CN213631206U - Drying equipment for freeze-dried membrane cloth - Google Patents

Abstract

The utility model provides a freeze-drying equipment for membrane cloth relates to the dry field of membrane cloth. The drying equipment for freeze-dried membrane cloth comprises a machine shell, a conveying mechanism and a circulating fan which are arranged in the machine shell, and a drying fan communicated with the machine shell, wherein the conveying mechanism is provided with a plurality of layers in the machine shell at intervals from top to bottom, and the circulating fan is arranged on the outer side of the conveying mechanism; the drying fan comprises a drying machine case, a heating structure and an air blower, wherein the heating structure and the air blower are installed in the drying machine case, an air inlet and a hot air port are formed in the drying machine case, the heating structure and the air blower are arranged in an air flow channel between the air inlet and the hot air port, and a hot air pipeline is connected between the hot air port and the machine case. The external air enters the drying fan from the air inlet, the heating structure and the air blower are used for generating hot air flow, the hot air flow enters the machine shell through the hot air pipeline, and the hot air is blown to the surface of the freeze-drying membrane cloth uniformly under the blowing action of the circulating fan in the machine shell, so that the residual moisture of the membrane cloth is effectively removed, and the membrane cloth is thoroughly dried.

Description

Drying equipment for freeze-dried membrane cloth

Technical Field

The utility model relates to a dry technical field of membrane cloth especially relates to a freeze-drying is drying equipment for membrane cloth.

Background

The mask is popular because of good moisturizing and nourishing effects, and the cloth-attached mask is packaged and sealed in a form of non-woven fabric and gel or nutrient solution. However, the nutritional liquid is sealed in a packaging bag and is prone to deterioration and failure after being stored for a period of time.

Products such as freeze-dried facial masks have appeared, and the process of freeze-drying facial masks generally uses a refrigerator to cool down a membrane cloth, the membrane cloth coated with a liquid material is conveyed into the refrigerator by a conveying device, and the liquid material on the membrane cloth is rapidly frozen by a low-temperature environment in the refrigerator, so that moisture in the liquid material is sublimated, and nutritional ingredients are effectively preserved. The facial mask is dehydrated, so that the situation of pathogenic microorganism is prevented, the storage time of the facial mask product is prolonged, and the nutritional ingredients in the liquid material are not easy to deteriorate.

However, in the actual freeze-drying production process, the freeze-drying equipment is difficult to completely remove the moisture in the liquid material in a short time, and a small amount of moisture remained in the freeze-dried mask also affects the preservation of the nutritional ingredients, so that the freeze-dried mask cannot be effectively stored for a long time.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model aims to provide a drying equipment for freeze-drying membrane cloth to solve and remain a small amount of moisture in the freeze-drying facial mask and can influence nutrient composition's preservation equally, lead to the problem of the unable effective storage for a long time of freeze-drying facial mask.

The utility model discloses a freeze-drying equipment for membrane cloth's technical scheme does:

the drying equipment for the freeze-dried membrane cloth comprises a machine shell, a conveying mechanism and a circulating fan which are arranged in the machine shell, and a drying fan communicated with the machine shell, wherein the conveying mechanism is provided with a plurality of layers in the machine shell at intervals up and down, and the circulating fan is arranged on the outer side of the conveying mechanism;

the drying fan comprises a drying machine case, a heating structure and an air blower, wherein the heating structure and the air blower are installed in the drying machine case, an air inlet and a hot air port are formed in the drying machine case, the heating structure and the air blower are arranged in an air flow channel between the air inlet and the hot air port, and a hot air pipeline is connected between the hot air port and the machine case.

Furthermore, the tip of transport mechanism installs the deflector roll, and is a plurality of transport mechanism' S last side with the deflector roll constitutes and supplies freeze-drying film cloth to be the dry route that "S" shape was walked around.

Furthermore, the circulating fans are installed on the inner side wall of the machine shell, a plurality of circulating fans are correspondingly arranged on the upper side surface of each conveying mechanism respectively, and the plurality of circulating fans are arranged at intervals along the conveying direction of the conveying mechanism.

Further, still install ultraviolet ray disinfection lamp in the casing, each transport mechanism's upside is installed a plurality of ultraviolet ray disinfection lamps respectively.

Furthermore, one end of the hot air pipeline is connected to the lower part of the side wall of the machine shell, and a circulating pipeline is communicated between the upper part of the machine shell and the drying machine box.

Further, the heating structure is an electric heating tube.

Furthermore, the upper part of the machine shell is also provided with an exhaust pipeline.

Has the advantages that: when the drying equipment for the freeze-dried membrane cloth is used, the membrane cloth after freeze-drying treatment is conveyed to the conveying mechanism, the freeze-dried membrane cloth is continuously conveyed through the conveying mechanism, and the drying treatment of a freeze-dried facial mask is completed in the shell; the external air enters the drying fan from the air inlet, the heating structure of the drying fan and the air blower are utilized to generate hot air flow, the hot air flow enters the machine shell through the hot air port and the hot air pipeline, and the hot air is blown by the circulating fan in the machine shell, so that the hot air is quickly and uniformly blown to the surface of the freeze-dried membrane cloth, the residual moisture on the membrane cloth is effectively removed, and the aim of thoroughly drying the membrane cloth is fulfilled. The method prevents the influence on the preservation of the nutrient components caused by a small amount of water remained in the freeze-dried mask, and ensures that the freeze-dried mask can be effectively stored for a long time.

Drawings

Fig. 1 is a schematic structural front view of a drying apparatus for freeze-dried membrane cloth according to embodiment 1 of the present invention;

fig. 2 is a schematic side view of the drying apparatus for freeze-dried membrane cloth according to embodiment 1 of the present invention.

In the figure: 1-machine shell, 10-circulating fan, 11-ultraviolet disinfection lamp, 12-exhaust pipeline, 2-transmission mechanism, 20-guide roller, 3-drying machine box, 30-electric heating tube, 31-blower, 32-air inlet, 33-hot air pipeline, 34-circulating pipeline and 4-freeze-drying film cloth.

Detailed Description

The following detailed description of the embodiments of the present invention is provided with reference to the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

The embodiment 1 of the drying apparatus for freeze-dried membrane cloth of the present invention, as shown in fig. 1 and fig. 2, comprises a casing 1, a conveying mechanism 2 and a circulating fan 10 installed in the casing 1, and a drying blower communicated with the casing 1, wherein the conveying mechanism 2 is arranged in the casing 1 at intervals in the vertical direction, and the circulating fan 10 is arranged outside the conveying mechanism 2; the drying fan comprises a drying machine case 3, and a heating structure and an air blower 31 which are arranged in the drying machine case 3, wherein an air inlet 32 and a hot air port are arranged on the drying machine case 3, the heating structure and the air blower 31 are arranged in an air flow channel between the air inlet 32 and the hot air port, and a hot air pipeline 33 is connected between the hot air port and the machine case 1.

When the drying equipment for the freeze-dried membrane cloth is used, the membrane cloth after freeze-drying treatment is sent to the conveying mechanism 2, the freeze-dried membrane cloth 4 is continuously conveyed through the conveying mechanism 2, and the drying treatment of the freeze-dried membrane cloth 4 is completed in the machine shell 1; outside air enters the drying fan from the air inlet 32, hot air flow is generated by using a heating structure of the drying fan and the air blower 31, the hot air flow enters the machine shell 1 through the hot air port and the hot air pipeline 33, and the hot air is blown by the circulating fan 10 in the machine shell 1, so that the hot air is quickly and uniformly blown to the surface of the freeze-dried membrane cloth 4, the residual moisture on the membrane cloth is effectively removed, and the aim of thoroughly drying the membrane cloth is fulfilled. The method prevents the influence on the preservation of the nutrient components caused by a small amount of water remained in the freeze-dried mask, and ensures that the freeze-dried mask can be effectively stored for a long time.

In this embodiment, the end of the transfer mechanism 2 is provided with a guide roller 20, and the upper side surfaces of the plurality of transfer mechanisms 2 and the guide roller 20 constitute a drying path around which the freeze-dried film cloth 4 passes in an "S" shape. The guide rollers 20 are arranged at the end parts of the conveying mechanisms 2, so that the freeze-dried film cloth 4 can achieve the synchronous conveying function of the plurality of conveying mechanisms 2, and the freeze-dried film cloth 4 can reliably bypass in the machine shell 1. The S-shaped winding drying path can prolong the passing time of the freeze-drying membrane cloth 4 in the machine shell 1 and improve the drying treatment effect of the freeze-drying membrane cloth 4.

The circulating fans 10 are installed on the inner side wall of the cabinet 1, a plurality of circulating fans 10 are respectively correspondingly arranged on the upper side surface of each conveying mechanism 2, and the circulating fans 10 are arranged at intervals along the conveying direction of the conveying mechanism 2. Wherein, still install ultraviolet ray disinfection lamp 11 in the casing 1, the upside of each transport mechanism 2 is installed a plurality of ultraviolet ray disinfection lamps 11 respectively. The freeze-dried membrane cloth is disinfected by ultraviolet irradiation through the ultraviolet disinfection lamp 11, germs on the membrane cloth are killed quickly and efficiently, and the storage period of the freeze-dried mask is prolonged.

One end of a hot air pipeline 33 of the drying fan is connected to the lower part of the side wall of the machine shell 1, and a circulating pipeline 34 is communicated between the upper part of the machine shell 1 and the drying machine box 3. The heating structure of the drying fan is an electric heating tube 30, and the outside air is rapidly heated and heated through the electric heating tube 30 so as to be used for subsequent drying treatment. The dried air flow is circulated to the drying fan through the circulating pipeline 34, and the waste heat of the usable air flow is subjected to secondary heating and then is used for drying the freeze-dried membrane cloth 4, so that the high-efficiency utilization of heat energy is realized. In addition, the upper part of the casing 1 is also provided with an exhaust pipeline 12, and the redundant air flow can be directly exhausted out of the casing 1 from the exhaust pipeline 12, so that the excessive air pressure and humidity inside the casing 1 are avoided.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and replacements can be made without departing from the technical principle of the present invention, and these modifications and replacements should also be regarded as the protection scope of the present invention.

Claims (7)

1. A drying device for freeze-dried membrane cloth is characterized by comprising a machine shell, a conveying mechanism and a circulating fan which are arranged in the machine shell, and a drying fan communicated with the machine shell, wherein the conveying mechanism is arranged in the machine shell in a plurality of layers at intervals from top to bottom, and the circulating fan is arranged on the outer side of the conveying mechanism;

the drying fan comprises a drying machine case, a heating structure and an air blower, wherein the heating structure and the air blower are installed in the drying machine case, an air inlet and a hot air port are formed in the drying machine case, the heating structure and the air blower are arranged in an air flow channel between the air inlet and the hot air port, and a hot air pipeline is connected between the hot air port and the machine case.

2. The drying apparatus for a lyophilized film according to claim 1, wherein a guide roller is installed at an end of the transfer means, and a plurality of upper sides of the transfer means and the guide roller constitute a drying path for the lyophilized film to go around in an "S" shape.

3. The drying apparatus for a lyophilized film cloth according to claim 1, wherein the circulation fan is installed on an inner sidewall of the cabinet, a plurality of circulation fans are provided on an upper side surface of each of the transfer mechanisms, respectively, and the plurality of circulation fans are arranged at intervals in a transfer direction of the transfer mechanism.

4. The drying apparatus for a lyophilized film cloth according to claim 1, wherein an ultraviolet sterilizing lamp is further installed in the housing, and a plurality of ultraviolet sterilizing lamps are installed at an upper side of each of the transfer mechanisms, respectively.

5. The drying apparatus for freeze-dried membrane cloth according to claim 1, wherein one end of the hot air pipeline is connected to a lower portion of a side wall of the cabinet, and a circulation pipeline is further communicated between an upper portion of the cabinet and the drying cabinet.

6. The drying apparatus for lyophilized film cloth according to claim 1, wherein the heat generating structure is an electric heating tube.

7. The drying apparatus for freeze-dried membrane cloth according to claim 1, wherein an exhaust duct is further provided at an upper portion of the housing.

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