CN217868897U - Temperature control assembly for mould incubator - Google Patents

Abstract

The utility model relates to a be used for mould incubator technical field, and disclose a temperature control subassembly for mould incubator, including the experimental box, the bottom fixedly connected with installation shell of experimental box, the right side fixedly connected with one end of installation shell extends to the inside intake pipe of installation shell, the left side intercommunication of intake pipe have with installation shell inner chamber diapire fixed connection's condensing equipment, the bottom of installation shell be equipped with the filter equipment of condensing equipment left side intercommunication. This a temperature control subassembly for mould incubator, possess advantages such as drying effect is good, thereby the temperature control subassembly of having solved mould incubator is mostly the stability in the control experiment box through the gaseous temperature of control entering when taking a breath, but current experiment box intake pipe can't carry out drying and dehumidification to gas when inhaling gas, lead to being influenced by the moisture in the air easily when adjusting the gas temperature in the intake pipe, thereby lead to the control unbalance to gas temperature, the problem of not convenient to use.

Description

Temperature control assembly for mould incubator

Technical Field

The utility model relates to a be used for mould incubator technical field, specifically be a temperature control subassembly for mould incubator.

Background

The mold is one kind of fungi, and features developed mycelium, no large sporophore, cell wall, parasitism or saprophytic survival, conversion of food into toxic matter, and production of mycotoxin, and has great harm to human health.

The temperature control subassembly of mould incubator is the stability in the control experiment case of the temperature through control entering gas when taking a breath mostly, but current experiment case intake pipe can't carry out drying and dehumidification to gas when inhaling gas, leads to being influenced by the moisture in the air easily when adjusting the gas temperature in the intake pipe, thereby leads to the control unbalance to gas temperature, and be not convenient for use, so proposes a temperature control subassembly for mould incubator and solves the above-mentioned problem of proposing.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

The utility model provides a not enough to prior art, the utility model provides a temperature control subassembly for mould incubator, possess advantages such as drying effect is good, thereby the temperature control subassembly of having solved mould incubator is mostly the stability in the control experiment case through the gaseous temperature of control entering when taking a breath, but current experiment case intake pipe can't carry out drying and dehumidification to gas when the suction gas, lead to being influenced by the moisture in the air easily when adjusting the gas temperature in the intake pipe, thereby lead to the control unbalance to gas temperature, the problem of being not convenient for to use.

(II) technical scheme

The utility model provides an above-mentioned technical problem's technical scheme as follows: a temperature control assembly for a mould incubator comprises an experiment box, wherein the bottom of the experiment box is fixedly connected with an installation shell, the right side of the installation shell is fixedly connected with an air inlet pipe, one end of the air inlet pipe extends to the inside of the installation shell, the left side of the air inlet pipe is communicated with a condensing device fixedly connected with the bottom wall of an inner cavity of the installation shell, the bottom of the installation shell is provided with a filtering device communicated with the left side of the condensing device, the bottom wall of the inner cavity of the installation shell is fixedly connected with a temperature control device communicated with the left side of the filtering device, and the left side of the temperature control device is communicated with an exhaust pipe, one end of the exhaust pipe extends to the inside of the experiment box;

the condensing unit comprises a condensing shell, the bottom of the condensing shell is fixedly connected with the bottom wall of the inner cavity of the mounting shell, the right side of the condensing shell is communicated with the left side of the air inlet pipe, the top of the condensing shell is sequentially and fixedly connected with a condenser and a motor from left to right, an output end of the motor is fixedly connected with a conduction column which is rotatably connected with the top wall of the inner cavity of the condensing shell, the outer side of the conduction column is rotatably connected with a contact ring, two ends of an internal fixedly connected with of the contact ring are respectively connected with a refrigerating pipe communicated with the output end and the input end of the condenser, a condensing plate is fixedly connected with the bottom of the contact ring, the bottom of the condensing plate is fixedly connected with a supporting column which is rotatably connected with the bottom wall of the inner cavity of the mounting shell, the number of the bottom of the condensing plate is not less than twelve condensing pipes which are distributed on the outer sides of the supporting columns in an annular array, and the motor and the condenser are electrically connected with external control equipment.

The utility model has the advantages that: when the experiment box needs to exchange air and adjust temperature, air in the experiment box is pumped out through an exhaust fan of the experiment box, then the exhaust pipe sucks external air through the temperature control device, the filtering device, the condensing device and the air inlet pipe, the external air is guided into the condensing shell through the air inlet pipe, the motor and the condensing machine are started through external control equipment, the motor drives the transmission guide pillar to rotate, the condensing machine exchanges heat of the transmission guide pillar through the refrigerating pipe and the contact ring, the transmission guide pillar keeps low temperature, the low temperature is transmitted to the condensing pipe through the condensing plate, moisture in the air in the condensing shell is condensed through the condensing pipe, the moisture drops into a water guide groove of the installation shell through the condensing pipe and is discharged through the first exhaust valve, the condensed dry air is filtered through the filtering device, the temperature is adjusted through the temperature control device after impurities and residual moisture are adsorbed, and the temperature is adjusted to be proper, and then the air is guided into the experiment box through the exhaust pipe.

This a temperature control subassembly for mould incubator has possessed the good advantage of drying effect.

On the basis of the technical scheme, the utility model discloses can also do following improvement.

Further, the bottom fixedly connected with quantity of installation shell is four and is the supporting legs of rectangle symmetric distribution, the guiding gutter that is located the support column outside and is located the condenser pipe below is seted up to the inside of installation shell, the bottom intercommunication of guiding gutter has the first drain valve that is located the installation shell below.

The beneficial effect who adopts above-mentioned further scheme is that, the guiding gutter is convenient for assemble the comdenstion water.

Furthermore, the one end fixedly connected with protective housing that the intake pipe is located the installation shell right side, the inside fixedly connected with protection network of protective housing.

Adopt above-mentioned further scheme's beneficial effect to be, the protection network can prevent that the intake pipe from inhaling the foreign matter.

Further, filter equipment is including filtering shell and mounting panel, the right side fixedly connected with of filtering shell and the first air duct of the inside intercommunication of filtering shell, the right side of first air duct extends to the inboard and the opening of condensation shell down, the mounting panel is pegged graft with the bottom of installation shell, the bottom of mounting panel is equipped with the handle, the outside fixedly connected with of mounting panel and the sealing ring of the inboard contact of installation shell, the top fixedly connected with one end of mounting panel extends to the inboard mounting bracket of filtering shell, the inboard of mounting bracket has the filter cartridge through spring joint, the inside packing of filter cartridge has activated carbon and is located the sponge piece of activated carbon below.

Adopt the beneficial effect of above-mentioned further scheme to be, impurity in the active carbon can the adsorption air.

Further, temperature regulating device includes the water tank, the inner chamber diapire fixed connection of water tank and installation shell, the inside fixedly connected with right side of water tank and the second air duct of crossing the intercommunication in shell left side, the left side of second air duct and the right side intercommunication of blast pipe, the inside packing of water tank has water, the bottom intercommunication of water tank has one end to extend to the second drain valve of installation shell below, the bottom intercommunication of water tank has one end to extend to the installation shell below and is located the left water intaking valve of second drain valve, the top fixedly connected with heater of water tank, the output fixedly connected with of heater is the heating pipe of spiral winding in the second air duct outside, the heater is connected with external control apparatus electricity.

Adopt above-mentioned further scheme's beneficial effect be, the heating pipe that is spiral winding setting can make the heating more even.

Further, the outside parcel of blast pipe has thermal-insulated cotton, the outside fixedly connected with of blast pipe and installation shell inner chamber roof fixed connection's temperature-sensing ring, the temperature-sensing ring is connected with external controlgear electricity.

Adopt above-mentioned further scheme's beneficial effect be, thermal-insulated cotton can keep warm, reduces the heat transfer of blast pipe.

Drawings

FIG. 1 is a schematic structural view of the present invention;

fig. 2 is a front view of the present invention;

FIG. 3 is a schematic view of the structure of the filtering device of the present invention;

fig. 4 is an enlarged view of the structure at the position A of the utility model.

In the figure: 1. an experimental box; 2. mounting a shell; 3. an air inlet pipe; 4. a condensing unit; 401. a condensation shell; 402. a condenser; 403. a motor; 404. a guide post; 405. a contact ring; 406. a refrigeration pipe; 407. a condensing plate; 408. a support pillar; 409. a condenser tube; 5. a filtration device; 501. a filter shell; 502. mounting a plate; 503. a seal ring; 504. a mounting frame; 505. a spring clip; 506. a filter cartridge; 507. activated carbon; 508. a sponge block; 509. a first air duct; 6. a temperature control device; 601. a water tank; 602. a second air duct; 603. a second drain valve; 604. a water inlet valve; 605. a heater; 606. heating a tube; 7. and (4) exhausting the gas.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the embodiment, as shown in fig. 1-4, a temperature control assembly for a mold incubator, the utility model comprises an experimental box 1, wherein the bottom of the experimental box 1 is fixedly connected with an installation shell 2, one end of the right side of the installation shell 2 is fixedly connected with an air inlet pipe 3, one end of the air inlet pipe extends to the inside of the installation shell 2, the left side of the air inlet pipe 3 is communicated with a condensing device 4, the bottom of the installation shell 2 is provided with a filtering device 5, the left side of the condensing device 4 is communicated with a temperature control device 6, the inner cavity bottom wall of the installation shell 2 is fixedly connected with a temperature control device 6, the left side of the temperature control device 6 is communicated with an exhaust pipe 7, one end of the exhaust pipe extends to the inside of the experimental box 1;

the condensing device 4 comprises a condensing shell 401, the bottom of the condensing shell 401 is fixedly connected with the bottom wall of an inner cavity of the mounting shell 2, the right side of the condensing shell 401 is communicated with the left side of the air inlet pipe 3, the top of the condensing shell 401 is fixedly connected with a condenser 402 and a motor 403 from left to right in sequence, the output end of the motor 403 is fixedly connected with a conduction column 404 rotatably connected with the top wall of the inner cavity of the condensing shell 401, the outer side of the conduction column 404 is rotatably connected with a contact ring 405, the inner part of the contact ring 405 is fixedly connected with a refrigerating pipe 406, the two ends of the refrigerating pipe 406 are respectively communicated with the output end and the input end of the condenser 402, the bottom of the conduction column 404 is fixedly connected with a condensing plate 407, the bottom of the condensing plate 407 is fixedly connected with a supporting column 408 rotatably connected with the bottom wall of the inner cavity of the mounting shell 2, the bottom of the condensing plate 407 is fixedly connected with at least twelve condensing pipes 409 distributed on the outer side of the supporting column 408 in an annular array, and the motor 403 and the condenser 402 are both electrically connected with external control equipment;

the bottom of the mounting shell 2 is fixedly connected with four supporting legs which are rectangular and symmetrically distributed, a water chute which is positioned outside the supporting column 408 and below the condensing pipe 409 is formed in the mounting shell 2, and a first drainage valve which is positioned below the mounting shell 2 is communicated with the bottom of the water chute;

the water chute is convenient for gathering condensed water;

one end of the air inlet pipe 3, which is positioned on the right side of the mounting shell 2, is fixedly connected with a protective shell, and a protective net is fixedly connected inside the protective shell;

the protective net can prevent the air inlet pipe 3 from sucking foreign matters;

the filtering device 5 comprises a filtering shell 501 and a mounting plate 502, the right side of the filtering shell 501 is fixedly connected with a first air duct 509 communicated with the inside of the filtering shell 501, the right side of the first air duct 509 extends to the inner side of the condensing shell 401, the opening of the first air duct is downward, the mounting plate 502 is inserted into the bottom of the mounting shell 2, the bottom of the mounting plate 502 is provided with a handle, the outer side of the mounting plate 502 is fixedly connected with a sealing ring 503 contacted with the inner side of the mounting shell 2, the top of the mounting plate 502 is fixedly connected with a mounting frame 504, one end of the mounting frame 504 extends to the inner side of the filtering shell 501, the inner side of the mounting frame 504 is clamped with a filtering box 506 through a spring clamp 505, and the inside of the filtering box 506 is filled with activated carbon 507 and a sponge block 508 positioned below the activated carbon 507;

the activated carbon 507 can adsorb impurities in the air;

the temperature control device 6 comprises a water tank 601, the water tank 601 is fixedly connected with the bottom wall of the inner cavity of the mounting shell 2, a second air duct 602 with the right side communicated with the left side of the filter shell 501 is fixedly connected inside the water tank 601, the left side of the second air duct 602 is communicated with the right side of the exhaust pipe 7, water is filled inside the water tank 601, the bottom of the water tank 601 is communicated with a second drain valve 603 with one end extending to the lower side of the mounting shell 2, the bottom of the water tank 601 is communicated with a water inlet valve 604 with one end extending to the lower side of the mounting shell 2 and positioned on the left side of the second drain valve 603, the top of the water tank 601 is fixedly connected with a heater 605, the output end of the heater 605 is fixedly connected with a heating pipe 606 spirally wound on the outer side of the second air duct 602, and the heater 605 is electrically connected with external control equipment;

the heating pipe 606 arranged in a spiral winding manner can enable heating to be more uniform;

the outer side of the exhaust pipe 7 is wrapped with heat insulation cotton, the outer side of the exhaust pipe 7 is fixedly connected with a temperature induction ring fixedly connected with the top wall of the inner cavity of the mounting shell 2, and the temperature induction ring is electrically connected with external control equipment;

the heat insulation cotton can preserve heat and reduce the heat transfer of the exhaust pipe 7.

The working principle is as follows:

the first step is as follows: when air exchange and temperature adjustment are needed in the experiment box 1, air in the experiment box 1 is pumped out through an exhaust fan of the experiment box 1, then the exhaust pipe 7 sucks external air through the second air duct 602, the filter shell 501, the condensation shell 401 and the air inlet pipe 3, the external air is introduced into the condensation shell 401 through the air inlet pipe 3, the motor 403 and the condenser 402 are started through external control equipment, the motor 403 drives the conduction column 404 to rotate through the condensation shell 401, the condenser 402 exchanges heat of the conduction column 404 through the refrigerating pipe 406 and the contact ring 405, the conduction column 404 generates low temperature and conducts the low temperature to the condensation pipe 409 through the condensing plate 407, moisture in the air in the condensation shell 401 is condensed through the condensation pipe 409, and the moisture in the air in the condensation shell 401 drops into a water guide tank of the installation shell 2 through the condensation pipe 409 and is exhausted through a first water exhaust valve;

the second step is that: the condensed dry air is introduced into the filter shell 501 through the first air duct 509, the air enters the filter shell 501 and then absorbs impurities and residual moisture through the activated carbon 507 in the filter box 506, and the moisture absorbed by the activated carbon 507 is collected through the sponge block 508;

the third step: the filtered air is conducted into the exhaust pipe 7 through the second air duct 602, the temperature is sensed through the temperature sensing ring on the outer side of the exhaust pipe 7, data is conducted into external control equipment, the heater 605 is started through the external control equipment, the heater 605 heats water in the water tank 601 through the heating pipe 606, heat transfer to the second air duct 602 is achieved through the water in the water tank 601, heat is conducted into the air inside through the second air duct 602, temperature change is carried out, the air is detected by the temperature sensing ring on the outer side of the exhaust pipe 7 until the temperature is proper, when the temperature is too high, hot water is discharged through the second drain valve 603, cold water is timely injected through the water inlet valve 604, and the temperature is controlled.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising a … …" does not exclude the presence of another identical element in a process, method, article, or apparatus that comprises the element.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. A temperature control assembly for a mould incubator, comprising an experimental box (1), characterized in that: the bottom of the experiment box (1) is fixedly connected with an installation shell (2), the right side of the installation shell (2) is fixedly connected with an air inlet pipe (3) one end of which extends to the inside of the installation shell (2), the left side of the air inlet pipe (3) is communicated with a condensing device (4) fixedly connected with the bottom wall of an inner cavity of the installation shell (2), the bottom of the installation shell (2) is provided with a filtering device (5) communicated with the left side of the condensing device (4), the bottom wall of the inner cavity of the installation shell (2) is fixedly connected with a temperature control device (6) communicated with the left side of the filtering device (5), and the left side of the temperature control device (6) is communicated with an exhaust pipe (7) one end of which extends to the inside of the experiment box (1);

the condensing device (4) comprises a condensing shell (401), the bottom of the condensing shell (401) is fixedly connected with the bottom wall of an inner cavity of an installation shell (2), the right side of the condensing shell (401) is communicated with the left side of an air inlet pipe (3), the top of the condensing shell (401) is sequentially and fixedly connected with a condenser (402) and a motor (403) from left to right, an output end of the motor (403) is fixedly connected with a conduction column (404) which is rotatably connected with the top wall of the inner cavity of the condensing shell (401), the outer side of the conduction column (404) is rotatably connected with a contact ring (405), two ends of an internal fixedly connected with a cooling pipe (406) which is respectively communicated with the output end and the input end of the condenser (402), the bottom of the conduction column (404) is fixedly connected with a condensing plate (407), the bottom of the condensing plate (407) is fixedly connected with a support column (408) which is rotatably connected with the bottom wall of the inner cavity of the installation shell (2), the bottom of the condensing plate (407) is fixedly connected with twelve condensing pipes (403) which are distributed outside in an annular array, and the condenser (403) and the external control equipment are electrically connected with the condenser (409).

2. A temperature control assembly for a mould incubator according to claim 1, wherein: the bottom fixedly connected with quantity of installation shell (2) is four and is the supporting legs of rectangle symmetric distribution, the guiding gutter that is located the support column (408) outside and is located condenser pipe (409) below is seted up to the inside of installation shell (2), the bottom intercommunication of guiding gutter has the first drain valve that is located installation shell (2) below.

3. A temperature control assembly for a mould incubator according to claim 1, wherein: the air inlet pipe (3) is located one end fixedly connected with protective housing on the right side of the mounting shell (2), and a protective net is fixedly connected to the inner portion of the protective housing.

4. A temperature control assembly for a mould incubator according to claim 1, wherein: filter equipment (5) are including filtering shell (501) and mounting panel (502), the right side fixedly connected with of filtering shell (501) and first air duct (509) of filtering shell (501) inside intercommunication, the right side of first air duct (509) extends to the inboard and opening down of condensation shell (401), mounting panel (502) are pegged graft with the bottom of installation shell (2), the bottom of mounting panel (502) is equipped with the handle, the outside fixedly connected with of mounting panel (502) and the sealing ring (503) of installation shell (2) inboard contact, the top fixedly connected with one end of mounting panel (502) extends to filtering shell (501) inboard mounting bracket (504), the inboard of mounting bracket (504) has filtering box (506) through spring card (505) joint, the inside packing of filtering box (506) has activated carbon (507) and is located sponge piece (508) of activated carbon (507) below.

5. A temperature control assembly for a mould incubator according to claim 4, wherein: temperature regulating device (6) includes water tank (601), the inner chamber diapire fixed connection of water tank (601) and installation shell (2), the inside fixedly connected with right side of water tank (601) and second air duct (602) of filtering shell (501) left side intercommunication, the left side of second air duct (602) and the right side intercommunication of blast pipe (7), water tank (601) inside packing has water, the bottom intercommunication of water tank (601) has one end to extend to second drain valve (603) of installation shell (2) below, the bottom intercommunication of water tank (601) has one end to extend to installation shell (2) below and be located the left water intaking valve (604) of second drain valve (603), the top fixedly connected with heater (605) of water tank (601), the output fixedly connected with of heater (605) is heating pipe (606) of spiral winding in second air duct (602) outside, heater (605) are connected with external control apparatus electricity.

6. A temperature control assembly for a mould incubator according to claim 1, wherein: the outer side of the exhaust pipe (7) is wrapped by heat insulation cotton, the outer side of the exhaust pipe (7) is fixedly connected with a temperature sensing ring fixedly connected with the top wall of the inner cavity of the mounting shell (2), and the temperature sensing ring is electrically connected with external control equipment.

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