CN215775249U - Matrimony vine drying device - Google Patents

Abstract

The utility model relates to a medlar drying device, which is characterized in that a first self-temperature-control heating pipe and a second self-temperature-control heating pipe are adopted for heating by electrifying, when the first self-temperature-control heating pipe and the second self-temperature-control heating pipe are heated to the Curie temperature, the resistance values of the first self-temperature-control heating pipe and the second self-temperature-control heating pipe are close to infinity, the currents on the first self-temperature-control heating pipe and the second self-temperature-control heating pipe are close to infinity, a heating circuit is disconnected, the first self-temperature-control heating pipe and the second self-temperature-control heating pipe stop heating, when the temperatures of the first self-temperature-control heating pipe and the second self-temperature-control heating pipe are reduced to be less than the Curie temperature, the heating circuit is conducted again, the first self-temperature-control heating pipe and the second self-temperature-control heating pipe are heated again, the heating of the medlar drying device can be effectively controlled, the temperature control is more timely and accurate, the great fluctuation of the temperature of the medlar drying device can be avoided, the drying effect of medlar can be improved, ensure the color and nutritive value of the medlar.

Description

Matrimony vine drying device

Technical Field

The utility model relates to the technical field of drying equipment, in particular to a wolfberry drying device.

Background

The medlar is a plant of Solanaceae and Lycium, is a general name of Lycium species such as commercial medlar, plant Ningxia medlar, Chinese medlar and the like, is the fruit of Ningxia medlar, is the medlar which is daily edible and medicinal for people, has the effects of nourishing liver, nourishing kidney, moistening lung, tonifying deficiency, replenishing vital essence, clearing heat and improving eyesight, and is an important medicinal health product.

The drying of matrimony vine plays the effect of lifting the weight to the shelf life and the taste of matrimony vine, and traditional matrimony vine drying device adopts the resistance wire heating, detects heating temperature through temperature sensor, when heating temperature reaches the upper limit threshold value, breaks off through circuit breaker or controller control resistance wire to avoid the high temperature, when the temperature is less than the lower limit threshold value, then switch on the resistance wire once more. This kind of mode of heating, there is great temperature fluctuation to circuit breaker or controller are in time comparatively according to the feedback control of temperature, have the hysteresis, lead to temperature control inaccurate.

SUMMERY OF THE UTILITY MODEL

Based on this, it is necessary to provide a wolfberry drying device.

The technical scheme for solving the technical problems is as follows: the utility model provides a matrimony vine drying device, includes:

the box body is internally provided with an accommodating cavity, an opening is formed in the box body, and the opening is communicated with the accommodating cavity;

the first temperature self-control heating pipe is arranged on one side wall of the accommodating cavity;

the second self-temperature-control heating pipe is arranged on the other side wall of the accommodating cavity, and the first self-temperature-control heating pipe and the second self-temperature-control heating pipe are arranged oppositely;

the rotating sleeve is rotatably arranged in the accommodating cavity and is positioned between the first self-temperature-control heating pipe and the second self-temperature-control heating pipe;

the box door is movably connected with the box body and is used for movably sealing the opening.

In one embodiment, the rotating sleeve comprises: the first barrel and the second of rotating rotate the barrel, first rotation barrel rotates the setting and is in hold the intracavity, first holding tank has been seted up on the first rotation barrel, the second has been seted up on the second rotation barrel, the second rotates barrel movable cover and closes on the first rotation barrel, works as the second rotates the barrel lid and closes when first rotation barrel is last, first holding tank with second holding tank intercommunication.

In one embodiment, the first rotating cylinder is provided with a plurality of first through holes, and each first through hole is communicated with the first accommodating groove.

In one embodiment, a plurality of second through holes are formed in the second rotating cylinder, and each second through hole is communicated with the second accommodating groove.

In one embodiment, a plurality of first baffle plates are arranged on the side wall of the first accommodating groove, the first baffle plates are uniformly arranged on the side wall of the first accommodating groove, and a first buffer groove is formed between every two adjacent first baffle plates.

In one embodiment, a plurality of second baffles are arranged on the side wall of the second accommodating groove, each second baffle is uniformly arranged on the side wall of the second accommodating groove, and a second buffer groove is formed between every two adjacent second baffles.

In one embodiment, the first self temperature-controlling heating pipe includes: a first carrier tube having a plurality of first conductive particles disposed therein.

In one embodiment, the second self temperature-controlling heating pipe includes: a second carrier tube having a plurality of second conductive particles disposed therein.

In one embodiment, a heat dissipation layer is disposed on an outer surface of the case.

In one embodiment, the door is provided with a handle.

The utility model has the beneficial effects that: the first self-temperature-control heating pipe and the second self-temperature-control heating pipe are adopted to be electrified and heated, when the first self-temperature-control heating pipe and the second self-temperature-control heating pipe are heated to Curie temperature, the resistance values of the first self-temperature-control heating pipe and the second self-temperature-control heating pipe approach infinity, the currents on the first self-temperature-control heating pipe and the second self-temperature-control heating pipe approach infinity, the heating circuit is disconnected, the first self-temperature-control heating pipe and the second self-temperature-control heating pipe stop heating, when the temperatures of the first self-temperature-control heating pipe and the second self-temperature-control heating pipe are reduced to be lower than the Curie temperature, the heating circuit is conducted again, the first self-temperature-control heating pipe and the second self-temperature-control heating pipe heat again, the resistance values approach to infinity after the first self-temperature-control heating pipe and the second self-temperature-control heating pipe reach the Curie temperature, the heating of the medlar drying device can be effectively controlled, and the temperature in the containing cavity is prevented from being too high, moreover, the temperature control is more timely and accurate, the temperature fluctuation of the medlar drying device is avoided, the medlar drying effect can be improved, and the color and the nutritive value of the medlar are ensured.

Drawings

Fig. 1 is a schematic structural diagram of a drying device for chinese wolfberry according to an embodiment;

fig. 2 is a schematic cross-sectional view of a rotating sleeve according to an embodiment.

In the attached drawings, 10, a medlar drying device; 100. a box body; 110. an accommodating chamber; 200. a box door; 210. a handle; 300. a first self-temperature-control heating pipe; 400. rotating the sleeve; 410. a first rotating cylinder; 411. a first accommodating groove; 420. a second rotary cylinder; 421. a second accommodating groove; 430. a first baffle plate; 440. a second baffle.

Detailed Description

It should be noted that the embodiments and features of the embodiments may be combined with each other without conflict. The technical solutions of the present invention will be further described below with reference to the accompanying drawings of the embodiments of the present invention, and the present invention is not limited to the following specific embodiments.

It should be understood that the same or similar reference numerals in the drawings of the embodiments correspond to the same or similar parts. In the description of the present invention, it should be understood that if there are terms such as "upper", "lower", "front", "rear", "left", "right", "top", "bottom", etc., indicating orientations or positional relationships based on the orientations or positional relationships shown in the drawings, it is only for convenience of description and simplicity of description, but does not indicate or imply that the equipment or elements referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and therefore, the terms describing the positional relationships in the drawings are only used for illustrative purposes and are not to be construed as limiting the patent, and the specific meanings of the terms will be understood by those skilled in the art according to specific situations.

In one embodiment, referring to fig. 1, a drying device 10 for chinese wolfberry comprises: the box body 100 is provided with an accommodating cavity 110, an opening is formed in the box body 100, and the opening is communicated with the accommodating cavity 110; the first self-temperature-control heating pipe 300 is arranged on one side wall of the accommodating cavity 110; a second self-temperature-control heating pipe (not shown), which is disposed on the other side wall of the accommodating cavity 110, and the first self-temperature-control heating pipe 300 is disposed opposite to the second self-temperature-control heating pipe; the rotating sleeve 400 is rotatably arranged in the accommodating cavity 110, and is located between the first self-temperature-control heating pipe 300 and the second self-temperature-control heating pipe; the box door 200, the box door 200 is movably connected with the box body 100, and the box door 200 is used for movably closing the opening.

In this embodiment, an opening communicated with the accommodating cavity 110 is formed in the box body 100 to realize the communication between the accommodating cavity 110 and the outside, so as to facilitate the picking and placing of the medlar, one side of the box door 200 and the box body 100 can be connected through a hinge or a rotating shaft to realize the rotating connection between the box door 200 and the box body 100, so as to movably seal the opening in the box body 100, the first self-temperature-control heating pipe 300 and the second self-temperature-control heating pipe are respectively arranged on a relative side wall of the accommodating cavity 110, that is, the first self-temperature-control heating pipe 300 and the second self-temperature-control heating pipe are relatively arranged on the side walls at the top and the bottom of the accommodating cavity, the rotating sleeve 400 is rotatably arranged on another relative side wall of the accommodating cavity, that is, the rotating sleeve 400 is rotatably arranged on the side walls at two sides of the accommodating cavity, the rotating sleeve 400 is used for placing the medlar to be dried, drive rotatory sleeve 400 rotates, places matrimony vine in the rotatory sleeve 400 can overturn in proper order for the matrimony vine is heated evenly, makes the stoving degree of matrimony vine more even. It is to be understood that the manner of driving the rotation sleeve 400 to rotate is known and can be realized by those skilled in the art, and is not described redundantly in this embodiment, for example, a motor is connected to the rotation sleeve 400 to drive the rotation sleeve 400 to rotate.

In this embodiment, the first self temperature-controlling heating pipe 300 and the second self temperature-controlling heating pipe are used for heating after being powered on, and when the heating reaches the curie temperature, the resistance approaches infinity, so that the heating lines are disconnected, and the heating is stopped. The first self-Temperature-control heating pipe 300 and the second self-Temperature-control heating pipe are made of PTC (Positive Temperature Coefficient) materials, the resistance values of the first self-Temperature-control heating pipe and the second self-Temperature-control heating pipe change with the change of Temperature, and have smaller resistance when the Temperature is below the curie Temperature, and the step change of the resistance values of the first self-Temperature-control heating pipe and the second self-Temperature-control heating pipe is increased by thousands to millions times when the Temperature reaches the curie Temperature. Specifically, this first self temperature control heating pipe 300 reaches second self temperature control heating pipe can adopt current PTC material to make, for example, material between them is ceramic PTC, can effective control matrimony vine drying device 10's heating, avoids hold the temperature in the chamber 110 too high to make temperature control more timely, accurate, avoided the fluctuation by a wide margin of matrimony vine drying device 10's temperature, can improve the stoving effect of matrimony vine, guarantee the color and luster and the nutritive value of matrimony vine.

In one embodiment, the first self temperature-controlling heating pipe 300 includes: a first carrier tube having a plurality of first conductive particles disposed therein. Specifically, the first carrier tube is made of Polyethylene (PE), and the polyethylene is coated on the outer side of the first conductive particles to form the first self-temperature-control heating tube 300. Like this, when first self temperature control heating pipe 300 circular telegram, will make the polyethylene layer in the cladding first conductive particle circular telegram and generate heat, promptly through add in the first carrier pipe first conductive particle makes first self temperature control heating pipe 300 can circular telegram generate heat to stop generating heat after generating heat and reaching curie temperature, realized automatic temperature control. In one embodiment, the first conductive particles are nickel-coated graphite particles. In another embodiment, the first conductive particles are one of aluminum particles, copper particles, and silver-plated glass microbead particles.

In one embodiment, the second self temperature-controlling heating pipe includes: a second carrier tube having a plurality of second conductive particles disposed therein. The second carrier tube is made of polyethylene, and the polyethylene is coated on the outer side of the second conductive particles to form the second self-temperature-control heating tube. Like this, when second self control temperature heating pipe circular telegram, will make the polyethylene layer in the cladding the second electrically conductive particle circular telegram and generate heat, promptly through the intraductal interpolation of second carrier the second electrically conductive particle makes second self control temperature heating pipe can the circular telegram generate heat to stop generating heat after generating heat and reaching curie temperature, realized automatic temperature control. In one embodiment, the second conductive particles are nickel-coated graphite particles. In another embodiment, the second conductive particles are one of aluminum particles, copper particles, and silver-plated glass microbead particles.

To accomplish the inversion of the wolfberries within the rotating sleeve 400, referring to fig. 2, in one embodiment, the rotating sleeve 400 comprises: barrel 420 is rotated to first rotation barrel 410 and second, first rotation barrel 410 rotates and sets up hold in the chamber 110, first holding tank 411 has been seted up on the first rotation barrel 410, second holding tank 421 has been seted up on the second rotation barrel 420, the second rotates barrel 420 activity lid and closes on the first rotation barrel 410, works as the second rotates barrel 420 lid and closes when first rotation barrel 410 is last, first holding tank 411 with second holding tank 421 intercommunication. Specifically, first rotation barrel 410 with the material of second rotation barrel 420 is the metal, for example for copper, for example aluminium again, has good heat conductivility, rotates barrel 420 movable cover through the second and closes on first rotation barrel 410, first holding tank 411 with lateral wall butt each other between the second holding tank 421, first holding tank 411 with the intercommunication forms a closed matrimony vine holding tank between the second holding tank 421, like this, through placing the matrimony vine in first holding tank 411 to the stirring of overturning in this closed matrimony vine holding tank can make the stoving degree of matrimony vine more even.

Further, a plurality of first through holes are formed in the first rotating cylinder 410, and each first through hole is communicated with the first accommodating groove 411, so that heat generated by the first self-temperature-control heating pipe 300 can enter the first accommodating groove 411 through the first through hole and directly contact with the medlar, and the heating efficiency in the first accommodating groove 411 can be improved. Correspondingly, a plurality of second through holes are formed in the second rotary cylinder 420, and each second through hole is communicated with the second accommodating groove 421, so that the medlar accommodating groove can be communicated with the accommodating cavity 110 through the first through hole and the second through hole, and moisture generated in the drying process of the medlar can be discharged.

In order to enable the medlar to be more uniformly stirred in an overturning manner, in one embodiment, a plurality of first baffle plates 430 are disposed on the side wall of the first accommodating groove 411, each first baffle plate 430 is uniformly disposed on the side wall of the first accommodating groove 411, and a first buffer groove is formed between every two adjacent first baffle plates 430. Specifically, a plurality of second baffle plates 440 are correspondingly disposed on the side walls of the second holding tank 421, each second baffle plate 440 is uniformly disposed on the side walls of the second holding tank 421, and a second buffer tank is formed between every two adjacent second baffle plates 440, such that each first baffle plate 430 is disposed around the side wall of the first holding tank 411, each second baffle plate 440 is disposed around the side wall of the second holding tank 421, during the turning process, the medlar sequentially stays in the first buffer tank or the second buffer tank, or stays in the first buffer tank and the second buffer tank, that is, when the rotating sleeve 400 rotates, the medlar can sequentially enter another first buffer tank from one first buffer tank, then enter another second buffer tank, and circulate back and forth, and the movement of the 440 is stopped by the first baffle plates 430 and the second baffle plates, can make matrimony vine in the rotating sleeve 400 distributes evenly, realizes the upset stirring, and it is more even to dry.

In one embodiment, a heat dissipation layer is disposed on an outer surface of the case 100. Specifically, in the heating process, the partial heat transfer who holds in the chamber 110 arrives on the surface of box 100, because the surface of box 100 is overhead to have the heat dissipation coating, can give off the heat to the environment fast, improved the radiating efficiency of box 100 avoids the surface temperature of box 100 is too high, has improved matrimony vine drying device 10's safety in utilization, simultaneously, after the heating, also can reach rapid cooling's effect, the radiating efficiency is high. In one embodiment, the heat dissipation layer includes an organic resin base layer and nano-carbon particles disposed in the organic resin base layer. It can be understood that the heat dissipation layer adopts an organic resin base layer, and the organic resin base layer is provided with nano carbon particles, and the heat dissipation performance of the nano carbon particles is excellent, for example, the nano carbon particles are one of carbon nanotubes, carbon nanofibers and nano carbon spheres, and the nano carbon particles are compounded with the organic resin base layer, so that the adhesion of the nano carbon particles to the surface of the box body 100 is improved, the obtained heat dissipation layer is stable and not easy to fall off, and simultaneously, the heat dissipation performance of the surface of the box body 100 is greatly improved, and the use safety is improved.

In one embodiment, the door 200 is provided with a handle 210. Specifically, the handle 210 is arranged on the box door 200, so that an operator can open or close the box door 200 by holding the handle 210, and the Chinese wolfberry can be conveniently taken and put.

In an embodiment, a collection drawing plate is slidably disposed in the box 100, a collection groove is disposed on the collection drawing plate, the collection drawing plate is slidably disposed on a side wall of the accommodation groove, the collection drawing plate is disposed opposite to the rotating sleeve 400, and the collection groove is located below the rotating sleeve 400, when the drying of the chinese wolfberry in the rotating sleeve 400 is completed, the collection drawing plate is slidably inserted into the box 100, and then the second rotating cylinder 420 is opened from the first rotating cylinder 410 and the first rotating cylinder 410 is rotated, so that the chinese wolfberry placed in the first accommodation groove 411 falls into the collection groove, and then the collection groove is drawn out from the box 100, so as to facilitate the taking out and moving of the chinese wolfberry from the chinese wolfberry drying device 10 to an external collection device.

It should be understood that the above-described embodiments of the present invention are merely examples for clearly illustrating the present invention, and are not intended to limit the embodiments of the present invention. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.

Claims (10)

1. The utility model provides a matrimony vine drying device which characterized in that includes:

the box body is internally provided with an accommodating cavity, an opening is formed in the box body, and the opening is communicated with the accommodating cavity;

the first temperature self-control heating pipe is arranged on one side wall of the accommodating cavity;

the second self-temperature-control heating pipe is arranged on the other side wall of the accommodating cavity, and the first self-temperature-control heating pipe and the second self-temperature-control heating pipe are arranged oppositely;

the rotating sleeve is rotatably arranged in the accommodating cavity and is positioned between the first self-temperature-control heating pipe and the second self-temperature-control heating pipe;

the box door is movably connected with the box body and is used for movably sealing the opening.

2. The drying apparatus of claim 1, wherein the rotating sleeve comprises: the first barrel and the second of rotating rotate the barrel, first rotation barrel rotates the setting and is in hold the intracavity, first holding tank has been seted up on the first rotation barrel, the second has been seted up on the second rotation barrel, the second rotates barrel movable cover and closes on the first rotation barrel, works as the second rotates the barrel lid and closes when first rotation barrel is last, first holding tank with second holding tank intercommunication.

3. The wolfberry drying device according to claim 2, wherein the first rotating cylinder is provided with a plurality of first through holes, and each first through hole is communicated with the first accommodating groove.

4. The wolfberry drying device according to claim 3, wherein the second rotating cylinder is provided with a plurality of second through holes, and each second through hole is communicated with the second accommodating groove.

5. The drying device for medlar according to claim 2 or 4, wherein a plurality of first baffle plates are arranged on the side wall of the first holding tank, each first baffle plate is evenly arranged on the side wall of the first holding tank, and a first buffer tank is formed between every two adjacent first baffle plates.

6. The drying device for medlar according to claim 5, wherein a plurality of second baffles are arranged on the side wall of the second accommodating groove, each second baffle is evenly arranged on the side wall of the second accommodating groove, and a second buffer groove is formed between every two adjacent second baffles.

7. The drying apparatus of claim 1, wherein the first self-temperature-control heating pipe comprises: a first carrier tube having a plurality of first conductive particles disposed therein.

8. The drying apparatus of claim 7, wherein the second self-temperature-control heating pipe comprises: a second carrier tube having a plurality of second conductive particles disposed therein.

9. The drying device of claim 1, wherein a heat dissipation layer is disposed on an outer surface of the box.

10. The drying device of claim 1, wherein a handle is disposed on the door.

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