CN220135877U

CN220135877U - Beef jerked air drying chamber

Info

Publication number: CN220135877U
Application number: CN202321034822.2U
Authority: CN
Inventors: 孙丹
Original assignee: Inner Mongolia Aershan Cattle Co ltd
Current assignee: Inner Mongolia Aershan Cattle Co ltd
Priority date: 2023-05-04
Filing date: 2023-05-04
Publication date: 2023-12-05
Anticipated expiration: 2033-05-04

Abstract

The utility model relates to the technical field of beef food processing, in particular to a beef jerky air drying chamber, which comprises a main body, wherein the top of the main body is fixedly connected with a top frame, the whole top frame is transversely erected at the inner side top position of the main body in an H shape, the bottom of the top frame is fixedly connected with a cover body structure, a heating mechanism is fixedly arranged in the main body, the outer end of the heating mechanism is fixedly connected with an air guide pipeline, and the air guide pipeline is externally connected with a branch pipeline. When the heating mechanism generates hot air, the hot air conveying is completed through the air guide pipeline and the branch pipeline, the effect of concentrated drying hot air is achieved through the cover body, the fan assembly is vertically positioned in the cover body through the two groups of top plate structures, the concentrated hot air is conveniently guided, and the indoor hot air flowing circulation is promoted.

Description

Beef jerked air drying chamber

Technical Field

The utility model relates to the technical field of beef food processing, in particular to a beef jerky air drying chamber.

Background

Beef is the second largest meat food of Chinese people, is inferior to pork, has high protein content and low fat content, so the beef is delicious in taste, is loved by people, and enjoys the beauty of 'proud meat in meat'. The beef jerky is jerky which is salted by beef; the jerky contains various minerals and amino acids required by human body, so that the chewing-resistant flavor of the beef is maintained, and the beef is not deteriorated after long-term storage. The preparation of the jerky firstly selects the first raw materials, and secondly adopts the preparation process and the preparation time.

When the beef jerky is processed, air drying equipment such as small-sized hanging air drying equipment and a large-sized air drying chamber is needed, and when the existing air drying chamber is actually operated, a humidity controller and heater mode is adopted for dehumidification, so that water molecules cannot be practically discharged out of the box, and the temperature in the box is only increased, so that water vapor is not condensed into dew; because the air moisture in the case is unsaturated state, when indoor sealing is bad, outdoor steam will get into wherein, leads to the rising of its inside absolute humidity, when the change of temperature is very fast, can not reach dehumidification effect, consequently do not possess fine air-drying effect, when its inside heats inside air current through heating mechanism simultaneously, because the air current is the trend that rises when containing the heat, and the unable fine messenger of current air-drying chamber forms good even air-drying circulation direction and air-dries inside beef jerky, air-drying effect is not good.

Traditional air-drying chamber is in the in-service use, and dehumidification adopts humidity controller + heater mode mostly, does not possess good dehumidification effect, and simultaneously and the unable fine messenger of current air-drying chamber forms good even air-drying circulation direction and air-dries inside beef jerky, and the air-drying effect is not good, has certain limitation.

Disclosure of Invention

Aiming at the defects in the prior art, the beef jerky air drying chamber is a heating, air supplying and dehumidifying integrated device, the beef jerky air drying chamber is fed into the chamber from the upper part through an air guide pipeline after hot air is manufactured, a fan structure is arranged in a matched mode, internal air flows are fed into a dehumidifying structure at the bottom of the chamber for dehumidifying operation at the first time while the flowing circulation of the internal air flows are promoted, the circulating air is carried out through a circulating air channel, the flowing of the indoor air is effectively promoted in the whole process, the effect of uniform circulation is achieved, meanwhile, a temperature and humidity probe is arranged in the dehumidifying structure in a matched mode, and the probe detects the internal temperature and humidity of the beef jerky air drying chamber in real time after the temperature and humidity probe is matched with an external main screen.

In order to solve the technical problems, the utility model provides the following technical scheme:

the utility model provides a beef jerked air-drying room, which comprises a main body, the top fixedly connected with roof-rack of main part, the roof-rack is whole to be the inboard top position of "H" form transversely setting up in the main part, the bottom fixedly connected with cover body structure of roof-rack, the inside fixedly provided with heating mechanism of main part, the outer fixedly connected with wind-guiding pipeline of heating mechanism, the wind-guiding pipeline external connection has the lateral conduit, the inside fixedly provided with dehumidification end chamber and indoor bottom plate of main part, the external circulation wind channel that has in dehumidification end chamber, the top fixedly connected with dehumidification guide holder and the detection component in dehumidification end chamber, the fixed surface of dehumidification guide holder is provided with the leading-in mouth.

Further, the cover body structure is including the cover body, first roof, fan subassembly, second roof, sealing layer, water conservancy diversion mouth and grid layer, first roof and second roof all with cover body fixed connection, fan subassembly is located the cover body inside, the sealing layer is located the cover body top, water conservancy diversion mouth and grid layer all are located the front of the cover body, the chamber is at the bottom including refrigeration piece, condensation chamber and exhaust pipeline, refrigeration piece and condensation piece fixed connection, the condensation chamber is located the chamber is at the bottom of the dehumidification, exhaust pipeline communicates with each other with the condensation chamber.

Further, the branch pipeline is integrally formed by three groups of conveying pipes and a group of butt joint pipelines, the butt joint pipelines are used as main butt joint pipelines and are communicated and connected with the air guide pipelines, the butt joint pipelines are positioned at the top of the inner side of the top frame, and meanwhile, the three groups of conveying pipes arranged in the branch pipeline are embedded into the cover body structure, and the cover body structure is integrally and transversely arranged and fixedly connected with the periphery of the top frame.

Further, the back of the cover body is provided with mounting holes corresponding to three groups of conveying pipes in the branch pipelines, and the first top plate and the second top plate are transversely arranged.

Further, the fan assembly is vertically embedded in the edges of the first top plate and the second top plate.

Further, the fan assembly sets up four groups altogether, vertically is located the inside centering position and the both sides of the cover body, and the fan assembly is including the embedded fan that sets up in rectangle mounting panel and its surface.

Further, the sealing layer sets up two sets of, wholly is "Z" form setting, wholly sets up to the rubber layer, and the joint covers the top position of setting between first roof and second roof, and the water conservancy diversion mouth sets up three sets of, and the grid layer sets up to netted grid board setting, and the inside cavity of water conservancy diversion mouth wholly is outside slope seting up, and is slope diagonal between the dehumidification guide holder.

Further, the dehumidification guide holder is wholly located the bottom outside position of main part, and the leading-in port is located its surface upside position, and dehumidification guide holder inner chamber is "Z" form and offers, and the bottom communicates with each other with the condensation room, and detection component is located the outside position of dehumidification guide holder, including temperature detection structure and humidity monitoring mechanism, including temperature monitoring probe and the humidity detection probe that corresponds the setting simultaneously.

Further, the refrigerating sheets are electrically connected with the external control device, the condensing sheets are transversely arranged in a plurality of groups and are arranged in an inclined state, the condensation chamber is located at the position right below the condensation chamber, the discharge pipeline is communicated with the circulating air channel, the whole circulating air channel is connected with the heating mechanism in an extending mode along the outer side surface of the main body, and the pump body mechanism is arranged in a matched mode.

According to the technical scheme, the beneficial effects of the utility model are as follows:

according to the utility model, when the heating mechanism generates hot air, the hot air conveying is completed through the air guide pipeline and the branch pipeline, the effect of concentrated drying of the hot air is achieved through the cover body, the fan assembly is vertically positioned in the cover body through the two groups of top plate structures, the concentrated hot air is conveniently guided, and the indoor hot air flowing circulation is promoted.

According to the utility model, through the sealing layer which is arranged in a clamping way, the effect of sealing the cover body when hot air is concentrated in the cover body is achieved, and meanwhile, the cover body and the inner part of the cover body are convenient to disassemble, assemble and overhaul quickly.

According to the utility model, when the hot air is concentrated to flow outwards through the diversion opening through the cover body, the hot air is led out through the diversion opening and is led to the dehumidifying guide seat in an inclined manner, so that the effect of ensuring the indoor heat temperature and simultaneously rapidly enabling the hot air to enter the dehumidifying structure for dehumidifying treatment and then circulating drying is achieved.

According to the utility model, hot air guided out of the guide opening enters the dehumidifying guide seat along with the guide direction through the guide opening, and the inner cavity of the dehumidifying guide seat is Z-shaped, so that the hot air gradually concentrates to the positions of the refrigerating sheet and the condensing sheet through the inner cavity of the dehumidifying guide seat when entering the dehumidifying guide seat, and after the cooling and dehumidifying are carried out through the refrigerating sheet and the condensing sheet, the chamber structure is beneficial to avoiding the reverse flow of low-temperature air flow after dehumidification, and is convenient for the circulation guiding out of a subsequent circulating air duct.

Indoor wet and warm air enters the condensation chamber through the dehumidification guide seat, encounters a low-temperature condensation sheet, is frozen to be below the dew point, and partial water vapor is changed into dew, achieves the guiding-out effect through the exhaust pipeline, achieves the effect of increasing the air exchange speed in the condensation chamber through the circulating air duct, guides out the hot air after dehumidification, and completes dehumidification operation in the whole process.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. Like elements or portions are generally identified by like reference numerals throughout the several figures. In the drawings, elements or portions thereof are not necessarily drawn to scale.

FIG. 1 is a front elevational view of the overall structure of the present utility model;

FIG. 2 is a front view of the connection of the dehumidifying bottom chambers of the present utility model;

FIG. 3 is a schematic view showing the connection of the cover structure in the present utility model;

FIG. 4 is an enlarged view of the structure A in FIG. 2 according to the present utility model;

reference numerals:

1-main body, 2-mounting frame, 3-cover body structure, 4-heating mechanism, 5-air guide pipeline, 6-branch pipeline, 7-indoor bottom plate, 8-dehumidification bottom cavity, 9-circulation air channel, 10-cover body, 11-first roof, 12-fan subassembly, 13-second roof, 14-sealing layer, 15-water guide mouth, 16-grid layer, 17-dehumidification guide holder, 18-inlet, 19-detection subassembly, 20-refrigeration piece, 21-mount pad, 22-condensation piece, 23-discharge pipeline, 24-condensation room.

Detailed Description

Embodiments of the technical scheme of the present utility model will be described in detail below with reference to the accompanying drawings. The following examples are only for more clearly illustrating the technical aspects of the present utility model, and thus are merely examples, and are not intended to limit the scope of the present utility model.

Referring to fig. 1-4, a beef jerky air drying chamber comprises a main body 1, the top of the main body 1 is fixedly connected with a top frame 2, the bottom of the top frame 2 is fixedly connected with a cover body structure 3, a heating mechanism 4 is fixedly arranged in the main body 1, the outer end of the heating mechanism 4 is fixedly connected with an air guide pipeline 5, the air guide pipeline 5 is externally connected with a branch pipeline 6, a dehumidifying bottom cavity 8 and an indoor bottom plate 7 are fixedly arranged in the main body 1, a circulating air duct 9 is externally connected with the dehumidifying bottom cavity 8, the cover body structure 3 comprises a cover body 10, a first top plate 11, a fan assembly 12, a second top plate 13, a sealing layer 14, a diversion opening 15 and a grid layer 16, the first top plate 11 and the second top plate 13 are fixedly connected with the cover body 10, the fan assembly 12 is arranged in the cover body 10, the sealing layer 14 is arranged at the top of the cover body 10, the diversion opening 15 and the grid layer 16 are all arranged on the front of the cover body 10, the dehumidifying bottom cavity 8 comprises a refrigerating sheet 20, a condensing sheet 22, a condensing chamber 24 and a discharging pipeline 23, the condensing sheet 20 and the condensing sheet 22 are fixedly connected, the condensing chamber 24 is arranged in the dehumidifying bottom cavity 8, the detecting bottom cavity 24 is arranged in the condensing chamber and the condensing sheet 24 is fixedly connected with the top of the guide seat 17, and the detecting bottom cavity is fixedly connected with the top of the guide seat 17.

In the embodiment, the top frame 2 is transversely erected at the top position of the inner side of the main body 1 in an H shape;

the branch pipeline 6 is integrally formed by three groups of conveying pipes and a group of butt joint pipelines, the butt joint pipelines are used as main butt joint pipelines and are communicated and connected with the air guide pipeline 5 and are positioned at the top of the inner side of the top frame 2, and meanwhile, the three groups of conveying pipes arranged in the branch pipeline 6 are embedded into the cover body structure 3;

when the heating mechanism 4 generates hot air, the hot air delivery is completed through the air guide pipeline 5 and the branch pipeline 6.

The whole cover body structure 3 is transversely arranged and fixedly connected with the periphery of the top frame 2;

the back of the cover body 10 is provided with mounting holes corresponding to three groups of conveying pipes in the branch pipe 6, and the first top plate 11 and the second top plate 13 are transversely arranged;

the fan assembly 12 is vertically embedded at the edges of the first top plate 11 and the second top plate 13;

the fan assembly 12 is provided with four groups vertically positioned at the central position and at two sides of the interior of the cover body 10, and the fan assembly 12 comprises a rectangular mounting plate and fans embedded in the surface of the rectangular mounting plate;

the effect of concentrated drying hot air is achieved through the cover body 10, the fan assembly 12 is vertically positioned in the cover body 10 through the two groups of top plate structures, the concentrated hot air is conveniently guided, and indoor hot air flowing circulation is promoted.

The sealing layers 14 are arranged in two groups, are integrally Z-shaped, are integrally arranged as rubber layers, and are clamped and covered between the first top plate 11 and the second top plate 13;

the sealing layer 14 is arranged in a clamping manner, so that the sealing effect of the cover body 10 is achieved when hot air is concentrated in the cover body, and the cover body 10 and the inner part of the cover body are convenient to disassemble, assemble and overhaul quickly.

The three groups of the diversion ports 15 are arranged, the grid layers 16 are arranged as net grid plates, the whole cavity inside the diversion ports 15 is arranged in an outward inclined way, and inclined diagonal lines are formed between the diversion ports and the dehumidification guide seats 17;

when the hot air is concentrated to be guided out and flows outwards through the guide opening 15 through the cover body 10, the hot air is guided to the position of the dehumidifying guide seat 17 in an inclined manner while being guided out through the guide opening 15, so that the effect of ensuring the indoor heat temperature and enabling the hot air to enter the dehumidifying structure to be dehumidified and then dried in a circulating manner is achieved.

The whole dehumidifying guide seat 17 is positioned at the outer side of the bottom of the main body 1, the inlet 18 is positioned at the upper side of the surface of the main body, the inner cavity of the dehumidifying guide seat 17 is Z-shaped, and the bottom is communicated with the condensation chamber 24;

the detection assembly 19 is positioned at the outer side of the dehumidifying guide seat 17 and comprises a temperature detection structure and a humidity detection mechanism, and simultaneously comprises a temperature detection probe and a humidity detection probe which are correspondingly arranged;

the hot air guided out of the guide opening 15 enters the dehumidifying guide seat 17 along with the guiding direction through the guiding opening 18, and the inner cavity of the dehumidifying guide seat 17 is formed in a Z shape, so that the hot air gradually concentrates to the positions of the refrigerating sheet 20 and the condensing sheet 22 through the inner cavity of the dehumidifying guide seat 17 when entering the dehumidifying guide seat, and after being cooled and dehumidified through the refrigerating sheet 20 and the condensing sheet 22, the chamber structure is favorable for avoiding the reverse flow of low-temperature air flow after dehumidification, and is convenient for the circulation guiding-out of the subsequent circulating air duct 9.

The refrigerating sheets 20 are electrically connected with an external control device, a plurality of groups of condensing sheets 22 are transversely arranged, are arranged in an inclined state, the condensation chamber 24 is positioned right below the condensation chamber, and the discharge pipeline 23 is communicated with the circulating air duct 9;

the whole circulating air duct 9 extends along the outer side surface of the main body 1 to be connected with the heating mechanism 4, and is provided with a pump body mechanism in a matched manner;

the indoor wet and warm air enters the condensation chamber 24 through the dehumidification guide seat 17, meets the low-temperature condensation sheet 22, is frozen below the dew point, and partial water vapor is changed into dew, the guiding-out effect is achieved through the discharge pipeline 23, the air exchange speed in the condensation chamber 24 is increased through the circulating air duct 9, the hot air effect after dehumidification is guided out, and the dehumidification operation is completed in the whole process.

Working principle: firstly, the heating mechanism 4 carries out heating operation, hot air is conveyed to the inside of the cover body 10 in the cover body structure 3 through the air guide pipeline 5, guided and conveyed through the fan assembly 12, and led out to the room from the air guide port 15 in an inclined way, so that the indoor temperature is increased to carry out preliminary drying operation on beef jerky therein, then the led out hot air contains certain humidity, at the moment, the hot air enters the dehumidifying guide seat 17 through the air guide port 18, temperature and humidity detection is carried out through the detection assembly 19, when the detection value reaches the appointed value, the refrigerating sheet 20 is started to work, the hot air enters the dehumidifying guide seat 17 and then contacts with the low-temperature condensing sheet 22, the hot air is frozen to be below the dew point, at the moment, part of water vapor is changed into dew, the dew is concentrated in the condensation chamber 24, led out through the discharge pipeline 23, then the low-temperature air flow of the dehumidified seeds is conveyed to the heating mechanism 4 again through the circulating air duct 9 to be heated, circulated and led into the branch pipeline 6, and the room is subjected to re-drying.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present utility model, and not for limiting the same; although the utility model has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the utility model, and are intended to be included within the scope of the appended claims and description.

Claims

1. Beef jerked air-drying chamber, including main part (1), its characterized in that: the utility model discloses a dehumidification device for the solar cell module, including main part (1), roof-rack (2) of top fixedly connected with, roof-rack (2) wholly are the inboard top position of "H" form transversely setting up in main part (1), the bottom fixedly connected with cover body structure (3) of roof-rack (2), the inside fixedly provided with heating mechanism (4) of main part (1), the outer fixedly connected with wind-guiding pipeline (5) of heating mechanism (4), wind-guiding pipeline (5) external branch pipe (6), the inside fixedly provided with dehumidification end chamber (8) and indoor bottom plate (7) of main part (1), the outside circulation wind channel (9) of dehumidification end chamber (8), the top fixedly connected with dehumidification guide holder (17) and detection component (19) of dehumidification end chamber (8), the fixed surface of dehumidification guide holder (17) is provided with leading-in mouth (18).

2. A jerky drying chamber according to claim 1, characterized in that: cover body structure (3) including cover body (10), first roof (11), fan subassembly (12), second roof (13), sealing layer (14), water conservancy diversion mouth (15) and grid layer (16), first roof (11) and second roof (13) all with cover body (10) fixed connection, fan subassembly (12) are located the inside of cover body (10), sealing layer (14) are located cover body (10) top, water conservancy diversion mouth (15) and grid layer (16) all are located the front of cover body (10), dehumidification end chamber (8) are including refrigeration piece (20), condensation piece (22), condensation chamber (24) and exhaust pipe (23), refrigeration piece (20) and condensation piece (22) fixed connection, condensation chamber (24) are located the inside of dehumidification end chamber (8), exhaust pipe (23) and condensation chamber (24) communicate with each other.

3. A jerky drying chamber according to claim 1, characterized in that: the branch pipeline (6) is integrally formed by three groups of conveying pipes and one group of butt joint pipelines, the butt joint pipelines are used as main butt joint pipelines and are connected with the air guide pipeline (5) in a communicating way and are positioned at the top of the inner side of the top frame (2), meanwhile, the three groups of conveying pipes arranged in the branch pipeline (6) are embedded into the cover body structure (3), and the cover body structure (3) is integrally and transversely arranged and fixedly connected with the periphery of the top frame (2).

4. A jerky drying chamber according to claim 2, characterized in that: the back of the cover body (10) is provided with mounting holes corresponding to three groups of conveying pipes in the branch pipe (6), and the first top plate (11) and the second top plate (13) are transversely arranged.

5. A jerky drying chamber according to claim 2, characterized in that: the fan assembly (12) is vertically embedded at the edges of the first top plate (11) and the second top plate (13).

6. A jerky drying chamber according to claim 5, wherein: the fan assembly (12) is provided with four groups in total, is vertically positioned at the middle position and two sides of the inside of the cover body (10), and the fan assembly (12) comprises a rectangular mounting plate and a fan which is embedded in the surface of the rectangular mounting plate.

7. A jerky drying chamber according to claim 2, characterized in that: sealing layer (14) set up two sets of, wholly are "Z" form setting, wholly set up to the rubber layer, and the joint covers the top position that sets up between first roof (11) and second roof (13), and water conservancy diversion mouth (15) set up three sets of, and grid layer (16) set up to netted grid board setting, and water conservancy diversion mouth (15) inside cavity wholly are outside slope and offer, and be the slope diagonal between dehumidification guide holder (17).

8. A jerky drying chamber according to claim 1, characterized in that: the dehumidification guide holder (17) is integrally located at the outer side of the bottom of the main body (1), the guide inlet (18) is located at the upper side of the surface of the main body, the inner cavity of the dehumidification guide holder (17) is formed in a Z shape, the bottom is communicated with the condensation chamber (24), the detection assembly (19) is located at the outer side of the dehumidification guide holder (17), and the dehumidification guide holder comprises a temperature detection structure and a humidity detection mechanism, and meanwhile comprises a temperature detection probe and a humidity detection probe which are correspondingly arranged.

9. A jerky drying chamber according to claim 2, characterized in that: the refrigerating sheets (20) are electrically connected with an external control device, the condensing sheets (22) are transversely arranged in a plurality of groups and are arranged in an inclined state, the condensation chamber (24) is located at the position right below the condensation chamber, the discharge pipeline (23) is communicated with the circulating air duct (9), the circulating air duct (9) is integrally connected with the heating mechanism (4) along the outer side surface of the main body (1) in an extending mode, and a pump body mechanism is arranged in a matched mode.