CN210952120U - A electric heat constant temperature drying cabinet for food additive processing - Google Patents

Abstract

The utility model discloses an electric heat constant temperature drying cabinet for food additive processing relates to drying equipment technical field. The technical key points are as follows: including base, box and chamber door, be provided with the drying chamber in the box, be provided with feedstock channel and discharging channel on the chamber door, feedstock channel is located the articulated feed gate that is provided with in one side outside the box, discharging channel is located the articulated discharge gate that is provided with in one side of box, all be provided with the torsional spring in the axis of rotation of feed gate and discharge gate, the one side that is close to the chamber door in the box is provided with the operation mouth, be provided with in the operation mouth and stretch into thermal-insulated gloves in the box, thermal-insulated gloves and operation mouth sealing connection, be provided with the observation window that is used for observing the box inside on the chamber door, the utility model has the advantages of energy saving, improvement work efficiency.

Description

A electric heat constant temperature drying cabinet for food additive processing

Technical Field

The utility model relates to a drying equipment technical field, more specifically say, it relates to an electric heat constant temperature drying cabinet for food additive processing.

Background

The food additive is an artificial or natural substance added into food for improving the quality of the food such as color, aroma, taste and the like, and for the requirements of preservation and processing technology. In the process of manufacturing and producing the food additive, raw materials of the food additive need to be dried, so that drying equipment is needed to process the raw materials.

The utility model discloses a chinese utility model patent that is the publication number CN206670323U discloses an intelligent electric heat constant temperature drying cabinet, the on-line screen storage device comprises a base, the top fixed mounting of base has the box, there is the chamber door positive surface of box through hinge swing joint, the positive fixed surface of chamber door installs the sleeve pipe, the positive surface of box just is located sheathed tube top fixed mounting and has the casing, sheathed tube inside cover is equipped with the loop bar, the loop bar is kept away from sheathed tube one end and is run through the top of casing and extend to the outside of casing, the right side interlude of casing is provided with the inserted bar, the inserted bar is close to one side of casing and runs through the right side of casing and extends to the inside of casing.

Similar to the above intelligent electrothermal constant-temperature drying oven in the prior art, after the materials in the container are dried, a large amount of hot air in the oven body can be dissipated in the process of opening the oven door, and then the materials are dried and need to be heated again, so that energy waste and working time lengthening are caused, and a space needs to be improved.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an electric heat constant temperature drying cabinet for food additive processing, its advantage that has the energy saving, improves work efficiency.

In order to achieve the above purpose, the utility model provides a following technical scheme:

the utility model provides an electric heat constant temperature drying cabinet for food additive processing, includes base, box and chamber door, be provided with the drying chamber in the box, be provided with feedstock channel and discharging channel on the chamber door, feedstock channel is located the articulated feed gate that is provided with in one side outside the box, discharging channel is located the articulated discharge gate that is provided with in one side of the box, all be provided with the torsional spring in the axis of rotation of feed gate and discharge gate, the one side that is close to the chamber door in the box is provided with the operation mouth, be provided with in the operation mouth and stretch into thermal-insulated gloves in the box, thermal-insulated gloves and operation mouth sealing connection, be provided with the observation window that is used for observing the box inside on.

By adopting the technical scheme, after the raw materials are dried, one hand penetrates into the heat-insulating glove, the drying chamber is observed through the observation window, the heat-insulating glove is operated to take up the container filled with the raw materials, then the discharge door is pushed to rotate, when the raw materials are positioned on one side of the discharge door facing the outside of the box body, the container is taken out from the discharge channel through the other hand, the discharge door is rotated and reset under the action of the torsion spring, and the loss of a large amount of hot air is reduced in class; when the box keeps certain temperature range value and needs to carry out raw and other materials stoving, support the feed gate and make it rotate by the hand earlier, put into charge-in passageway with the container after that, stretch into thermal-insulated gloves with another hand again, observe the drying chamber through the observation window simultaneously, the container that operation thermal-insulated gloves will put on charge-in passageway is taken to the drying chamber in, reducible steam runs off in a large number.

In conclusion, for taking out raw and other materials through opening the chamber door and leading to steam to give off, above-mentioned under the prerequisite that the temperature keeps certain range value in the box, take and realize the change of raw and other materials through feedstock channel and discharging channel through thermal-insulated gloves, both the energy saving improves work efficiency again.

Furthermore, the feed channel with discharge channel's diapire all is provided with the conveyer belt that is used for driving the container removal.

Through adopting above-mentioned technical scheme, when raw and other materials change the stoving, fill on the container of raw and other materials puts the conveyer belt, accessible conveyer belt with raw and other materials send into the drying chamber or send out the box outside, the feed door or the discharge door is opened for a long time and is leaded to steam to distribute away when avoiding passing through manual operation.

Furthermore, the feeding channel and the discharging channel are internally provided with limit switches corresponding to the two ends of the conveyor belt, and the limit switches are electrically connected with the control system of the conveyor belt.

By adopting the technical scheme, when the container filled with the raw materials is abutted to one limit switch at two ends of the conveyor belt, the conveyor belt can rotate; when the container butts to another limit switch, the conveyer belt stops rotating, and energy waste caused by long-time rotation of the conveyer belt is avoided.

Furthermore, the side wall of the box body is rotatably provided with a heat preservation door for closing the operation opening, a blocking strip is arranged below the operation opening of the box body, and after the heat preservation door closes the operation opening, the blocking strip abuts against the heat preservation door.

Through adopting above-mentioned technical scheme, when carrying out raw and other materials stoving, can take the box with thermal-insulated gloves outside to rotate the heat preservation door and make it support tightly with the blend stop, under the effect of heat preservation door, effectively prevent steam and give off, and be favorable to thermal-insulated gloves's service life.

Furthermore, one side of the heat preservation door, which faces the heat insulation gloves, is provided with a heat preservation ring, and the radius of the heat preservation ring is larger than that of the operation opening.

By adopting the technical scheme, the heat insulation ring can play a role in sealing and heat insulation, hot air in the box body is prevented from being emitted, and the function of saving energy is achieved.

Furthermore, the side wall that the feed door is close to mutually with the feedstock channel inner wall and all be provided with the sealing strip that is used for sealed feedstock channel and discharging channel on the lateral wall that the discharge door is close to mutually with the discharging channel inner wall.

Through adopting above-mentioned technical scheme, the setting of sealing strip can make steam can not distribute away through feedstock channel and discharging channel's gap, plays the effect of energy saving.

Furthermore, one side of the feeding channel, which is located at the drying chamber, is provided with a plurality of first heat-insulating strips for sealing the opening of the feeding channel, and one side of the discharging channel, which is located at the outer side wall of the box body, is provided with a plurality of second heat-insulating strips for sealing the opening of the discharging channel.

Through adopting above-mentioned technical scheme, when raw and other materials change stoving, the in-process of opening feed door or discharge door can not avoid having a small amount of steam and loosing outward, can further shelter from feedstock channel and discharging channel through first heat preservation strip and second heat preservation strip, effectively avoids steam to loose outward, plays energy saving's effect.

Furthermore, a ventilation channel communicated with the feeding channel is arranged on the box door, the ventilation channel is positioned above the feeding channel, and a fan is arranged at an opening of one side of the ventilation channel, which is positioned in the drying chamber.

Through adopting above-mentioned technical scheme, when opening the feed door, the fan is toward ventilation channel convulsions, and steam gets into feedstock channel through ventilation channel for steam in the drying chamber can not gush in a large number to feedstock channel, avoids steam to give off outside the box from feedstock channel in a large number.

Compared with the prior art, the beneficial effects of the utility model are that:

(1) by arranging the heat-insulating gloves, the feeding door and the discharging door, on the premise that the temperature in the box body is kept within a certain range, the heat-insulating gloves are taken, and the raw materials are replaced through the feeding channel and the discharging channel, so that energy is saved, and the working efficiency is improved;

(2) by arranging the two limit switches, the rotation and the stop of the conveyor belt can be realized, and the energy waste caused by the long-time rotation of the conveyor belt is avoided;

(3) through setting up the heat preservation strip, can further shelter from feedstock channel and discharging channel, effectively avoid steam to scatter outward, play the effect of energy saving.

Drawings

FIG. 1 is a schematic view of the overall structure of the present embodiment;

FIG. 2 is an enlarged view of A in FIG. 1;

FIG. 3 is a schematic cross-sectional view taken along line A-A of FIG. 1;

FIG. 4 is a schematic cross-sectional view taken along line B-B of FIG. 1;

fig. 5 is an enlarged schematic view of B in fig. 3.

Reference numerals: 1. a base; 2. a box body; 3. a box door; 4. a drying chamber; 5. an observation window; 6. a feed channel; 7. a discharge channel; 8. a feed gate; 9. a torsion spring; 10. a discharge door; 11. an operation port; 12. heat-insulating gloves; 13. a heat preservation door; 14. a handle; 15. blocking strips; 16. a heat preservation ring; 17. a conveyor belt; 18. a limit switch; 19. a sealing strip; 20. a first heat-preserving strip; 21. a second heat-insulating strip; 22. a ventilation channel; 23. a fan; 24. and (4) a bump.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings and examples.

An electrothermal constant-temperature drying oven for processing food additives is shown in figure 1 and comprises a base 1, an oven body 2 and an oven door 3, wherein a drying chamber 4 is arranged in the oven body 2.

Combine 2, 3 is shown, chamber door 3 is located the 2 outside extensions of box and has had lug 24, feed channel 6 and discharging channel 7 have been seted up to the last lug 24 that just passes of chamber door 3, feed channel 6 is located the articulated feeding door 8 of installing in one side outside the box 2, discharging channel 7 is located the articulated discharge door 10 of installing in one side of box 2, all install torsional spring 9 in the axis of rotation of feeding door 8 and discharge door 10, operation mouth 11 has been seted up to one side that is close to chamber door 3 in the box 2, install the thermal-insulated gloves 12 that stretch into in the box 2 in the operation mouth 11, thermal-insulated gloves 12 and 11 sealing connection of operation mouth, install observation window 5 on the chamber door 3.

As shown in fig. 3 and 4, a thermal insulation door 13 for sealing the operation opening 11 is installed in the box body 2, a handle 14 extending out of the box body 2 is arranged on a rotating shaft of the thermal insulation door 13, and a barrier strip 15 is installed in the box body 2 below the operation opening 11. Therefore, when the raw materials are dried, the heat insulation gloves 12 can be taken out of the box body 2, the heat insulation door 13 is rotated to be tightly abutted against the blocking strip 15, hot air is effectively prevented from being emitted under the action of the heat insulation door 13, and the service life of the heat insulation gloves 12 is prolonged.

Furthermore, one side of the heat-insulating door 13 facing the heat-insulating gloves 12 is provided with a heat-insulating ring 16 with the radius larger than that of the operation opening 11, and the heat-insulating ring 16 can play a role in sealing and heat insulation, thereby avoiding the emission of hot air in the box body 2 and saving energy.

As shown in FIG. 5, the bottom walls of the feed channel 6 and the discharge channel 7 are provided with conveyor belts 17. Therefore, when raw and other materials change the stoving, raw and other materials are on putting conveyer belt 17, and accessible conveyer belt 17 sends raw and other materials into drying chamber 4 or send out the box 2 outside, avoids opening for a long time through feeding door 8 or discharge door 10 when manual operation and leads to steam to distribute out.

Furthermore, the two ends of the corresponding conveyor belt 17 in the feeding channel 6 and the discharging channel 7 are provided with limit switches 18, and the limit switches 18 are electrically connected with the control system of the conveyor belt 17. When the raw material is replaced and dried, when the raw material is abutted to one limit switch 18 at two ends of the conveyor belt 17, the conveyor belt 17 can rotate; when the belt abuts against the other limit switch 18, the rotation of the belt 17 is stopped, and the energy waste caused by the long-time rotation of the belt 17 is avoided.

As shown in fig. 5, the side wall of the inlet door 8 close to the inner wall of the inlet channel 6 and the side wall of the outlet door 10 close to the inner wall of the outlet channel 7 are provided with sealing strips 19 for sealing the inlet channel 6 and the outlet channel 7. The sealing strips 19 can prevent hot gas from being emitted through gaps between the feeding channel 6 and the discharging channel 7, and the energy-saving effect is achieved.

As shown in FIG. 5, a plurality of first heat-insulating strips 20 are installed at one side of the feeding channel 6 located at the drying chamber 4, and a plurality of second heat-insulating strips 21 are installed at one side of the discharging channel 7 located at the outer side wall of the box body 2. Consequently, when raw and other materials change is dried, the in-process of opening feed door 8 or discharge door 10 can inevitably have a small amount of steam to scatter outward, can further shelter from feedstock channel 6 and discharge passage 7 through first heat preservation strip 20 and second heat preservation strip 21, effectively avoids steam to scatter outward, plays the effect of energy saving.

As shown in fig. 5, the door 3 is provided with a ventilation channel 22 communicated with the feeding channel 6, the ventilation channel 22 is located above the feeding channel 6, and an opening of the ventilation channel 22 located at one side of the drying chamber 4 is provided with a fan 23. Therefore, when the feeding door 8 is opened, the fan 23 draws air towards the ventilation channel 22, and hot air enters the feeding channel 6 through the ventilation channel 22, so that the hot air in the drying chamber 4 cannot greatly rush towards the feeding channel 6, and the hot air is prevented from being diffused out of the box body 2 from the feeding channel 6 in a large amount.

The utility model discloses a working process and beneficial effect as follows: after the raw materials are dried, one hand penetrates into the heat-insulating gloves 12, the drying chamber 4 is observed through the observation window 5, the heat-insulating gloves 12 are operated to pick up the container filled with the raw materials, then the discharge door 10 is pushed to rotate, when the raw materials are positioned on one side of the discharge door 10 facing the outside of the box body 2, the container is taken out from the discharge passage 7 through the other hand, the discharge door 10 is rotated and reset under the action of the torsion spring 9, and the loss of a large amount of hot air is reduced in class; when the box body 2 keeps a certain temperature range value and raw materials need to be dried, the feeding door 8 is propped against the feeding door by a hand and is rotated, then the container is placed in the feeding channel 6, the other hand extends into the heat-insulating gloves 12, the drying chamber 4 is observed through the observation window 5, the container placed on the feeding channel 6 is taken into the drying chamber 4 by operating the heat-insulating gloves 12, and the loss of a large amount of hot air can be reduced.

In conclusion, compared with the situation that the raw materials are taken out by opening the box door 3 to cause the emission of hot air, the raw materials are taken out through the heat-insulating gloves 12 and replaced through the feeding channel 6 and the discharging channel 7 on the premise that the temperature in the box body 2 is kept within a certain range, so that the energy is saved, and the working efficiency is improved.

It is above only the utility model discloses a preferred embodiment, the utility model discloses a scope of protection does not only confine above-mentioned embodiment, the all belongs to the utility model discloses a technical scheme under the thinking all belongs to the utility model discloses a scope of protection. It should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (8)

1. The utility model provides an electric heat constant temperature drying cabinet for food additive processing, includes base (1), box (2) and chamber door (3), be provided with drying chamber (4), its characterized in that in box (2): be provided with feedstock channel (6) and discharging channel (7) on chamber door (3), feedstock channel (6) are located that box (2) outer one side is articulated to be provided with feed door (8), discharging channel (7) are located that box (2) one side is articulated to be provided with discharge door (10), all be provided with torsional spring (9) in the axis of rotation of feed door (8) and discharge door (10), the one side that is close to chamber door (3) in box (2) is provided with operation mouth (11), be provided with in operation mouth (11) and stretch into thermal-insulated gloves (12) in box (2), thermal-insulated gloves (12) and operation mouth (11) sealing connection, be provided with observation window (5) that are used for observing box (2) inside on chamber door (3).

2. An electrothermal thermostatic drying oven for food additive processing according to claim 1, characterized in that: the bottom walls of the feeding channel (6) and the discharging channel (7) are provided with conveyor belts (17) used for driving the containers to move.

3. An electrothermal thermostatic drying oven for food additive processing according to claim 2, characterized in that: the feeding channel (6) and the discharging channel (7) are internally provided with limit switches (18) corresponding to two ends of the conveyor belt (17), and the limit switches (18) are electrically connected with a control system of the conveyor belt (17).

4. An electrothermal thermostatic drying oven for food additive processing according to claim 1, characterized in that: the side wall of the box body (2) is rotatably provided with a heat preservation door (13) used for closing the operation opening (11), the box body (2) is located below the operation opening (11) and is provided with a barrier strip (15), and after the heat preservation door (13) closes the operation opening (11), the barrier strip (15) abuts against the heat preservation door (13).

5. An electrothermal thermostatic drying oven for food additive processing according to claim 4, characterized in that: one side of the heat preservation door (13) facing the heat insulation gloves (12) is provided with a heat preservation ring (16), and the radius of the heat preservation ring (16) is larger than that of the operation opening (11).

6. An electrothermal thermostatic drying oven for food additive processing according to claim 1, characterized in that: the side wall that feed door (8) and feedstock channel (6) inner wall are close to mutually and all be provided with on the lateral wall that discharge door (10) and feedstock channel (7) inner wall are close to mutually and be used for sealing up sealing strip (19) of feedstock channel (6) and feedstock channel (7).

7. An electrothermal thermostatic drying oven for food additive processing according to claim 1, characterized in that: one side that feedstock channel (6) are located drying chamber (4) is provided with a plurality of first heat preservation strips (20) that are used for sealed feedstock channel (6) open-ended, one side that feedstock channel (7) are located box (2) lateral wall is provided with a plurality of second heat preservation strips (21) that are used for sealed feedstock channel (7) open-ended.

8. An electrothermal thermostatic drying oven for food additive processing according to claim 1, characterized in that: the oven door (3) is provided with a ventilation channel (22) communicated with the feeding channel (6), the ventilation channel (22) is positioned above the feeding channel (6), and a fan (23) is arranged at an opening at one side of the ventilation channel (22) positioned in the drying chamber (4).

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