CN213821110U - Vegetable washing machine integrating cleaning and dewatering - Google Patents

Abstract

The utility model discloses a vegetable washer integrating cleaning and dehydration, which comprises a shell and a cleaning barrel; an ozone generator is arranged in the middle of the inner wall of the shell; the bottom end of the shell is provided with a dewatering cylinder; the cleaning cylinder is fixed in the dewatering cylinder; the cleaning barrel comprises a rotating shaft, a rotating disc and a blocking rod; the rotating discs are fixed at the bottom end and the top end of the shell through rotating shafts; a plurality of blocking rods are uniformly distributed on the circumference between the rotating disks; the rotating disc is connected with the rotating shaft through an embedding device; the dewatering cylinder comprises an inner dewatering cylinder and an outer dewatering cylinder, and the outer dewatering cylinder is fixed on the bottom surface of the shell through an outer dewatering rotating shaft; the inner dewatering cylinder is fixed on the outer dewatering rotating shaft through the inner dewatering rotating shaft; a coupling is arranged between the inner dewatering rotating shaft and the outer dewatering rotating shaft; the utility model has the advantages that: through wash bowl, embedding device and dewatering cylinder, be equipped with the shaft coupling between interior dehydration pivot and the outer dehydration pivot, realize high-efficient work and wash completely.

Description

Vegetable washing machine integrating cleaning and dewatering

Technical Field

The utility model relates to a vegetables cleaning equipment field specifically is a collect and wash and dewater machine of washing vegetables as an organic whole.

Background

The vegetable washing machine is a special machine for washing fruits and vegetables, and comprises two major types, namely a commercial vegetable washing machine and a household vegetable washing machine. The working principle of the commercial vegetable washer mainly comprises ozone and ultrasonic principles; the household vegetable washer has three main working principles, ozone, ultrasonic wave and micro-electrolyzed water are also called as plasma technology.

Most of present vegetable washing machines need earlier through artifical preliminary clearance back, enter into the machine again, need the manual work to carry out earlier stage treatment as usual, consume the manpower, simultaneously owing to adopt ozone, technology such as supersound and micro-electrolysis water, though can better throughput, but need a large amount of energy consumptions, simultaneously because vegetables after the washing need dewater and preserve, prevent that vegetables from absorbing water respiration oxidation and qualitative change, but present dehydration operation adopts artifical clearance mostly, the whole flow is longer, and the effect of clearance is also not intact, even adopt mechanical equipment to wash and dewater, need divide into two equipment and operate, need open the cleaning machine reload and get into the hydroextractor, consequently how will wash and the dehydration becomes an organic whole, it is one of the problem that present vegetables wash and the integration of dewatering were waited to solve urgently.

The invention relates to a vegetable washing and dewatering combined machine (application number: CN 201720891953.0) suitable for vegetable production, which comprises a vegetable washing box and a vegetable dewatering mechanism, wherein the bottom of the vegetable washing box is provided with supporting legs, the upper part of the vegetable washing box is a cleaning space, the middle part of the vegetable washing box is a filtering space, the lower part of the vegetable washing box is a clear water collecting space, the left side of the vegetable washing box is provided with an inlet, the right side of the vegetable washing box is provided with an outlet which corresponds to the inlet in the left-right direction, the inlet of the vegetable washing box is fixedly provided with a first bracket, the first bracket protrudes out of the wall of the left side of the vegetable washing box, the first bracket is rotatably connected with a main roller in the front-back horizontal direction, the first bracket is also fixedly provided with a speed reducing motor, and the main shaft of the speed reducing motor is in transmission connection with the central shaft of the main roller through a coupler; although the vegetables are cleaned in a spraying mode, the cleaned vegetables are dewatered by utilizing the centrifugal principle; but the vegetables can not be cleaned in all directions by the spraying cleaning method, and the method of mixing two devices is adopted, so that the occupied area is large, and the working efficiency is low.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome prior art not enough, provide a high-efficient work and complete abluent collection wash with dehydration machine of washing vegetables as an organic whole.

The purpose of the utility model is realized through the following technical scheme:

a vegetable washer integrating cleaning and dewatering comprises a shell and a cleaning barrel fixed on the shell; an ozone generator is arranged in the middle of the inner wall of the shell; the bottom end of the shell is provided with a dewatering cylinder; the cleaning cylinder is fixed in the dewatering cylinder;

the cleaning barrel comprises a rotating shaft, a rotating disc and a blocking rod; the rotating discs are fixed at the bottom end and the top end of the shell through rotating shafts and are symmetrically distributed relative to the horizontal plane where the center line of the shell is located; a plurality of blocking rods are uniformly distributed between the rotating disks in a circumferential manner and embedded in the rotating disks; the rotating disc is connected with the rotating shaft through an embedding device;

the dewatering cylinder comprises an inner dewatering cylinder and an outer dewatering cylinder, and the outer dewatering cylinder is fixed on the bottom surface of the shell through an outer dewatering rotating shaft; the corresponding inner dewatering cylinder is fixed on the outer dewatering rotating shaft through an inner dewatering rotating shaft; a coupling is arranged between the inner dehydration rotating shaft and the outer dehydration rotating shaft; the rotating shaft penetrates through the inner dewatering rotating shaft and the outer dewatering rotating shaft and is connected with the inner dewatering rotating shaft and the outer dewatering rotating shaft through bearings;

the top end of the shell is provided with a cover, and the center of the cover is rotatably connected with the rotating shaft.

Preferably, in order to further achieve the purpose of complete cleaning, the embedding device comprises an embedding block and an embedding groove; the embedded block is fixed at the tail end of the rotating shaft; the embedded groove is fixed at the axis of the circular surface of the rotating disc; the embedded block comprises an embedded transverse block and an embedded vertical block; the corresponding embedded groove comprises an embedded wide groove and an embedded narrow groove; the embedded transverse block is fixed at the tail end of the rotating shaft, and the embedded vertical block is fixed at the tail end of the embedded transverse block; the thickness of the embedding transverse block is consistent with the width of the embedding narrow groove, and the thickness of the corresponding embedding vertical block is consistent with the width of the embedding wide groove; the embedded wide grooves and the embedded narrow grooves are arranged at intervals; through adopting the embedded piece including embedding crosspiece and the vertical piece of embedding, and including the embedded groove of embedding wide groove and embedding narrow groove, constitute the embedding device, thereby utilize the cooperation between embedding crosspiece and the embedding narrow groove, and the embedding is found the cooperation between piece and the embedding narrow groove, realize the replacement between axis of rotation and the rotating disc 22, and fixed between axis of rotation and the rotating disc, thereby realize the fixed of rotating disc and axis of rotation, thereby make the stable rotation of arresting bar, realize that the vegetables in the arresting bar are at the aquatic intensive washing that contains ozone, thereby realize the abluent mesh completely.

Preferably, in order to further realize the purpose of high-efficiency work, the inner dewatering cylinder and the outer dewatering cylinder are both provided with water permeable holes; the water permeable holes are arranged in a way that the aperture is gradually reduced from inside to outside; through adopting the hole of permeating water that the aperture reduces the setting gradually to utilize the shaft coupling between interior dewatering cylinder and the outer dewatering cylinder, the reverse rotation of dewatering cylinder and outer dewatering cylinder in the realization, and then make the vegetables in the wash bowl after ozone cleaning advance two reverse dewatering cylinder work, realize complete dehydration, thereby realize the purpose of high-efficient work.

Preferably, in order to further achieve the purpose of complete cleaning, a filter screen cylinder is further arranged in the cleaning cylinder; the filter screen cylinder is arranged in a channel formed by the barrier rods and is abutted against the barrier rods; two ends of the filter screen cylinder are fixed on the rotating disc; the filtering net cylinder is arranged in the cleaning channel formed by the blocking rods, impurities and broken small leaves are cleaned by the filtering net cylinder, so that the surface of the vegetables is cleaned more thoroughly, and finally, the moisture of the vegetables in the filtering net cylinder is removed through the dewatering cylinder, so that the aim of completely cleaning is fulfilled.

The utility model has the advantages that:

1. through including the axis of rotation, the wash bowl of rotation disc and obstruction pole, the rotation disc passes through the embedding device and connects the axis of rotation simultaneously, and the dewatering cylinder including interior dewatering cylinder and outer dewatering cylinder, be equipped with the shaft coupling between interior dewatering shaft and the outer dewatering shaft simultaneously, thereby utilize the axis of rotation to drive the rotation disc and rotate and recycle the embedding device, make the obstruction pole fix on rotating the disc, make the vegetables in the washing passageway that the obstruction pole encloses fully wash, recycle the shaft coupling on the dewatering cylinder, realize the counter rotation between interior dewatering cylinder and the outer dewatering cylinder, make the vegetables moisture in the wash bowl by complete desorption, realize high-efficient work and rinse completely.

2. Through adopting the embedded piece including embedding crosspiece and the vertical piece of embedding, and including the embedded groove of embedding wide groove and embedding narrow groove, constitute the embedding device, thereby utilize the cooperation between embedding crosspiece and the embedding narrow groove, and the embedding is found the cooperation between piece and the embedding narrow groove, realize the replacement between axis of rotation and the rotating disc 22, and fixed between axis of rotation and the rotating disc, thereby realize the fixed of rotating disc and axis of rotation, thereby make the stable rotation of arresting bar, realize that the vegetables in the arresting bar are at the aquatic intensive washing that contains ozone, thereby realize the abluent mesh completely.

3. Through adopting the hole of permeating water that the aperture reduces the setting gradually to utilize the shaft coupling between interior dewatering cylinder and the outer dewatering cylinder, the reverse rotation of dewatering cylinder and outer dewatering cylinder in the realization, and then make the vegetables in the wash bowl after ozone cleaning advance two reverse dewatering cylinder work, realize complete dehydration, thereby realize the purpose of high-efficient work.

4. The filtering net cylinder is arranged in the cleaning channel formed by the blocking rods, impurities and broken small leaves are cleaned by the filtering net cylinder, so that the surface of the vegetables is cleaned more thoroughly, and finally, the moisture of the vegetables in the filtering net cylinder is removed through the dewatering cylinder, so that the aim of completely cleaning is fulfilled.

Drawings

FIG. 1 is a schematic view of the apparatus of the present invention;

FIG. 2 is a schematic view of an embedment device of the present invention;

FIG. 3 is a schematic view showing the combination of the outer dewatering rotating shaft, the inner dewatering rotating shaft and the rotating shaft of the present invention;

in the figure, 1-shell, 11-cover, 2-cleaning barrel, 21-rotating shaft, 22-rotating disk, 23-stopping rod, 24-embedding device, 241-embedding block, 2411-embedding transverse block, 2412-embedding vertical block, 242-embedding groove, 2421-embedding wide groove, 2422-embedding narrow groove, 25-filter screen barrel, 3-ozone generator, 4-dewatering barrel, 41-inner dewatering barrel, 42-outer dewatering rotating shaft, 43-outer dewatering rotating shaft, 44-inner dewatering rotating shaft, 45-coupler and 46-water permeable hole.

Detailed Description

The technical solution of the present invention is described in further detail below with reference to the accompanying drawings, but the scope of the present invention is not limited to the following description.

As shown in fig. 1 and 3, a vegetable washer integrating washing and dewatering comprises a shell 1 and a washing drum 2 fixed on the shell 1; an ozone generator 3 is arranged in the middle of the inner wall of the shell 1; the bottom end of the shell 1 is provided with a dewatering cylinder 4; the cleaning cylinder 2 is fixed in the dewatering cylinder 4;

the cleaning barrel 2 comprises a rotating shaft 21, a rotating disc 22 and an arresting rod 23; the rotating discs 22 are fixed at the bottom end and the top end of the shell 1 through a rotating shaft 21 and are symmetrically distributed relative to the horizontal plane where the center line of the shell 1 is located; a plurality of the blocking rods 23 are uniformly distributed between the rotating disks 22 in a circumferential manner, and the blocking rods 23 are embedded in the rotating disks 22; the rotating disc 22 is connected with the rotating shaft 21 through an embedding device 24;

the dewatering cylinder 4 comprises an inner dewatering cylinder 41 and an outer dewatering cylinder 42, the outer dewatering cylinder 42 is fixed on the bottom surface of the shell 1 through an outer dewatering rotating shaft 43; the corresponding inner dewatering cylinder 41 is fixed on the outer dewatering rotating shaft 43 through the inner dewatering rotating shaft 44; a coupling 45 is arranged between the inner dewatering rotating shaft 44 and the outer dewatering rotating shaft 43; the rotating shaft 21 is arranged in the inner dewatering rotating shaft 44 and the outer dewatering rotating shaft 43 in a penetrating way and is connected with the inner dewatering rotating shaft 44 and the outer dewatering rotating shaft 43 through bearings;

the top end of the shell 1 is provided with a cover 11, and the center of the cover 11 is rotatably connected with the rotating shaft 21.

In order to further realize the purpose of high-efficiency work, the inner dewatering cylinder 41 and the outer dewatering cylinder 42 are both provided with water permeable holes 46; the water permeable holes 46 are arranged in a way that the hole diameter is gradually reduced from inside to outside; through adopting the hole 46 of permeating water that the aperture reduces gradually and set up to utilize shaft coupling 45 between interior dewatering cylinder 41 and the outer dewatering cylinder 42, realize the antiport of interior dewatering cylinder 41 and outer dewatering cylinder 42, and then make the vegetables in the wash bowl 2 after ozone cleaning advance two reverse dewatering cylinder work, realize complete dehydration, thereby realize the purpose of high-efficient work.

As shown in fig. 2, in order to further achieve the purpose of complete cleaning, the insertion device 24 includes an insertion block 241 and an insertion groove 242; the embedded block 241 is fixed at the end of the rotating shaft 21; the embedded groove 242 is fixed at the axis of the circular surface of the rotating disc 22; the embedded block 241 comprises an embedded transverse block 2411 and an embedded vertical block 2412; the corresponding embedded groove 242 comprises an embedded wide groove 2421 and an embedded narrow groove 2422; the transverse embedding block 2411 is fixed at the tail end of the rotating shaft 21, and the vertical embedding block 2412 is fixed at the tail end of the transverse embedding block 2411; the thickness of the transverse embedding block 2411 is consistent with the width of the narrow embedding groove 2422, and the thickness of the corresponding vertical embedding block 2412 is consistent with the width of the wide embedding groove 2421; the embedding wide groove 2421 and the embedding narrow groove 2422 are arranged at intervals; by adopting the embedding block 241 comprising the embedding transverse block 2411 and the embedding vertical block 2412 and the embedding groove 242 comprising the embedding wide groove 2421 and the embedding narrow groove 2422, the embedding device 24 is formed, so that the replacement between the rotating shaft 21 and the rotating disk 22 and the fixation between the rotating shaft 1 and the rotating disk 22 are realized by utilizing the matching between the embedding transverse block 2411 and the embedding narrow groove 2422 and the matching between the embedding vertical block 2412 and the embedding narrow groove 2422, the fixation between the rotating shaft 21 and the rotating disk 22 is realized, the fixation between the rotating disk 22 and the rotating shaft 21 is realized, the arresting rod 23 is stably rotated, the vegetables in the arresting rod 23 are sufficiently washed in the ozone-containing water, and the purpose of complete cleaning is realized.

In order to further realize the purpose of complete cleaning, a filter screen cylinder 25 is also arranged in the cleaning cylinder 2; the filter screen cylinder 25 is arranged in a channel formed by the arresting rod 23 and is abutted against the arresting rod 23; two ends of the filter screen cylinder 25 are fixed on the rotating disc 22; the filtering net drum 25 is arranged in the cleaning channel formed by the blocking rods 23, impurities and broken small leaves are cleaned by the filtering net drum 25, so that the surface of vegetables is cleaned more thoroughly, and finally, moisture of the vegetables in the filtering net drum 25 is removed through the dewatering drum 4, so that the aim of completely cleaning is fulfilled.

Working process or principle: when vegetables need to be cleaned, the blocking rod 23 of the cleaning barrel 2 is firstly embedded into the rotating disc 22 to form a cleaning channel, the filter screen barrel 25 is then embedded into the formed cleaning channel, the rotating disc 22 of the cleaning barrel 2 passes through the embedded block 241 of the rotating shaft 21 corresponding to the embedded groove 242 on the rotating disc, the rotating shaft 21 is fixed on the embedded groove 242 by utilizing the matching between the embedded transverse block 2411 and the embedded narrow groove 2422 and the matching between the embedded vertical block 2412 and the embedded narrow groove 2422, then the vegetables to be cleaned are placed into the filter screen barrel 25, the cover 11 is covered, the rotating disc 22 at the upper end of the cleaning barrel 2 is rotatably connected at the bottom end of the cover 11 by the rotating shaft 21, then the cleaning water is injected into the device, the motor is started, the rotating shaft 21 connected with the output end of the motor drives the rotating disc 22 to rotate, at the moment, the ozone generator 3 works to fill ozone in the water in the device, waiting to wash and finishing, opening other motor, make outer dehydration pivot 43 rotate, drive outer dehydration section of thick bamboo 42 and rotate, rethread shaft coupling 45 makes relative outer dehydration pivot 43 antiport of interior dehydration pivot 44, realizes the relative outer dehydration section of thick bamboo 42 antiport of interior dehydration section of thick bamboo 41, and moisture is through being the hole 46 of permeating water that the aperture reduces the setting gradually from inside to outside, thereby the desorption of moisture in the messenger realizes the wash bowl, and then realizes high-efficient work and abluent purpose completely.

The foregoing is illustrative of the preferred embodiments of the present invention, and it is to be understood that the invention is not limited to the precise forms disclosed herein, and that various other combinations, modifications, and environments may be resorted to, falling within the scope of the invention as defined by the appended claims. But that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the invention, which is to be limited only by the claims appended hereto.

Claims (6)

1. The utility model provides a collect and wash and dewater vegetable washing machine as an organic whole which characterized in that: comprises a shell (1) and a cleaning cylinder (2) fixed on the shell (1); an ozone generator (3) is arranged in the middle of the inner wall of the shell (1); the bottom end of the shell (1) is provided with a dewatering cylinder (4); the cleaning cylinder (2) is fixed in the dewatering cylinder (4);

the cleaning barrel (2) comprises a rotating shaft (21), a rotating disc (22) and a blocking rod (23); the rotating discs (22) are fixed at the bottom end and the top end of the shell (1) through rotating shafts (21) and are symmetrically distributed relative to the horizontal plane where the center line of the shell (1) is located; a plurality of arresting rods (23) are uniformly distributed on the circumference between the rotating disks (22), and the arresting rods (23) are embedded in the rotating disks (22); the rotating disc (22) is connected with the rotating shaft (21) through an embedding device (24);

the dewatering cylinder (4) comprises an inner dewatering cylinder (41) and an outer dewatering cylinder (42), and the outer dewatering cylinder (42) is fixed on the bottom surface of the shell (1) through an outer dewatering rotating shaft (43); the corresponding inner dewatering cylinder (41) is fixed on the outer dewatering rotating shaft (43) through an inner dewatering rotating shaft (44); a coupling (45) is arranged between the inner dewatering rotating shaft (44) and the outer dewatering rotating shaft (43); the rotating shaft (21) is arranged in the inner dewatering rotating shaft (44) and the outer dewatering rotating shaft (43) in a penetrating way and is connected with the inner dewatering rotating shaft (44) and the outer dewatering rotating shaft (43) through bearings;

the top end of the shell (1) is provided with a cover (11), and the center of the cover (11) is rotatably connected with the rotating shaft (21).

2. The vegetable washer integrating washing and dewatering as claimed in claim 1, wherein: the embedding device (24) comprises an embedding block (241) and an embedding groove (242); the embedded block (241) is fixed at the tail end of the rotating shaft (21); the embedded groove (242) is fixed at the axis of the circular surface of the rotating disc (22).

3. The vegetable washer integrating washing and dewatering as claimed in claim 2, wherein: the embedded block (241) comprises an embedded transverse block (2411) and an embedded vertical block (2412); the corresponding embedded groove (242) comprises an embedded wide groove (2421) and an embedded narrow groove (2422); the transverse embedding block (2411) is fixed at the tail end of the rotating shaft (21), and the vertical embedding block (2412) is fixed at the tail end of the transverse embedding block (2411); the thickness of the embedding transverse block (2411) is consistent with the width of the embedding narrow groove (2422), and the thickness of the corresponding embedding vertical block (2412) is consistent with the width of the embedding wide groove (2421); the embedding wide groove (2421) and the embedding narrow groove (2422) are arranged at intervals.

4. The vegetable washer integrating washing and dewatering as claimed in any one of claims 1, 2 or 3, wherein: the inner dewatering cylinder (41) and the outer dewatering cylinder (42) are both provided with water permeable holes (46).

5. The vegetable washer integrating washing and dewatering as claimed in claim 4, wherein: the water permeable holes (46) are arranged in a manner that the hole diameter is gradually reduced from inside to outside.

6. The vegetable washer integrating washing and dewatering as claimed in claim 1, wherein: a filter screen cylinder (25) is also arranged in the cleaning cylinder (2); the filter screen cylinder (25) is arranged in a channel formed by the barrier rods (23) and is abutted against the barrier rods (23); two ends of the filter screen cylinder (25) are fixed on the rotating disc (22).

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