CN116183346B - Quick drying device of heating of food detection - Google Patents

Abstract

The invention discloses a heating and quick drying device for food detection, which relates to the technical field of food detection and comprises the following components: the food heating device comprises a box body, a heating mechanism, a storage component and a filtering mechanism, wherein the heating mechanism is arranged at the lower end of the box body, a fixing mechanism is arranged inside the box body, the storage component is transversely arranged in the fixing mechanism in a sliding mode, the filtering mechanism is fixed at the upper end face of the box body, the filtering mechanism is used for adsorbing peculiar smell generated during food heating, a circulation pipeline is arranged in the box body, and the circulation pipeline is used for circulating the absorbed hot air, so that the heat utilization rate is improved.

Description

Quick drying device of heating of food detection

Technical Field

The invention relates to the technical field of food detection, in particular to a heating rapid drying device for food detection.

Background

Food safety detection is to detect harmful substances in food according to national indexes, mainly including detection of some indexes of harmful and toxic substances, such as: heavy metals, aflatoxins, and the like. Food detection is an indispensable ring in food processing, processing and storage processes, and the safety of the food is directly related to the life and property safety of people. At present, some traditional food detection's heating drying device can't handle the inside peculiar smell of device, can influence the detection of other foods next to a certain extent, and the inside rack of most drying device box can't be demolishd simultaneously, and comparatively difficulty when the clearance, on the other hand when placing food on the rack, the heating of food bottom is limited, just leads to having increased drying time very easily.

Therefore, it is necessary to provide a heating and quick drying device for food detection to solve the problems in the background art.

Disclosure of Invention

In order to achieve the above purpose, the present invention provides the following technical solutions: a heated flash dryer for food detection comprising: the food heating device comprises a box body, a heating mechanism, a storage component and a filtering mechanism, wherein the heating mechanism is arranged at the lower end of the box body, a fixing mechanism is arranged inside the box body, the storage component is transversely arranged in the fixing mechanism in a sliding mode, the filtering mechanism is fixed at the upper end face of the box body, the filtering mechanism is used for adsorbing peculiar smell generated during food heating, a circulation pipeline is arranged in the box body, and the circulation pipeline is used for circulating the absorbed hot air, so that the heat utilization rate is improved.

Further, preferably, the storage assembly includes: mounting panel, second piston, wherein, mounting panel one end is fixed with first spring, the mounting panel other end is provided with notch, right cavity and left cavity, vertical slip is provided with first piston in the notch, just cup jointed the second spring on the first piston, the one end and the mounting panel of second spring support against the contact, right cavity one side horizontal slip is provided with the second piston, just cup jointed the third spring on the second piston, the third spring supports against the contact with the mounting panel.

Further, as the preference, the inside cavity that is provided with of mounting panel, a plurality of first through-holes have evenly been seted up to the top that is located the cavity on the mounting panel, a plurality of second through-holes have evenly been seted up to the below that is located the cavity on the mounting panel, the radius of first through-hole is 0.5 to 1MM, the radius of second through-hole is 4 to 5MM, a plurality of third through-holes have evenly been seted up to the below that is located the left cavity on the mounting panel, a plurality of fourth through-holes have evenly been seted up to the left side that is located the left cavity on the mounting panel, just the radius of third through-hole is less than the radius of fourth through-hole.

Further, preferably, the filter mechanism includes: cylinder body, foreign matter adsorb box and magnetism float, wherein, the cylinder body is fixed box up end position department, just the cylinder body is inside through first pipeline with the box is linked together, the cylinder body is installed to cylinder body up end department, be provided with the air vent on the last cylinder body, vertical slip is provided with foreign matter adsorb the box in the cylinder body, the active carbon has been placed in the foreign matter adsorbs the box, just cylinder body one side is fixed with the casing, the casing lower extreme is provided with the second pipeline, the solenoid valve is installed to second pipeline end position department, just the slide has been seted up in the casing, buoyancy ball is installed to slide one side, vertical slip is provided with magnetism float in the slide, a plurality of through-holes have been seted up on the magnetism float, just magnetism float is connected with foreign matter adsorb the box through traction wire.

Further, preferably, the upper end of the foreign matter adsorption box is uniformly provided with a plurality of upper ventilation holes, the lower end of the foreign matter adsorption box is also uniformly provided with a plurality of lower ventilation holes, the diameter of the upper ventilation holes is far smaller than that of the lower ventilation holes, and after the activated carbon is adsorbed fully under the stable air pressure state, the whole mass of the foreign matter adsorption box and the activated carbon can be balanced with the thrust generated by air flow circulation in the cylinder body.

Further, as an optimization, the buoyancy ball is made of iron materials, two groups of grooves are uniformly formed in one side of the shell, a magnetic block is arranged at the groove at the lower end of the right side of the shell, the magnetic floater is made of magnetic materials, and the magnetism of the magnetic floater is larger than that of the magnetic block.

Further, preferably, when the mounting plate is mounted on the left side, the sum of the normal telescopic length of the mounting plate and the normal telescopic length of the first spring at the fastening position is smaller than the length of the left side fixing mechanism, and the second pipeline can penetrate into the mounting plate and is used for controlling the horizontal sliding of the second piston.

Compared with the prior art, the invention provides a heating rapid drying device for food detection, which has the following beneficial effects:

according to the embodiment of the invention, the drying device for food detection continuously sends hot air to the surface of food through the heating mechanism, then the air in the box body is adsorbed through the filtering mechanism, after the air in the box body enters the foreign matter adsorption box, the foreign matters are adsorbed through the active carbon in the box body, then the wind pressure in the box body is detected through the motion relation between the magnetic floater and the buoyancy ball, and meanwhile, the corresponding relation between the magnetic floater and the buoyancy ball can be observed to judge whether the active carbon needs to be replaced or not after the wind pressure is fixed; the storage component is in a horizontal swinging state under the action of hot air flowing in the second pipeline, so that food can be effectively prevented from being stuck on the mounting plate in the heating process through the impact relation of the gas storage component flowing in the box body, the first piston limits the swinging of the mounting plate after the air pressure is stable in the middle and later stages, the mounting plate is in a static state (the food is not stuck on the mounting plate after the bottom of the food is heated and dried in the middle and later stages), and meanwhile, the bottom of the food can be heated better through the plurality of through holes; on the other hand, the air after adsorption can flow in the box body through circulation of the flow pipeline, so that heat can be better utilized, and waste and loss of the heat are prevented.

Drawings

FIG. 1 is a schematic diagram of the whole structure of a heating and quick drying device for food detection;

FIG. 2 is a schematic diagram of a placement module in a heated flash dryer for food detection;

FIG. 3 is a schematic diagram of a filtering mechanism in a heating and quick drying device for food detection;

in the figure: 1. a case; 2. a heating mechanism; 3. a fixing mechanism; 4. a storage component; 401. a mounting plate; 4011. a hollow cavity; 4012. a first through hole; 4013. a second through hole; 402. a first spring; 403. a first piston; 404. a second spring; 405. a right cavity; 4051. a third through hole; 406. a left cavity; 4061. a fourth through hole; 407. a second piston; 408. a third spring; 5. a filtering mechanism; 501. a cylinder; 502. a first pipe; 503. an upper cylinder; 504. a foreign matter adsorbing box; 505. activated carbon; 506. a housing; 507. a second pipe; 508. an electromagnetic valve; 509. a slideway; 510. a buoyancy ball; 511. a magnetic float; 512. and (5) pulling the wire.

Detailed Description

Referring to fig. 1 to 3, in an embodiment of the present invention, a heating and rapid drying device for food detection includes: the food heating device comprises a box body 1, a heating mechanism 2, a storage component 4 and a filtering mechanism 5, wherein the heating mechanism 2 is installed at the lower end of the inner portion of the box body 1, a fixing mechanism 3 is arranged inside the box body 1, the storage component 4 is arranged in the fixing mechanism 3 in a sliding manner, the filtering mechanism 5 is fixed at the upper end face of the box body 1, the filtering mechanism 5 is used for absorbing peculiar smell generated during food heating, a circulation pipeline is arranged in the box body 1 and used for circulating absorbed hot air, and the heat utilization rate is improved.

In this embodiment, as shown in fig. 2, the storage assembly 4 includes: the mounting plate 401, second piston 407, wherein, mounting plate 401 one end is fixed with first spring 402, the mounting plate 401 other end is provided with the notch, right cavity 405 and left cavity 406, vertical slip is provided with first piston 403 in the notch, just cup joint second spring 404 on the first piston 403, the one end of second spring 404 is provided with second piston 407 in the horizontal slip of right cavity 405 side and is in contact with mounting plate 401, just cup joint third spring 408 on the second piston 407, third spring 408 is in contact with mounting plate 401 in the contact, second piston 407 moves left when receiving the gas impact of second pipeline 507, and simultaneously first piston 403 upward movement can play the limiting effect to mounting plate 401 this moment, and when second piston 407 is not atress, third spring 408 contracts, second piston 407 resumes initial position, and first piston 403 moves down under the effect of second spring 404 contraction force this moment, is convenient for dismantle mounting plate 401 this moment.

In this embodiment, as shown in fig. 2, a hollow cavity 4011 is disposed inside the mounting plate 401, a plurality of first through holes 4012 are uniformly formed above the hollow cavity 4011 on the mounting plate 401, a plurality of second through holes 4013 are uniformly formed below the hollow cavity 4011 on the mounting plate 401, the radius of the first through hole 4012 is 0.5 to 1MM, the radius of the second through hole 4013 is 4 to 5MM, the two through holes are different in radius and are convenient for heating the top of the mounting plate 401, so that the bottom of food is heated better, a plurality of third through holes 4051 are uniformly formed below the right cavity 406 on the mounting plate 401, a plurality of fourth through holes 4061 are uniformly formed on the left side of the left cavity 406 on the mounting plate 401, the radius of the third through holes 4051 is smaller than the radius of the fourth through holes 4061, the radii of the third through holes 4051 and the fourth through holes 4061 are different in order to control the difference in the radii of the right cavity 405 and the left cavity 406, so that the horizontal sliding of the second piston 407 is facilitated.

In this embodiment, as shown in fig. 3, the filtering mechanism 5 includes: cylinder body 501, foreign matter adsorption box 504 and magnetism float 511, wherein, the cylinder body 501 is fixed the box 1 up end position department, just cylinder body 501 is inside to be linked together through first pipeline 502 with box 1, cylinder body 501 up end department installs cylinder body 503, be provided with the air vent on the cylinder body 503, vertical slip is provided with foreign matter adsorption box 504 in the cylinder body 501, active carbon 505 has been placed in the foreign matter adsorption box 504, just cylinder body 501 one side is fixed with casing 506, the casing 506 lower extreme is provided with the second pipeline 507, second pipeline 507 end position department installs solenoid valve 508, just set up slide 509 in the casing 506, buoyancy ball 510 is installed to slide 509 one side, vertical slip is provided with magnetism float 511 in the slide 509, set up a plurality of through-holes on the magnetism float 511, just magnetism float 511 is connected with foreign matter adsorption box 504 through traction wire 512, when the air pressure in needs to look over box 1, the position that can be confirmed through observing buoyancy ball 510, mix behind the food heat and produce and the inside the carbon that the air pressure is fixed with casing 505, can be adsorbed the activity ball 505 after the air is adsorbed the steady, the quality is compared with the activated carbon 505 after the air is adsorbed in the carbon 505 and the activity ball is enough to be judged.

As a preferred embodiment, the upper end of the foreign matter adsorbing box 504 is uniformly provided with a plurality of upper air holes, the lower end of the foreign matter adsorbing box is also uniformly provided with a plurality of lower air holes, the diameter of the upper air holes is far smaller than that of the lower air holes, so that the gas in the box 1 passes through the lower air holes, the activated carbon 505 and the upper air holes, and the foreign matter adsorbing box 504 can better promote the adsorption of foreign matters, and after the activated carbon 505 is adsorbed and filled in a stable air pressure state, the whole mass of the foreign matter adsorbing box 504 and the activated carbon 505 can be balanced with the thrust generated by air circulation in the cylinder 501.

As a preferred embodiment, the buoyancy ball 510 is made of a ferrous material, two sets of grooves are uniformly formed on one side of the housing 506, a magnetic block is disposed in the groove at the lower right end of the housing, the magnetic float 511 is made of a magnetic material, and the magnetism of the magnetic float 511 is greater than that of the magnetic block, that is, whether the air pressure in the case 1 and the activated carbon 505 need to be replaced or not can be determined according to the corresponding relation between the buoyancy ball 510 and the magnetic float 511.

As a preferred embodiment, when the mounting plate 401 is mounted on the left side, the sum of the normal telescopic length of the fastening position and the normal telescopic length of the first spring 402 is smaller than the length of the left fixing mechanism 3, which is favorable for dismounting the mounting plate 401, the second pipeline 507 can go deep into the mounting plate 401 and is used for controlling the horizontal sliding of the second piston 407, and when the second piston 407 slides left and right, the left and right displacement of the mounting plate 401 can be indirectly controlled, which is favorable for preventing the food bottom from being stuck on the mounting plate 401.

In the specific implementation, when the heating rapid drying device for food detection is installed, the first spring 402 is aligned to the installation hole of the left fixing mechanism 3, meanwhile, the first spring 402 is pressed leftwards, the left side of the installation plate 401 is inserted into the left fixing mechanism 3, then the right side installation plate 401 is inserted into the right fixing mechanism 3 (the second pipeline 507 stretches into the right side installation plate 401), then food is placed on the installation plate 401, the heating mechanism 2 is started, the heating mechanism 2 sequentially flows generated hot air through the second through hole 4013, the hollow cavity 4011 and the first through hole 4012 to heat the food, at the moment, peculiar smell generated by heating the food is mixed with air and flows to the filtering mechanism 5, the gas can be adsorbed by the foreign matter adsorption box 504, the adsorbed gas enters the flowing pipeline through the second pipeline 507, the size of the air pressure is controlled through the electromagnetic valve 508, the horizontal movement of the second piston 407 is controlled by the gas, the horizontal movement of the installation plate 401 is indirectly controlled, the food is prevented from being stuck on the installation plate 401, and finally the electromagnetic valve 508 can be stabilized until the heating work is finished; when the heating quick drying device for food detection is disassembled, the vent hole is opened, the air pressure in the right cavity 405 is reduced, the first piston 403 is lowered, the mounting plate 401 is pressed leftwards, and the mounting plate 401 is taken out in the direction perpendicular to the box body 1.

The foregoing description is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical solution of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims (2)

1. A heating quick drying device for food detection, which is characterized in that: comprising the following steps: the food heating device comprises a box body (1), a heating mechanism (2), a storage component (4) and a filtering mechanism (5), wherein the heating mechanism (2) is arranged at the lower end of the interior of the box body (1), a fixing mechanism (3) is arranged in the box body (1), the storage component (4) is transversely arranged in the fixing mechanism (3) in a sliding manner, the filtering mechanism (5) is fixed at the upper end face of the box body (1), the filtering mechanism (5) is used for absorbing peculiar smell generated during food heating, and a circulation pipeline is arranged in the box body (1) and used for circulating absorbed hot air so as to improve the utilization rate of heat;

the storage assembly (4) comprises: the device comprises a mounting plate (401) and a second piston (407), wherein a first spring (402) is fixed at one end of the mounting plate (401), a notch, a right cavity (405) and a left cavity (406) are formed in the other end of the mounting plate (401), the first piston (403) is vertically arranged in the notch in a sliding mode, a second spring (404) is sleeved on the first piston (403), one end of the second spring (404) is abutted to the mounting plate (401) to be contacted, the second piston (407) is horizontally arranged on one side of the right cavity (405) in a sliding mode, a third spring (408) is sleeved on the second piston (407), and the third spring (408) is abutted to be contacted with the mounting plate (401) in a sliding mode;

the second piston (407) moves leftwards when being impacted by the gas of the second pipeline (507), meanwhile, the first piston (403) moves upwards, the limiting effect can be achieved on the mounting plate (401), when the second piston (407) is not stressed, the third spring (408) contracts, the second piston (407) returns to the initial position, the first piston (403) moves downwards under the action of the contraction force of the second spring (404), and the mounting plate (401) is convenient to detach; the gas can control the horizontal movement of the second piston (407), thereby indirectly controlling the horizontal movement of the mounting plate (401) and preventing food from being stuck on the mounting plate (401);

the novel solar cell module is characterized in that a hollow cavity (4011) is formed in the mounting plate (401), a plurality of first through holes (4012) are uniformly formed in the mounting plate (401) above the hollow cavity (4011), a plurality of second through holes (4013) are uniformly formed in the mounting plate (401) below the hollow cavity (4011), the radius of the first through holes (4012) is 0.5-1 MM, the radius of the second through holes (4013) is 4-5 MM, a plurality of third through holes (4051) are uniformly formed in the mounting plate (401) below the right cavity (405), a plurality of fourth through holes (4061) are uniformly formed in the mounting plate (401) left side of the left cavity (406), and the radius of the third through holes (4051) is smaller than that of the fourth through holes (4061);

the filtering mechanism (5) comprises: cylinder body (501), foreign matter adsorption box (504) and magnetism float (511), wherein, cylinder body (501) are fixed in box (1) up end position department, just cylinder body (501) inside pass through first pipeline (502) with box (1) are linked together, cylinder body (503) are installed to cylinder body (501) up end department, be provided with the air vent on last cylinder body (503), vertical slip is provided with foreign matter adsorption box (504) in cylinder body (501), active carbon (505) have been placed in foreign matter adsorption box (504), just cylinder body (501) one side is fixed with casing (506), casing (506) lower extreme is provided with second pipeline (507), solenoid valve (508) are installed to second pipeline (507) end position department, just slide (509) have been seted up in casing (506), buoyancy ball (510) are installed to slide (509) one side, vertical slip is provided with magnetism float (511) in slide, a plurality of through-holes have been seted up on magnetism float (511), just float (504) are connected with foreign matter (512) through traction wire (511); the buoyancy ball (510) is made of iron, two groups of grooves are uniformly formed in one side of the shell (506), a magnetic block is arranged at the groove at the lower end of the right side of the shell, the magnetic floater (511) is made of magnetic materials, and the magnetism of the magnetic floater (511) is larger than that of the magnetic block; when the mounting plate (401) is mounted on the left side, the sum of the normal telescopic length of the mounting plate and the normal telescopic length of the first spring (402) at the fastening position is smaller than the length of the left side fixing mechanism (3), and the second pipeline (507) can penetrate into the mounting plate (401) and is used for controlling the horizontal sliding of the second piston (407).

2. A heated flash dryer for food testing according to claim 1 wherein: the upper end of the foreign matter adsorption box (504) is uniformly provided with a plurality of upper ventilation holes, the lower end of the foreign matter adsorption box is also uniformly provided with a plurality of lower ventilation holes, the diameter of the upper ventilation holes is far smaller than that of the lower ventilation holes, and after the activated carbon (505) is adsorbed fully under the stable air pressure state, the whole mass of the foreign matter adsorption box (504) and the activated carbon (505) can be balanced with the thrust generated by air flow circulation in the cylinder body (501).