Disclosure of Invention
For solving above-mentioned technical problem, providing a tomato belt cleaning device, above-mentioned problem has been solved to this technical scheme, drives the basket mounting bracket area through vibration mechanism and expects the basket and vibrate in the horizontal direction, and wiper mechanism passes through vortex and ultrasonic wave's cooperation, has improved the cleaning performance, and degree of automation is high, has reduced the human cost.
In order to achieve the above purposes, the technical scheme adopted by the invention is as follows:
a tomato cleaning device is characterized by comprising a rack, a first working box, a second working box, a lifting driving mechanism, a cleaning mechanism, a material basket mounting frame, a material basket, a vibrating mechanism and an air drying mechanism;
a liquid inlet is formed in the side wall of the first working box and is installed on the rack;
the second working box is arranged on the first working box and communicated with the second working box, and openings for feeding and discharging the material basket are arranged on two sides of the second working box;
the lifting driving mechanism is arranged at the top end of the second working box and used for driving the material basket mounting rack to lift;
the cleaning mechanism is arranged in the second working box and used for cleaning the tomatoes in the material basket;
the material basket mounting frame is in threaded connection with the driving end of the lifting driving mechanism along the vertical direction and is used for mounting the material basket;
the material basket is arranged on the material basket mounting frame and used for placing the tomatoes;
the vibrating mechanism is arranged on the first working box, and the working end intermittently collides with the side wall of the material basket mounting frame in a working state so as to drive the material basket mounting frame to vibrate in the horizontal direction;
air-dry mechanism, the output is installed on second work box top for accomplish abluent tomato in the air-dry basket.
Preferably, the first working box comprises a trapezoidal section, a circular groove section and a rotary driving section;
the trapezoidal section is positioned at the top end of the first working box and used for installing the vibration mechanism and guiding the basket mounting frame to reset in the middle;
the circular groove section is positioned below the trapezoidal section, the inner wall of the circular groove section is provided with a spiral groove, and the top of the circular groove section and the bottom of the trapezoidal section form a bearing platform structure which is used for being matched with a cleaning mechanism to clean the tomatoes;
and the rotary driving section is positioned at the bottom of the circular groove section and is used for installing a cleaning mechanism.
Preferably, the lifting driving mechanism comprises a lead screw, a guide rod, a synchronous transmission assembly and a rotary driver;
the screw rods are provided with a pair of screw rods, are symmetrically arranged at the two ends of one diagonal line of the material basket mounting frame, are vertical in axis, are respectively rotatably connected with the top end of the second working box and the first working box at the two ends and are used for driving the material basket mounting frame to do lifting motion in the vertical direction;
the guide rods are provided with a pair of pairs and symmetrically arranged at two ends of the other diagonal line of the material basket mounting rack, the axis of the guide rods is parallel to the axis of the screw rod, and the two ends of the guide rods are fixedly connected with the top end of the second working box and the first working box and used for guiding the movement direction of the material basket mounting rack;
the synchronous transmission assembly is arranged at the top end of the second working box, and the output end of the synchronous transmission assembly is fixedly connected with the top ends of the lead screws and the guide rods and is used for synchronously driving the pair of lead screws to rotate;
and the rotary driver is arranged at the top end of the second working box, and the output shaft is fixedly connected with the input end of the synchronous transmission assembly and used for driving the synchronous transmission assembly to work.
Preferably, the synchronous transmission assembly comprises a transmission shaft, a double-layer synchronous wheel and a synchronous belt;
the four transmission shafts are provided, the bottom ends of the four transmission shafts are fixedly connected with the lead screw and the top end of the guide rod, and any one top end connected with the lead screw is fixedly connected with the output shaft of the rotary driver;
the double-layer synchronous wheel is sleeved on the transmission shaft, is fixedly connected with the transmission shaft connected with the lead screw, and is rotatably connected with the transmission shaft connected with the guide rod;
and two ends of the synchronous belt are in transmission connection with two double-layer synchronous wheels on the same side of the material basket mounting frame.
Preferably, the cleaning mechanism comprises an impeller, a water outlet pipe, a worm and gear driving assembly, an ultrasonic generator and a circulating filter assembly;
the impeller is rotatably arranged at the bottom position in the first working box and is used for forming vortex;
the water outlet pipe is arranged at the bottom of the impeller and is rotationally connected with the bottom of the first working tank, so that the inside of the first working tank is communicated with the outside to lead out the cleaning liquid;
the worm and gear driving assembly is arranged at the bottom of the first working box, and the output end of the worm and gear driving assembly is fixedly connected with the part of the water outlet pipe extending out of the first working box and used for driving the water outlet pipe to drive the impeller to rotate;
the working end of the ultrasonic generator is arranged in the first working box and is used for carrying out ultrasonic cleaning on the tomatoes;
and the input end of the circulating filter assembly is connected with the output end of the water outlet pipe, and the output end of the circulating filter assembly is fixedly connected with the liquid inlet of the first working box and used for filtering and circulating the used cleaning liquid.
Preferably, the worm gear and worm driving assembly comprises a worm gear, a worm and a second rotary driver;
the worm wheel is sleeved on the part of the water outlet pipe extending out of the bottom of the first working box;
two ends of the worm are rotatably connected with two sides of the first working box and are meshed with the worm wheel;
and the second rotary driver is arranged on the outer wall of the first working box, and the output shaft is fixedly connected with the end part of the worm and used for driving the worm to rotate.
Preferably, the material basket mounting frame is provided with a sliding chute, a guide groove, a sliding block, a movable frame, a guide pillar, a connecting plate and a spring;
the sliding chute is arranged on the side wall of the material basket mounting frame along the horizontal direction;
the guide grooves are formed in the upper end and the lower end of the sliding groove;
the sliding block slides in the sliding groove, and the upper end and the lower end of the sliding block are connected with the guide groove in a sliding manner and are used for matching with the vibration of the movable frame in the vertical direction;
the movable frame is fixedly connected with the top end of the material basket and used for mounting the material basket;
the guide post is vertically arranged on the side wall of the movable frame, is in clearance fit with the slide block and is used for guiding the movement of the movable frame;
the connecting plate is arranged at the end part of the guide post and is used for enabling the movable frame to vibrate on the material basket mounting frame by virtue of the driving force of the vibration mechanism;
and the spring is sleeved on the guide post and is arranged between the outer wall of the movable frame and the inner side surface of the sliding block so as to reset the movable frame.
Preferably, the material basket is provided with a door leaf and a handle;
the door leaf is provided with a pair of opposite side wall positions arranged on the material basket, is used for controlling the opening and closing of the side wall of the material basket, corresponds to the opening position of the side wall of the second working box, is hinged with the bottom of the side wall of the material basket and is provided with a lock catch matched with the material basket, and can be lapped on the bottom of the opening of the side wall of the second working box in an opening state;
the handle is installed in the door leaf outside for improve the convenience of opening the door leaf.
Preferably, the vibration mechanism comprises a cam, a roller, a rotating shaft and a third rotary driver;
the cam is rotatably arranged in the first working box, the front end of the cam is provided with a rotating shaft for mounting the roller, and the rotating shaft is vertically arranged;
the roller is rotatably arranged on the rotating shaft at the front end of the cam and used for reducing the friction force between the front end of the cam and the side wall of the basket mounting frame so as to convert sliding friction into rolling friction;
the rotating shaft is arranged at the top end of the cam, is rotatably connected with the first working box and is used for connecting the cam to the first working box;
and the third rotary driver is arranged on the first working box, and the output shaft is fixedly connected with the end part of the rotating shaft and used for driving the rotating shaft to rotate.
Preferably, the air drying mechanism comprises an induced draft pipe, a fan and a heating assembly;
the output end of the induced draft pipe is communicated with the top end of the second working box, and a dust screen is arranged at the output end and used for introducing airflow to air-dry the tomatoes;
the output end of the fan is connected with the heating assembly;
and the output end of the heating assembly is connected with the input end of the induced draft pipe and used for heating the airflow generated by the fan.
Compared with the prior art, the invention has the beneficial effects that:
1. drive the basket mounting bracket through vibration mechanism and take the basket to vibrate in the horizontal direction, improved the cleaning performance, it is specific, vibration mechanism promotes the connecting plate lateral surface through the clearance in the horizontal direction and makes the guide pillar of fixed connection with it promote the adjustable shelf and do the motion of keeping away from connecting plate and vibration mechanism contact point, then drive the slider at the inside slip of spout with the guide pillar of this guide pillar other both sides perpendicularly. Hereby it is achieved that the movable frame vibrates in the whole plane. Compared with the prior art, the scheme has the advantages that the cleaning is more thorough;
2. the wiper mechanism passes through vortex and ultrasonic wave's cooperation, has further improved the cleaning performance, and is concrete, and controller send signal gives worm gear drive assembly, and worm gear drive assembly receives behind the signal and drives the impeller rotation through the outlet pipe, and the impeller makes the washing liquid form the vortex in the circular slot section of first work box, makes the vortex more stable with the help of the helicla flute on the circular slot section perisporium. The tomatoes in the material basket are cleaned through the contact of the vortex and the material basket. The controller makes the cleaning liquid vibrate at high speed through the ultrasonic generator so that the dirt attached to the surface of the tomato is dissolved in the cleaning liquid. The impeller and the ultrasonic generator can work independently or simultaneously, and the cleaning effect is improved together.
Detailed Description
The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art.
As shown in fig. 1 and 4, a tomato cleaning device comprises a frame 1, a first working box 2, a second working box 3, a lifting driving mechanism 4, a cleaning mechanism 5, a basket mounting frame 6, a basket 7, a vibrating mechanism 8 and an air drying mechanism 9;
a liquid inlet is formed in the side wall of the first working box 2 and is installed on the rack 1;
the second working box 3 is arranged on the first working box 2 and is communicated with the second working box 3, and openings for feeding and discharging the material basket 7 are formed in the two sides of the second working box;
the lifting driving mechanism 4 is arranged at the top end of the second working box 3 and used for driving the material basket mounting rack 6 to lift;
the cleaning mechanism 5 is arranged in the second working box 3 and used for cleaning the tomatoes in the material basket 7;
the material basket mounting frame 6 is in threaded connection with the driving end of the lifting driving mechanism 4 along the vertical direction and is used for mounting a material basket 7;
the material basket 7 is arranged on the material basket mounting frame 6 and used for placing the tomatoes;
the vibrating mechanism 8 is arranged on the first working box 2, and the working end intermittently collides with the side wall of the material basket mounting frame 6 in a working state so as to drive the material basket mounting frame 6 to vibrate in the horizontal direction;
and the air drying mechanism 9 is provided with an output end which is arranged at the top end of the second working box 3 and used for air drying the tomatoes which are cleaned in the material basket 7.
The lifting driving mechanism 4, the cleaning mechanism 5, the vibrating mechanism 8 and the air drying mechanism 9 are all electrically connected with the controller. In the initial state, the basket mount 6 is located at the top end position in the first work box 2. The staff puts into the tomato that treats the washing in the basket 7 through opening set up in second work box 3 both sides. Then the staff sends the signal to the lifting driving mechanism 4 through the controller, and the lifting driving mechanism 4 drives the material basket mounting frame 6 to take the material basket 7 to vertically descend into the first working box 2 after receiving the signal. Meanwhile, the controller injects cleaning liquid, usually clean water, into the first work tank 2 through the cleaning mechanism 5. When the material basket mounting frame 6 carries the material basket 7 to the stroke end, the material basket 7 is submerged below the liquid level of the cleaning liquid. The controller sends a signal to the vibration mechanism 8, and the vibration mechanism 8 intermittently drives the material basket mounting frame 6 to drive the material basket 7 to vibrate in the horizontal direction after receiving the signal. The controller sends a signal to the cleaning mechanism 5, and the cleaning mechanism 5 cleans the tomatoes in the material basket 7. After cleaning, the controller sends a signal to the lifting driving mechanism 4, and the lifting driving mechanism 4 receives the signal and drives the material basket mounting frame 6 to lift the material basket 7 to the top of the second working box 3. The controller sends a signal to the air drying mechanism 9, and the air drying mechanism 9 introduces airflow to dry the tomatoes in the material basket 7 after receiving the signal. After the air drying is finished, the worker opens the material basket 7 to take out the tomatoes.
As shown in fig. 5, the first work box 2 includes a trapezoidal section 2a, a circular groove section 2b and a rotary driving section 2 c;
the trapezoidal section 2a is positioned at the top end of the first working box 2 and used for installing the vibration mechanism 8 and guiding the basket mounting frame 6 to reset in the middle;
the circular groove section 2b is positioned below the trapezoidal section 2a, the inner wall of the circular groove section is provided with a spiral groove, and the top of the circular groove section and the bottom of the trapezoidal section 2a form a bearing platform structure which is used for being matched with the cleaning mechanism 5 to clean the tomatoes;
and the rotary driving section 2c is positioned at the bottom of the circular groove section 2b and is used for installing the cleaning mechanism 5.
The side wall inclined plane structure of trapezoidal section 2a can play the effect of guide to basket mounting bracket 6 when basket mounting bracket 6 rises, resets between two parties when making basket mounting bracket 6 get into second work box 3, and the staff of being convenient for is to carrying out the material loading unloading in second work box 3. The structure of the circular groove section 2b can be matched with the cleaning mechanism 5 to form a vortex to thoroughly clean the tomatoes in the material basket 7. The rotary driving section 2c is used for fixing the driving end of the cleaning mechanism 5, and the cleaning liquid is driven to form a vortex by the force output by the driving end of the cleaning mechanism 5.
As shown in fig. 2 and 6, the lifting driving mechanism 4 includes a lead screw 4a, a guide rod 4b, a synchronous transmission assembly 4c and a rotary driver 4 d;
the screw rods 4a are provided with a pair of screw rods, are symmetrically arranged at two ends of a diagonal line of the material basket mounting frame 6, are vertical in axis, are respectively rotatably connected with the top end of the second working box 3 and the first working box 2 at two ends and are used for driving the material basket mounting frame 6 to do lifting motion in the vertical direction;
the guide rods 4b are provided with a pair of pairs and are symmetrically arranged at the two ends of the other diagonal line of the material basket mounting frame 6, the axis of each guide rod is parallel to the axis of the screw rod 4a, and the two ends of each guide rod are fixedly connected with the top end of the second working box 3 and the first working box 2 so as to guide the movement direction of the material basket mounting frame 6;
the synchronous transmission assembly 4c is arranged at the top end of the second working box 3, and the output end of the synchronous transmission assembly is fixedly connected with the top ends of the lead screws 4a and the guide rods 4b and used for synchronously driving the pair of lead screws 4a to rotate;
and the rotary driver 4d is arranged at the top end of the second working box 3, and an output shaft is fixedly connected with the input end of the synchronous transmission component 4c and used for driving the synchronous transmission component 4c to work.
The rotary driver 4d is a servo motor electrically connected to the controller and provided with a speed reducer. The controller sends a signal to the rotary driver 4d, the rotary driver 4d receives the signal and then synchronously drives a pair of screw rods 4a positioned at two ends of the diagonal line of the material basket mounting frame 6 through the synchronous transmission assembly 4c, and the material basket mounting frame 6 is driven to stably lift in the vertical direction by means of the guiding action of a pair of guide rods 4b on the other diagonal line.
As shown in fig. 6, the synchronous transmission assembly 4c comprises a transmission shaft 4c1, a double-layer synchronous wheel 4c2 and a synchronous belt 4c 3;
the four transmission shafts 4c1 are provided, the bottom ends of the transmission shafts are fixedly connected with the top ends of the lead screws 4a and the guide rods 4b, and any one top end connected with the lead screw 4a is fixedly connected with the output shaft of the rotary driver 4 d;
the double-layer synchronizing wheel 4c2 is sleeved on the transmission shaft 4c1, is fixedly connected with the transmission shaft 4c1 connected with the screw rod 4a and is rotatably connected with the transmission shaft 4c1 connected with the guide rod 4 b;
two ends of the synchronous belt 4c3 are in transmission connection with two double-layer synchronous wheels 4c2 on the same side of the material basket mounting rack 6.
The double-layer synchronizing wheel 4c2 can avoid the mutual interference of two synchronous belts 4c3 connected to the same double-layer synchronizing wheel 4c 2. The transmission directions of two synchronous belts 4c3 connected with the same double-layer synchronous wheel 4c2 are perpendicular to each other. The rotary driver 4d drives the transmission shaft 4c1 fixedly connected with the top end of the lead screw 4a to rotate, and the transmission shaft 4c1 drives the lead screw 4a and the double-layer synchronous wheel 4c2 sleeved on the transmission shaft 4c1 to rotate. The other three double-layer synchronizing wheels 4c2 are driven to rotate by the action of the synchronizing belt 4c3, so that the pair of lead screws 4a on the diagonal line rotate synchronously.
As shown in fig. 2 and 7, the cleaning mechanism 5 includes an impeller 5a, a water outlet pipe 5b, a worm and gear drive assembly 5c, an ultrasonic generator and a circulating filter assembly;
an impeller 5a rotatably provided at a bottom position in the first working tank 2 to form a vortex;
the water outlet pipe 5b is arranged at the bottom of the impeller 5a and is rotationally connected with the bottom of the first working box 2, so that the interior of the first working box 2 is communicated with the outside to lead out the cleaning liquid;
the worm and gear driving assembly 5c is arranged at the bottom of the first working box 2, and the output end of the worm and gear driving assembly is fixedly connected with the part of the water outlet pipe 5b extending out of the first working box 2 and used for driving the water outlet pipe 5b to drive the impeller 5a to rotate;
the working end of the ultrasonic generator is arranged in the first working box 2 and is used for carrying out ultrasonic cleaning on the tomatoes;
and the input end of the circulating filter assembly is connected with the output end of the water outlet pipe 5b, and the output end of the circulating filter assembly is fixedly connected with the liquid inlet of the first working box 2 and used for filtering and circulating the used cleaning liquid.
The worm and gear driving component 5c, the ultrasonic generator and the circulating filter component are all electrically connected with the controller. The circulating filter assembly is a circulating structure formed by a common water pump, a common filter box and a connecting pipeline, and is not described herein. The ultrasonic generator and the circulating filter assembly are not shown in the figure. The bottom end of the water outlet pipe 5b is also provided with an electromagnetic valve electrically connected with the controller, and the side wall of the bottommost end of the part of the water outlet pipe 5b extending into the impeller 5a is provided with a via hole so as to thoroughly discharge the cleaning liquid in the first working box 2. The controller sends a signal to the worm and gear driving component 5c, the worm and gear driving component 5c receives the signal and then drives the impeller 5a to rotate through the water outlet pipe 5b, the impeller 5a enables cleaning liquid to form vortex in the circular groove section 2b of the first working box 2, and the vortex is more stable by means of the spiral groove on the peripheral wall of the circular groove section 2 b. The tomatoes in the material basket 7 are cleaned by the contact of the vortex and the material basket 7. The controller makes the cleaning liquid vibrate at high speed through the ultrasonic generator so that the dirt attached to the surface of the tomato is dissolved in the cleaning liquid. The impeller 5a and the ultrasonic generator can work independently or simultaneously, and the cleaning effect is improved together. The cleaning liquid after cleaning is filtered by the circulating filter assembly and then enters the first working box 2 again for repeated circulating work, so that the utilization rate is high, and the energy-saving and environment-friendly effects are achieved.
As shown in fig. 8, the worm gear-worm drive assembly 5c includes a worm wheel 5c1, a worm 5c2, and a second rotary driver 5c 3;
the worm wheel 5c1 is sleeved on the part of the water outlet pipe 5b extending out of the bottom of the first working box 2;
two ends of the worm 5c2 are rotationally connected with two sides of the first working box 2 and are meshed with the worm wheel 5c 1;
and the second rotary driver 5c3 is arranged on the outer wall of the first working box 2, and the output shaft is fixedly connected with the end part of the worm 5c2 and used for driving the worm 5c2 to rotate.
The second rotary actuator 5c3 is a servo motor electrically connected to the controller and provided with a speed reducer. The controller sends a signal to the second rotary driver 5c3, the second rotary driver 5c3 drives the worm 5c2 to rotate, and the worm 5c2 drives the worm wheel 5c1 to drive the water outlet pipe 5b to rotate.
As shown in fig. 9, the basket mounting bracket 6 is provided with a chute 6a, a guide groove 6b, a slide block 6c, a movable bracket 6d, a guide post 6e, a connecting plate 6f and a spring 6 g;
the sliding chute 6a is arranged on the side wall of the basket mounting frame 6 along the horizontal direction;
guide grooves 6b provided at upper and lower ends of the slide groove 6 a;
the sliding block 6c slides in the sliding groove 6a, and the upper end and the lower end of the sliding block are connected with the guide groove 6b in a sliding mode and used for matching with the vibration of the movable frame 6d in the vertical direction;
the movable frame 6d is fixedly connected with the top end of the material basket 7 and used for mounting the material basket 7;
the guide post 6e is vertically arranged on the side wall of the movable frame 6d, is in clearance fit with the slide block 6c and is used for guiding the movement of the movable frame 6 d;
a connecting plate 6f mounted on an end of the guide post 6e for vibrating the movable frame 6d on the basket mount 6 by a driving force of the vibrating mechanism 8;
and the spring 6g is sleeved on the guide post 6e and is arranged between the outer wall of the movable frame 6d and the inner side surface of the sliding block 6c so as to reset the movable frame 6 d.
The top end of the connecting plate 6f is provided with a chamfer, and the connecting plate can be reset in the middle when the material basket mounting frame 6 moves upwards integrally through the matching with the inner wall of the trapezoidal section 2a of the first working box 2. The vibrating mechanism 8 pushes the outer side surface of the connecting plate 6f at a gap in the horizontal direction to make the guide post 6e fixedly connected with the connecting plate push the movable frame 6d to move away from the contact point of the connecting plate 6f and the vibrating mechanism 8, and the guide posts 6e on the other two sides perpendicular to the guide post 6e drive the sliding block 6c to slide in the sliding groove 6 a. Thereby, the movable frame 6d can be vibrated over the entire plane.
As shown in fig. 10, the basket 7 is provided with a door leaf 7a and a handle 7 b;
the door leaf 7a is provided with a pair of door leaves which are arranged on the material basket 7 at a pair of opposite side wall positions and used for controlling the opening and closing of the side wall of the material basket 7, correspond to the opening position of the side wall of the second working box 3, are hinged with the bottom of the side wall of the material basket 7 and are provided with lock catches matched with the material basket 7, and can be lapped on the bottom of the opening of the side wall of the second working box 3 in an opening state;
and a handle 7b installed at an outer side of the door 7a to improve convenience in opening the door 7 a.
The lock catch on the door 7a is not shown in the drawings, and is a conventional structure. When the material basket 7 moves to the highest position in the second working box 3, the door leaf 7a is opposite to the openings at the two sides of the second working box 3. The staff opens door leaf 7a, then promotes the tomato from one side, makes the tomato follow the opposite side roll-off, makes things convenient for the material loading unloading. The door leaf 7a lapped on the bottom edge of the opening on the side wall of the second working box 3 also plays a role of a supporting plate for guiding the loading and unloading of tomatoes.
As shown in fig. 11, the vibration mechanism 8 includes a cam 8a, a roller 8b, a rotation shaft 8c, and a third rotary driver 8 d;
the cam 8a is rotatably arranged in the first working box 2, the front end of the cam is provided with a rotating shaft for mounting the roller 8b, and the rotating shaft is vertically arranged;
the roller 8b is rotatably arranged on a rotating shaft at the front end of the cam 8a and is used for reducing the friction force between the front end of the cam 8a and the side wall of the basket mounting frame 6 so as to convert sliding friction into rolling friction;
a rotating shaft 8c installed at the top end of the cam 8a and rotatably connected to the first working chamber 2 for connecting the cam 8a to the first working chamber 2;
and a third rotary driver 8d installed on the first working box 2, wherein an output shaft is fixedly connected with the end of the rotating shaft 8c and used for driving the rotating shaft 8c to rotate.
The third rotary driver 8d is a servo motor electrically connected to the controller and provided with a speed reducer. When the material basket mounting frame 6 descends to a preset position, the controller sends a signal to the third rotary driver 8d, the third rotary driver 8d drives the rotary shaft 8c to rotate after receiving the signal, the rotary shaft 8c drives the cam 8a to rotate, and the cam 8a drives the idler wheels 8b to intermittently collide with the connecting plate 6f of the material basket mounting frame 6, so that the material basket mounting frame 6 drives the material basket 7 to vibrate. The friction force generated by collision is reduced by arranging the roller 8b, and the service life of the device is prolonged.
As shown in fig. 3, the air drying mechanism 9 includes an induced air duct 9a, a blower and a heating assembly;
the output end of the induced air pipe 9a is communicated with the top end of the second working box 3, and a dustproof net is arranged at the output end and used for introducing air flow to air-dry the tomatoes;
the output end of the fan is connected with the heating assembly;
and the output end of the heating component is connected with the input end of the induced draft tube 9a and used for heating the airflow generated by the fan.
The fan and the heating component are electrically connected with the controller. The heating component is a common heating resistance wire installed in the heating box. The controller controls the switch of the heating assembly to switch the air drying cold and hot mode. The induced draft tube 9a introduces the airflow generated by the fan into the second working box 3 to air-dry the tomatoes. The dust screen at the output end of the induced duct 9a effectively avoids secondary pollution to the tomatoes, which is not shown in the figure.
The device realizes the functions of the invention through the following steps, thereby solving the technical problems provided by the invention:
step one, under the initial state, the material basket installation frame 6 is positioned at the top end position in the first working box 2. The staff puts into the tomato that treats the washing in the basket 7 through opening set up in second work box 3 both sides.
And step two, the worker sends a signal to the lifting driving mechanism 4 through the controller, and the lifting driving mechanism 4 drives the material basket mounting frame 6 to drive the material basket 7 to vertically descend into the first working box 2 together after receiving the signal. Meanwhile, the controller injects cleaning liquid, usually clean water, into the first work tank 2 through the cleaning mechanism 5.
And step three, when the material basket mounting frame 6 drives the material basket 7 to move to the stroke end, the material basket 7 is submerged below the liquid level of the cleaning liquid. The controller sends a signal to the vibration mechanism 8, and the vibration mechanism 8 intermittently drives the material basket mounting frame 6 to drive the material basket 7 to vibrate in the horizontal direction after receiving the signal.
And step four, the controller sends a signal to the cleaning mechanism 5, and the cleaning mechanism 5 cleans the tomatoes in the material basket 7.
And step five, after the cleaning is finished, the controller sends a signal to the lifting driving mechanism 4, and the lifting driving mechanism 4 drives the material basket mounting frame 6 to drive the material basket 7 to lift back to the top of the second working box 3 after receiving the signal.
And step six, the controller sends a signal to the air drying mechanism 9, and the air drying mechanism 9 introduces air flow to dry the tomatoes in the material basket 7 after receiving the signal. After the air drying is finished, the worker opens the material basket 7 to take out the tomatoes.
The foregoing has described the general principles, principal features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the invention, but that various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.