CN220326749U - Carrot drying juice extractor - Google Patents

Abstract

The utility model discloses a carrot drying juice extractor, and relates to the technical field of agricultural product processing. Including transport mechanism, transport mechanism includes the shell, shell inner wall both sides are fixed with the support column respectively, shell bottom inner wall is fixed with the inner shell, and the inner shell top is equipped with the opening, inner shell inner wall one side is fixed with the motor, the motor output is fixed with the movable rod, movable rod one end side rotates and is connected with the lug, the lug top is fixed with the propulsion post. According to the utility model, the pushing column and the rebound supporting column are added in the conveying mechanism, wherein the pushing column can continuously dry fruits and vegetables in the drying mechanism, and then the rebound supporting column is pushed out by the pushing column to control the container mechanism under the action of the pushing column, so that the time for drying fruits and vegetables to be dried is controlled.

Description

Carrot drying juice extractor

Technical Field

The utility model relates to the technical field of agricultural product processing, in particular to a carrot drying and juice extracting machine.

Background

In the process of packaging carrots, there are many times when it is desired to dry the carrots, and therefore a carrot drying and juice extractor is desired.

The tower fruit and vegetable dryer with the patent publication number of CN206481966U is characterized in that the material is uniformly divided into thin layers in the drying bin, hot air flows out of the ventilation pipe uniformly to dry the material, so that the material is heated uniformly, the material gradually enters the lower layer drying bin from the upper layer drying bin, drying is completed in the lowest layer drying bin, and the drying quality and drying rate are improved.

However, in the practical use process of the above-mentioned drier, because the types and sizes of fruits and vegetables are different, when the drier is used for drying in a drying bin, the situations of stacking and blocking of fruits and vegetables are easy to occur, so that the device cannot operate, and because in the process of conveying fruits and vegetables to a discharging hopper, gravity falls down to the building to transport, certain damages to softer fruits and vegetables can exist, and the quality of products is influenced, so that the applicant provides a carrot drying juice extractor.

Disclosure of Invention

The utility model aims to provide a carrot drying juice extractor which aims to solve the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a carrot drying and juice extracting machine, includes transport mechanism, transport mechanism includes the shell, shell inner wall both sides are fixed with the support column respectively, shell bottom inner wall is fixed with the inner shell, and the inner shell top is equipped with the opening, inner shell inner wall one side is fixed with the motor, the motor output is fixed with the movable rod, movable rod one end side rotates and is connected with the lug, the lug top is fixed with the propulsion post, inner shell top opening part is fixed with the slip groove post, propulsion piece bottom and the cell wall sliding connection of slip groove post, propulsion post top both sides are fixed with a plurality of fixed block respectively, every two a set of rotate respectively between the fixed block and be connected with the resilience support post, wherein the resilience support post one end is perpendicular with the propulsion post, and the other end is parallel in the propulsion post.

Preferably, the drying mechanism is fixed on the two sides of the top and the bottom of the transport mechanism, the container mechanism is slidably connected to the top of the transport mechanism, the discharging belt is fixed on one end of the transport mechanism, and the container mechanism, the drying mechanism, the transport mechanism and the discharging belt are sequentially communicated.

Preferably, the conveying mechanism further comprises a feeding pipe, the feeding pipe is located at the top of one end of the shell, the bottom of the feeding pipe is communicated with the inner wall of the shell, the bottom of the feeding pipe is located at a position between the tops of the two supporting columns, stretching cylinders are respectively fixed at two sides of the inner wall of one end of the shell, stabilizing columns are respectively fixed at two output ends of the stretching cylinders, a plurality of receiving plates are respectively fixed at one side of each stabilizing column, and one end of each stabilizing column and one side of each receiving plate are connected with one side of the inner wall of the feeding pipe in a sliding mode after penetrating through the supporting columns together.

Preferably, the container mechanism comprises an outer frame, a plurality of air leakage openings are formed in four sides of the outer frame, an air permeable plate is fixed at the bottom of the outer frame, the bottom of the air permeable plate is slidably connected with the top of the conveying mechanism, a plurality of heat conducting rods are respectively fixed on the inner wall of the outer frame, and the heat conducting rods are stacked to form a mesh shape.

Preferably, the drying mechanism comprises a plurality of heat insulation boxes, one side of each heat insulation box positioned at the top is respectively fixed with two sides of the inner wall of the outer shell of the conveying mechanism, two sides of each heat insulation box positioned at the bottom are respectively fixed with two sides of the outer wall of the inner shell of the conveying mechanism and two bottoms of the supporting columns, a plurality of fans are fixed on the inner wall of the bottom of each heat insulation box, and electric heating plates are fixed on four sides of the opening of each heat insulation box.

Preferably, the fan, the electric heating plate, the motor, the stretching cylinder and the discharging belt are electrically connected in sequence, and the fan, the electric heating plate, the motor, the stretching cylinder and the discharging belt share one control terminal.

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

this dry juice extractor of carrot through the setting to transport mechanism, the inside has increased propulsion post and rebound and has supported the post, and wherein propulsion post can make fruit vegetables constantly carry out drying operation in drying mechanism, later release by propulsion post, and rebound supports the post and can control container mechanism under the effect of propulsion post to this is controlled the fruit vegetables that need dry, dry time.

Simultaneously, still increased tensile cylinder and firm post in the transport mechanism, wherein tensile cylinder can make firm post rise to our required height to this operates container mechanism, and firm post can make container mechanism more firm the drop in transport mechanism, also can prevent in this process that fruit vegetables from entering into transport mechanism's in-process, because the drop of height bumps, leads to the harm of fruit vegetables, has reduced the bad quality problem of product.

Drawings

FIG. 1 is a schematic top view of the present utility model;

FIG. 2 is a schematic view of the bottom structure of the present utility model;

FIG. 3 is a schematic view of the container mechanism of the present utility model;

FIG. 4 is a schematic diagram of a drying mechanism according to the present utility model;

FIG. 5 is a schematic view of a transport mechanism according to the present utility model;

FIG. 6 is an enlarged view of a portion A of FIG. 5;

FIG. 7 is a schematic view of the container mechanism and transport mechanism of the present utility model;

fig. 8 is a partial enlarged view of a portion B in fig. 7.

In the figure: 1. a container mechanism; 101. an outer frame; 102. a ventilation plate; 103. a heat conduction rod; 2. a drying mechanism; 201. a heat insulation box; 202. a blower; 203. an electric heating plate; 3. a transport mechanism; 301. a housing; 302. a feed pipe; 303. a support column; 304. an inner case; 305. a motor; 306. a moving rod; 307. a motion bar; 308. a bump; 309. pushing the column; 310. sliding groove columns; 311. a fixed block; 312. rebound supporting columns; 313. a stretching cylinder; 314. stabilizing the column; 315. a receiving plate; 4. a discharging belt; 5. an air-suction cooler.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

When the carrot is processed and packaged, the carrot needs to be dried in many times, so that the fresh durability of the carrot is guaranteed, and therefore, a carrot drying juice extractor is needed, most of traditional dryers are different in size and style in the actual use process, blockage is easy to occur in the device, the device cannot work, the production rate of a product is influenced, meanwhile, the fruit and vegetable extrusion caused by blockage affects the product quality of fruits and vegetables, and the applicant proposes a carrot drying juice extractor.

As shown in fig. 1 to 6, the present utility model provides a technical solution: the carrot drying juice extractor comprises a conveying mechanism 3, wherein the conveying mechanism 3 comprises an outer shell 301, support columns 303 are respectively fixed on two sides of the inner wall of the outer shell 301, an inner shell 304 is fixed on the inner wall of the bottom of the outer shell 301, an opening is arranged at the top of the inner shell 304, a motor 305 is fixed on one side of the inner wall of the inner shell 304, a movable rod 306 is fixed at the output end of the motor 305, a movable rod 307 is rotatably connected with one end side of the movable rod 306, a lug 308 is rotatably connected with one end side of the movable rod 307, a pushing column 309 is fixed at the top of the lug 308, a sliding groove column 310 is fixed at the opening of the top of the inner shell 304, the bottom of the pushing block is in sliding connection with the wall of the sliding groove column 310, a plurality of fixing blocks 311 are respectively fixed on two sides of the top of the pushing column 309, rebound support columns 312 are respectively rotatably connected between each two groups of fixing blocks 311, one end of the rebound support columns 312 is perpendicular to the pushing column 309, the other end of the rebound support columns are parallel to the pushing column 309, the both sides and the bottom in transport mechanism 3 top are fixed with drying mechanism 2, transport mechanism 3 top sliding connection has container mechanism 1, transport mechanism 3 one end is fixed with discharge area 4, container mechanism 1, drying mechanism 2, transport mechanism 3, discharge area 4 is linked together in turn, transport mechanism 3 still includes inlet pipe 302, inlet pipe 302 is located shell 301 one end top, the inlet pipe 302 bottom is linked together with shell 301 inner wall, the position between two support column 303 tops is located in inlet pipe 302 bottom, shell 301 one end bottom inner wall both sides are fixed with tensile cylinder 313 respectively, two tensile cylinder 313 output are fixed with firm post 314 respectively, two firm post 314 one side is fixed with a plurality of receiver board 315 respectively, after each firm post 314 one end runs through support column 303 jointly with a plurality of receiver board 315 and then with inlet pipe 302 inner wall one side sliding connection, fan 202, electric plate 203, the motor 305, the stretching cylinder 313 and the discharging belt 4 are electrically connected in sequence, and the motor, the stretching cylinder 313 and the discharging belt 4 share one control terminal.

It should be noted that: when fruits and vegetables enter the transport mechanism 3 for drying, firstly the stretching cylinder 313 starts to control the operation at the terminal, the stretching cylinder 313 lifts the stabilizing column 314 upwards, because a plurality of receiving plates 315 are fixed on the stabilizing column 314, the stretching cylinder 313 lifts until the two receiving plates 315 positioned at the lowest position are lifted to the feed inlet of the feed pipe 302, at this time, fruits and vegetables are put into the container mechanism 1, the container mechanism 1 is put on the two receiving plates 315 of one group, at this time, the stretching cylinder 313 slowly descends until the receiving plate 315 of the last second group is lowered to the feed inlet of the feed pipe 302, and the stretching cylinder 313 circularly reciprocates, when the container mechanism 1 descends to the two supporting columns 303, because the opposite vertical surfaces of the supporting columns 303 are provided with sliding columns, the two sliding columns just can descend of the container mechanism 1 at the bottom, at this time, the motor 305 can be started under the control of the terminal, because the output end of the motor 305 is fixed with the moving rod 306, one end of the moving rod 306 is rotatably connected with the moving rod 307, one end of the moving rod 307 is rotatably connected with the protruding block 308, the protruding block 308 is fixed on the pushing post 309, the pushing post 309 and the sliding groove post 310 are in sliding connection, the rebound support post 312 is rotated between the fixed blocks 311, one end of the rebound support post 312 is erected, the other end is fallen down, when the pushing post 309 moves forwards under the action of the motor 305, the erected end of the rebound support post 312 pushes the box to move forwards, when the box moves to a certain distance, the stretching cylinder 313 descends continuously, the second container mechanism 1 falls on the sliding posts arranged on the two supporting posts 303, and under the condition that the motor 305 continues to rotate, the pushing post 309 moves backwards, because there is the existence of second case, can keep off the one end that the resilience support post 312 was erect, and the one end that the resilience support post 312 was fallen originally at this moment can be erected, because the resilience support post 312 both ends are provided with the effect of resilience spring, can make the one end that the resilience support post 312 was fallen originally continue to erect, advance the operation to next container mechanism 1, again because container mechanism 1 both sides and bottom all are fixed with drying mechanism 2, at this moment fruit vegetables can constantly carry out drying process, and the rethread ejection of compact area 4 carries out the ejection of compact.

As shown in fig. 3, the present utility model provides a technical solution: the utility model provides a carrot drying and juice extracting machine, includes that container mechanism 1 includes frame 101, and frame 101 four sides all are equipped with a plurality of air leak mouth, and frame 101 bottom is fixed with ventilative board 102, ventilative board 102 bottom and transport mechanism 3 top sliding connection, and frame 101 inner wall is fixed with a plurality of heat conduction rod 103 respectively, stacks each heat conduction rod 103 each other and forms hourglass net shape.

It should be noted that: when we put into container mechanism 1 with the fruit vegetables, because the frame 101 four sides of container mechanism 1 all is equipped with the air leakage mouth, and frame 101 bottom is fixed with ventilative board 102 moreover, consequently very convenient messenger fruit vegetables can go into the omnidirectional drying work, because a lot of heat conduction poles 103 have been piled up in the container mechanism 1 again, these heat conduction poles 103 can prevent that fruit vegetables from appearing piling up, and can't carry out drying treatment to the place that fruit vegetables closely touched, can make hot-blast when putting into in the time of can guaranteeing that the heated area of fruit vegetables increases again, can fully carry out drying treatment to fruit vegetables.

As shown in fig. 4, the present utility model provides a technical solution: the utility model provides a carrot drying and juice extracting machine, includes that drying mechanism 2 includes a plurality of thermal-insulated box 201, and a plurality of thermal-insulated box 201 one side that is located the top is fixed mutually with transport mechanism 3 shell 301 inner wall both sides respectively, and a plurality of thermal-insulated box 201 both sides that are located the bottom are fixed mutually with transport mechanism 3 inner shell 304 outer wall both sides and two support column 303 bottoms respectively, and a plurality of thermal-insulated box 201 bottom inner wall is fixed with fan 202, and thermal-insulated box 201 opening part four sides are fixed with electric plate 203.

It should be noted that: in the process of drying fruits and vegetables, because the position of the fan 202 is located at two sides and the bottom of the container mechanism 1, the fruits and vegetables can be dried in an all-round manner, meanwhile, because the electric heating plate 203 is heated, the fan 202 is possibly influenced, therefore, the heat insulation box 201 is fixed outside the fan 202, heat insulation treatment is carried out, the situation that the fan 202 cannot operate due to overhigh temperature is reduced, and meanwhile, when the fruits and vegetables are dried, the evaporation of moisture in the fruits and vegetables is caused by overhigh temperature, at the moment, the evaporated moisture in the fruits and vegetables is sucked by the air pump in the air cooler 5 by the air cooler 5, then the refrigerating operation is carried out by the refrigerator in the air cooler 5, finally the gasified moisture is liquefied, and then the gasified moisture flows out of the water outlet pipe.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made hereto without departing from the spirit and scope of the utility model as defined by the appended embodiments and equivalents thereof.

Claims (6)

1. The utility model provides a carrot is dry to carry juice machine, includes transport mechanism (3), its characterized in that: transport mechanism (3) are including shell (301), shell (301) inner wall both sides are fixed with support column (303) respectively, shell (301) bottom inner wall is fixed with inner shell (304), and inner shell (304) top is equipped with the opening, inner shell (304) inner wall one side is fixed with motor (305), motor (305) output is fixed with movable rod (306), movable rod (306) one end side rotates and is connected with movable rod (307), movable rod (307) one end side rotates and is connected with lug (308), lug (308) top is fixed with propulsion post (309), inner shell (304) top opening part is fixed with sliding groove post (310), propulsion block bottom and sliding groove post (310)'s cell wall sliding connection, propulsion post (309) top both sides are fixed with a plurality of fixed block (311) respectively, every two are in a set of respectively between the fixed block (311) rotate and are connected with rebound support post (312), wherein rebound support post (312) one end and propulsion post (309) are perpendicular, and the other end is parallel.

2. The carrot drying juice extractor of claim 1, wherein: the drying device is characterized in that drying mechanisms (2) are fixed on two sides of the top of the conveying mechanism (3) and the bottom of the conveying mechanism, air-sucking coolers (5) are fixed on the top of the drying mechanism, a container mechanism (1) is slidably connected to the top of the conveying mechanism (3), a discharging belt (4) is fixed at one end of the conveying mechanism (3), and the container mechanism (1), the drying mechanisms (2), the air-sucking coolers (5), the conveying mechanism (3) and the discharging belt (4) are sequentially communicated.

3. The carrot drying juice extractor of claim 1, wherein: the conveying mechanism (3) further comprises a feeding pipe (302), the feeding pipe (302) is located at the top of one end of the shell (301), the bottom of the feeding pipe (302) is communicated with the inner wall of the shell (301), the bottom of the feeding pipe (302) is located at a position between the tops of the two supporting columns (303), stretching cylinders (313) are respectively fixed to two sides of the inner wall of one end of the shell (301), stabilizing columns (314) are respectively fixed to the output ends of the stretching cylinders (313), a plurality of receiving plates (315) are respectively fixed to one side of each stabilizing column (314), and one end of each stabilizing column (314) and one side of each receiving plate (315) penetrate through the supporting columns (303) together and then are connected with one side of the inner wall of the feeding pipe (302) in a sliding mode.

4. The carrot drying juice extractor of claim 2, wherein: the container mechanism (1) comprises an outer frame (101), a plurality of air leakage openings are formed in four sides of the outer frame (101), an air permeable plate (102) is fixed at the bottom of the outer frame (101), the bottom of the air permeable plate (102) is slidably connected with the top of the conveying mechanism (3), a plurality of heat conducting rods (103) are respectively fixed on the inner wall of the outer frame (101), and each heat conducting rod (103) are mutually stacked to form a mesh shape.

5. The carrot drying juice extractor of claim 2, wherein: the drying mechanism (2) comprises a plurality of heat insulation boxes (201), one side of each heat insulation box (201) positioned at the top is respectively fixed with two sides of the inner wall of the outer shell (301) of the conveying mechanism (3), two sides of each heat insulation box (201) positioned at the bottom are respectively fixed with two sides of the outer wall of the inner shell (304) of the conveying mechanism (3) and the bottoms of the two supporting columns (303), a plurality of fans (202) are fixed on the inner wall of the bottom of each heat insulation box (201), and electric heating plates (203) are fixed on four sides of the opening of each heat insulation box (201).

6. The carrot drying juice extractor of claim 5, wherein: the fan (202), the electric heating plate (203), the motor (305), the air suction cooler (5), the stretching cylinder (313) and the discharging belt (4) are electrically connected in sequence, and the fan, the electric heating plate, the motor, the air suction cooler and the discharging belt share one control terminal.