CN110558581A - Vegetable washing machine - Google Patents

Abstract

The invention provides a vegetable washer, which belongs to the technical field of cleaning equipment and comprises the following components: the cleaning device comprises a tank body with an upward opening, a cleaning tank body, a water inlet, a water outlet, a water inlet pipe, a water outlet pipe and a water outlet pipe, wherein the tank body is formed by splicing a left side plate, a right side plate, a bottom plate; the water inlet mechanism comprises two water inlet main pipes arranged on the left side plate and the right side plate, and a plurality of water outlet branch pipes are arranged along the length direction of the water inlet main pipes, wherein the water outlet branch pipes are connected with the water inlet; one end of the conveying mechanism is positioned in the cleaning space, and the two sides of the conveying mechanism are respectively connected with the inner side wall of the cleaning space. According to the vegetable washing machine provided by the invention, through bidirectional water inflow at the left side and the right side, the opposite-flushing type surge is realized, on the premise that vegetables are washed clean, the surfaces of the vegetables are prevented from being damaged, the original nutritive values of the vegetables are reserved, and the washing efficiency of the vegetables is improved.

Description

Vegetable washing machine

Technical Field

The invention belongs to the technical field of cleaning equipment, and relates to a vegetable washing machine.

Background

In the prior art, if the vegetables in the family wash, generally adopt artifical washing still more convenient, quick, nevertheless if the dining room of large-scale factory, enterprise, in order to guarantee that staff's diet is healthy, all need take corresponding vegetables into everyday, the washing volume of this vegetables is great, if still adopt artifical washing, then waste time and energy, work efficiency is extremely low.

The prior patent (CN105266170A) discloses a full-automatic vegetable washing machine with a pesticide adsorption function, which comprises a frame, a washing tank, a motor, a spraying device, a water pump, a circulating water tank, a first water pipe, a blower, a first air pipe, a lower screen plate, a second air pipe, a circulating water nozzle, a second water pipe and a conveying device, wherein the washing tank is arranged in the frame, and the conveying device is arranged on one side of the washing tank; the motor is connected with the conveying device, a spraying device is arranged above the conveying device, and the first water pipe is connected with the circulating water tank; the water pump is connected with the circulating water tank through a first water pipe; the air blower is connected with a first air pipe, the first air pipe is connected with a plurality of second air pipes, the second air pipes are arranged in the cleaning tank, and a lower screen plate is connected below the second air pipes; the water pump is connected with the second water pipe; one end of the second water pipe is connected with the cleaning tank, and a circulating water spray head is arranged at one end of the second water pipe; it is characterized in that the utility model also comprises an upper screen plate and adsorption resin; an upper screen plate is arranged above the lower screen plate; through holes matched with the second air pipes are formed in the upper screen plate and the lower screen plate; and adsorption resin is arranged between the upper screen plate and the lower screen plate.

Above-mentioned full-automatic vegetable washer through let in gas in the washing tank, realize that the water in the washing tank rolls, reach the cleaning performance, such cleaning methods is difficult to on the one hand with the vegetables sanitization, on the other hand causes the damage to the vegetables surface easily, leads to the nutrition to run off.

In summary, it is desirable to design a vegetable washing machine capable of improving the cleaning effect and preventing the loss of nutrients due to the damage of the vegetable surface.

Disclosure of Invention

The invention aims to solve the problems in the prior art and provides a vegetable washing machine which can improve the cleaning effect and avoid nutrient loss caused by vegetable surface damage.

The purpose of the invention can be realized by the following technical scheme: a vegetable washer, comprising: the cleaning device comprises a tank body with an upward opening, a cleaning tank body, a water inlet, a water outlet, a water inlet pipe, a water outlet pipe and a water outlet pipe, wherein the tank body is formed by splicing a left side plate, a right side plate, a bottom plate; the water inlet mechanism comprises two water inlet main pipes arranged on the left side plate and the right side plate, and a plurality of water outlet branch pipes are arranged along the length direction of the water inlet main pipes, wherein the water outlet branch pipes are connected with the water inlet; one end of the conveying mechanism is positioned in the cleaning space, and the two sides of the conveying mechanism are respectively connected with the inner side wall of the cleaning space.

In the vegetable washer, one end of the water inlet main pipe is connected with the water pump, and the other end of the water inlet main pipe is provided with the ball valve.

In the vegetable washer, the water inlets on the left and right side plates are provided with the bottom plates close to the tank body.

In the above vegetable washer, at least one overflow structure is provided on the side plate, wherein the overflow structure is provided on the left side plate or the right side plate, and one end of the overflow structure is communicated with the washing space, and the other end of the overflow structure is communicated with the water inlet through a pipe fitting.

In the above vegetable washer, the overflow structure includes an overflow opening provided on the side plate, wherein one side of the overflow opening is detachably connected with a first filter screen plate.

In the vegetable washer, the other side of the overflow port is provided with a water collecting tank, wherein one end of the water collecting tank is communicated with the overflow port, and the other side of the water collecting tank is connected with the water inlet through a pipe fitting.

In the vegetable washer, the conveying mechanism comprises a conveying support, and two sides of the conveying support are respectively and movably and rotatably connected with the left side plate and the right side plate.

In the vegetable washing machine, the conveying mechanism further comprises a rotating shaft, when the rotating shaft is integrally arranged, the rotating shaft penetrates through the conveying support, and two ends of the rotating shaft are respectively connected with the left side plate and the right side plate; when the rotating shafts are arranged in a split mode, the two rotating shafts are located on two sides of the conveying support respectively, one end of each rotating shaft is connected with the conveying support, and the other end of each rotating shaft is connected with the side plate.

In the vegetable washer, the bottom plate is paved with the filtering mechanism, wherein the filtering mechanism comprises a plurality of second filtering screen plates arranged along the length direction of the bottom plate.

In the vegetable washing machine, the bottom plate comprises two flat plates arranged in a corner-shaped structure, wherein the shape of the second filter screen plate is matched with the shape of the bottom plate.

In the vegetable washer, the horizontal height of the water inlet is higher than the horizontal height of the two sides of the second filter screen plate.

In the vegetable washing machine, the air supply mechanism is arranged on one side of the tank body and comprises an air pipe with one end extending into the conveying support, a plurality of air outlets are formed in the air pipe, and the other end of the air pipe is connected with the air pump.

In the vegetable washer, two sides of the conveying support are respectively provided with a baffle plate, wherein one end of each baffle plate extends downwards to form a funnel-shaped structure.

In the vegetable washer, the tank body is provided with the spraying mechanism, the spraying mechanism comprises a spraying support, and the spraying support facing one side of the cleaning space is provided with a plurality of spraying holes.

In the vegetable washing machine, a draining mechanism is further arranged below the conveying mechanism, wherein the draining mechanism comprises a draining support, a draining frame capable of vibrating up and down along the vertical direction is connected above the draining support, and two vibrating motors are respectively arranged on two sides of the draining frame.

In foretell vegetable washing machine, the waterlogging caused by excessive rainfall frame is the slant setting, and wherein, the level that the waterlogging caused by excessive rainfall frame place that is close to conveying mechanism one end is higher than the level that the waterlogging caused by excessive rainfall frame place that keeps away from conveying mechanism one end.

In the vegetable washing machine, the draining support is further connected with a water tank, the water tank is located below the draining frame, the water inlet end of the water tank is communicated with the draining frame, and the water outlet end of the water tank is connected with the water inlet in the side plate.

Compared with the prior art, the vegetable washing machine provided by the invention realizes 'opposite flushing type surge' by bidirectional water inflow from the left side and the right side, avoids the damage of the surface of vegetables on the premise of cleaning the vegetables, retains the original nutritive value of the vegetables, and improves the cleaning efficiency of the vegetables.

Drawings

Fig. 1 is a schematic structural view of a vegetable washer according to the present invention.

Fig. 2 is a schematic view of a partial structure of a vegetable washer according to the present invention.

Fig. 3 is a schematic view of a partial structure of a vegetable washer according to the present invention.

Fig. 4 is a schematic view showing a partial structure of a vegetable washer according to the present invention.

Fig. 5 is a schematic view of a partial structure of a vegetable washer according to the present invention.

Fig. 6 is a schematic view of the structure shown in fig. 5 from another view angle.

Fig. 7 is a cross-sectional view of fig. 6.

Fig. 8 is a schematic view of a partial structure of a vegetable washer according to the present invention.

FIG. 9 is a schematic structural view of a draining mechanism according to a preferred embodiment of the present invention.

In the figure, 100, a trough body; 110. a side plate; 111. a water inlet; 120. a base plate; 121. a water outlet; 122. a flat plate; 130. cleaning the space; 140. a drain pipe; 200. a water inlet mechanism; 210. a main water inlet pipe; 211. a water outlet branch pipe; 220. an overflow structure; 221. an overflow port; 222. a first filter screen plate; 223. a clamping block; 224. a water collection tank; 300. a conveying mechanism; 310. a delivery stent; 320. a rotating shaft; 330. a transfer shaft; 340. an electric cabinet; 350. a sprocket arrangement; 400. a filtering mechanism; 410. a second filter screen plate; 411. a cavity; 500. an air supply mechanism; 510. an air duct; 520. a baffle plate; 521. a sloping plate; 600. a spraying mechanism; 610. spraying a bracket; 700. a draining mechanism; 710. a draining support; 720. a draining frame; 730. a vibration motor; 740. a water tank.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

As shown in fig. 1 to 9, the present invention provides a vegetable washer, comprising: a tank body 100 with an upward opening is formed by splicing a left side plate 110, a right side plate 110, a bottom plate 120, a front side plate 110 and a rear side plate 110, and a cleaning space 130 communicated with the opening is arranged in the tank body 100, wherein a plurality of water inlets 111 are respectively arranged on the left side plate 110 and the right side plate 110, and a water outlet 121 is arranged on the bottom plate 120; the water inlet mechanism 200 comprises two main water inlet pipes 210 arranged on the left side plate 110 and the right side plate 110, and a plurality of branch water outlet pipes 211 are arranged along the length direction of the main water inlet pipes 210, wherein the branch water outlet pipes 211 are connected with the water inlet 111; one end of the conveying mechanism 300 is located in the cleaning space 130, and both sides of the conveying mechanism 300 are respectively connected with the inner side wall of the cleaning space 130.

In prior art, vegetables are before wasing, carry out shredding earlier, if do not cut up, can't be with impurity sanitization such as the inside silt of vegetables, but, vegetables (vegetable valve) after cutting up are comparatively fragile, if adopt manual cleaning or automatic dish washing machine, it is damaged with the vegetable valve surface easily, cause the loss of nutrition, consequently, in this embodiment, adopt two-way intaking, form "hedging" and surge, realize "massage type" and wash, under the condition that reduces rivers and to vegetable valve surface impact, with the vegetable valve sanitization, guarantee the integrality on vegetable valve surface, avoid nutrition to run off.

According to the vegetable washing machine provided by the invention, through bidirectional water inflow at the left side and the right side, the opposite-flushing type surge is realized, on the premise that vegetables are washed clean, the surfaces of the vegetables are prevented from being damaged, the original nutritive values of the vegetables are reserved, and the washing efficiency of the vegetables is improved.

Preferably, as shown in fig. 1 to 9, one end of the main water inlet pipe 210 is connected to a water pump, and the other end of the main water inlet pipe 210 is provided with a ball valve.

In the prior art, one end of a main water inlet pipe 210 on a large vegetable washing machine is connected with a water pump, the other end of the main water inlet pipe 210 is sealed, after the main water inlet pipe 210 is used for a long time, scale, or other impurities, may be generated in the main water inlet pipe 210, and a general cleaning method is to introduce water into the main water inlet pipe 210, so that the cleaned water enters the tank body 100 through the water inlet 111 and is finally discharged from the water outlet 121 on the tank body 100, however, in such a cleaning method, it is difficult to clean the water inlet main pipe 210, and impurities generated in the water inlet main pipe 210 are easily clogged when the impurities are introduced into the pipe of the water inlet 111 (the pipe diameter of the water inlet main pipe 210 is larger than that of the pipe), in the present invention, the closed end of the main water inlet pipe 210 is changed to an open end, and a ball valve is arranged at the open end, and when vegetables are cleaned, the ball valve is in a closed state (similar to the closed end); when the main water inlet pipe 210 is self-cleaned, the ball valve is opened to directly flow cleaning water from one end of the main water inlet pipe 210 to the other end of the main water inlet pipe 210, thereby improving the cleaning effect of the main water inlet pipe 210 and preventing the pipe from being blocked.

Further preferably, the water inlets 111 on the left and right side plates 110 are opened close to the bottom plate 120 of the tank body 100.

In the embodiment, the external water flows through the main water inlet pipe 210 and the pipe fitting by the water pump, flows out from the water inlet 111, and is discharged into the cleaning space 130, the impact force is large, but the water inlet 111 is arranged at a position close to the bottom plate 120, on one hand, the water flow with large impact force is arranged at the lower part of the cleaning space 130, so that the water flow at the lower part of the cleaning space 130 rolls seriously, the rolling trend of the water flow at the upper layer of the cleaning space 130 is reduced along with the upward movement of the rolling water flow, and the impact force of the slow water potential to the vegetable petals is relatively weak because the vegetable petals are light in weight and generally float at the upper layer or the middle-upper layer of the cleaning space 130, thereby avoiding the damage to the surfaces of the vegetable petals and the loss of the nutrition of the vegetable petals, on the other hand, the water inlet 111 is arranged at a position close to the bottom plate 120, thereby avoiding the 'surge' formed by the bidirectional counter-flushing water flow from splashing and causing the waste, water flow may overflow from the washing space 130 in case of counter flushing, causing waste of water resources).

It is further preferable that the number of the drain openings 121 is two, and the two drain openings 121 are respectively opened on the corners of the bottom plate 120, wherein the two drain openings 121 are respectively and independently connected with one drain pipe 140, or the two drain openings 121 share one drain pipe 140.

In this embodiment, an end cap (preferably, a screw cap) may be detachably connected to the drainage end of the drainage pipe 140, or a ball valve may be disposed at the drainage end, when vegetables are cleaned, the drainage end is sealed by the end cap or the ball valve, so that the bottom of the cleaning space 130 forms a "closed structure", after the cleaning is completed, the end cap is detached, or the ball valve is opened, the bottom of the cleaning space 130 is opened, and the sewage in the cleaning space 130 is drained, which is convenient and reliable.

Preferably, as shown in fig. 1 to 9, at least one overflow structure 220 is provided on the side plate 110, wherein the overflow structure 220 is provided on the left side plate 110 or the right side plate 110, one end of the overflow structure 220 is communicated with the washing space 130, and the other end of the overflow structure 220 is communicated with the water inlet 111 through a pipe. It is further preferable that the number of the overflow structures 220 is two, and the two overflow structures 220 are respectively and correspondingly disposed on the left side plate 110 and the right side plate 110, wherein the two overflow structures 220 are respectively communicated with the water inlets 111 on the corresponding side plates 110 through pipes.

In this embodiment, set up overflow structure 220 on curb plate 110, when the water storage volume that washs space 130 is too much, unnecessary water can be through overflow structure 220, pipe fitting, get into once more through water inlet 111 and wash space 130 in, on the one hand, realized "circulation" and washd, improve the utilization ratio of water resource, avoid causing the waste of water resource, on the other hand, avoid unnecessary water to spill over and cause the pollution of vegetable washing machine surrounding environment from the open end that washs space 130.

It is further preferred that the overflow structure 220 comprises an overflow opening 221 opened on the side plate 110, wherein a first filter screen 222 is detachably connected to one side of the overflow opening 221.

In this embodiment, the cutting dish is in the cleaning process, the weight of some impurity is heavier, like silt, can deposit in the bottom of cleaning space 130 in the cleaning process, and the weight of some impurity is lighter, like rotten cutting dish, can float in the top of cleaning space 130 in the cleaning process, when taking place the overflow, can block the impurity that the texture is lighter along with rivers entering gap 221 through first filter plate 222, thereby when guaranteeing that the water flow that flows out from gap 221 returns cleaning space 130 again through water inlet 111, its quality of water is guaranteed, and avoid the impurity that the texture is lighter on adsorbing the inner wall of pipe fitting and cause the jam of pipe fitting, thereby improve abluent reliability.

Further, since the horizontal transverse length of the cleaning space 130 is long, a plurality of weirs 221 are arranged on the single-side plate 110 side by side, the number of the corresponding first filter screen plates 222 is also multiple, so that the rapid discharge of the excessive water is realized, and in addition, the first filter screen plates 222 are arranged into multiple blocks instead of one block because the first filter screen plates 222 are arranged in a strip structure, if the length of the first filter screen plates is too long, the first filter screen plates are easily bent, so that the use effect is affected.

Further preferably, a fixture block 223 is disposed between adjacent overflow holes 221, wherein the first filter screen 222 is disposed in an L-shaped configuration, one side of the first filter screen 222 is attached to a plane of the opening end of the cleaning space 130, and the other side of the first filter screen 222 is fastened to the fixture block 223, so that the first filter screen 222 can be rapidly detached and installed

Preferably, as shown in fig. 1 to 9, a water collecting groove 224 is provided at the other side of the overflow hole 221, wherein one end of the water collecting groove 224 is communicated with the overflow hole 221, and the other side of the water collecting groove 224 is connected to the water inlet 111 through a pipe.

In this embodiment, the water collecting tank 224 is provided, and the plurality of overflow ports 221 are "integrated", that is, the water flowing out from the overflow ports 221 first "collectively" flows into the water collecting tank 224, and then passes through the outlet of the water collecting tank 224, and the overflowed water is introduced into the water inlet 111 through the pipe, so that the pipe connection becomes simpler and more reliable.

Further preferably, the bottom of the water collection tank 224 is disposed obliquely. That is, both ends of the bottom of the water collecting tank 224 are located at different levels, wherein the water outlet on the water collecting tank 224 is provided at the end having the lower level.

In the embodiment, the bottom of the water collecting tank 224 is arranged to be inclined, so that the water flowing out of the overflow opening 221 can quickly flow into the water inlet 111 from the water collecting tank 224 through the pipe, thereby improving the cleaning efficiency, and in addition, the inclined bottom of the water collecting tank 224 can avoid the accumulation of the water, thereby preventing the breeding of microorganisms such as bacteria and the like, and improving the sanitation and health of vegetable cleaning.

Preferably, as shown in fig. 1 to 9, the conveying mechanism 300 includes a conveying bracket 310, and both sides of the conveying bracket 310 are movably and rotatably connected with the left and right side plates 110, respectively.

Further preferably, the conveying mechanism 300 further includes a rotating shaft 320, when the rotating shaft 320 is integrally disposed, the rotating shaft 320 penetrates through the conveying bracket 310, and two ends of the rotating shaft 320 are respectively connected to the left and right side plates 110; when the rotating shafts 320 are arranged separately, the two rotating shafts 320 are respectively located at two sides of the conveying bracket 310, wherein one end of each rotating shaft 320 is connected with the conveying bracket 310, and the other end of each rotating shaft 320 is connected with the side plate 110.

In this embodiment, when washing vegetables, firstly, the vegetables are washed in the washing space 130 in the form of vegetable slices, and with the movement of the water flow, the washed vegetables are sent to the conveying mechanism 300, and finally, the washed vegetables are sent to the collecting box under the conveying mechanism 300 by the conveying mechanism 300; after the vegetables are cleaned, when the tank body 100 is cleaned, the rotating shaft 320 rotates the conveying bracket 310, and the lower area of the conveying bracket 310 is exposed, so that the cleaning of the tank body 100 is facilitated, and the cleaning effect is improved.

Further preferably, a transmission shaft 330 is disposed at each end of the conveying bracket 310, and the two transmission shafts 330 are connected by a transmission belt, wherein the rotating shaft 320 is located between the two transmission shafts 330.

It is further preferable that the rotating shafts 320 are spaced apart from the transferring shafts 330 at both ends of the transferring frame 310, respectively.

Preferably, as shown in fig. 1 to 9, an electric cabinet 340 is installed on the conveying bracket 310, and a motor is installed in the electric cabinet 340, wherein an output end of the motor is connected to one of the conveying shafts 330 by a sprocket structure 350.

In this embodiment, since one end of the transportation frame 310 is in the water environment during the vegetable washing process, the electric cabinet 340 is installed at the other end (the end exposed outside the water environment) of the transportation frame 310, so as to shorten the relative distance between the motor in the electric cabinet 340 and the transportation shaft 330 at the end, and make the structure of the transportation mechanism 300 more compact, however, since the electric cabinet 340 is installed at the end of the transportation frame 310, the weight of the end is increased, and in order to improve the reliability of the transportation mechanism 300 (avoid the single-side tilting during the transportation of the washed vegetable petals), the distance between the rotation shaft 320 and the transportation shaft 330 at the two ends of the transportation frame 310 is changed.

Preferably, as shown in fig. 1 to 9, a filtering mechanism 400 is laid on the bottom plate 120, wherein the filtering mechanism 400 comprises a plurality of second filter screen plates 410 arranged along the length direction of the bottom plate 120.

It is further preferred that the bottom plate 120 comprises two flat plates 122 arranged in an angular configuration, wherein the outer shape of the second filter screen panel 410 matches the outer shape of the bottom plate 120.

In this embodiment, the bottom plate 120 is disposed in a zigzag shape similar to a letter "W", so that impurities passing through the second filter screen 410 can flow to both sides of the bottom plate 120 when flowing to the surface of the bottom plate 120, and are prevented from being scattered and accumulated on the bottom plate 120, thereby facilitating the cleaning of the tank body 100 and further improving the filtering effect during vegetable washing.

In addition, the drain port 121 is disposed at a corner of the bottom plate 120, the second filter screen 410 directly covers the bottom plate 120, that is, the second filter screen 410 is detachably connected to the bottom plate 120, when the tank body 100 needs to be cleaned, the second filter screen 410 can be directly detached from the bottom plate 120, and then impurities accumulated on two sides of the bottom plate 120 are flushed into the drain port 121 through a cleaning gun, wherein the horizontal height of the two sides of the bottom plate 120 is lower than the horizontal height of the middle of the bottom plate 120, so that when the cleaning gun flushes the impurities on the bottom plate 120, the impurities do not run to the middle of the bottom plate 120 and only move along the two sides of the bottom plate 120, thereby driving the impurities to automatically flow to the drain port 121, and realizing the rapid and efficient cleaning of the tank body 100.

Further preferably, the base plate 120 is provided in a unitary structure. When the bottom plate 120 is arranged in an integrated structure, the structure is generally divided into two structures, one of which is that the two flat plates 122 are transited through a smooth curve, for example, the two flat plates are formed through a bending mode of a sheet metal part, and the bending angle between the two flat plates 122 can be controlled through a bending machine; secondly, the two flat plates 122 are spliced in a welding mode to form an integrated structure, and the welding angle between the two flat plates 122 can be controlled through a welding machine.

It is further preferred that the water inlet 111 is located at a level higher than the level of both sides of the second filter screen 410.

In this embodiment, so be higher than the level of water inlet 111 the level of second filter screen 410 both sides, and water inlet 111 is close to in bottom plate 120 one side, improve the cleaning performance of vegetables on the one hand, on the other hand, because second filter screen 410 is when filtering impurity, the volume of some impurity is greater than the aperture of mesh on second filter screen 410, lead to this kind of great impurity of volume to float in washing space 130 all the time, probably cause the jam of mesh, and can be with attaching to or dissociating the impurity near the net gape and dash away from the mesh through water inlet 111 spun rivers, thereby improve filtering performance.

Preferably, as shown in fig. 1 to 9, the second screen 410 is provided in an integral structure, or in a split structure. When the second filter screen 410 is arranged in an integrated structure, the structure is formed in accordance with the structure of the bottom plate 120 (formed by bending or welding and splicing), and the second filter screen 410 is bent downwards along each side edge of the second filter screen, when the second filter screen 410 covers the bottom plate 120, a cavity 411 is formed between the bottom plate 120 and each bent plate on each side plate 110 of the second filter screen 410, and the cavity 411 is a filter cavity 411, so that impurities passing through the second filter screen 410 are accumulated on two sides of the cavity 411, and the efficiency is improved for the subsequent cleaning of the tank body 100. When the second filter screen 410 is arranged in a split structure, the second filter screen 410 is divided into two symmetrical screens, and an independent structure is formed between the two screens.

Preferably, as shown in fig. 1 to 9, an air supply mechanism 500 is installed at one side of the tank 100, the air supply mechanism 500 includes an air pipe 510 having one end extending into the conveying bracket 310, and the air pipe 510 is provided with a plurality of air outlets, and the other end of the air pipe 510 is connected to an air pump.

In this embodiment, its surface attachment of vegetables after the washing has the water droplet, when leading to vegetables to carry to the collecting box from the conveyer belt, can glue on the conveyer belt, be unfavorable for the transport of vegetables, consequently, let in tuber pipe 510 on conveying support 310, and the air outlet on tuber pipe 510 aims at the drive belt (the conveyer belt is fretwork form setting), introduce tuber pipe 510 with outside gas through the air pump, then spout in the air outlet, will glue the vegetables blow off on the conveyer belt, and enter the collecting box, and then improve the reliability that vegetables were carried.

It is further preferred that the air duct 510 extending into one end of the transport support 310 is located within the belt. Thereby shortening the relative distance between the air outlet of the air pipe 510 and the upper surface of the transmission belt and further improving the reliability of vegetable conveying.

Preferably, as shown in fig. 1 to 9, two baffles 520 are respectively disposed at two sides of the conveying support 310, wherein one end of each baffle 520 extends downwards to form a "funnel-shaped" structure.

In this embodiment, the opening between two baffles 520 that are close to conveyer belt one end is great, and the opening between two baffles 520 that are close to collecting box one end is less for vegetables from the conveyer belt whereabouts can accurately get into in the collecting box, avoid causing the waste of vegetables, in addition, the extension board of baffle 520 is swash plate 521, play the guide effect when vegetables drop, and also can be regular from the wind that blows off in tuber pipe 510 through baffle 520 in addition, avoid blowing in disorder vegetables on the conveyer belt.

Preferably, as shown in fig. 1 to 9, a spray mechanism 600 is installed on the tank 100, wherein the spray mechanism 600 includes a spray bracket 610, and a plurality of spray holes are provided on the spray bracket 610 facing the side of the cleaning space 130.

In this embodiment, increase and spray mechanism 600 for vegetables when carrying on the drive belt, wash once more, further improve the cleaning performance of vegetables.

Preferably, as shown in fig. 1 to 9, a draining mechanism 700 is further disposed below the conveying mechanism 300, wherein the draining mechanism 700 includes a draining bracket 710, a draining frame 720 capable of vibrating up and down in the vertical direction is connected above the draining bracket 710, and a vibrating motor 730 is disposed on each of two sides of the draining frame 720.

In this embodiment, the two vibration motors 730 drive the draining frame 720 to vibrate up and down, so as to separate the vegetable petals from the water drops, thereby realizing the draining operation.

It is further preferable that the draining frames 720 are arranged obliquely, wherein the level of the draining frame 720 near the end of the conveying mechanism 300 is higher than the level of the draining frame 720 far from the end of the conveying mechanism 300.

The advantage of design like this lies in, and the waterlogging caused by excessive rainfall frame 720's upper and lower vibration not only realizes the waterlogging caused by excessive rainfall of dish lamella, can also drive the dish lamella that has drained forward and move, the collection of the dish lamella of being convenient for.

Further preferably, a water tank 740 is connected to the draining support 710, and the water tank 740 is located below the draining frame 720, wherein a water inlet end of the water tank 740 is communicated with the draining frame 720, and a water outlet end of the water tank 740 is connected with the water inlet 111 of the side plate 110.

The advantage of design like this is that, collect the water droplet after will driping to in flowing into the cell body 100 again with the water that collects, realize the rational utilization of water resource, form "hydrologic cycle".

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the invention as defined in the appended claims.

Claims (10)

1. A vegetable washer, comprising: the cleaning device comprises a tank body with an upward opening, a cleaning tank body, a water inlet, a water outlet, a water inlet pipe, a water outlet pipe and a water outlet pipe, wherein the tank body is formed by splicing a left side plate, a right side plate, a bottom plate; the water inlet mechanism comprises two water inlet main pipes arranged on the left side plate and the right side plate, and a plurality of water outlet branch pipes are arranged along the length direction of the water inlet main pipes, wherein the water outlet branch pipes are connected with the water inlet; one end of the conveying mechanism is positioned in the cleaning space, and the two sides of the conveying mechanism are respectively connected with the inner side wall of the cleaning space.

2. The vegetable washer as defined in claim 1, wherein one end of the main water inlet pipe is connected to the water pump, and the other end of the main water inlet pipe is provided with a ball valve.

3. The vegetable washer according to claim 1, wherein at least one overflow structure is provided on the side plate, wherein the overflow structure is provided on the left side plate or the right side plate, and one end of the overflow structure is communicated with the washing space and the other end of the overflow structure is communicated with the water inlet through a pipe.

4. The vegetable washer as claimed in claim 3, wherein the overflow structure comprises an overflow port formed on the side plate, wherein a first filter screen is detachably connected to one side of the overflow port, a water collection tank is provided to the other side of the overflow port, one end of the water collection tank is communicated with the overflow port, and the other side of the water collection tank is connected to the water inlet through a pipe.

5. The vegetable washer as claimed in claim 1, wherein the conveying mechanism comprises a conveying bracket, and both sides of the conveying bracket are respectively and movably and rotatably connected with the left and right side plates.

6. The vegetable washing machine as claimed in claim 1, wherein a filtering mechanism is laid on the bottom plate, wherein the bottom plate comprises two flat plates arranged in a corner-like structure, and the filtering mechanism comprises a plurality of second filter mesh plates arranged along the length direction of the bottom plate.

7. The vegetable washing machine as claimed in claim 1, wherein an air supply mechanism is installed at one side of the tank body, the air supply mechanism comprises an air pipe with one end extending into the conveying support, a plurality of air outlets are arranged on the air pipe, and the other end of the air pipe is connected with the air pump.

8. The vegetable washer as claimed in claim 1, wherein a spraying mechanism is installed on the tank body, wherein the spraying mechanism comprises a spraying bracket, and a plurality of spraying holes are formed in the spraying bracket facing one side of the washing space.

9. The vegetable washing machine as claimed in claim 1, wherein a draining mechanism is further provided below the conveying mechanism, wherein the draining mechanism comprises a draining bracket, a draining frame capable of vibrating up and down in a vertical direction is connected above the draining bracket, and a vibrating motor is provided on each side of the draining frame.

10. The vegetable washer as defined in claim 9, wherein the draining frame is disposed in an inclined manner.