CN111802935A

CN111802935A - Automatic vegetable washing process capable of saving water

Info

Publication number: CN111802935A
Application number: CN201910295514.7A
Authority: CN
Inventors: 刘昚
Original assignee: Beijing Zhaitang Ecological Agriculture Technology Co ltd
Current assignee: Beijing Zhaitang Ecological Agriculture Technology Co ltd
Priority date: 2019-04-12
Filing date: 2019-04-12
Publication date: 2020-10-23

Abstract

The invention relates to the technical field of automatic treatment of kitchens and aims to provide an automatic vegetable washing process, which has the technical scheme that an operator places vegetables on a feeding conveyor belt in batches, and the vegetables are conveyed into a washing water tank through the feeding conveyor belt; the vegetables rotate in the cleaning water tank under the action of the stirring shaft, and most of dirt on the vegetables is carried by the vegetables; after rotating for a period of time, separating from the conveyor belt and starting, moving the vegetables to the spraying conveyor belt, and spraying the vegetables by a water spraying gun on the spraying conveyor belt to remove the residual impurities on the vegetables; the vegetables are driven by the spraying conveyor belt to enter the draining conveyor belt, and through a slow conveying process, dirty water on the vegetables is reduced on the premise that the vegetables are not damaged; vegetables enter the material receiving area under the action of the draining conveying belt, so that operators can conveniently treat the vegetables. The automatic vegetable washing process capable of saving water has the advantages of recycling waste water and saving water.

Description

Automatic vegetable washing process capable of saving water

Technical Field

The invention relates to the technical field of automatic kitchen treatment, in particular to an automatic vegetable washing process capable of saving water.

Background

Automatic vegetable washing is becoming popular in the current society, whether commercial or domestic, through highly automated work to achieve the goal of vegetable washing.

Chinese patent No. CN108741130A discloses a full-automatic vegetable cleaning and root cutting process, which comprises a vegetable sorting process, wherein vegetables are conveyed on a conveyor belt, and a sorting mechanism arranges the vegetables, smoothes and trims the roots of the vegetables and then conveys the vegetables to a turning station; a feeding process, namely turning the vegetables to the supporting unit by the turning mechanism; a vegetable fixing procedure, wherein the supporting unit and the clamping mechanism move together with vegetables, and the clamping mechanism clamps and fixes the roots of the vegetables; a cleaning procedure, wherein the vegetables are driven by a slewing mechanism to move into a water tank, and the slewing mechanism drives the vegetables to rotate in the water; a root cutting procedure, namely when the vegetables move to a root cutting station, the root of the vegetables are cut by the cutter assembly, and the vegetables fall onto the conveying belt to be output; and in the root removing process, the clamping mechanism becomes a loosening state in the process that the clamping mechanism continuously moves, and the vegetable roots fall off from the clamping mechanism by the material removing piece.

In the full-automatic vegetable cleaning and root cutting process, vegetables are moved into the water tank under the drive of the rotary mechanism in the cleaning process, and after the cleaning process is finished, the vegetables leave the water tank under the drive of the rotary mechanism. The water in the water tank needs to be replaced after a batch of vegetables is treated, and more water is filled in the water tank once, so that a large amount of waste water can be poured out during each replacement, and therefore, the water resource is greatly wasted, and the improvement is needed.

Disclosure of Invention

The invention aims to provide an automatic vegetable washing process capable of saving water, which has the advantages of recycling waste water and saving water.

The technical purpose of the invention is realized by the following technical scheme:

an automatic vegetable washing process capable of saving water is characterized in that: the method comprises the following steps:

the method comprises the following steps: and a feeding procedure, namely, arranging the vegetables to be cleaned, and uniformly placing the vegetables on a feeding conveyer belt, wherein the conveying speed of the feeding conveyer belt is 0.1-0.15 m/s.

Step two: and (3) a cleaning procedure, namely moving the vegetables into a cleaning water tank through the feeding conveyer belt in the step one, adjusting the rotating speed of the stirring shaft to be 30-40rpm, rotating the vegetables in the cleaning water tank under the rotation of the stirring shaft, and stirring and cleaning for 30-50 s.

Step three: a spraying process, namely after the vegetables are stirred and cleaned by the stirring shaft in the second step, starting the separating conveyer belt, and moving the vegetables in the cleaning water tank to the separating conveyer belt under the driving of the supporting plate; the vegetables are driven by the separating conveyer belt to move to the spraying conveyer belt, the conveying speed of the spraying conveyer belt is 0.05-0.1m/s, and the spraying machine sprays and cleans the vegetables.

Step four: and (4) draining, namely moving the vegetables to a draining conveyer belt through the spraying conveyer belt in the third step, wherein the conveying speed of the draining conveyer belt is 0.01-0.03 m/s.

Step five: and a discharging procedure, namely moving the vegetables to a material receiving area through the draining conveyer belt in the fourth step, and classifying the vegetables by an operator.

By adopting the technical scheme, an operator places the vegetables on the feeding conveyer belt in batches, and the vegetables are conveyed into the cleaning water tank through the feeding conveyer belt; the vegetables rotate in the cleaning water tank under the action of the stirring shaft, and most of dirt on the vegetables is carried by the vegetables; after rotating for a period of time, separating from the conveyor belt and starting, moving the vegetables to the spraying conveyor belt, and spraying the vegetables by a water spraying gun on the spraying conveyor belt to remove the residual impurities on the vegetables; the vegetables are driven by the spraying conveyor belt to enter the draining conveyor belt, and through a slow conveying process, dirty water on the vegetables is reduced on the premise that the vegetables are not damaged; vegetables enter the material receiving area under the action of the draining conveying belt, so that operators can conveniently treat the vegetables.

Furthermore, the separation conveying belt in the third step is a metal belt with a through hole, and a guide plate for guiding water to the cleaning water tank is fixedly connected in the separation conveying belt.

Through adopting above-mentioned technical scheme, the strap that has the perforation makes the vegetables that come out in the washing water tank dirty water on one's body, can pass naturally and break away from the transport belt to fall to the guide plate on, dirty water returns the washing water tank again from the guide plate, thereby has improved water resource recycle's ability.

Further, the feeding conveyer belt in the step one, the spraying conveyer belt in the step three and the draining conveyer belt in the step four are metal belts with through holes, drain plates are obliquely arranged below the feeding conveyer belt, the spraying conveyer belt and the draining conveyer belt, and a water storage tank is arranged below the drain plates.

Through adopting above-mentioned technical scheme, the setting of drain bar for from feeding conveyer belt, spray conveyer belt and the dirty water of waterlogging caused by excessive rainfall conveyer belt upflow down, gather to the storage water tank again through the drain bar, like this, the water in the storage water tank just can be utilized once more, thereby has realized using water wisely.

Further, the level is provided with the filter layer in the storage water tank, the outside of filter layer is around being equipped with fixed frame, the inside wall of storage water tank can be dismantled and be connected with the fixed block that is used for supporting fixed frame, the level is provided with the water purification filter membrane in the storage water tank, the outside of water purification filter membrane is around being equipped with firm frame, the inside wall of storage water tank can be dismantled and be connected with the supporting shoe that is used for supporting firm frame.

Through adopting above-mentioned technical scheme, the storage water tank is provided with the double-deck filtration of filter layer and water purification filter membrane, and the water that gets into in the storage water tank just can obtain further processing like this to the direct utilization of water in the storage water tank has been realized.

Furthermore, the periphery of the fixed frame is fixedly connected with a first rubber pad in a surrounding mode, and the periphery of the stable frame is fixedly connected with a second rubber pad in a surrounding mode.

Through adopting above-mentioned technical scheme, the setting of first rubber pad and second rubber pad for when installation of filter layer and water purification filter membrane, and more compact between the storage water tank inside wall, just so improved the filter capacity of filter layer and water purification filter membrane, thereby improved quality of water.

Furthermore, the fixed block and the supporting block are magnetic pieces, the fixed frame is magnetically connected to the fixed block, and the stable frame is magnetically connected to the supporting block.

By adopting the technical scheme, the fixed frame is magnetically connected with the fixed block, and the stable frame is magnetically connected with the supporting block, so that the filtering layer and the water purifying filter membrane can be fixed in the water storage tank, and the stability of the water purifying filter membrane is improved.

Furthermore, the two sides of the drainage plate are fixedly connected with water baffles along the length direction of the drainage plate respectively, and the water baffles are vertically arranged on the drainage plate.

By adopting the technical scheme, the arrangement of the water baffle enables dirty water to stably flow in the drainage plate, so that the waste of the dirty water flowing away from the side edge of the drainage plate is reduced, and the water collecting efficiency is improved. .

Furthermore, the lower surface of the cleaning water tank in the second step is connected with a water recovery pipe, one end of the water recovery pipe, which is far away from the cleaning water tank, extends into the water storage tank, and the water recovery pipe is provided with a through-stop valve.

Through adopting above-mentioned technical scheme, operating personnel just can realize discharging dirty water to the storage water tank in changing the water that washs in the water tank through opening to end the valve to realized wasing the recovery of the interior dirty water of water tank, reduced the waste of dirty water.

Further, the bottom of drain bar is equipped with and gathers the water pipe, the one end of gathering the water pipe is just to the bottom of drain bar, gather the water pipe and keep away from the one end of drain bar and stretch in the storage water tank.

Through adopting above-mentioned technical scheme, the dirty water that the feeding conveyer belt, spray conveyer belt and waterlogging caused by excessive rainfall conveyer belt upflow down will be through gathering the water pipe, flow toward in the storage water tank to the waste of water resource has further been reduced.

In conclusion, the invention has the following beneficial effects:

1. collect the water that drops on one's body in the transportation through the drain bar, gather to the storage water tank again in, operating personnel carries out recycle to the water in the storage water tank to this water economy has been realized.

2. Have simple and easy filter equipment in the storage water tank, can carry out simple filtration to the dirty water of retrieving, like this, the water in the storage water tank just can not only be used for wasing vegetables, can also be used for other more ways to the utilization ratio of water resource has further been improved.

Drawings

FIG. 1 is a schematic diagram for embodying a process flow;

FIG. 2 is a schematic diagram for embodying the entirety;

FIG. 3 is a schematic diagram for embodying an infeed conveyor belt;

fig. 4 is a schematic diagram for embodying a breakaway conveyor belt;

fig. 5 is a schematic diagram for embodying a spray conveyor belt;

FIG. 6 is a schematic view for embodying a filter layer;

fig. 7 is a partially enlarged view for embodying the portion a in fig. 6.

In the figure, 1, a feeding conveyer belt; 2. cleaning the water tank; 21. a water recovery pipe; 211. a through-stop valve; 3. a stirring shaft; 4. separating from the conveyer belt; 41. a support plate; 42. a baffle; 5. a spray conveyor belt; 51. a water spray gun; 6. a draining conveyor belt; 7. perforating; 8. a drain plate; 81. a water baffle; 82. a water collecting pipe; 9. a water storage tank; 91. a filter layer; 911. fixing the frame; 9111. a first rubber pad; 92. a fixed block; 93. a water purification filter membrane; 931. stabilizing the frame; 9311. a second rubber pad; 94. a support block; 95. a pre-connection port.

Detailed Description

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

The first embodiment is as follows: an automatic vegetable washing process capable of saving water is shown in figure 1 and comprises the following steps:

step one, a feeding process, namely arranging the vegetables to be cleaned, and uniformly placing the vegetables on a feeding conveyer belt 1, wherein the conveying speed of the feeding conveyer belt 1 is 0.1 m/s.

And step two, a cleaning procedure, namely moving the vegetables into a cleaning water tank 2 through the feeding conveyor belt 1 in the step one, adjusting the rotating speed of a stirring shaft 3 to be 30rpm, rotating the vegetables in the cleaning water tank 2 under the rotation of the stirring shaft 3, and stirring and cleaning for 30 s.

Step three, a spraying process, namely, after the vegetables are stirred and cleaned by the stirring shaft 3 in the step two, starting the separating conveyer belt 4, and moving the vegetables in the cleaning water tank 2 to the separating conveyer belt 4 under the driving of the supporting plate 41; the vegetables are driven by the separating conveyer belt 4 to move to the spraying conveyer belt 5, the conveying speed of the spraying conveyer belt 5 is 0.05m/s, and the spraying gun 51 sprays and cleans the vegetables.

And step four, a draining process, namely moving the vegetables to a draining conveyer belt 6 through the spraying conveyer belt 5 in the step three, wherein the conveying speed of the draining conveyer belt 6 is 0.01 m/s.

Step five: and a discharging process, namely moving the vegetables to a material receiving area through the draining conveyer belt 6 in the fourth step, and classifying the vegetables by an operator.

As shown in fig. 4, the stirring shaft 3 in the third step is driven by a motor, the separating conveyer belt 4 is a metal belt with perforations 7, vegetables enter the separating conveyer belt 4 under the action of the supporting plate 41, and dirty water brought into the separating conveyer belt 4 together with the vegetables is discharged downwards from the perforations 7. A guide plate 42 is welded in the separation conveyor belt 4, and the guide plate 42 guides dirty water discharged from the perforation 7 into the cleaning water tank 2 again, so that the waste of water resources is reduced.

As shown in fig. 2, 3 and 5, the feeding conveyor belt 1 in step one, the spraying conveyor belt 5 in step three and the draining conveyor belt 6 in step four are all metal belts with perforations 7 and are all driven by a motor. The lower parts of the feeding conveyer belt 1, the spraying conveyer belt 5 and the draining conveyer belt 6 are all obliquely provided with drain plates 8, and a water storage tank 9 is arranged below the drain plates 8. Dirty water passes the strap from perforation 7 and arranges to drain bar 8 on, because the slope setting of drain bar 8, dirty water on the drain bar 8 is in the storage water tank 9 of drainage bar 8 below by drainage under the action of gravity to reduce the waste of water resource.

As shown in fig. 6 and 7, a water purification filter membrane 93 is horizontally disposed in the water storage tank 9, and a fixing frame 931 surrounds the outer side of the water purification filter membrane 93 to fix the water purification filter membrane 93. The inner side wall of the water storage tank 9 is connected with a support block 94 for supporting the stable frame 931 through bolts, so as to improve the stability of the present invention. The level is provided with filter layer 91 in the storage water tank 9, and the outside of filter layer 91 is around being equipped with fixed frame 911, is provided with the active carbon between the filter layer 91 for the relatively small impurity of adsorbed water, in order to realize water purification's purpose. The inside wall of storage water tank 9 has the fixed block 92 that is used for supporting fixed frame 911 through bolted connection to improve stability.

As shown in fig. 6, a second rubber pad 9311 is fixedly glued around the periphery of the stable frame 931, and when the water purification filter membrane 93 is installed, the elasticity of the second rubber pad 9311 makes the second rubber pad 9311 firmly abut against the inner side wall of the water storage tank 9, so that the sealing performance of the water purification filter membrane is improved, and the water purification performance of the water purification filter membrane is improved. The periphery of the fixed frame 911 is fixedly connected with the first rubber pad 9111 in a surrounding mode, when the filter layer 91 is installed, the first rubber pad 9111 is abutted to the inner side wall of the water storage tank 9 due to the elasticity of the first rubber pad 9111, and therefore the sealing performance of the water purification tank is further improved, and meanwhile the water purification performance of the water purification tank is further improved.

As shown in fig. 7, the fixing block 92 and the supporting block 94 are magnetic members, the fixing frame 911 is magnetically connected to the fixing block 92, and the fixing frame 931 is magnetically connected to the supporting block 94. Thus, the filter layer 91 and the water purification filter membrane 93 are more stably mounted in the water storage tank 9.

As shown in fig. 3 and 5, water baffles 81 are welded to both sides of the drain board 8 along the length direction thereof, respectively, and the water baffles 81 are vertically provided to the drain board 8. The water guard 81 is provided to allow the dirty water to stably flow in the drain plate 8, thereby reducing waste of the dirty water flowing from the side of the drain plate 8.

As shown in fig. 4, the lower surface of the cleaning water tank 2 in the second step is connected with a recovery water pipe 21 through a flange, one end of the recovery water pipe 21 far away from the water tank extends into the water storage tank 9, and the recovery water pipe 21 is provided with a through-stop valve 211. When the water in the cleaning water tank 2 needs to be replaced, the open/close valve 211 is opened to complete the discharge of the waste water in the cleaning water tank 2.

As shown in fig. 3 and 5, a water collecting pipe 82 is disposed at the bottom end of the water discharging plate 8, one end of the water collecting pipe 82 faces the bottom end of the water discharging plate 8, and one end of the water collecting pipe 82 far away from the water discharging plate 8 extends into the water storage tank 9. Thus, dirty water flowing down from the feeding conveyor belt 1, the spraying conveyor belt 5 and the draining conveyor belt 6 flows to the water storage tank 9 through the water collecting pipe 82, and waste of water resources is reduced.

As shown in fig. 4, a pre-connection port 95 is provided on the outer side wall of the water storage tank 9 for later use of water resources in the water storage tank 9.

Example two: an automatic vegetable washing process capable of saving water is different from the first embodiment in that: the method comprises the following steps:

step one, a feeding process, namely arranging the vegetables to be cleaned, and uniformly placing the vegetables on a feeding conveyer belt 1, wherein the conveying speed of the feeding conveyer belt 1 is 0.12 m/s.

And step two, a cleaning procedure, namely moving the vegetables into a cleaning water tank 2 through the feeding conveyor belt 1 in the step one, adjusting the rotating speed of a stirring shaft 3 to 35rpm, rotating the vegetables in the cleaning water tank 2 under the rotation of the stirring shaft 3, and stirring and cleaning for 40 s.

Step three, a spraying process, namely, after the vegetables are stirred and cleaned by the stirring shaft 3 in the step two, starting the separating conveyer belt 4, and moving the vegetables in the cleaning water tank 2 to the separating conveyer belt 4 under the driving of the supporting plate 41; the vegetables are driven by the separating conveyer belt 4 to move to the spraying conveyer belt 5, the conveying speed of the spraying conveyer belt 5 is 0.07m/s, and the spraying gun 51 sprays and cleans the vegetables.

And step four, a draining process, namely moving the vegetables to a draining conveyer belt 6 through the spraying conveyer belt 5 in the step three, wherein the conveying speed of the draining conveyer belt 6 is 0.02 m/s.

Example three: an automatic vegetable washing process capable of saving water is different from the first embodiment in that: the method comprises the following steps:

step one, a feeding process, namely arranging the vegetables to be cleaned, and uniformly placing the vegetables on a feeding conveyer belt 1, wherein the conveying speed of the feeding conveyer belt 1 is 0.15 m/s.

And step two, a cleaning procedure, namely moving the vegetables into a cleaning water tank 2 through the feeding conveyor belt 1 in the step one, adjusting the rotating speed of a stirring shaft 3 to 40rpm, rotating the vegetables in the cleaning water tank 2 under the rotation of the stirring shaft 3, and stirring and cleaning for 60 s.

Step three, a spraying process, namely, after the vegetables are stirred and cleaned by the stirring shaft 3 in the step two, starting the separating conveyer belt 4, and moving the vegetables in the cleaning water tank 2 to the separating conveyer belt 4 under the driving of the supporting plate 41; the vegetables are driven by the separating conveyer belt 4 to move to the spraying conveyer belt 5, the conveying speed of the spraying conveyer belt 5 is 0.1m/s, and the spraying gun 51 sprays and cleans the vegetables.

And step four, a draining process, namely moving the vegetables to a draining conveyer belt 6 through the spraying conveyer belt 5 in the step three, wherein the conveying speed of the draining conveyer belt 6 is 0.03 m/s.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications of the present embodiment without inventive contribution as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present invention.

Claims

1. An automatic vegetable washing process capable of saving water is characterized in that: the method comprises the following steps:

the method comprises the following steps: a feeding procedure, namely arranging the vegetables to be cleaned, uniformly placing the vegetables on a feeding conveyor belt (1), wherein the conveying speed of the feeding conveyor belt (1) is 0.1-0.15 m/s;

step two: a cleaning procedure, namely moving the vegetables into a cleaning water tank (2) through the feeding conveyor belt (1) in the step one, adjusting the rotating speed of a stirring shaft (3) to be 30-40rpm, rotating the vegetables in the cleaning water tank (2) under the rotation of the stirring shaft (3), and stirring and cleaning for 30-50 s;

step three: in the spraying process, after the vegetables are stirred and cleaned by the stirring shaft (3) in the second step, the separation conveyor belt (4) is started, and the vegetables in the cleaning water tank (2) are driven by the supporting plate (41) to move to the separation conveyor belt (4); the vegetables are driven by the separating conveyer belt (4) to move to the spraying conveyer belt (5), the conveying speed of the spraying conveyer belt (5) is 0.05-0.1m/s, and the spraying and cleaning are carried out by a water spraying gun (51);

step four: draining, namely moving the vegetables to a draining conveyer belt (6) through a spraying conveyer belt (5) in the third step, wherein the conveying speed of the draining conveyer belt (6) is 0.01-0.03 m/s;

step five: and a discharging procedure, namely moving the vegetables to a material receiving area through the draining conveyer belt (6) in the fourth step, and classifying the vegetables by an operator.

2. The automatic water-saving vegetable washing process according to claim 1, characterized in that: the separation conveying belt (4) in the third step is a metal belt with a through hole (7), and a guide plate (42) used for guiding water to the cleaning water tank (2) is fixedly connected in the separation conveying belt (4).

3. The automatic water-saving vegetable washing process according to claim 1, characterized in that: the feeding conveyor belt (1) in the step one, the spraying conveyor belt (5) in the step three and the draining conveyor belt (6) in the step four are all metal belts with through holes (7), drainage plates (8) are obliquely arranged below the feeding conveyor belt (1), the spraying conveyor belt (5) and the draining conveyor belt (6), and a water storage tank (9) is arranged below the drainage plates (8).

4. The automatic water-saving vegetable washing process according to claim 3, characterized in that: the level is provided with filter layer (91) in storage water tank (9), the outside of filter layer (91) is around being equipped with fixed frame (911), the inside wall of storage water tank (9) can be dismantled and be connected with fixed block (92) that are used for supporting fixed frame (911), the level is provided with water purification filter membrane (93) in storage water tank (9), the outside of water purification filter membrane (93) is around being equipped with firm frame (931), the inside wall of storage water tank (9) can be dismantled and be connected with supporting shoe (94) that are used for supporting firm frame (931).

5. The automatic water-saving vegetable washing process according to claim 4, characterized in that: fixed frame (911) encircle fixedly connected with first rubber pad (9111) all around, the fixedly connected with second rubber pad (9311) is encircleed all around to firm frame (931).

6. The automatic water-saving vegetable washing process according to claim 4, characterized in that: fixed block (92) and supporting shoe (94) are the magnetic part, fixed frame (911) magnetism meets in fixed block (92), firm frame (931) magnetism meets in supporting shoe (94).

7. The automatic water-saving vegetable washing process according to claim 3, characterized in that: and water baffles (81) are fixedly connected to the two sides of the drainage plate (8) along the length direction of the drainage plate respectively, and the water baffles (81) are vertically arranged on the drainage plate (8).

8. The automatic water-saving vegetable washing process according to claim 1, characterized in that: and the lower surface of the cleaning water tank (2) in the step two is connected with a recovery water pipe (21), one end of the recovery water pipe (21), which is far away from the cleaning water tank (2), extends into the water storage tank (9), and the recovery water pipe (21) is provided with a through-stop valve (211).

9. The automatic water-saving vegetable washing process according to claim 3, characterized in that: the bottom of drain bar (8) is equipped with and gathers water pipe (82), the one end of gathering water pipe (82) is just to the bottom of drain bar (8), gather the one end that drain bar (8) were kept away from in water pipe (82) and stretch in storage water tank (9).