CN112704251A - Spin dryer and using method - Google Patents

Abstract

The invention discloses a spin dryer and a using method thereof, the structure of the spin dryer comprises a base, a dish inlet cylinder, a cylinder cover, a control panel, a drain pipe, a spin dryer inner container, a motor, a centrifugal clutch and a moisture content induction automatic adjusting mechanism, the spin dryer inner container vertically penetrates through an inner cavity of the dish inlet cylinder, the centrifugal clutch is fixedly welded at the rightmost part of the inner bottom surface of the base, the centrifugal clutch transversely penetrates through the upper part of the inner cavity of the base and is in a mechanical connection state with the motor, and the water content induction automatic adjusting mechanism is movably connected to the left part of the inner cavity of the base.

Description

Spin dryer and using method

The application is a divisional application of a novel vegetable drying machine for vegetable processing, wherein the application date is 2018, 5, month and 3, and the application number is CN 201810416054.4.

Technical Field

The invention relates to the field, in particular to a spin dryer and a using method thereof.

Background

The processing of the fruits and the vegetables is realized by various processing technologies, so that the fruits and the vegetables can be stored for a long time, are not damaged and can be taken for use at any time. The processing trends of fruits and vegetables at home and abroad mainly comprise functional fruit and vegetable products, fresh-cut fruits and vegetables, dehydrated fruits and vegetables, grain-vegetable composite food, extraction of functional components of the fruits and vegetables, processing of fruit and vegetable juice, comprehensive utilization of the fruits and vegetables and the like. Fresh-cut fruits and vegetables are also called as the minimum processing of fruits and vegetables, and refer to a novel fruit and vegetable processing product which is obtained by carrying out the working procedures of cleaning, trimming, fresh-cutting and the like on fresh vegetables and fruit raw materials, and finally packing the fresh vegetables and the fruit raw materials by a plastic film bag or a plastic tray which is filled with an outer plastic film for being eaten by consumers immediately. The fruit and vegetable products are not subjected to thermal processing treatment, only properly subjected to peeling, cutting, trimming and the like, are still living, can perform respiration, and have the characteristics of freshness, convenience and 100% edible capacity. The traditional vegetable spin dryer has the advantages of higher working noise, larger vibration in the working process and easy damage, and a novel vegetable spin dryer for processing vegetables with simple structure and low working noise is needed.

However, in the process of performing the spin-drying operation on the processed vegetables in the prior art, although the structure is simple and the working noise is low, the water content of the vegetables in the inner container of the spin-drying machine of the equipment cannot be measured in real time, and the working current of the centrifugal shaft motor is automatically adjusted according to the water content, so that the working state of the centrifugal shaft cannot meet the actual vegetable spin-drying requirement, the vegetable spin-drying quality of the equipment cannot be guaranteed, and the practicability is insufficient.

Disclosure of Invention

The invention aims to provide a spin dryer and a using method thereof, aiming at solving the problems that in the process of spin-drying processed vegetables, although the structure is simple and the working noise is low, the water content of the vegetables in the inner container of the spin dryer of the equipment cannot be measured in real time and the working current of a centrifugal shaft motor is automatically adjusted according to the water content, the working state of the centrifugal shaft can possibly not meet the actual vegetable spin-drying requirement, so that the vegetable spin-drying quality of the equipment cannot be ensured, and the practicability is insufficient in the prior art.

In order to achieve the purpose, the invention is realized by the following technical scheme: a spin dryer and a using method thereof, the structure of the spin dryer comprises a base, a dish inlet cylinder, a cylinder cover, a control panel, a drain pipe, a spin dryer inner container, a motor, a centrifugal clutch and a moisture content induction automatic adjusting mechanism, wherein the dish inlet cylinder is vertically connected to the right part of the upper end surface of the base and is communicated with the inside of the base, the cylinder cover is movably connected to the upper end surface of the dish inlet cylinder, the control panel is fixedly connected to the upper left part of the front end surface of the base, the drain pipe is movably connected to the rear end surface of the base and is communicated with the inside of the base, the spin dryer inner container vertically penetrates through an inner cavity of the dish inlet cylinder, the motor is fixedly welded to the rightmost part of the inner bottom surface of the base, the centrifugal clutch transversely penetrates through the upper part of the inner cavity of the base and is in a mechanical connection state with the motor, the moisture content induction automatic adjusting mechanism is movably connected to, the automatic moisture content sensing and adjusting mechanism comprises a moisture measuring and conducting structure, a rotating and connecting device, a sliding control device, a gear transmission structure and a rheostat connecting structure, wherein the right half part of the moisture measuring and conducting structure is fixedly connected to the left end surface of the inner container of the spin dryer and vertically penetrates into the inner container of the spin dryer, the right half part of the moisture measuring and conducting structure is fixedly connected to the middle of the inner top surface of the base, the rotating and connecting device is movably connected to the middle of the inner left surface of the base, the sliding control device is movably connected to the right end of the rotating and connecting device, the gear transmission structure is movably connected to the left bottom of the inner bottom surface of the base, the rheostat connecting structure is fixedly connected to the right middle of the inner bottom surface of the base, and the moisture measuring and conducting structure comprises a moisture measuring instrument, a signal output converter, a control, the water content tester is fixedly connected to the left end surface of the inner container of the spin dryer and vertically penetrates into the inner container of the spin dryer, the signal output converter is fixedly connected to the middle of the inner top surface of the base and is electrically connected with the water content tester through a connecting wire, the control rotating shaft is fixedly connected to the middle of the front end surface of the signal output converter and is electrically connected with the signal output converter, the control rotating frame is movably nested on the outer side surface of the control rotating shaft and extends towards the lower end of the control rotating shaft, the inner pulley structure is movably connected to the lowest position of the inner cavity of the control rotating frame and is movably nested on the outer side surface of the inner cavity of the control rotating frame with a connecting rope.

Further, it comprises horizontal mount, rotation wheel pivot, wire winding roller device, rotation wheel to rotate connecting device, horizontal mount is connected perpendicularly in the inside left surface of base department of going up, it connects perpendicularly in the middle of the lower extreme surface of horizontal mount to rotate the wheel pivot, wire winding roller device activity nestification is in the middle of the outside surface of rotating the wheel pivot, it nests in the outside surface lower part of rotating the wheel pivot to rotate the wheel activity, wire winding roller device is through activity nested in the connection rope and the interior pulley structure swing joint of its outside surface, the outside surface activity nested of rotating the wheel has driving belt.

Further, the slip control device comprises horizontal slide rail, horizontal sliding rod, sliding connection frame, meshing tooth, first gear output shaft, teeth of a cogwheel structure, horizontal slide rail vertical connection is in the middle of the inside partition plate left end surface of base, horizontal sliding rod horizontal sliding connection is in the spout on horizontal slide rail front end surface, sliding connection frame swing joint is in the lower extreme surface of horizontal sliding rod, meshing tooth even equidistance distributes on sliding connection frame's inboard upper and lower terminal surface, first gear swing joint is in the middle of sliding connection frame's inboard surface department, first gear output shaft mechanical connection is in the front end surface center department of first gear, the teeth of a cogwheel structure even equidistance distributes in the outside surface edge of first gear.

Furthermore, the outer side surface of the first gear output shaft is movably nested with a transmission belt, the first gear is movably connected with the rotating wheel through the transmission belt, and the sliding connection frame and the first gear are movably connected through the meshing action between the meshing teeth and the gear tooth structure.

Further, gear drive structure comprises driving tooth, second gear mount, second gear, vertical mount, third gear output shaft, the even equidistance of driving tooth distributes in the lower extreme surface of sliding connection frame, second gear mount is connected perpendicularly in the inside division board left end surface of base under in, second gear swing joint is in the left end surface of second gear mount, vertical mount vertical connection is in the interior bottom surface left part of base, the third gear mount passes through pre-compaction bolt vertical connection in the middle of the right-hand member surface of vertical mount, third gear swing joint is in the right-hand member surface of third gear mount, third gear output shaft mechanical connection is in the front end surface center department of third gear.

Further, the even equidistance of outside surface edge of second gear, third gear is arranged and is had the teeth of a cogwheel structure, second gear, third gear pass through the meshing swing joint between the teeth of a cogwheel structure, the second gear is the meshing connection state through the driving tooth of teeth of a cogwheel structure and sliding connection frame, the outside surface activity nestification of third gear output shaft has drive belt.

Furthermore, the rheostat connecting structure consists of a fourth gear fixing frame, a fourth gear input shaft, a disk rheostat and a conductive sliding head, the fourth gear fixing frame is vertically connected to the right part in the inner bottom surface of the base, the fourth gear is movably connected to the upper end surface of the fourth gear fixing frame, the fourth gear input shaft is mechanically connected to the center of the front end surface of the fourth gear, a transmission belt is movably nested on the outer side surface of the fourth gear input shaft, the fourth gear is movably connected with the third gear through a transmission belt, the disk rheostat is fixedly connected to the right part of the inner bottom surface of the base, the conductive sliding head is movably connected with the center of the front end surface of the disk rheostat, the outer surface of the conductive sliding head is movably nested with a transmission belt, the disk rheostat is electrically connected with a junction box of the motor, and the conductive sliding head is movably connected with the fourth gear through a transmission belt.

Furthermore, the moisture tester measures the moisture content of the vegetables in the inner container of the spin dryer in real time and outputs the result to the signal output converter, the signal output converter controls the rotating frame to rotate upwards in different amplitudes around the control rotating shaft according to the moisture content, so that the inner pulley structure pulls the connecting ropes on the outer side surface of the inner pulley structure, the connecting ropes on the outer side surface of the winding roller device are pulled simultaneously and rotate around the rotating wheel rotating shaft, the rotating wheel rotates around the rotating wheel rotating shaft and enables the first gear to start rotating under the driving of the transmission belt, the sliding connecting frame moves rightwards in different amplitudes along the transverse sliding rail under the meshing action between the meshing teeth and the gear tooth structures, the second gear starts transmission under the meshing action between the gear tooth structures and transmits the transmission belt to the third gear, the conductive sliding head connected with the conductive sliding head through the transmission belt rotates to different degrees and enables the resistance of the disk rheostat to be adjusted, and then the current of the junction box of the motor is changed.

Advantageous effects

The invention provides a spin dryer and a using method thereof, which are characterized in that a moisture content induction automatic adjusting mechanism is arranged, the moisture content of vegetables in a spin dryer liner of equipment can be measured in real time and the working current of a centrifugal shaft motor can be automatically adjusted according to the moisture content, specifically, a moisture measuring instrument measures the moisture content of the vegetables in the spin dryer liner in real time and outputs the result to a signal output converter, the signal output converter controls a rotating frame to rotate upwards in different amplitudes around a control rotating shaft according to the moisture content, so that an inner pulley structure pulls connecting ropes on the outer side surface of the inner pulley structure, the connecting ropes on the outer side surface of a winding roller device are simultaneously pulled and rotate around a rotating wheel rotating shaft, the rotating wheel rotates around the rotating wheel rotating shaft and a first gear starts to rotate under the driving of a driving belt, the sliding connection frame moves in different ranges rightwards along the transverse sliding rail under the meshing action between the meshing teeth and the gear tooth structures, the second gear starts to drive under the meshing action between the gear tooth structures and drives the second gear to the third gear through the transmission belt, the conductive sliding head connected with the second gear through the transmission belt rotates in different degrees and enables the resistance of the disk rheostat to be adjusted, therefore, the current of the junction box of the motor changes accordingly, the working state of the centrifugal shaft is guaranteed to meet the actual vegetable spin-drying requirement, the vegetable spin-drying quality of the equipment is guaranteed, and the practicability of the equipment is effectively improved.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic perspective view of a dryer and a method of using the dryer.

FIG. 2 is a schematic view of the internal plane structure of the base and the vegetable inlet cylinder of the present invention.

FIG. 3 is a schematic plane structure diagram of the moisture content sensing automatic adjusting mechanism of the present invention.

FIG. 4 is a schematic view of another working state of the moisture content sensing automatic adjusting mechanism of the present invention.

FIG. 5 is a schematic view of the structure A of FIG. 3 according to the present invention.

The labels in the figures are: base-1, vegetable inlet cylinder-2, cylinder cover-3, control panel-4, drain pipe-5, drier inner container-6, motor-7, centrifugal clutch-8, moisture content induction automatic regulating mechanism-9, moisture content measuring conduction structure-91, rotation connection device-92, sliding control device-93, gear transmission structure-94, rheostat connection structure-95, moisture measuring instrument-911, signal output converter-912, control rotation shaft-913, control rotating frame-914, inner pulley structure-915, transverse fixing frame-921, rotating wheel rotation shaft-922, winding roller device-923, rotating wheel-924, transverse sliding rail-931, transverse sliding rod-932, sliding connection frame-933, water-vapor, The device comprises meshing teeth-934, a first gear-935, a first gear output shaft-936, a gear tooth structure-937, transmission teeth-941, a second gear fixing frame-942, a second gear-943, a vertical fixing frame-944, a third gear fixing frame-945, a third gear-946, a third gear output shaft-947, a fourth gear fixing frame-951, a fourth gear-952, a fourth gear input shaft-953, a disk rheostat-954 and a conductive sliding head-955.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Referring to fig. 1-5, the present invention provides a spin dryer and a using method thereof, the structure of which includes a base 1, a dish inlet cylinder 2, a cylinder cover 3, a control panel 4, a drain pipe 5, a spin dryer inner container 6, a motor 7, a centrifugal clutch 8, and a moisture content induction automatic adjusting mechanism 9, the dish inlet cylinder 2 is vertically connected to the right portion of the upper end surface of the base 1 and is communicated with the inside of the base 1, the cylinder cover 3 is movably connected to the upper end surface of the dish inlet cylinder 2, the control panel 4 is fixedly connected to the upper left portion of the front end surface of the base 1, the drain pipe 5 is movably connected to the rear end surface of the base 1 and is communicated with the inside of the base 1, the spin dryer inner container 6 is vertically penetrated through the inner cavity of the dish inlet cylinder 2, the motor 7 is fixedly welded to the rightmost portion of the inner bottom surface of the base 1, the centrifugal clutch 8 is transversely penetrated through the upper portion of the inner cavity of the base 1 and is in a mechanical connection, the water content sensing automatic adjusting mechanism 9 is movably connected to the left part of the inner cavity of the base 1, the water content sensing automatic adjusting mechanism 9 is composed of a water content measuring and conducting structure 91, a rotating connecting device 92, a sliding control device 93, a gear transmission structure 94 and a rheostat connecting structure 95, the right half part of the water content measuring and conducting structure 91 is fixedly connected to the left end surface of the inner container 6 of the spin dryer and vertically penetrates into the inner container 6 of the spin dryer, the right half part of the water content measuring and conducting structure is fixedly connected to the middle of the inner top surface of the base 1, the rotating connecting device 92 is movably connected to the middle of the left surface of the inner part of the base 1, the sliding control device 93 is movably connected to the right end of the rotating connecting device 92, the gear transmission structure 94 is movably connected to the left part of the inner bottom surface of the base 1, and the rheostat connecting structure, the moisture determination conduction structure 91 is composed of a moisture determination instrument 911, a signal output converter 912, a control rotation shaft 913, a control rotation frame 914 and an inner pulley structure 915, the moisture determination instrument 911 is fixedly connected to the left end surface of the dryer liner 6 and vertically penetrates into the dryer liner 6, the signal output converter 912 is fixedly connected to the middle of the inner top surface of the base 1 and is electrically connected with the moisture determination instrument 911 through a connecting line, the control rotation shaft 913 is fixedly connected to the middle of the front end surface of the signal output converter 912 and is electrically connected with the signal output converter 912, the control rotation frame 914 is movably nested on the outer side surface of the control rotation shaft 913 and extends towards the lower end of the control rotation shaft 913, the inner pulley structure 915 is movably connected to the lowest position of the inner cavity of the control rotation frame 914 and is movably nested on the outer side surface of the inner pulley structure, rotate connecting device 92 by horizontal mount 921, rotate a round pivot 922, wire winding roller device 923, rotate round 924 and constitute, horizontal mount 921 is connected perpendicularly in the inside left surface of base 1 and is gone up the department, it connects perpendicularly in the middle of the lower extreme surface of horizontal mount 921 to rotate round pivot 922, wire winding roller device 923 activity nests in the middle department of the outside surface of rotating round pivot 922, it nests in the outside surface lower part of rotating round pivot 922 to rotate round 924 activity, wire winding roller device 923 is through activity nested in the connecting rope and the interior pulley structure 915 swing joint of its outside surface, the outside surface activity nested of rotating round 924 has drive belt, slip controlling means 93 comprises horizontal slide rail 931, horizontal slide bar 932, slip connection frame 933, meshing tooth 934, first gear 935, first gear output shaft 936, teeth structure 937, the horizontal sliding rail 931 is vertically connected to the middle of the left end surface of the partition board inside the base 1, the horizontal sliding rod 932 is horizontally slidably connected to the sliding groove of the front end surface of the horizontal sliding rail 931, the sliding connection frame 933 is movably connected to the lower end surface of the horizontal sliding rod 932, the meshing teeth 934 are uniformly and equidistantly distributed on the upper and lower end surfaces of the inner side of the sliding connection frame 933, the first gear 935 is movably connected to the middle of the inner side surface of the sliding connection frame 933, the first gear output shaft 936 is mechanically connected to the center of the front end surface of the first gear 935, the gear tooth structures 937 are uniformly and equidistantly distributed on the edge of the outer side surface of the first gear 935, the outer side surface of the first gear output shaft 936 is movably nested with a transmission belt, the first gear 935 is movably connected with the rotating wheel 924 through the transmission belt, and the sliding connection frame 933, the first gear 935 are movably connected through, Meshing action swing joint between teeth of a cogwheel structure 937, gear drive structure 94 comprises driving tooth 941, second gear mount 942, second gear 943, vertical mount 944, third gear mount 945, third gear 946, third gear output shaft 947, driving tooth 941 evenly distributes in the lower extreme surface of sliding connection frame 933 at equidistance, second gear mount 942 is connected perpendicularly in the lower department in the inside division board left end surface of base 1, second gear 943 swing joint is in the left end surface of second gear mount 942, vertical mount 944 is connected perpendicularly in the interior bottom surface left portion of base 1, third gear mount 945 passes through pre-compaction bolt and connects perpendicularly in the middle of the right end surface of vertical mount 944, third gear 946 swing joint is in the right end surface of third gear mount 945, third gear output shaft 947 mechanical connection is in the front end surface center of third gear 946, gear tooth structures 937 are uniformly and equidistantly arranged at the edges of the outer side surfaces of the second gear 943 and the third gear 946, the second gear 943 and the third gear 946 are movably connected through meshing between the gear tooth structures 937, the second gear 943 is in a meshing connection state with transmission teeth 941 of a sliding connection frame 933 through the gear tooth structures 937, a transmission belt is movably nested on the outer side surface of the third gear output shaft 947, the rheostat connection structure 95 is composed of a fourth gear fixing frame 951, a fourth gear 952, a fourth gear input shaft 953, a disk rheostat 954 and a conductive sliding head 955, the fourth gear fixing frame 951 is vertically connected to the right part of the inner bottom surface of the base 1, the fourth gear 952 is movably connected to the upper end surface of the fourth gear fixing frame 951, the fourth gear input shaft 953 is mechanically connected to the center of the front end surface of the fourth gear 952, the outer side surface of the fourth gear input shaft 953 is movably nested with a transmission belt, the fourth gear 952 is movably connected with the third gear 946 through the transmission belt, the disk varistor 954 is fixedly connected to the right part of the inner bottom surface of the base 1, the conductive sliding head 955 is movably connected to the center of the front end surface of the disk varistor 954 and movably nested with the transmission belt on the outer side surface, the disk varistor 954 is electrically connected with the junction box of the motor 7, the conductive sliding head 955 is movably connected with the fourth gear 952 through the transmission belt, the moisture tester 911 measures the moisture content of the vegetables in the inner container 6 of the spin dryer in real time and outputs the result to the signal output converter 912, the signal output converter 912 controls the control rotating frame 914 to rotate upwards at different amplitudes 915 around the control rotating shaft 913 according to the moisture content, and then the inner pulley structure pulls the connecting rope on the outer side surface, the connecting rope on the outer surface of the wire winding roller device 923 is pulled at the same time and made to rotate around the rotating wheel rotating shaft 922, the rotating wheel 924 rotates around the rotating wheel rotating shaft 922 and made the first gear 935 start to rotate under the driving of the transmission belt, the sliding connection frame 933 moves to the right along the transverse sliding rail 931 with different amplitude under the meshing action between the meshing teeth 934 and the gear tooth structure 937, the second gear 943 starts to transmit under the meshing action between the gear tooth structures 937 and transmits to the third gear 946 through the transmission belt, the conductive sliding head 955 connected with the second gear starts to rotate with different degree and makes the resistance of the disk varistor 954 adjust, so the current of the junction box of the motor 7 changes accordingly.

The moisture meter of the present invention is a device capable of detecting moisture content in various organic and inorganic solid, liquid, gas and other samples, and common karl fischer moisture meters mainly include volumetric karl fischer moisture meters and coulometric (coulometric) karl fischer moisture meters.

When the invention is used, whether the appearance of the equipment is intact or not is firstly checked, whether all parts are stably connected or not is judged, after the equipment is confirmed to be intact, the equipment is placed at a proper position, a power cord of the equipment is connected with a power supply, a drum cover 3 of the equipment is opened, vegetables to be dried are placed into an inner container 6 of a drying machine of the equipment through a vegetable inlet drum 2, a control panel 4 of the equipment is adjusted, a moisture tester 911 and a signal output converter 912 of the equipment are started, and then the equipment can start to normally work.

The invention solves the problem that the prior art can not measure the water content of the vegetables in the inner container of the spin dryer of the equipment in real time and automatically adjust the working current of the motor of the centrifugal shaft according to the water content in the inner container of the spin dryer in the process of spin-drying the processed vegetables, which can possibly cause that the working state of the centrifugal shaft can not meet the actual vegetable spin-drying requirement, so that the vegetable spin-drying quality of the equipment can not be ensured and the practicability is insufficient, the invention can measure the water content of the vegetables in the inner container of the spin dryer of the equipment in real time and automatically adjust the working current of the motor of the centrifugal shaft by combining the components, particularly a moisture measuring instrument measures the water content of the vegetables in the inner container of the spin dryer in real time and outputs the result to a signal output converter, the signal output converter controls the rotating frame to rotate upwards in different amplitudes around the control rotating shaft according to the water content of the signal output converter, so that the inner pulley structure pulls the connecting rope on the outer side surface of the inner pulley structure, the connecting rope on the outer side surface of the winding roller device is pulled at the same time and is enabled to rotate around the rotating wheel rotating shaft, the rotating wheel rotates around the rotating wheel rotating shaft along with the rotating wheel rotating shaft and enables the first gear to start rotating under the driving of the transmission belt, the sliding connecting frame moves rightwards in different amplitudes along the transverse sliding rail under the meshing action between the meshing teeth and the gear tooth structures, the second gear starts to transmit under the meshing action between the gear tooth structures and is transmitted to the third gear through the transmission belt, the conductive sliding head connected with the second gear through the transmission belt rotates in different degrees and enables the resistance of the disk rheostat to be adjusted, and the current of the junction box of the motor, the working state of the centrifugal shaft is ensured to meet the actual vegetable spin-drying requirement, the vegetable spin-drying quality of the equipment is also ensured, and the practicability of the equipment is effectively improved.

The positional relationships described herein are for illustrative purposes only and are not to be construed as limiting the invention; while there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The scope of the invention is indicated by the appended claims rather than by the foregoing description, and all changes that come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Although the present description is described in terms of embodiments, not every embodiment includes only a single embodiment, and such description is for clarity only, and those skilled in the art should be able to integrate the description as a whole, and the embodiments can be appropriately combined to form other embodiments as will be understood by those skilled in the art.

Claims (8)

1. The utility model provides a novel vegetables drier for vegetables processing, its structure includes base (1), advances a dish section of thick bamboo (2), cover (3), control panel (4), drain pipe (5), drier inner bag (6), motor (7), centrifugal clutch (8), moisture content response automatic regulating mechanism (9), its characterized in that:

the vegetable inlet cylinder (2) is vertically connected with the right part of the upper end surface of the base (1) and is communicated with the inside of the base (1), the drum cover (3) is movably connected to the upper end surface of the vegetable inlet drum (2), the control panel (4) is fixedly connected to the upper left of the front end surface of the base (1), the drain pipe (5) is movably connected to the rear end surface of the base (1) and is communicated with the inside of the base (1), the inner container (6) of the spin dryer vertically penetrates through the inner cavity of the dish inlet cylinder (2), the motor (7) is fixedly welded at the rightmost position of the inner bottom surface of the base (1), the centrifugal clutch (8) transversely penetrates through the upper part of the inner cavity of the base (1) and is in mechanical connection with the motor (7), the moisture content induction automatic adjusting mechanism (9) is movably connected to the left part of the inner cavity of the base (1);

the moisture content sensing automatic adjusting mechanism (9) consists of a moisture measuring and conducting structure (91), a rotating connecting device (92), a sliding control device (93), a gear transmission structure (94) and a rheostat connecting structure (95), the right half part of the moisture determination conduction structure (91) is fixedly connected with the left end surface of the inner container (6) of the spin dryer and vertically penetrates into the inner container (6) of the spin dryer, the right half part of the rotary connecting device is fixedly connected to the middle of the inner top surface of the base (1), the rotary connecting device (92) is movably connected to the middle of the inner left surface of the base (1), the sliding control device (93) is movably connected at the right end of the rotating connecting device (92), the gear transmission structure (94) is movably connected to the left part of the inner bottom surface of the base (1), the rheostat connecting structure (95) is fixedly connected to the middle right part of the inner bottom surface of the base (1);

the water content measuring and conducting structure (91) consists of a water content measuring instrument (911), a signal output converter (912), a control rotating shaft (913), a control rotating frame (914) and an inner pulley structure (915), wherein the water content measuring instrument (911) is fixedly connected to the left end surface of the inner container (6) of the spin dryer and vertically penetrates into the inner container (6) of the spin dryer, the signal output converter (912) is fixedly connected to the middle of the inner top surface of the base (1) and electrically connected with the water content measuring instrument (911) through a connecting line, the control rotating shaft (913) is fixedly connected to the middle of the front end surface of the signal output converter (912) and electrically connected with the signal output converter (912), the control rotating frame (914) is movably nested on the outer side surface of the control rotating shaft (913) and extends towards the lower end of the control rotating shaft (913), the inner pulley structure (915) is movably connected to the lowest position of the inner cavity of the control rotating frame (914), and the outer surface of the inner pulley structure is movably nested with a connecting rope;

rotate connecting device (92) by horizontal mount (921), rotate wheel pivot (922), wire winding roller device (923), rotate wheel (924) and constitute, horizontal mount (921) is connected perpendicularly in the interior left surface of base (1) and is located, rotate wheel pivot (922) and connect perpendicularly in the middle of the lower extreme surface of horizontal mount (921) and locate, wire winding roller device (923) activity nested in the middle of the outside surface of rotating wheel pivot (922), rotate wheel (924) activity nested in the outside surface lower part of rotating wheel pivot (922), wire winding roller device (923) are through activity nested in the connection rope and interior pulley structure (915) swing joint of its outside surface, the outside surface activity nested of rotating wheel (924) has drive belt.

2. A novel salad spinner for vegetable processing as claimed in claim 1, wherein: the sliding control device (93) is composed of a transverse sliding rail (931), a transverse sliding rod (932), a sliding connection frame (933), meshing teeth (934), a first gear (935), a first gear output shaft (936) and a gear tooth structure (937), wherein the transverse sliding rail (931) is vertically connected to the middle of the left end surface of the partition board inside the base (1), the transverse sliding rod (932) is transversely and slidably connected in a sliding groove of the front end surface of the transverse sliding rail (931), the sliding connection frame (933) is movably connected to the lower end surface of the transverse sliding rod (932), the meshing teeth (934) are uniformly and equidistantly distributed on the upper and lower end surfaces of the inner side of the sliding connection frame (933), the first gear (935) is movably connected to the middle of the inner side surface of the sliding connection frame (933), and the first gear output shaft (936) is mechanically connected to the center of the front end surface of the first gear (935), the gear tooth structures (937) are evenly and equidistantly distributed at the edge of the outer side surface of the first gear (935).

3. A novel salad spinner for vegetable processing as claimed in claim 2, wherein: the outside surface activity nestification of first gear output shaft (936) has drive belt, first gear (935) pass through drive belt and rotate wheel (924) swing joint, meshing effect swing joint between slip joint frame (933), first gear (935) through meshing tooth (934), teeth of a cogwheel structure (937).

4. A novel salad spinner for vegetable processing as claimed in claim 1, wherein: gear drive structure (94) comprises driving tooth (941), second gear mount (942), second gear (943), vertical mount (944), third gear mount (945), third gear (946), third gear output shaft (947), the even equidistance of driving tooth (941) distributes in the lower extreme surface of sliding connection frame (933), second gear mount (942) is lower department in the baffle left end surface of base (1) inside perpendicularly, second gear (943) swing joint is in the left end surface of second gear mount (942), vertical mount (944) is perpendicularly connected in the interior bottom surface left part of base (1), third gear mount (945) is through prepressing bolt perpendicular connection in the middle of the right end surface of vertical mount (944), third gear (946) swing joint is in the right end surface of third gear mount (945), the third gear output shaft (947) is mechanically coupled to the third gear (946) at the center of the front end surface thereof.

5. The novel salad spinner for vegetable processing as claimed in claim 4, wherein: the even equidistance range in the outside surface edge of second gear (943), third gear (946) has teeth of a cogwheel structure (937), meshing swing joint between second gear (943), third gear (946) through teeth of a cogwheel structure (937), second gear (943) are meshing connection state through teeth of a cogwheel structure (937) and driving teeth (941) of sliding connection frame (933), the outside surface activity nested of third gear output shaft (947) has drive belt.

6. A novel salad spinner for vegetable processing as claimed in claim 1, wherein: the rheostat connecting structure (95) is composed of a fourth gear fixing frame (951), a fourth gear (952), a fourth gear input shaft (953), a disk rheostat (954) and a conductive sliding head (955), wherein the fourth gear fixing frame (951) is vertically connected to the right part of the inner bottom surface of the base (1), the fourth gear (952) is movably connected to the upper end surface of the fourth gear fixing frame (951), the fourth gear input shaft (953) is mechanically connected to the center of the front end surface of the fourth gear (952), the outer side surface of the fourth gear input shaft (953) is movably nested with a transmission belt, the fourth gear (952) is movably connected with the third gear (946) through the transmission belt, the disk rheostat (954) is fixedly connected to the right part of the inner bottom surface of the base (1), the conductive sliding head (955) is movably connected to the center of the outer end surface of the disk rheostat (954) and the outer side surface of the disk rheostat (955) is movably nested with the transmission belt, the disk rheostat (954) is electrically connected with a junction box of the motor (7), and the conductive sliding head (955) is movably connected with the fourth gear (952) through a transmission belt.

7. A novel salad spinner for vegetable processing as claimed in claim 1, wherein: the moisture tester (911) measures the water content of the vegetables in the dryer liner (6) in real time and outputs the result to the signal output converter (912), the signal output converter (912) controls the control rotating frame (914) to rotate upwards in different amplitudes around the control rotating shaft (913) according to the water content, then the inner pulley structure (915) pulls the connecting rope on the outer side surface of the inner pulley structure, the connecting rope on the outer side surface of the winding roller device (923) is pulled at the same time and enables the connecting rope to rotate around the rotating wheel rotating shaft (922), the rotating wheel (924) rotates around the rotating wheel rotating shaft (922) and enables the first gear (935) to start rotating under the driving of the transmission belt, the sliding connection frame (933) moves rightwards in different amplitudes along the transverse sliding rail (931) under the engagement action between the meshing teeth (934) and the gear tooth structure (937), the second gear (943) starts to drive under the meshing action of the gear tooth structures (937) and drives to the third gear (946) through the transmission belt, the conductive sliding head (955) connected with the second gear through the transmission belt rotates to different degrees and enables the resistance of the disk rheostat (954) to be adjusted, and then the current of the junction box of the motor (7) is changed.

8. A dryer and method of use as claimed in any one of claims 1 to 7 wherein:

the moisture tester measures the water content of vegetables in the inner container of the spin dryer in real time and outputs the result to the signal output converter, the signal output converter controls the rotating frame to rotate upwards in different amplitudes around the control rotating shaft according to the water content, so that the inner pulley structure pulls the connecting rope on the outer side surface of the inner pulley structure, the connecting rope on the outer side surface of the winding roller device is pulled simultaneously and rotates around the rotating wheel rotating shaft, the rotating wheel rotates around the rotating wheel rotating shaft and enables the first gear to start rotating under the driving of the transmission belt, and the sliding connecting frame moves rightwards in different amplitudes along the transverse sliding rail under the meshing action between the meshing gear and the gear tooth structure;

the second gear starts to be driven under the meshing action between the gear tooth structures and is driven to the third gear through the transmission belt, the conductive sliding head connected with the second gear through the transmission belt rotates to different degrees and enables the resistance of the disk rheostat to be adjusted, so that the current of the junction box of the motor is changed accordingly, the working state of the centrifugal shaft is ensured to meet the actual vegetable spin-drying requirement, the vegetable spin-drying quality of the equipment is also ensured, and the practical performance of the equipment is effectively improved.

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