CN204494940U - From pre-cooling type liquid nitrogen tunnel like freezing machine - Google Patents

Abstract

The utility model relates to a kind of quick-freezing plant.For solving the technical problem of liquid nitrogen waste existing in above-mentioned prior art, the utility model provides a kind of from pre-cooling type liquid nitrogen tunnel like freezing machine, comprise a tunnel type refrigerating chamber, circulating type conveyer belt, described refrigerating chamber feed end and discharge end are respectively equipped with liquid nitrogen plugging device, it is characterized in that: be provided with fore-cooling room in the outside of refrigerating chamber feed end, the locular wall of fore-cooling room is connected fixing with the locular wall of refrigerating chamber feed end, the outside port of described fore-cooling room is provided with aforesaid liquid nitrogen plugging device; Described conveyer belt is through fore-cooling room, and this side end of conveyer belt stretches out outside, fore-cooling room.Should be rational in infrastructure, easy and simple to handle from pre-cooling type liquid nitrogen flash freezer machine, quick-frozen efficiency is high, production cost can effectively be reduced, and has market prospects widely.

Description

From pre-cooling type liquid nitrogen tunnel like freezing machine

Technical field

The utility model relates to a kind of quick-freezing plant, specifically refers to a kind of from pre-cooling type liquid nitrogen tunnel like freezing machine.

Background technology

The applicant have submitted a kind of patent application of tunnel type liquid nitrogen flash freezer machine on December 4th, 2014, application number is: 201420750986.X, this tunnel type liquid nitrogen flash freezer owner will solve current liquid nitrogen flash freezer machine liquid nitrogen and leak the technical problem serious, liquid nitrogen use amount is high, and the technical scheme of employing is respectively equipped with liquid nitrogen plugging device at the feed end of refrigerating chamber and discharge end; Described liquid nitrogen plugging device comprises the bellows being arranged on foraminous conveyer top, the top of bellows is provided with air intake passage, the bottom of bellows is provided with blowing mouth, seal fixing between the top board of bellows and refrigerating chamber and two side, refrigerating chamber top board is provided with the air inlet through with bellows air intake passage, and air inlet is provided with blower fan.By above-mentioned design, liquid nitrogen freezers effectively can reduce the use amount of liquid nitrogen, keeps the low temperature in refrigerating chamber.But in use find, although install the use amount that liquid nitrogen plugging device effectively can reduce liquid nitrogen additional at the two ends of refrigerating chamber, but because liquid nitrogen volume after vaporization sharply expands, the pressure in refrigerating chamber is caused to increase, still have the liquid nitrogen after components vaporize to be overflowed by the feed end of refrigerating chamber and discharge end, and the liquid nitrogen gas of this part effusion directly can be taken away and drains, not only result in the waste of liquid nitrogen, also cause the loss of cold simultaneously.In addition, in use applicant has also carried out following experiments, at the inner reload temperature sensor of refrigerating chamber feed end, the cryogenic temperature of instant freezer is set to-90 DEG C, idle running instant freezer, charging is started after the temperature of indoor to be frozen is down to-90 DEG C, after the material under normal temperature condition enters refrigerating chamber, heat exchange is carried out fast in material and refrigerating chamber inside, show according to instrument, the temperature of refrigerating chamber feed end inside can be promoted to about-30 DEG C rapidly, this Time Controller can control the liquid nitrogen spraying amount of liquid nitrogen spraying pipe increasing to refrigerating chamber inside, liquid nitrogen spraying amount is caused to occur excessive, and excessive liquid nitrogen exacerbates the expansion of volume further after vaporization, liquid nitrogen gas can be overflowed by feed end and discharge end through liquid nitrogen plugging device, cause the increase of instant freezer liquid nitrogen use amount.

Summary of the invention

For solving the technical problem of liquid nitrogen waste existing in above-mentioned prior art, the utility model provides a kind of from pre-cooling type liquid nitrogen tunnel like freezing machine.

For realizing above-mentioned technical purpose, the technical solution adopted in the utility model is: a kind of from pre-cooling type liquid nitrogen tunnel like freezing machine, comprise a tunnel type refrigerating chamber, circulating type conveyer belt, the two ends of refrigerating chamber are respectively feed end and discharge end, described circulating type conveyer belt forms upper and lower two-layer conveyer belt through refrigerating chamber, and the two ends of conveyer belt stretch out feed end and the discharge end of refrigerating chamber respectively; Described refrigerating chamber feed end and discharge end are respectively equipped with liquid nitrogen plugging device, described liquid nitrogen plugging device comprises the bellows being arranged on conveyer belt top, the top of bellows is provided with air intake blower fan, the bottom of bellows is provided with blowing mouth, seal fixing between the top board of bellows and refrigerating chamber and two side, it is characterized in that: be provided with fore-cooling room in the outside of refrigerating chamber feed end, the locular wall of fore-cooling room is connected fixing with the locular wall of refrigerating chamber feed end, the outside port of described fore-cooling room is provided with aforesaid liquid nitrogen plugging device; Described conveyer belt is through fore-cooling room, and this side end of conveyer belt stretches out outside, fore-cooling room.

Further, the outside of described fore-cooling room is also provided with nitrogen discharge chamber, and the chamber wall in described nitrogen discharge chamber is connected fixing with the chamber wall of fore-cooling room, the roof of liquid nitrogen discharge chamber is provided with denitrogen blower fan, and denitrogen blower fan is connected with nitrogen discharging tube.

Further, the length of described fore-cooling room is the 3/20-1/5 of refrigerating chamber length.

Further, the length in described nitrogen discharge chamber is the 3/20-1/5 of fore-cooling room's length.

Further, be provided with remaining cold collecting chamber in the outside of refrigerating chamber discharge end, the chamber wall of remaining cold collecting chamber is connected fixing with the locular wall of refrigerating chamber discharge end; Be provided with blower between upper and lower two-layer conveyer belt in described fore-cooling room, described blower is provided with the blowhole pointed to bottom the conveyer belt of upper strata; Remaining cold delivery pipe is provided with in the chamber wall of remaining cold collecting chamber, remaining cold delivery pipe is provided with remaining cold-draw blower fan, air inlet and the remaining cold collecting chamber of remaining cold-draw blower fan are through, and between described blower and remaining cold delivery pipe, be provided with connecting line, this connecting line is between levels conveyer belt.

Further, be provided with nitrogen gas concn sensor in the inside in described nitrogen discharge chamber, the running of denitrogen blower fan controls by nitrogen gas concn sensor output signal.

This liquid nitrogen tunnel type instant freezer is by after arranging fore-cooling room, material was cooled in advance before entering refrigerating chamber, temperature difference in material and refrigerating chamber is reduced further, prevent the temperature in refrigerating chamber from significantly improving after material enters, thus decrease the spray flux of liquid nitrogen, further reduce quick-frozen cost, should with from pre-cooling type liquid nitrogen tunnel like freezing machine compared with the liquid nitrogen flash freezer machine without precooling, the use amount of its liquid nitrogen can reduce 15-20% further.Should be rational in infrastructure, easy and simple to handle from pre-cooling type liquid nitrogen flash freezer machine, quick-frozen efficiency is high, production cost can effectively be reduced, and has market prospects widely.

Accompanying drawing explanation

Accompanying drawing 1 is structural representation of the present utility model.

Accompanying drawing 2 be in accompanying drawing A-A to structure sectional view.

Accompanying drawing 3 be in accompanying drawing 1 B-B to structure sectional view.

Detailed description of the invention

Below in conjunction with drawings and Examples, the utility model is described further.

As shown in Figure 1, a kind of from pre-cooling type liquid nitrogen tunnel like freezing machine, comprise a tunnel type refrigerating chamber 1, circulating type conveyer belt 2, the two ends of refrigerating chamber are respectively feed end 3 and discharge end 4, described circulating type conveyer belt forms upper and lower two-layer conveyer belt through refrigerating chamber, and the two ends of conveyer belt stretch out feed end and the discharge end of refrigerating chamber respectively.

The structure of this refrigerating chamber 1 is consistent with the structure of traditional liquid nitrogen tunnel type instant freezer, and the top in refrigerating chamber is provided with liquid nitrogen spraying pipe 5, and be provided with on the roof of refrigerating chamber simultaneously and press down Diffusion fan 6, its concrete structure and working method do not describe in detail at this.

As shown in Figure 1, the further setting of refrigerating chamber as the applicant at the application number that on December 4th, 2014 submits to is: 201420750986.X, title: the structure in a kind of patent application of tunnel type liquid nitrogen flash freezer machine is consistent, refrigerating chamber feed end 3 and discharge end 4 are respectively equipped with liquid nitrogen plugging device 7, the structure of this liquid nitrogen plugging device 7 had detailed description in aforesaid patent application, it comprises the bellows 7-1 being arranged on conveyer belt top, the top of bellows is provided with air intake blower fan 7-2, the bottom of bellows is provided with blowing mouth, seal fixing between the top board of bellows and refrigerating chamber and two side.

Make further improvements above-mentioned liquid nitrogen tunnel like freezing machine in this application, as shown in Figure 1, be provided with fore-cooling room 8 in the outside of refrigerating chamber feed end 3, the locular wall of fore-cooling room 8 is connected fixing with the locular wall of refrigerating chamber 1 feed end.As shown in Figure 1, be provided with aforesaid liquid nitrogen plugging device 7 at the outside port of fore-cooling room, namely the two ends port of fore-cooling room adopts liquid nitrogen plugging device 7 to carry out shutoff respectively.As shown in Figure 1, the length of conveyer belt 2 extends further, and it is through fore-cooling room, and it is outside that this side end of conveyer belt stretches out fore-cooling room 8.

Even if the feed end due to refrigerating chamber has installed aforesaid liquid nitrogen plugging device additional, but in use can only play the effect reducing liquid nitrogen escaped quantity, after liquid nitrogen is vaporized in refrigerating chamber, due to volumetric expansion, pressure increase, still have the liquid nitrogen after vaporization to be overflowed by the bottom of the liquid nitrogen plugging device of refrigerating chamber feed end, in the patent of having applied for, the nitrogen of this part effusion is directly taken away discharge, because the nitrogen of effusion is still in extremely low temperature, directly being taken away discharge not only causes loss of refrigeration capacity, also result in the waste of liquid nitrogen simultaneously.Material directly enters refrigerating chamber under normal temperature environment simultaneously, because temperature difference is very big, can cause the sharply change of feed end spot temperature, and for controlling the low temperature in refrigerating chamber, liquid nitrogen spraying amount also can correspondingly increase, and exacerbates the escaped quantity of liquid nitrogen further.Thus in the outer setting fore-cooling room 8 of refrigerating chamber feed end, the nitrogen of refrigerating chamber feed end effusion enters in fore-cooling room 8, and fore-cooling room 8 is fully cooled, and such material can obtain abundant precooling entering after in fore-cooling room 8.According to actual measurement, when the temperature of cooling chamber 1 is set to-90 DEG C, during work, the temperature of fore-cooling room 8 can be down between-40-50 DEG C, material is reduced further by the temperature difference in himself temperature after precooling and refrigerating chamber 1, thus prevent the sharply change of refrigerating chamber feed end temperature, reduce the spray flux of liquid nitrogen.And at the outside port of fore-cooling room 8 liquid nitrogen plugging device is set in order to the nitrogen of being overflowed by refrigerating chamber shutoff of trying one's best and in fore-cooling room 8, fore-cooling room is cooled, when in fore-cooling room 8, nitrogen amount reaches larger concentration, nitrogen is overflowed by the bottom of liquid nitrogen plugging device outside fore-cooling room 8.It should be noted that, the nitrogen of refrigerating chamber 1 feed end effusion comprises the liquid nitrogen of vaporizing completely, also comprise the liquid nitrogen of not vaporizing completely simultaneously, the liquid nitrogen of wherein not vaporizing completely can be vaporized further in fore-cooling room, absorb the heat in fore-cooling room, pressure in fore-cooling room is increased, even if but the pressure in fore-cooling room increases the pressure that also can not exceed in refrigerating chamber, only can not be able to be entered in refrigerating chamber by effusion bottom the liquid nitrogen plugging device outside fore-cooling room after the liquid nitrogen therefore in fore-cooling room after vaporization reaches finite concentration.

For the nitrogen preventing fore-cooling room 8 from overflowing causes nitrogen gas concn in operating environment too high, as shown in Figure 1, nitrogen discharge chamber 9 is also provided with in the outside of fore-cooling room 8, the chamber wall in this nitrogen discharge chamber 9 is connected fixing with the chamber wall of fore-cooling room 8, the roof of liquid nitrogen discharge chamber is provided with denitrogen blower fan 10, and denitrogen blower fan 10 is connected with nitrogen discharging tube (attached not shown nitrogen discharging tube).

As shown in Figure 1, the roof of the outside portion in nitrogen discharge chamber 9 is formed slopely charging inclined end portion 11 to conveyer belt 2 direction, forms material inlet between the bottom of this charging inclined end portion 11 and conveyer belt 2.As shown in Figure 1, at the bottom hung silica gel piece 12 of charging inclined end portion 11 for blocking material inlet.As shown in Figure 1, in the present embodiment, the bottom of described liquid nitrogen plugging device 7 all hangs with silica gel cord 12 for the separation between each chamber.

Abundant precooling is obtained for making material, during fabrication, the length general control of fore-cooling room 8 is the 3/20-1/5 of refrigerating chamber 1 length, as the refrigerating chamber of 10m, the length of fore-cooling room is generally between 1.5-2m, such material has relatively enough pre-coo time in fore-cooling room, makes the temperature of material obtain sufficient decent.Should be mutually and nitrogen is got rid of in time, the length in nitrogen discharge chamber is unsuitable long, and general control is between the 3/20-1/5 of fore-cooling room's length.

As shown in Figure 1, in the running the nitrogen in fore-cooling room 8 and cold wind are extracted out for preventing the denitrogen blower fan 10 on the roof of nitrogen discharge chamber, be provided with nitrogen gas concn sensor 13 in the inside in nitrogen discharge chamber 9, the running of denitrogen blower fan 10 controls by nitrogen gas concn sensor output signal.Namely when the nitrogen gas concn in nitrogen discharge chamber 9 does not reach normal concentration, denitrogen blower fan shuts down, and only have when the nitrogen gas concn in nitrogen discharge chamber 9 reaches normal concentration, denitrogen blower fan 10 just starts running, and after nitrogen gas concn declines, denitrogen blower fan stops.

During due to work, along with the vaporization of liquid nitrogen in refrigerating chamber, volume after liquid nitrogen vaporization increases, pressure in refrigerating chamber increases, liquid nitrogen now after vaporization not only can be overflowed by refrigerating chamber feed end, also can be overflowed by refrigerating chamber 1 discharge end 4 simultaneously, and the nitrogen that discharge end 4 is overflowed possesses lower temperature equally, for making full use of this part cold, being provided with following devices in the present embodiment and being used.

As shown in accompanying drawing 1 and accompanying drawing 3, remaining cold collecting chamber 13 is provided with in the outside of refrigerating chamber discharge end, the chamber wall of remaining cold collecting chamber 13 is connected fixing with the locular wall of refrigerating chamber discharge end, remaining cold delivery pipe 14 is provided with in the chamber wall of remaining cold collecting chamber, remaining cold delivery pipe is provided with remaining cold-draw blower fan 15, air inlet and the remaining cold collecting chamber of remaining cold-draw blower fan 15 are through, and the nitrogen in remaining cold collecting chamber 13 and cold are forced to aspirate into remaining cold delivery pipe 14 inside by remaining cooling draft blower fan 15.Simultaneously as shown in accompanying drawing 1 and accompanying drawing 2, be provided with blower 16 between the upper and lower two-layer conveyer belt in described fore-cooling room, described blower is provided with the blowhole 17 pointed to bottom the conveyer belt of upper strata.As illustrated in the accompanying drawings from 1 to 3, between described blower 16 and remaining cold delivery pipe 14, be provided with connecting line 18, this connecting line 18 is between levels conveyer belt.

As shown in Figure 1, the roof of remaining cold collecting chamber 13 outside portion is formed slopely discharging inclined end portion 19 to conveyer belt 2 direction as the roof of outside portion, nitrogen discharge chamber, forms material outlet between the bottom of this discharging inclined end portion 19 and conveyer belt 2.As shown in Figure 1, silica gel piece 12 is hung equally for blocking material outlet in the bottom of discharging inclined end portion 19.

After adopting above-mentioned setting, the cold that refrigerating chamber is overflowed can be carried out centralized collection, utilize remaining cold-draw blower fan 15 cold wind to be forced the bottom of the upper strata conveyer belt delivered in fore-cooling room, increase the cooling effect of fore-cooling room further.

Should after pre-cooling type liquid nitrogen tunnel like freezing machine passes through arranging of the above-mentioned a few part of employing, cold in refrigerating chamber can be fully used, in the outer end of liquid nitrogen discharge chamber and remaining cold collecting chamber substantially without frost, surperficial liquid nitrogen escaped quantity is extremely small, and liquid nitrogen can be fully used.After arranging fore-cooling room, material is after precooling, and the use amount of liquid nitrogen can be significantly reduced simultaneously, compared with, the use amount of liquid nitrogen can reduce 15-20%, effectively reduces the quick-frozen cost of material.

As illustrated in the accompanying drawings from 1 to 3, for ensureing the smooth operation of conveyer belt 2, supporting guide 20 is provided with in the bottom of conveyer belt both sides, upper strata.This supporting guide 20 is fixedly installed with the sidewall of instant freezer.

Claims (6)

1. one kind from pre-cooling type liquid nitrogen tunnel like freezing machine, comprise a tunnel type refrigerating chamber, circulating type conveyer belt, the two ends of refrigerating chamber are respectively feed end and discharge end, described circulating type conveyer belt forms upper and lower two-layer conveyer belt through refrigerating chamber, and the two ends of conveyer belt stretch out feed end and the discharge end of refrigerating chamber respectively; Described refrigerating chamber feed end and discharge end are respectively equipped with liquid nitrogen plugging device, described liquid nitrogen plugging device comprises the bellows being arranged on conveyer belt top, the top of bellows is provided with air intake blower fan, the bottom of bellows is provided with blowing mouth, seal fixing between the top board of bellows and refrigerating chamber and two side, it is characterized in that: be provided with fore-cooling room in the outside of refrigerating chamber feed end, the locular wall of fore-cooling room is connected fixing with the locular wall of refrigerating chamber feed end, the outside port of described fore-cooling room is provided with aforesaid liquid nitrogen plugging device; Described conveyer belt is through fore-cooling room, and this side end of conveyer belt stretches out outside, fore-cooling room.

2. one according to claim 1 is from pre-cooling type liquid nitrogen tunnel like freezing machine, it is characterized in that: the outside of described fore-cooling room is also provided with nitrogen discharge chamber, the chamber wall in described nitrogen discharge chamber is connected fixing with the chamber wall of fore-cooling room, the roof of liquid nitrogen discharge chamber is provided with denitrogen blower fan, and denitrogen blower fan is connected with nitrogen discharging tube.

3. one according to claim 1 is from pre-cooling type liquid nitrogen tunnel like freezing machine, it is characterized in that: the length of described fore-cooling room is the 3/20-1/5 of refrigerating chamber length.

4. one according to claim 2 is from pre-cooling type liquid nitrogen tunnel like freezing machine, it is characterized in that: the length in described nitrogen discharge chamber is the 3/20-1/5 of fore-cooling room's length.

5. one according to claim 1 is from pre-cooling type liquid nitrogen tunnel like freezing machine, it is characterized in that: be provided with remaining cold collecting chamber in the outside of refrigerating chamber discharge end, and the chamber wall of remaining cold collecting chamber is connected fixing with the locular wall of refrigerating chamber discharge end; Be provided with blower between upper and lower two-layer conveyer belt in described fore-cooling room, described blower is provided with the blowhole pointed to bottom the conveyer belt of upper strata; Remaining cold delivery pipe is provided with in the chamber wall of remaining cold collecting chamber, remaining cold delivery pipe is provided with remaining cold-draw blower fan, air inlet and the remaining cold collecting chamber of remaining cold-draw blower fan are through, and between described blower and remaining cold delivery pipe, be provided with connecting line, this connecting line is between levels conveyer belt.

6. one according to claim 2 is from pre-cooling type liquid nitrogen tunnel like freezing machine, it is characterized in that: be provided with nitrogen gas concn sensor in the inside in described nitrogen discharge chamber, and the running of denitrogen blower fan controls by nitrogen gas concn sensor output signal.