, the material frame 5 moves back and forth under the action of high-temperature and high-pressure steam in such a reciprocating cycle, so that the materials to be subjected to fixation and sterilization on the material frame are displaced and overturned, and the fixation, sterilization, steaming and drying integrated equipment has higher fixation and sterilization efficiency. The heating main machine 2 is provided with a water inlet pipe 25, the water inlet pipe 25 is connected with a main pipe port of a T-shaped pipeline 26, a branch pipe port of the T-shaped pipeline 26 is connected with the side wall of the water tank 23, so that the inner space of the water inlet pipe 25 is communicated with the water storage space of the water tank 23, a filter screen 28 is arranged at the joint of the T-shaped pipeline 26 and the water tank 23, and the other branch pipe port of the T-shaped pipeline 26 is connected with the pressure relief device 15 through an exhaust pipeline 24, so that high-pressure steam can be sprayed into. The pipe body of the exhaust pipeline 24 is cut off along the radial direction, the cutting part of the pipe body of the exhaust pipeline 24 is provided with an air injection device 40, the air injection device 40 is an L-shaped tubular device, an air inlet at one end of the air injection device 40 is fixedly connected with the cutting part of the exhaust pipeline 24 close to the pressure relief device 15, an air outlet at the other end of the air injection device 40 is fixedly connected with the cutting part of the exhaust pipeline 24 close to the T-shaped pipeline 26, so that the exhaust pipeline 24 is communicated with the air injection device 40 in space, the air injection device 40 is provided with a first groove 401 along the axial direction of the air inlet, a stop block 402 is arranged in the first groove 401, the stop block 402 is connected with the first groove 401 through a third spring 403, so that the stop block 402 moves towards the air outlet of the air injection device 40 under the action of the third spring 403, so that the air outlet of the air injection device 40 is separated from the air inlet space, the steel ball 406 is arranged in the second groove 404, the steel ball 406 is connected with the bottom of the second groove 404 through the fourth spring 407, so that the steel ball 406 is embedded into the third groove 405 under the action of the fourth spring 407, when the air pressure of the air inlet of the air injection device 40 is increased to 400kPa, the air pressure pushes the stopper 402 towards the direction of the first groove 401, so that the air inlet and the air outlet of the air injection device 40 are communicated in space, at the moment, steam is rapidly discharged from the air inlet to the air outlet of the air injection device 40, when the air pressure in the air inlet direction is smaller than 200kPa, the stopper 402 moves towards the air inlet of the air injection device 40 under the action of the third spring 403, the steel ball 406 is embedded into the third groove 405 on the side wall of the stopper 402 under the action of.

The other branch pipe orifice of the T-shaped pipe 26 is provided with a first baffle plate 27, the first baffle plate 27 is rotatably connected with the other branch pipe orifice of the T-shaped pipe 26 through a hinge 29, so that the first baffle plate 27 can seal the main pipe orifice of the T-shaped pipe 26 connected with the water inlet pipe 25 through rotation, the other end of the first baffle plate 27 connected with the hinge 29 is provided with an iron block 38, the branch pipe orifice of the T-shaped pipe 26 connected with the water inlet pipe 25 is provided with a first electromagnet 341, the first electromagnet 341 is connected with a pressure switch 37 through a first electric wire 351, the pressure switch 37 is connected with a power supply 36 through a power supply electric wire 353, the joint of the T-shaped pipe 26 and the exhaust pipe 24 is provided with a second electromagnet 342, the second electromagnet 342 is connected with the pressure switch 37 through a second electric wire 352, the inner wall of the first passage connected with the first electric wire 351 of the pressure switch 37 is in interference fit with the outer wall of the first electric wire 351, the inner wall of, the inner wall of a power channel connected with the power wire 353 of the pressure switch 37 is in interference fit with the outer wall of the power wire 353, a copper sheet 371 is arranged in an inner cavity of the pressure switch 37, one end of the copper sheet 371 is hinged with the power wire 353, the copper sheet 371 is connected with the inner wall of the pressure switch 37 through a second spring 373, the copper sheet 371 is enabled to deviate towards the second wire 352 under the action of the second spring 373, the second electromagnet 342 is in a power-on state, the pressure switch 37 is connected with the first groove 401 through a rubber tube 39, the pressure switch 37 is enabled to be communicated with the first groove 401 in a space mode, when the stop block 402 moves towards the first groove 401, air in the first groove 401 is transmitted into the pressure switch 37 through the rubber tube 39, the pressure in the pressure switch 37 is increased, a T-shaped rubber block 372 is arranged in a pressure channel connected with the rubber tube 39 of the pressure switch 37, and the upper half part, the lower half part of the T-shaped rubber block 372 is attached to the copper sheet 371, so that the T-shaped rubber block 372 is pressed towards the first electric wire 351 after being subjected to air pressure transmitted by the rubber tube 39, the second electromagnet 342 is in a power-off state, and the first electromagnet 341 is also in a power-on state.

When the pressure relief device 15 relieves the pressure, high-pressure steam is discharged into the exhaust pipeline 24 from the drying box 1, when the pressure in the exhaust pipeline 24 exceeds 400kPa, the steam is rapidly discharged to the T-shaped pipeline 26 through the air injection device 40, the high-pressure steam in the exhaust pipeline 24 is discharged into a pressure channel of the pressure switch 37 through the rubber pipe 39, the high-pressure steam in the pressure channel pushes the T-shaped rubber block 372, the T-shaped rubber block 372 deflects the copper sheet 371 to the first electric wire 351, the second electromagnet 342 is in a power-off state, the first electromagnet 341 is in a power-on state, the first blocking sheet 27 is blown by the high-pressure steam at the same time, the first blocking sheet 27 rotates to a main pipe orifice of the T-shaped pipeline 26, the iron block 38 is fixed by the first electromagnet 341 through magnetic force, the first blocking sheet 27 is fixed at the main pipe orifice of the T-shaped pipeline 26, at the moment, the high-pressure steam can be discharged only through a branch pipe orifice connected with the water tank 23, impurities attached to the filter screen 28 are washed away, the problem that the filter screen is unsmooth in water inflow due to excessive attachments is avoided, after the pressure relief device 15 finishes the pressure relief work, the copper sheet 371 in the pressure switch 37 is biased towards the second wire 352 by the second spring 373, so that the first electromagnet 342 is in the power-off state, meanwhile, the second electromagnet 341 is also in an energized state, at this time, the first blocking piece 27 moves towards the second electromagnet 342 under the action of gravity, the second electromagnet 342 fixes the iron block 38 at the branch pipe orifice of the T-shaped pipe 26 connected with the exhaust pipe 24, the first blocking piece 27 blocks the branch pipe orifice of the T-shaped pipe 26 and the exhaust pipe 24, so that water in the water tank can only enter the water inlet pipe 25 through the main pipe orifice of the T-shaped pipe 26, the heating host machine 2 can normally enter water, and the air inlet and the air outlet of the air injection device 40 are separated after the exhaust pipe 24 exhausts, so that the inner space of the exhaust pipe 24 is closed.

The side wall of the drying box 1 is provided with an air hole 32, the inner wall of the drying box 1 is provided with a rubber sleeve 31, a 10 cm gap is arranged between the rubber sleeve 31 and the inner wall of the drying box 1, one part of the edge of the rubber sleeve 31 is hermetically connected with the inner wall of one side of the drying box 1 provided with the feeding door 3, the other part of the edge of the rubber sleeve 31 is hermetically connected with the bottom of the drying box 1, when steam enters the drying box 1, the rubber sleeve 31 expands due to the increase of the pressure inside the drying box 1, air between the rubber sleeve 31 and the drying box 1 is discharged through the air hole 32 in the expansion process of the rubber sleeve 31, the rubber sleeve 31 is connected with the material frame 5 through a transmission rod 33, when the steam inside the drying box 1 is discharged through the pressure relief device 15, the transmission rod 33 enables the material frame 5 to rapidly shrink due to the decrease of the pressure inside the drying box 1, the rubber sleeve 31 in the contraction process enables the material frame 5 to rapidly move towards the direction, the materials to be enzyme-deactivating and sterilizing are displaced and overturned in the moving process of the material frame 5, so that the enzyme-deactivating and sterilizing efficiency of the enzyme-deactivating, sterilizing, steaming and drying integrated equipment is further improved.

The foregoing is merely an example of the present invention and common general knowledge of known specific structures and features of the embodiments is not described herein in any greater detail. It should be noted that, for those skilled in the art, without departing from the structure of the present invention, several changes and modifications can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.

Claims (7)

1. The utility model provides a deactivation of enzymes sterilization is cooked and is dried integration equipment, includes the host computer that heats, stoving case, heat exchanger, feed door, its characterized in that: a material frame is arranged in the drying box, the material frame is fixedly connected with the bottom of the drying box, a rail separation door is arranged at the central part in the drying box and can divide the drying box into two independent drying space rail separation doors, a stainless steel pipeline is arranged around the material frame and is arranged around the material frame in a U shape, the stainless steel pipeline is connected with a control system arranged on the outer wall of the drying box, the side wall of the stainless steel pipeline is provided with a plurality of holes, the control system is connected with a heating host machine through a hollow pipeline, the heating host machine is connected with a heat exchanger in the drying box, the heat exchanger is provided with a circulating fan close to the side wall direction of the drying box, arc-shaped air guide plates are arranged at the corners of the drying box, a return air guide plate is arranged in the drying box and is provided with a rectangular frame, the bottom edge of the return air guide plate frame is fixedly connected with the bottom of the drying box, and the top edge opposite to the, the frame of return air induced draft plate is equipped with the separation blade at equidistant, separation blade both sides and return air induced draft plate's frame fixed connection, the clearance between the adjacent separation blade is towards heat exchanger.

2. The integrated de-enzyming, sterilizing, cooking and drying equipment as claimed in claim 1, wherein: the heating main machine is a steam engine.

3. The integrated de-enzyming, sterilizing, cooking and drying equipment as claimed in claim 1, wherein: the heating main machine is a hot air blower.

4. The integrated de-enzyming, sterilizing, cooking and drying equipment as claimed in claim 1, wherein: the return air induced draft plate and the side wall of the drying box form a trapezoidal structure.

5. The integrated de-enzyming, sterilizing, cooking and drying equipment as claimed in claim 1, wherein: the middle of the drying box is provided with a track, a track partition door is arranged above the track and can slide on the track, and the track partition door can divide the drying box into two independent spaces.

6. The integrated de-enzyming, sterilizing, cooking and drying equipment as claimed in claim 1, wherein: and a dehumidifying device is arranged on the side wall of the drying box.

7. The integrated de-enzyming, sterilizing, cooking and drying equipment as claimed in claim 1, wherein: pressure relief device is installed to stoving case lateral wall, and pressure relief device real-time detection stoving incasement atmospheric pressure when the stoving incasement is full of steam opens the relief valve automatically and steps down stoving incasement portion when pressure relief device detects stoving incasement portion atmospheric pressure and surpasss the threshold value.

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