CN112208806A - Portable tea drying and storing equipment - Google Patents

Abstract

The invention discloses portable tea drying and storing equipment, which structurally comprises a main body base, wherein the main body base is a standing welding frame structure, the bottom of the main body base is provided with a trapezoidal base which is in face-to-face contact, a main body supporting rod is fixedly arranged on the upper end surface of the main body base, a fixed platform is fixedly arranged on one side of the main body supporting rod, a supporting module is arranged above the main body base, a platform bearing module for packaging tea is arranged above the supporting module, the platform bearing module is positioned on one side of the fixed platform, a main body module for containing tea is arranged on the upper side of the platform bearing module, the main body module is positioned on one side of the main body supporting rod, the supporting module is matched and connected with the platform bearing module, the main equipment filling module, the platform bearing module and the main equipment main body module complete batch subpackaging of the tea, a tank, the tank body is adopted for heating, so that the equipment time is not occupied, and the production efficiency is improved.

Description

Portable tea drying and storing equipment

Technical Field

The invention belongs to the field of tea processing equipment, and particularly relates to portable tea drying and storing equipment.

Background

The prior art has the defects that the existing wasteland reclaiming and seeding equipment occupies a large area, cannot adapt to various terrains and has low working efficiency. For this reason, long-term research has been conducted and various solutions have been proposed.

For example, chinese patent document tea leaf drying apparatus discloses [ application No.: 201810723826.9], the invention discloses a tea leaf drying device, comprising a frame, a drying box arranged thereon, a reticular drying cylinder horizontally arranged in the drying box, hollow rods horizontally arranged at both ends of the drying cylinder respectively, one end of the hollow rod extending out of the drying box, the other end extending into the drying cylinder from the middle part of the end surface of the drying cylinder, a feed hopper connected with the upper part of the hollow rod at the left side outside the drying box, an air pipe with an air outlet facing the drying cylinder arranged at the left side of the feed hopper, a discharge outlet arranged on the hollow rod at the right side outside the drying box, a plurality of air pipes connected with a hot air generator arranged in the drying cylinder at even intervals along the axial direction, an annular air pipe arranged close to the inner wall of the drying cylinder, an air outlet facing the hollow rod at the right side on the air pipe, a motor arranged on the inner side wall of the drying box, a rotating shaft connected with a driving, a waste hopper with a downward opening is arranged at the lower side of the drying box, and a dehumidifier and an exhaust hole are arranged at the top of the drying box; the equipment does not need manual stir-frying.

Above-mentioned scheme, equipment area is big, and work efficiency is low, and equipment inner structure designs comparatively tradition, realizes the function singleness, and the size method of tealeaves can't be categorised, can't use in little place.

Disclosure of Invention

The invention aims to solve the problems and provides equipment which has the advantages of automatic subpackaging, automatic heating, long tea leaf storage time, automatic separation of tea leaf size, high sealing degree, small occupied area, improvement on working efficiency and the like.

The invention is realized by the following technical scheme: the invention relates to portable tea drying and storing equipment which comprises a main body base, wherein the main body base is of a standing type welding frame structure, the bottom of the main body base is provided with a trapezoidal base which is in face-to-face contact, a main body supporting rod is fixedly arranged on the upper end face of the main body base, a fixed platform is fixedly arranged on one side of the main body supporting rod, a supporting module is arranged above the main body base, a platform bearing module for packaging tea is arranged above the supporting module, the platform bearing module is positioned on one side of the fixed platform, a main body module for containing tea is arranged on the upper side of the platform bearing module, the main body module is positioned on one side of the.

In a further technical scheme, the supporting module comprises a triangular fixed support which is of an inverted triangular structure, a roller is arranged at the bottom of the triangular fixed support and is connected with the triangular fixed support in a sliding fit manner, a sliding support fixed shaft is fixedly arranged on the front side of the roller, a rotating cylinder is arranged on the sliding support fixed shaft and is connected with the sliding support fixed shaft in a rotating fit manner, the rotating cylinder is connected with the sliding shaft in a sliding fit manner, the sliding shaft is connected with the platform bearing module in a matching manner, a rail fixed support sliding rail is fixedly arranged on the left side of the triangular fixed support and is connected with the main body supporting rod in a sliding fit manner, so that the rotating cylinder and the fixed platform are abutted against each other through the sliding shaft when the fixed platform is unfolded, and the fixed platform is horizontally placed, when the fixed platform bears a certain weight, the supporting module can descend to be abutted to the heating contact block.

Further technical scheme, platform bearing module including set up in a plurality of lower jar of body of fixed platform upside, the number that the lower jar of body set up is individual, jar body upside is provided with the jar body down, it is provided with pneumatic top cap to go up jar body upside, be provided with the drive in the fixed platform jar body carries out pivoted bottom motor element down, be provided with between jar body and the last jar body down and be used for making jar body and last jar body dress card and filter the filtration dress card subassembly of tealeaves down, be provided with between pneumatic top cap and the last jar body and be used for receiving tealeaves and realize the top dress card subassembly of dress card to utilize above-mentioned subassembly to realize the loading filtering capability of tealeaves.

Further technical scheme, bottom motor element is including rotating step motor, rotate step motor with fixed platform is fixed, it is equipped with the rotation sleeve to rotate step motor upper end, rotate the sleeve with it connects to rotate step motor power fit, rotate the sleeve with jar body dress card setting down, it has set firmly the spout ball structure that makes equipment rotate more stable to rotate the step motor outer lane.

In a further technical scheme, the chute ball structure comprises a slot arranged on the outer ring of the rotating stepping motor, a plurality of balls are placed in the slot, the chute ball structure is connected with the rotating sleeve in a sliding fit manner through the balls, so that the rotating stepping motor rotates to enable the rotating sleeve to rotate through power connection, the chute ball assembly is connected through a sliding track in a matching manner during rotation to enable the rotating sleeve to operate more stably during rotation, the filtering and clamping assembly comprises a pneumatic rotating clamp driving ring, the pneumatic rotating clamp driving ring is fixedly arranged at the top of the outer surface of the lower tank body, a pneumatic rotating clamp driven ring is fixedly arranged at the bottom of the outer surface of the upper tank body, a pneumatic clamping structure is arranged between the pneumatic rotating clamp driven ring and the lower tank body, filtering structures for filtering are arranged in the lower tank body and the upper tank body, and the pneumatic clamping structure comprises a clamping air box fixed with the lower tank body, the side end face of the clamping air box is fixedly provided with a tank body air cylinder, an air chamber is fixedly arranged in the clamping air box, the air chamber is communicated with the tank body air cylinder, an annular air passage is arranged in the pneumatic rotary clamping driving ring, a plurality of clamping convex blocks are uniformly arranged on the outer side of the pneumatic rotary clamping driving ring, a pneumatic cavity is formed in each clamping convex block, symmetrical clamping sliding blocks are arranged in the pneumatic cavity in a sliding mode, the pneumatic cavity is communicated with the annular air passage through a conveying air passage, the annular air passage is communicated with the air chamber, a plurality of clamping concave blocks are fixedly arranged on the outer side of the pneumatic rotary clamping driving ring, the clamping concave blocks are slidably clamped with the clamping convex blocks, the clamping sliding blocks penetrate through the pneumatic cavity and the clamping convex blocks and are abutted against the clamping concave blocks, and therefore when the tank body air cylinder starts to operate, air can be filled in the air chamber, and can be conveyed to the air pressure through the annular air passage and the conveying air passage to the pneumatic cavity to enable the clamping concave blocks to be installed in the And the clamping slide block pushes out the clamping slide block to abut against the clamping concave block to complete pneumatic clamping.

In a further technical scheme, the filtering structure comprises a filtering air pump which is fixedly arranged on the inner surface of the upper tank body, the lower end of the filtering air pump is communicated with a filtering air passage which is of an annular structure, the inner surface of the lower tank body is provided with a filtering track, a pneumatic fixing ring is arranged in the lower tank body and is connected with the filtering track in a sliding fit manner, the outer side of the pneumatic fixing ring is provided with a flange which extends into the filtering track to seal the filtering track, a screen is arranged in the lower tank body, the screen is connected with the pneumatic fixing ring in a clamping manner, the filtering air passage is communicated with the filtering track, therefore, when the filtering air pump starts to operate, air pressure is generated and sent to the filtering track through the filtering air passage, and the pneumatic fixing ring is enabled to do reciprocating jolt in the filtering track under the action of the air pressure so as to play a role in filtering tea leaves.

Further technical scheme, top dress card subassembly includes pneumatic top cap, pneumatic top cap outer lane has set firmly the pneumatic dress card structure in top that is used for jar body to seal, pneumatic top cap top has set firmly the vacuum hydrofuge structure that is equipped with and is used for the moisture of row department.

The technical scheme is that the top pneumatic clamping structure comprises a top annular air passage, the top annular air passage is annularly communicated and arranged inside a pneumatic top cover, a plurality of pneumatic clamping convex blocks are fixedly arranged at the bottom of the pneumatic top cover, a pneumatic fixing cavity is fixedly arranged inside the pneumatic clamping convex blocks, symmetrical top cover pneumatic sliding blocks are slidably arranged in the pneumatic fixing cavity, the pneumatic fixing cavity and the top annular air passage are communicated and arranged through a clamping air passage, a top cover air cylinder used for increasing air pressure is fixedly arranged at the top of the pneumatic top cover, one side of the top cover air cylinder is communicated and provided with an air pressure pipe, the air pressure pipe is communicated with the top annular air passage, a plurality of pneumatic clamping concave blocks are fixedly arranged at the top of the upper tank body, the pneumatic clamping convex blocks penetrate through the pneumatic clamping concave blocks and are clamped with the pneumatic clamping concave blocks, the top cover pneumatic sliding blocks penetrate through the pneumatic clamping convex blocks and are abutted against the pneumatic clamping concave blocks, therefore, when the top cover cylinder starts to operate, air pressure is conveyed to the top annular air passage through the air pressure pipe, the air pressure in the pneumatic fixing cavity is increased, the top cover pneumatic sliding block is pushed out, and the top cover pneumatic sliding block is abutted against the pneumatic clamping concave block to complete pneumatic clamping.

Further technical scheme, vacuum dehumidifying structure includes four evenly distributed's vacuum step motor, vacuum step motor set firmly in the pneumatic top cap top, the solid power connection in pneumatic top cap bottom is provided with vacuum impeller, be the cavity setting in the vacuum step motor, vacuum step motor with go up jar body intercommunication setting, the inside rotation apron that has set firmly of vacuum step motor, it is equipped with the dress card air flue to rotate apron power connection, thereby works as pneumatic top cap begins to rotate and drives through power connection vacuum impeller begins to rotate and makes jar body and the inside moisture of lower jar body and moisture outwards discharge inside being in the vacuum state, random the rotation apron begins to operate power connection and rotates dress card air flue, blocks complete sealing with the cavity, makes tealeaves save time longer.

The technical scheme is that a main body box is fixedly arranged on the right side of the top of the main body box, a cavity is arranged in the main body box, the cavity is provided with two baffles, the main body box is fixedly arranged with a bottom main body base, a pressure cylinder structure is fixedly arranged at the bottom of the main body box and comprises fixed cylinders, the fixed cylinders are fixedly and symmetrically arranged on the surface of a main body box body, the bottom of the main body box is fixedly and symmetrically provided with bearing fixing plates, the bottom of the main body box is symmetrically provided with bearing plates, the bearing plates are connected in a rotating fit mode through the bearing fixing plates, the outer surfaces of the bearing plates are fixedly provided with pneumatic shafts, the pneumatic shafts are connected with the fixed cylinders in a sliding fit mode, therefore when tea leaves are placed in the cavity, the bearing plates can bear pressure to extrude air in the fixed cylinders, and therefore the tea leaves can fall out, when the weight of the tea leaves in the cavity is reduced, the pressure applied to the bearing plate is also reduced, and the air in the fixing cylinder is not compressed, so that the fixing cylinder enables the pneumatic shaft to return to the original position through the original pressure of the air, and the bearing plate is closed.

The invention has the beneficial effects that: this equipment has adopted main equipment filling module platform bearing module, main equipment main part module, completion to the partial shipment in batches of tealeaves, and the moisture is got rid of in the heating of jar body, long-term sealed save, the separation of little tealeaves, and this equipment is small and exquisite light conveniently carries, adopts jar body heating not to occupy the equipment time and improves production efficiency.

1. The pneumatic rod pneumatic shaft arranged at the lower end of the cavity is of a pneumatic structure, and when tea reaches a certain weight, the bearing plate of the tea baffle is opened due to weight pressure drop.

2. The cavity is provided with three, compares the filling of single equipment and has improved work efficiency greatly.

3. The main equipment filling module platform bearing module reaches a certain weight and can descend to be abutted to the heating contact block of the electric heating base, so that the weight of tea leaves in the upper tank body and the lower tank body is uniform and sufficient.

4. The lower tank body and the upper tank body can be divided into two pipe bodies for use and are connected by pneumatic clamping, and the traditional clamping is used for connecting the tea leaves, so that the tea leaves can be better stored due to higher air tightness.

5. The inner cavities of the lower tank body and the upper tank body are provided with filtering air pumps of filtering air cylinders, and the filtering air pumps enable the pneumatic fixing rings to jolt up and down through pneumatic pressure so as to separate the tea leaves in the tank body.

6. The pneumatic top cover is internally provided with a vacuum stepping motor, the vacuum stepping motor is connected through power to drive the vacuum impeller to discharge air pressure and poor moisture to the outside, and after a period of time, the end sealing stepping motor rotates to rotate the clamping air passage through power connection so as to enable the clamping air passage to rotate to be in a completely sealed state.

7. Go up the jar body with be equipped with intermediate layer heat-retaining liquid chamber heat-retaining chamber down in the middle of the jar body, the heat-retaining intracavity is filled with heat storage liquid, can make go up jar body with down jar body is self realize arranging a tealeaves moisture after breaking away from self equipment and has improved the portability of equipment, does not occupy the operating time of main equipment, has improved efficiency.

8. The upper tank body and the lower tank body can be independently used without using a main device, tea leaves are placed in the lower tank body and then covered by the pneumatic top cover, the upper tank body and the lower tank body are placed at a place with a heat source, the heat storage liquid cavity can store heat, the upper tank body and the lower tank body can start to work, and the working efficiency of the device is improved.

Drawings

FIG. 1 is a schematic diagram of the inventive apparatus configuration;

FIG. 2 is an enlarged schematic view of the invention at A in FIG. 1;

FIG. 3 is a schematic view of the half-section of FIG. 1 according to the present invention;

FIG. 4 is an enlarged view of the invention at B of FIG. 3;

FIG. 5 is an enlarged view of the invention at C of FIG. 3;

FIG. 6 is an enlarged view of the structure of FIG. 3 according to the present invention;

FIG. 7 is an enlarged view of the structure of FIG. 3 at E in the present invention;

FIG. 8 is a schematic diagram of a tank in oblique section of the inventive apparatus;

in the figure, a heating contact block 111, a roller 112, a sliding support fixing shaft 113, a rotating cylinder 114, a sliding shaft 115, a rotating stepping motor 118, a pneumatic top cover 119, an upper tank 120, a lower tank 121, a heat storage cavity 122, a screen 123, a top cover cylinder 126, a pneumatic tube 127, a rotating sleeve 129, balls 131, a top annular air passage 132, a pneumatic fixing cavity 133, a pneumatic cavity 134, a tank cylinder 136, a pneumatic fixing ring 138, a fixing cylinder 139, a cavity 140, a bearing fixing plate 141, a bearing plate 142, a chucking air box 144, a pneumatic shaft 149, a main body box 150, a main body support rod 151 fixing support slide rail 155, a triangular fixing support 171, a fixing platform 173, a pneumatic rotary chuck driven ring 188, a pneumatic rotary chuck driving ring 189, an air chamber 191, an annular air passage 192, a chucking slider 193, a vacuum stepping motor 199, a vacuum impeller 200, a rotating cover plate 201, a pneumatic chucking lug 202, a sealing stepping motor 205, a chucking 206, a chucking air passage 206, the pneumatic clamping concave block 207, the top cover pneumatic slide block 208, the filtering track 209, the filtering air pump 210, the filtering air passage 211, the filtering mesh 214, the main body base 265, the conveying air passage 879, the clamping convex block 880, the clamping concave block 882, the supporting module 997, the platform bearing module 998 and the main body module 999.

Detailed Description

As shown in fig. 1 to 8, the present invention is explained in detail, and for convenience of description, the following orientations are defined as follows: the portable tea leaf drying and storing device comprises a main body base 265, wherein the main body base 265 is of a standing type welding frame structure, the bottom of the main body base 265 is provided with a trapezoidal base which is in face-to-face contact, a main body supporting rod 151 is fixedly arranged on the upper end face of the main body base 265, a fixed platform 173 is fixedly arranged on one side of the main body supporting rod 151, a supporting module 997 is arranged above the main body base 265, a platform bearing module 998 for packaging tea leaves is arranged above the supporting module 997, the platform bearing module 998 is positioned on one side of the fixed platform 173, a main body module 999 for containing tea leaves is arranged on the upper side of the platform bearing module 998, the main body module 999 is positioned on one side of the main body supporting rod 151, and the supporting module 997 is connected with the platform bearing module 998 in a matching mode, so that the tea leaf packaging and processing are realized by.

Advantageously, wherein the supporting module 997 comprises a triangular fixed bracket 171, the triangular fixed bracket 171 is of an inverted triangular structure, the bottom of the triangular fixed bracket 171 is provided with a roller 112, the roller 112 is connected with the triangular fixed bracket 171 in a sliding fit manner, the front side of the roller 112 is fixedly provided with a sliding bracket fixed shaft 113, the sliding bracket fixed shaft 113 is provided with a rotating cylinder 114, the rotating cylinder 114 is connected with the sliding bracket fixed shaft 113 in a rotating fit manner, the rotating cylinder 114 is connected with a sliding shaft 115 in a sliding fit manner, the sliding shaft 115 is connected with the platform bearing module 998 in a matching manner, the left side of the triangular fixed bracket 171 is fixedly provided with a rail fixed bracket slide rail 155, the fixed bracket slide rail 155 is connected with, so that when the fixed platform 173 is unfolded, the rotary cylinder 114 is disposed against the fixed platform 173 by the sliding shaft 115, the fixed platform 173 is horizontally placed, when the fixed platform 173 is loaded with a certain weight, the support module 997 will be lowered to be disposed against the heating contact block 111.

Beneficially, the platform bearing module 998 comprises a plurality of lower tank bodies 121 arranged on the upper side of the fixed platform 173, the number of the lower tank bodies 121 is 3, the upper side of the lower tank body 121 is provided with an upper tank body 120, the upper side of the upper tank body 120 is provided with a pneumatic top cover 119, a bottom motor assembly for driving the lower tank body 121 to rotate is arranged in the fixed platform 173, a filtering and clamping assembly for clamping the lower tank body 121 and the upper tank body 120 and filtering tea is arranged between the lower tank body 121 and the upper tank body 120, and a top clamping assembly for receiving tea and realizing clamping is arranged between the pneumatic top cover 119 and the upper tank body 120, so that the loading and filtering functions of tea are realized by using the above assemblies.

Advantageously, the bottom motor assembly comprises a rotating stepping motor 118, the rotating stepping motor 118 is fixed to the fixed platform 173, a rotating sleeve 129 is arranged at the upper end of the rotating stepping motor 118, the rotating sleeve 129 is in power fit connection with the rotating stepping motor 118, the rotating sleeve 129 is in clamping arrangement with the lower tank 121, and a chute ball structure which enables the equipment to rotate more stably is fixedly arranged on the outer ring of the rotating stepping motor 118.

Advantageously, the chute ball structure includes a slot 128 disposed on an outer ring of the rotary stepping motor 118, a plurality of balls 131 are disposed in the slot 128, the slot 128 is connected with the rotary sleeve 129 in a sliding fit manner through the balls 131, so that the rotary stepping motor 118 rotates to enable the rotary sleeve 129 to rotate through a power connection, the chute ball assembly is connected through a sliding track fit during rotation to enable the rotary sleeve 129 to operate more stably during rotation, the filter assembly includes a pneumatic rotary clamp driving ring 189, the pneumatic rotary clamp driving ring 189 is fixedly disposed on a top portion of an outer surface of the lower tank 121, a pneumatic rotary clamp driven ring 188 is fixedly disposed on a bottom portion of an outer surface of the upper tank 120, a pneumatic clamping structure is disposed between the pneumatic rotary clamp driven ring 188 and the lower tank 121, a filter structure for filtering is disposed in the lower tank 121 and the upper tank 120, the pneumatic clamping structure includes a clamping air box 144 fixed to the lower tank 121, a tank cylinder 136 is fixedly arranged on the side end face of the card installing air tank 144, an air chamber 191 is fixedly arranged in the card installing air tank 144, the air chamber 191 is communicated with the tank cylinder 136, an annular air channel annular air passage 192 is arranged in the pneumatic rotary card driving ring 189, a plurality of card installing convex blocks 880 are uniformly arranged on the outer side of the pneumatic rotary card driving ring 189, pneumatic cavities 134 are arranged in the card installing convex blocks 880, symmetrical card installing sliding blocks 193 are arranged in the pneumatic cavities 134 in a sliding mode, the pneumatic cavities 134 are communicated with the annular air channel 192 through a conveying air channel 879, the annular air channel 192 is communicated with the air chamber 191, a plurality of card installing concave blocks 882 are fixedly arranged on the outer side of the pneumatic rotary card driven ring 188, the card installing concave blocks 882 are slidably installed with the card installing convex blocks 880, the card installing sliding blocks 193 penetrate through the pneumatic cavities 134 and the card installing convex blocks 880 and abut against the card installing concave blocks 882, so that when the tank cylinder 136 is filled with air, air is conveyed into the pneumatic cavities 134 through the annular air channel 192 and the conveying air channel 879 to push the card installing sliding The concave blocks 882 are arranged in an abutting mode to complete pneumatic clamping.

Beneficially, the filtering structure includes a filtering air pump 210, the filtering air pump 210 is fixedly arranged on the inner surface of the upper tank body 120, the lower end of the filtering air pump 210 is communicated with a filtering air passage 211, the filtering air passage 211 is of an annular structure, the inner surface of the lower tank body 121 is provided with a filtering track 209, the inner part of the lower tank body 121 is provided with a pneumatic fixing ring 138, the pneumatic fixing ring 138 is connected with the filtering track 209 in a sliding fit manner, the outer side of the pneumatic fixing ring 138 is provided with a flange, the flange extends into the filtering track 209 to seal the filtering track 209, the lower tank body 121 is internally provided with a screen 123, the screen 123 is connected with the pneumatic fixing ring 138, therefore, when the filtering air pump 210 starts to operate, air pressure is generated to the filtering track 209 through the filtering air passage 211, so that the pneumatic fixing ring 138 is bumped in the filtering track 209 under the action of the air pressure, thereby playing a role of filtering tea leaves.

Advantageously, the top chucking assembly comprises a pneumatic top cover 119, a top pneumatic chucking structure for sealing the tank body is fixedly arranged on the outer ring of the pneumatic top cover 119, and a vacuum dehumidifying structure for exhausting moisture is fixedly arranged on the top of the pneumatic top cover 119.

Beneficially, the top pneumatic clamping structure includes a top annular air passage 132, the top annular air passage 132 is annularly communicated and arranged inside the pneumatic top cover 119, the bottom of the pneumatic top cover 119 is fixedly provided with a plurality of pneumatic clamping convex blocks 202, the pneumatic clamping convex blocks 202 are fixedly provided with a pneumatic fixing cavity 133, symmetrical top cover pneumatic sliding blocks 208 are slidably arranged in the pneumatic fixing cavity 133, the pneumatic fixing cavity 133 is communicated and arranged with the top annular air passage 132 through a clamping air passage 206, the top of the pneumatic top cover 119 is fixedly provided with a top cover cylinder 126 for increasing air pressure, one side of the top cover cylinder 126 is communicated and arranged with an air pressure pipe 127, the air pressure pipe 127 is communicated with the top annular air passage 132, the top of the upper tank body 120 is fixedly provided with a plurality of pneumatic clamping concave blocks 207, the pneumatic clamping convex blocks 202 penetrate through the pneumatic clamping concave blocks 207 and are clamped and arranged with the pneumatic clamping concave blocks 207, the pneumatic clamping convex blocks 208 of the top cover penetrate through the pneumatic clamping convex blocks 202 and, therefore, when the top cover air cylinder 126 starts to operate, air pressure is transmitted to the top annular air channel 132 through the air pressure pipe 127, the air pressure in the pneumatic fixing cavity 133 is increased, the top cover pneumatic slide block 208 is pushed out, and the top cover pneumatic slide block 208 is abutted to the pneumatic clamping concave block 207 to complete pneumatic clamping.

Beneficially, the vacuum moisture discharging structure comprises four vacuum stepping motors 199 which are distributed uniformly, the vacuum stepping motors 199 are fixedly arranged at the tops of the pneumatic top covers 119, the vacuum impellers 200 are fixedly connected and arranged at the bottoms of the pneumatic top covers 119, cavities are formed in the vacuum stepping motors 199, the vacuum stepping motors 199 are communicated with the upper tank body 120, the rotating cover plate 201 is fixedly arranged in the vacuum stepping motors 199, and the clamping air passages 206 are arranged in the rotating cover plate 201 in a power connection mode, so that when the pneumatic top covers 119 start to rotate, the vacuum impellers 200 are driven to rotate through the power connection mode, moisture and humidity in the upper tank body 120 and the lower tank body 121 are discharged outwards, the interiors are in a vacuum state, the cover plate 201 is randomly rotated, the power connection mode is started to rotate the clamping air passages 206, the cavities are blocked and sealed completely, and the tea leaves.

Advantageously, the main device tea main body module 999 is fixedly provided with a main body box 150 at the top right side, a cavity 140 is provided in the main body box 150, the cavity 140 is provided with two baffles, the main body box 150 is fixedly provided with a bottom main body base 265, a pressure cylinder structure is fixedly provided at the bottom of the main body box 150, the pressure cylinder structure comprises a fixed cylinder 139, the fixed cylinder 139 is fixedly and symmetrically provided on the surface of the main body box 150, the bottom of the main body box 150 is fixedly and symmetrically provided with a bearing fixing plate 141, the bottom of the main body box 150 is symmetrically provided with a bearing plate 142, the bearing plate 142 is connected with the bearing fixing plate 141 in a rotating fit manner, the outer surface of the bearing plate 142 is fixedly provided with a pneumatic shaft 149, the pneumatic shaft 149 is connected with the fixed cylinder 139 in a sliding fit manner, so that when tea leaves are placed in the cavity 140, the bearing plate 142 will be pressed to press the air in the fixed cylinder 139 to open the bearing plate, the air in the stationary cylinder 139 will not be compressed, so the stationary cylinder 139 will return the pneumatic shaft 149 to the original position by the original pressure of the air to close the bearing plate 142.

The stepping motor is an open-loop control motor which converts an electric pulse signal into angular displacement or linear displacement, is a main execution element in a modern digital program control system, and is extremely widely applied. In the non-overload condition, the rotation speed and stop position of the motor only depend on the frequency and pulse number of the pulse signal, and are not influenced by the load change, when the stepping driver receives a pulse signal, the stepping driver drives the stepping motor to rotate by a fixed angle in a set direction, namely a stepping angle, and the rotation of the stepping motor is operated by one step at the fixed angle. The angular displacement can be controlled by controlling the number of pulses, so that the aim of accurate positioning is fulfilled; meanwhile, the rotating speed and the rotating acceleration of the motor can be controlled by controlling the pulse frequency, so that the aim of speed regulation is fulfilled.

In the initial state, the devices, components and structures are in a rest state.

When the main body module 999 is operated, tea leaves are poured into the cavity 140, the bearing plate 142 is opened by gravity to allow the tea leaves to fall off the fixing platform 173 and be supported by the rod rotating cylinder 114 and the fixing platform 173 of the sliding shaft 115, and then the upper pot 120 is placed in the rotating sleeve 129 to pour the tea leaves into the upper pot 120 and the lower pot 121.

When the platform bearing module 998 works, the fixed platform 173 is lifted to abut against the sliding shaft 115 through the rotating cylinder 114 to be connected, so that the platform of the fixed platform 173 is placed flat, the lower tank body 121 and the upper tank body 120 are placed into the rotating sleeve 129, tea leaves in the platform bearing module 998 fall into the upper tank body 120, and the platform bearing module 998 slides downwards to abut against the heating contact block 111 through the fixed platform 173 after the weight reaches the standard.

When the supporting module 997 is used, the sliding shaft 115 and the rotating cylinder 114 are disposed to abut against the fixed platform 173 through sliding fit connection, so as to support the fixed platform 173.

When the device works, tea leaves are put into the cavity 140 in the main body module 999, when the tea leaves reach a certain weight, firstly, the pneumatic shaft 149 is opened after the cavity 140 reaches the certain weight, the tea leaves will fall into the inner cavity of the upper tank 120, at this time, the main device filling module platform bearing module 998 moves downwards through the fixed support slide rail 155 to be abutted against the heating contact block 111 under the action of gravity, at this time, the rotary stepping motor 118 starts to rotate to drive the rotary sleeve 129 through power connection, the rotary sleeve 129 starts to heat the heat storage liquid in the heat storage cavity 122, at this time, the lower tank 121 is taken down to cover the pneumatic top cover 119, at this time, the pneumatic air pump 210 starts to operate to enable the pneumatic fixing ring 138 to bump up and down through the size of air pressure, so that the undersized tea leaves are separated to the next layer through the filter mesh 214 in the screen 123, at this time, the vacuum stepping motor 199 starts to rotate to drive the, after a period of time, the moisture inside the card is drained, and the sealing stepping motor 205 starts to rotate the card loading air channel 206 through power connection to complete final sealing.

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

Although the heating contact block 111, the roller 112, the sliding support fixing shaft 113, the rotary cylinder 114, the sliding shaft 115, the rotary stepping motor 118, the pneumatic top cover 119, the upper tank 120, the lower tank 121, the heat storage chamber 122, the screen 123, the top cover cylinder 126, the pneumatic tube 127, the rotary sleeve 129, the ball 131, the top annular air passage 132, the pneumatic fixing chamber 133, the pneumatic chamber 134, the tank cylinder 136, the pneumatic fixing ring 138, the fixing cylinder 139, the chamber 140, the load bearing fixing plate 141, the load bearing plate 142, the chucking air tank 144, the pneumatic shaft 149, the main body tank 150, the main body support rod 151 fixing support slide rail 155, the triangular fixing support 171, the fixing platform 173, the pneumatic rotary chuck driven ring 188, the pneumatic rotary chuck driving ring 189, the air chamber 191, the annular air passage 192, the chucking slider 193, the vacuum stepping motor 199, the vacuum impeller 200, the rotary cover plate 201, the pneumatic chucking protrusion 202, the sealing stepping motor 205, the rotary, The pneumatic clamping device comprises a clamping air channel 206, a pneumatic clamping concave block 207, a top cover pneumatic sliding block 208, a filtering track 209, a filtering air pump 210, a filtering air channel 211, a filtering mesh 214, a main body base 265, a conveying air channel 879, a clamping convex block 880, a clamping concave block 882, a support module 997, a platform bearing module 998 and a main body module 999. Etc., but does not exclude the possibility of using other terms. These terms are used merely to more conveniently describe and explain the nature of the present invention and they are to be interpreted as any additional limitation which is not in accordance with the spirit of the present invention.

Claims (10)

1. Portable tealeaves stoving save set, a serial communication port, including main part base (265), main part base (265) are stand-type welded frame structure, main part base (265) bottom is equipped with trapezoidal base face to face contact, main part base (265) up end has set firmly main part branch (151), main part branch (151) one side has set firmly fixed platform (173), main part base (265) top is provided with support module (997), support module (997) top is provided with platform bearing module (998) that are used for packing tealeaves, platform bearing module (998) are located fixed platform (173) one side, platform bearing module (998) upside is provided with main part module (999) that are used for holding tealeaves, main part module (999) are located main part branch (151) one side, support module (997) and platform bearing module (998) cooperation are connected.

2. The tea tree fertilizing apparatus as claimed in claim 1, wherein: the supporting module (997) comprises a triangular fixing support (171), the triangular fixing support (171) is of an inverted triangular structure, the bottom of the triangular fixed bracket (171) is provided with a roller (112), the roller (112) is connected with the triangular fixed bracket (171) in a sliding fit manner, a sliding bracket fixing shaft (113) is fixedly arranged at the front side of the roller (112), a rotating cylinder (114) is arranged on the sliding bracket fixing shaft (113), the rotating cylinder (114) is connected with the sliding bracket fixing shaft (113) in a rotating matching way, the rotating cylinder (114) is connected with the sliding shaft (115) in a sliding fit manner, the sliding shaft (115) is matched and connected with the platform bearing module (998), the left side of the triangular fixed support (171) is fixedly provided with a track fixed support sliding rail (155), the fixed support sliding rail (155) is connected with the main body supporting rod (151) in a sliding fit mode.

3. The tea tree fertilizing apparatus as claimed in claim 1, wherein: platform bearing module (998) including set up in a plurality of lower jar of body (121) of fixed platform (173) upside, the number that the jar of body (121) set up down is (3), jar of body (121) upside is provided with jar body (120) down, it is provided with pneumatic top cap (119) to go up jar of body (120) upside, be provided with the drive in fixed platform (173) down jar of body (121) carry out pivoted bottom motor element, be provided with between jar of body (121) and the last jar of body (120) down and be used for making jar of body (121) and last jar of body (120) dress card and the filtration dress card subassembly of filtering tealeaves, be provided with between pneumatic top cap (119) and the last jar of body (120) and be used for receiving tealeaves and realize the top dress card subassembly of dress card.

4. The tea tree fertilizing apparatus as claimed in claim 3, wherein: bottom motor element is including rotating step motor (118), rotate step motor (118) with fixed platform (173) are fixed, it is equipped with rotation sleeve (129) to rotate step motor (118) upper end, rotate sleeve (129) with rotate step motor (118) power fit and connect, rotate sleeve (129) with jar body (121) dress card setting down, it has set firmly the spout ball structure that makes equipment rotate more stable to rotate step motor (118) outer lane.

5. The tea tree fertilizing apparatus as claimed in claim 4, wherein: the chute ball structure comprises a slot (128) arranged on the outer ring of the rotating stepping motor (118), a plurality of balls (131) are placed in the slot (128), and the slot (128) is connected with the rotating sleeve (129) in a sliding fit mode through the balls (131).

6. The tea tree fertilizing apparatus as claimed in claim 5, wherein: filtration structure is including filtering air pump (210), it sets firmly in last jar body (120) internal surface to filter air pump (210), it is equipped with filtration air flue (211) to filter air pump (210) lower extreme intercommunication, it is the loop configuration to filter air flue (211), jar body (121) internal surface is equipped with down and filters track (209), jar body (121) inside is equipped with pneumatic solid fixed ring (138) down, pneumatic solid fixed ring (138) with it connects to filter track (209) sliding fit, the pneumatic solid fixed ring (138) outside is provided with the flange, and the flange stretches into will in filtering track (209) filter track (209) seal, be equipped with screen cloth (123) in jar body (121) down, screen cloth (123) with pneumatic solid fixed ring (138) dress card sets up the connection, filter air flue (211) with it sets up to filter track (209) intercommunication.

7. A tea tree fertilizing apparatus as claimed in claim (3), wherein: the top clamping assembly comprises a pneumatic top cover (119), the outer ring of the pneumatic top cover (119) is fixedly provided with a top pneumatic clamping structure for sealing the tank body, and the top of the pneumatic top cover (119) is fixedly provided with a vacuum dehumidifying structure for exhausting moisture.

8. The tea tree fertilizing apparatus as claimed in claim 7, wherein: the top pneumatic clamping structure comprises a top annular air passage (132), the top annular air passage (132) is communicated with the inside of a pneumatic top cover (119) in an annular mode, a plurality of pneumatic clamping convex blocks (202) are fixedly arranged at the bottom of the pneumatic top cover (119), a pneumatic fixed cavity (133) is fixedly arranged inside the pneumatic clamping convex blocks (202), symmetrical top cover pneumatic sliding blocks (208) are arranged in the pneumatic fixed cavity (133) in a sliding mode, the pneumatic fixed cavity (133) and the top annular air passage (132) are communicated with each other through a clamping air passage (206), a top cover air cylinder (126) used for increasing air pressure is fixedly arranged at the top of the pneumatic top cover (119), an air pressure pipe (127) is communicated with one side of the top cover air cylinder (126), the air pressure pipe (127) is communicated with the top annular air passage (132), a plurality of pneumatic clamping concave blocks (207) are fixedly arranged at the top of an upper tank body (120), the pneumatic clamping convex block (202) penetrates through the pneumatic clamping concave block (207) and is clamped with the pneumatic clamping concave block (207), and the top cover pneumatic sliding block (208) penetrates through the pneumatic clamping convex block (202) in a sliding mode and is abutted to the pneumatic clamping concave block (207).

9. A tea tree fertilizing apparatus as claimed in claim (7), wherein: the vacuum dehumidifying structure comprises four vacuum stepping motors (199) which are distributed uniformly, wherein the vacuum stepping motors (199) are fixedly arranged at the top of the pneumatic top cover (119), a vacuum impeller (200) is connected with the bottom of the pneumatic top cover (119) in a fixed power mode, a cavity is arranged in each vacuum stepping motor (199), the vacuum stepping motors (199) are communicated with the upper tank body (120), a rotating cover plate (201) is fixedly arranged inside each vacuum stepping motor (199), and a clamping air channel (206) is arranged in each rotating cover plate (201) in a power connection mode.

10. The tea tree fertilizing apparatus as claimed in claim 1, wherein: a main tea body module (999) of the main equipment, a main body box (150) is fixedly arranged on the right side of the top part, a cavity (140) is arranged in the main body box (150), the cavity (140) is provided with two baffles, the main body box (150) and the bottom main body base (265) are fixedly arranged, the bottom of the main body box (150) is fixedly provided with a pressure cylinder structure, the pressure cylinder structure comprises a fixed cylinder (139), the fixed cylinders (139) are fixedly and symmetrically arranged on the surface of the main body box (150), the bottom of the main body box (150) is symmetrically provided with bearing fixing plates (141), the bottom of the main body box (150) is symmetrically provided with bearing plates (142), the bearing plate (142) is connected with the bearing fixing plate (141) in a rotating fit manner, the outer surface of the bearing plate (142) is fixedly provided with a pneumatic shaft (149), and the pneumatic shaft (149) is connected with the fixed cylinder (139) in a sliding fit manner.

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