CN112141375A - Rice is sold and is used partial shipment equipment with transfer function - Google Patents

Abstract

The invention relates to the field of subpackage conveying technology for rice sale, in particular to subpackage equipment with a conveying function for rice sale; a servo motor is adopted to drive a first gear to rotate, so that a driving assembly enables a stirring shaft to rotate through a transmission assembly, a stirring piece is stirred in a rice storage tank, and the fluidity of rice is kept; rice falls into the rice discharging pipe and is filtered by the filter screen to remove impurities; along with the work of the driving assembly, the lifting plate moves up and down, and simultaneously under the action of a spring, the lifting plate is matched with the bending rod, so that the baffle plate seals or opens the bottom end of the rice discharging pipe, and the intermittent rice discharging is realized; a gear still drives the work of conveying subassembly, utilizes incomplete gear and a type of driven gear intermittent type cooperation, makes the conveyer belt make equidistance intermittent type removal: the transmission belt is stopped for a period of time after moving for a certain distance, and automatic rice receiving and transmission are realized by matching with the above intermittent rice discharging operation, so that the operation is convenient and fast.

Description

Rice is sold and is used partial shipment equipment with transfer function

Technical Field

The invention relates to the field of subpackage conveying technology for rice sale, in particular to subpackage equipment with a conveying function for rice sale.

Background

Rice (Rice) is a finished product made of Rice through the procedures of cleaning, hulling, milling and finishing, and contains nearly 64% of nutrient substances in Rice and more than 90% of nutrient elements required by human body, and is a main food for people in most regions of China.

The rice contains about 75% of carbohydrate, 7% -8% of protein, 1.3% -1.8% of fat and rich B vitamins. The carbohydrate in the rice is mainly starch, the protein is mainly glutelin, and secondly gliadin and globulin, the biological value of the protein and the composition ratio of amino acid are higher than that of cereal crops such as wheat, barley, millet, corn and the like, the digestibility is 66.8-83.1%, and the carbohydrate is also one of the cereal proteins.

Rice protein contains less lysine and threonine, so it is not a complete protein and has a nutritive value comparable to that of animal protein. But the rice is more beneficial to losing weight compared with cooked wheaten food when being eaten in lunch and dinner. In southern areas of China, people generally eat rice as staple food, but in northern areas, there are great differences.

The fat content is about 1.3-1.8%, and the linoleic acid content in the fat is higher, generally accounting for 34% of the total fat, and is 2-5 times more than that of rapeseed oil and tea oil respectively.

The traditional Chinese medicine considers that the rice is sweet and neutral in taste, has the effects of tonifying middle-jiao and Qi, strengthening spleen and stomach, replenishing vital essence and strengthening mind, harmonizing five internal organs, promoting blood circulation, improving hearing and eyesight, relieving restlessness, quenching thirst and stopping diarrhea, is called as the first of five cereals, is a main food crop in China, and occupies about one fourth of the cultivation area of the food crop. Rice is the staple food for half of the world population.

Ancient health preserving families also advocate that the porridge is eaten in the morning to promote the production of body fluid, so that patients with cough and constipation caused by lung yin deficiency can be cooked with rice in the morning and at night. Frequent drinking of the rice porridge helps body fluid to grow hair and can relieve discomfort such as dry skin to a certain extent.

Rice is used as an important food and has a huge production and sale demand.

Before the rice is sold, the rice is mostly required to be subpackaged in a rice finished product area of a manufacturer, and then the subpackaged rice is transferred to other areas to be stored, so that the rice is convenient for subsequent distribution to dealers. Most of the existing subpackaging equipment only has simple subpackaging work; in fact, the rice in the finished rice product area may still have some impurities, which need to be treated before being subpackaged; and generally all carry out the partial shipment in the device bottom, accomplish the partial shipment back, need the manual work to transport other regions with the rice after the partial shipment, it is comparatively troublesome.

Therefore, the inventor designs a rice split charging equipment with a conveying function for sale, and solves the problems.

Disclosure of Invention

Technical problem to be solved

The invention aims to overcome the defects in the prior art and provide the rice split charging equipment with the conveying function for sale.

(II) technical scheme

A rice selling split charging device with a conveying function comprises a frame assembly, a driving assembly, a conveying assembly, a rice feeding assembly, a transmission assembly and a stirring assembly;

the frame component comprises a base, a vertical support plate, a horizontal support plate, a rice storage tank, a rice adding hopper, a rice discharging pipe, a filtering cavity, a filter screen, a first fixing rod and a funnel; the right end of the base is connected with a vertical support plate, the top end of the vertical support plate is connected with a horizontal support plate leftwards, and the left end of the horizontal support plate is provided with a rice storage tank; the left end of the top of the rice storage tank is connected with a rice adding hopper, the bottom of the rice storage tank is connected with a lower rice pipe, the middle part of the lower rice pipe is provided with a filter cavity, and a filter screen is arranged in the filter cavity; the funnel is positioned below the lower rice pipe and is connected with the lower rice pipe through a first fixing rod;

a driving assembly is arranged on the left side of the vertical support plate, a conveying assembly is arranged below the funnel, and the driving assembly is matched with the conveying assembly; the rice discharging pipe is provided with a rice discharging assembly, and the rice discharging assembly is also matched with the driving assembly; the rice storage tank is provided with a stirring assembly, and the stirring assembly is connected with the driving assembly through a transmission assembly.

Furthermore, the driving assembly comprises a first mounting frame, a first gear, a second gear, a push-pull rod, a lifting plate, a sliding block and a sliding rail;

the first mounting frame is fixedly connected to the vertical support plate, a first gear is arranged on the first mounting frame, and the first gear is driven by a servo motor; the first mounting frame is also provided with a second gear, and the second gear is positioned above the first gear and is meshed with the first gear;

the bottom end of the push-pull rod is hinged with the eccentric position of the second gear wheel surface, and the top end of the push-pull rod is hinged with the lifting plate; the right end of the lifting plate is provided with a sliding block, the left side of the vertical support plate is provided with a sliding rail in the vertical direction, and the sliding block is connected with the sliding rail in a sliding mode.

Further, the conveying assembly comprises a first driving wheel, a first driving belt, a second driving wheel, an incomplete gear, a second mounting rack, a first-class driven gear, a roller, a third mounting rack, a conveying belt, a spacer block and a rice receiving box;

a third mounting rack is arranged on the base at intervals from left to right, rollers are arranged on the third mounting rack, a conveyor belt is connected between the rollers, and the right roller is coaxially connected with a driven gear; the right side of the base corresponding to the first class of driven gears is provided with a second mounting frame, incomplete gears are arranged on the second mounting frame, and the incomplete gears are matched with the first class of driven gears; the first gear is coaxially connected with a first driving wheel, the incomplete gear is coaxially connected with a second driven gear, and the first driving wheel and the second driving wheel are in transmission connection through a first transmission belt; the equidistance distributes on the conveyer belt and has places the section, places the section and is used for placing and connects rice case, places the section left and right ends and is provided with the spacer block.

Further, the rice feeding assembly comprises a second fixing rod, a bending rod, a first type of spring, a first connecting rod and a baffle;

the second fixed rod is fixedly connected to the right side of the lower rice pipe, and the bending end of the bending rod is hinged with the right end of the second fixed rod; a spring is connected between the bending rod and the outer wall of the lower rice pipe; the bottom end of the bending rod is connected with a baffle through a first connecting rod; the lifting plate is positioned on the left side of the bending rod, and the left end of the lifting plate is matched with the upper section of the bending rod.

Furthermore, when the lifting plate is not in contact with the bending rod, the bending rod enables the baffle plate to press the outlet at the bottom end of the lower rice pipe from the lower part under the action of the spring, so that plugging is realized.

Furthermore, the transmission assembly comprises a rack, a second type driven gear, a first rotating shaft, a first fixed seat, a first bevel gear, a second rotating shaft and a second fixed seat;

the lifting plate is connected with a rack which upwards passes through the horizontal support plate; the horizontal support plate is provided with a first fixed seat, and the first rotating shaft horizontally penetrates through the first fixed seat; the right end of the first rotating shaft is provided with a second type driven gear, and the left end of the first rotating shaft is provided with a first bevel gear; the second type driven gear is matched with the rack;

a second fixing seat is arranged on the right side of the rice storage tank, and a second rotating shaft vertically penetrates through the second fixing seat; the bottom end of the second rotating shaft is provided with a second bevel gear which is vertically meshed with the first bevel gear.

Further, the stirring component comprises a stirring shaft, a stirring rod, a transmission wheel set and a second transmission belt;

the stirring shaft is coaxially arranged in the rice storage tank; the stirring shaft is provided with a stirring rod; the top end of the stirring shaft extends out of the top of the rice storage tank, and a transmission wheel set is arranged corresponding to the second rotating shaft and is in transmission connection with the second rotating shaft through a second transmission belt.

Furthermore, the device also comprises a fifth connecting rod and a scraper;

the bottom of the rice storage tank is of a necking structure; the bottom end of the stirring shaft is connected with a scraper blade through a fifth connecting rod, and the scraper blade is in lap joint with the inner wall of the necking structure at the bottom of the rice storage tank.

Further, the vibration device also comprises a vibration component; the vibration assembly comprises a second-class spring, a straight hole, a sliding shaft, a second connecting rod, an upper convex strip, a lower convex strip, a guide rod and an end plate;

the top surface of the filter screen is connected with a guide rod, the guide rod extends upwards out of the filter cavity and is provided with an end plate, and a second-class spring is connected between the end plate and the outer top of the filter cavity;

the upper section of the bending rod is provided with a straight hole which is matched with a sliding shaft, and the sliding shaft is connected with a second connecting rod leftwards; the second connecting rod horizontally extends into the filtering cavity and is positioned below the filtering net; the left end of the second connecting rod is bent upwards and is provided with an upper raised line, and the bottom surface of the filter screen is provided with a plurality of lower raised lines at intervals along the left and right directions.

Furthermore, the device also comprises an anti-blocking component; the anti-blocking component comprises a third connecting rod, a mandril, a fourth connecting rod, a rotating rod and a pull rope;

the stirring shaft is a hollow shaft; the fourth connecting rod penetrates through the stirring shaft and upwards penetrates through a driving wheel at the top end of the stirring shaft; the top of the rack is connected with a third connecting rod, and the top end of the third connecting rod is connected with the top end of a fourth connecting rod through a mandril; a rotating rod is arranged at the bottom end of the fourth connecting rod in the circumferential direction; the dwang bottom is articulated with No. four connecting rods, still is connected with the stay cord between dwang and No. four connecting rods.

(III) advantageous effects

The invention provides split charging equipment with a conveying function for rice sale, which has the following advantages:

1, driving a first gear to rotate by adopting a servo motor; based on the meshing effect of the gears, the first gear drives the second gear to rotate, and the push-pull rod drives the lifting plate to move up and down under the guiding effect of the sliding block and the sliding rail; the rack is synchronously lifted along with the lifting plate and drives the second type of driven gear to drive the first rotating shaft to rotate, the first bevel gear at the left end of the first rotating shaft also rotates along with the first rotating shaft, and the second bevel gear drives the second rotating shaft to rotate based on the meshing action of the bevel gears; the second rotating shaft enables the stirring shaft to rotate under the action of the transmission wheel set and the second transmission belt, so that the stirring piece is stirred in the rice storage tank to keep the fluidity of the rice; the rice falls into the rice discharge pipe and is filtered by the filter screen to remove impurities.

2, along with the work of the driving assembly, when the lifting plate rises, the left end of the lifting plate contacts and abuts against the upper section of the bending rod, the bending rod rotates anticlockwise, the baffle plate opens the outlet at the bottom end of the rice discharging pipe, and the discharged rice is discharged from the bottom of the funnel through the flow guide of the funnel and falls onto the conveying assembly below; when the lifting plate descends, the left end of the lifting plate is gradually separated from the bending rod, and under the deformation recovery action of the springs, the bending rod rotates reversely and the baffle plate seals the outlet at the bottom end of the lower rice pipe again; thus, the rice discharging assembly realizes intermittent rice discharging.

3, the first gear also drives the coaxial first driving wheel to rotate, and the second driving wheel rotates under the action of a second driving belt; and the incomplete gear coaxial with No. two drive wheels also rotates synchronously to with a class of driven gear intermittent type cooperation, make the synchronous intermittent type of cylinder rotate, and then make the conveyer belt make equidistance intermittent movement: the transmission belt is stopped for a period of time after moving for a certain distance, and automatic rice receiving and transmission are realized by matching with the above intermittent rice discharging operation, so that the operation is convenient and fast.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only for the present invention and protect some embodiments, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a block diagram of the present invention;

FIG. 2 is a block diagram of another embodiment of the present invention;

FIG. 3 is a block diagram of the drive assembly and the lower rice assembly;

FIG. 4 is a block diagram of a transfer assembly;

FIG. 5 is a block diagram of the drive assembly and the agitation assembly;

FIG. 6 is a block diagram of another embodiment of a stirring assembly;

FIG. 7 is a block diagram of a vibration assembly;

FIG. 8 is a block diagram of the anti-blocking assembly;

fig. 9 is an enlarged view of fig. 8.

In the drawings, the components represented by the respective reference numerals are listed below:

1-frame component, 101-base, 102-vertical support plate, 103-horizontal support plate, 104-rice storage tank, 105-rice adding bucket, 106-rice discharging pipe, 107-filtering cavity, 108-filtering screen, 109-fixing rod, 110-funnel;

2-driving component, 201-a mounting rack, 202-a gear, 203-a gear, 204-a push-pull rod, 205-a lifting plate, 206-a sliding block and 207-a sliding rail;

3-conveying assembly, 301-first driving wheel, 302-first driving belt, 303-second driving wheel, 304-incomplete gear, 305-second mounting rack, 306-first driven gear, 307-roller, 308-third mounting rack, 309-conveying belt, 310-spacing block and 311-rice receiving box;

4-rice feeding component, 401-second fixed rod, 402-bending rod, 403-first type spring, 404-first connecting rod and 405-baffle plate;

5-a transmission assembly, 501-a rack, 502-a second-class driven gear, 503-a first rotating shaft, 504-a first fixed seat, 505-a first bevel gear, 506-a second bevel gear, 507-a second rotating shaft and 508-a second fixed seat;

6-stirring component, 601-stirring shaft, 602-stirring rod, 603-transmission wheel group, 604-second transmission belt, 605-fifth connecting rod and 606-scraper;

7-vibration component, 701-class II spring, 702-straight hole, 703-sliding shaft, 704-connecting rod II, 705-upper convex strip, 706-lower convex strip, 707-guide rod and 708-end plate;

8-anti-blocking component, 801-third connecting rod, 802-ejector rod, 803-fourth connecting rod, 804-rotating rod and 805-pull rope.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that, as the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. appear, their indicated orientations or positional relationships are based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Moreover, the terms "first," "second," and "third," if any, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" should be interpreted broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1

Referring to the attached drawings, the rice selling split charging equipment with the conveying function comprises a frame assembly 1, a driving assembly 2, a conveying assembly 3, a rice feeding assembly 4, a transmission assembly 5 and a stirring assembly 6;

the frame component 1 comprises a base 101, a vertical support plate 102, a horizontal support plate 103, a rice storage tank 104, a rice adding hopper 105, a rice discharging pipe 106, a filtering cavity 107, a filter screen 108, a first fixing rod 109 and a funnel 110; a vertical support plate 102 is fixedly connected to the right end of the base 101, a horizontal support plate 103 is fixedly connected to the left of the top end of the vertical support plate 102, and a rice storage tank 104 is fixedly connected to the left end of the horizontal support plate 103; the left end of the top of the rice storage tank 104 is connected with a rice adding hopper 105, the bottom of the rice storage tank is connected with a lower rice pipe 106, the middle part of the lower rice pipe 106 is provided with a filter cavity 107, and a filter screen 108 is arranged in the filter cavity 107; the funnel 110 is positioned below the lower rice pipe 106 and is connected with the lower rice pipe 106 through a first fixing rod 109;

a driving assembly 2 is arranged on the left side of the vertical support plate 102, a conveying assembly 3 is arranged below the hopper 110, and the driving assembly 2 is matched with the conveying assembly 3; the rice discharging pipe 106 is provided with a rice discharging assembly 4, and the rice discharging assembly 4 is also matched with the driving assembly 2; the rice storage tank 104 is provided with a stirring component 6, and the stirring component 6 is connected with the driving component 2 through a transmission component 5.

Example 2

Referring to the attached drawings, the rice selling split charging equipment with the conveying function comprises a frame assembly 1, a driving assembly 2, a conveying assembly 3, a rice feeding assembly 4, a transmission assembly 5 and a stirring assembly 6;

the frame component 1 comprises a base 101, a vertical support plate 102, a horizontal support plate 103, a rice storage tank 104, a rice adding hopper 105, a rice discharging pipe 106, a filtering cavity 107, a filter screen 108, a first fixing rod 109 and a funnel 110; a vertical support plate 102 is fixedly connected to the right end of the base 101, a horizontal support plate 103 is fixedly connected to the left of the top end of the vertical support plate 102, and a rice storage tank 104 is fixedly connected to the left end of the horizontal support plate 103; the left end of the top of the rice storage tank 104 is connected with a rice adding hopper 105, the bottom of the rice storage tank is connected with a lower rice pipe 106, the middle part of the lower rice pipe 106 is provided with a filter cavity 107, and a filter screen 108 is arranged in the filter cavity 107; the funnel 110 is positioned below the lower rice pipe 106 and is connected with the lower rice pipe 106 through a first fixing rod 109;

a driving assembly 2 is arranged on the left side of the vertical support plate 102, a conveying assembly 3 is arranged below the hopper 110, and the driving assembly 2 is matched with the conveying assembly 3; the rice discharging pipe 106 is provided with a rice discharging assembly 4, and the rice discharging assembly 4 is also matched with the driving assembly 2; the rice storage tank 104 is provided with a stirring component 6, and the stirring component 6 is connected with the driving component 2 through a transmission component 5.

The driving assembly 2 comprises a first mounting frame 201, a first gear 202, a second gear 203, a push-pull rod 204, a lifting plate 205, a sliding block 206 and a sliding rail 207;

the first mounting frame 201 is fixedly connected to the vertical support plate 102, a first gear 202 is mounted on the first mounting frame 201, and the first gear 202 is driven by a servo motor; the first mounting frame 201 is also provided with a second gear 203, and the second gear 203 is positioned above the first gear 202 and meshed with the first gear 202;

the bottom end of the push-pull rod 204 is hinged with the eccentric position of the wheel surface of the second gear 203, and the top end is hinged with the lifting plate 205; the right end of the lifting plate 205 is fixedly connected with a sliding block 206, the left side of the vertical support plate 102 is fixedly provided with a vertical sliding rail 207, and the sliding block 206 is in sliding connection with the sliding rail 207.

The conveying assembly 3 comprises a first driving wheel 301, a first driving belt 302, a second driving wheel 303, an incomplete gear 304, a second mounting rack 305, a first driven gear 306, a roller 307, a third mounting rack 308, a conveying belt 309, a spacer 310 and a rice receiving box 311;

a third mounting rack 308 is fixedly connected to the left and the right of the base 101 at intervals, rollers 307 are mounted on the third mounting rack 308, a conveyor belt 309 is connected between the rollers 307, and the right roller 307 is coaxially connected with a first-class driven gear 306; a second mounting rack 305 is fixedly connected to the right side of the base 101 corresponding to the first-class driven gear 306, an incomplete gear 304 is mounted on the second mounting rack 305, and the incomplete gear 304 is matched with the first-class driven gear 306; the first gear 202 is coaxially connected with a first driving wheel 301, the incomplete gear 304 is coaxially connected with a second driven gear, and the first driving wheel 301 and the second driving wheel 303 are in transmission connection through a first transmission belt 302; the conveyer belt 309 is equidistantly distributed with placing sections, the placing sections are used for placing the rice receiving boxes 311, and the left end and the right end of the placing sections are provided with spacing blocks 310.

Wherein, the rice feeding component 4 comprises a second fixing rod 401, a bending rod 402, a first spring 403, a first connecting rod 404 and a baffle 405;

the second fixing rod 401 is fixedly connected to the right side of the lower rice pipe 106, and the bending end of the bending rod 402 is hinged to the right end of the second fixing rod 401; a spring 403 is connected between the bending rod 402 and the outer wall of the lower rice pipe 106; the bottom end of the bending rod 402 is connected with a baffle 405 through a first connecting rod 404; the lifting plate 205 is located at the left side of the bending rod 402, and the left end is matched with the upper section of the bending rod 402.

The transmission assembly 5 comprises a rack 501, a second-class driven gear 502, a first rotating shaft 503, a first fixing seat 504, a first bevel gear 505, a second bevel gear 506, a second rotating shaft 507 and a second fixing seat 508;

the lifting plate 205 is connected with a rack 501, and the rack 501 upwards passes through the horizontal support plate 103; a first fixing seat 504 is fixed on the horizontal support plate 103, and a first rotating shaft 503 horizontally penetrates through the first fixing seat 504; the right end of the first rotating shaft 503 is fixedly connected with a second-class driven gear 502, and the left end of the first rotating shaft is fixedly connected with a first bevel gear 505; the second-type driven gear 502 is matched with the rack 501;

a second fixing seat 508 is fixed on the right side of the rice storage tank 104, and a second rotating shaft 507 vertically penetrates through the second fixing seat 508; a second bevel gear 506 is fixedly connected to the bottom end of the second rotating shaft 507, and the second bevel gear 506 is vertically meshed with the first bevel gear 505.

The stirring component 6 comprises a stirring shaft 601, a stirring rod 602, a transmission wheel set 603 and a second transmission belt 604;

the stirring shaft 601 is coaxially arranged in the rice storage tank 104; the stirring shaft 601 is connected with a stirring rod 602; the top end of the stirring shaft 601 extends out of the top of the rice storage tank 104, a transmission wheel set 603 is correspondingly arranged on the second rotating shaft 507, and the transmission wheel sets 603 are in transmission connection through a second transmission belt 604.

The following describes the use of the machine by taking this embodiment as an example:

rice to be subpackaged is added into the rice storage tank 104 through a rice adding hopper 105, and a servo motor is started to drive a first gear 202 to rotate;

based on the gear engagement effect, the first gear 202 drives the second gear 203 to rotate, and the push-pull rod 204 drives the lifting plate 205 to move up and down under the guiding effect of the sliding block 206 and the sliding rail 207;

on one hand, the rack 501 is lifted synchronously along with the lifting plate 205 and drives the second-class driven gear 502 to drive the first rotating shaft 503 to rotate, the first bevel gear 505 at the left end of the first rotating shaft 503 also rotates along with the first rotating shaft, and the second bevel gear 506 drives the second rotating shaft 507 to rotate based on the meshing effect of the bevel gears; the second rotating shaft 507 rotates the stirring shaft 601 through the action of the transmission wheel set 603 and the second transmission belt 604, so that the stirring piece 602 stirs in the rice storage tank 104 to keep the fluidity of the rice; the rice falls into the rice discharging pipe 106 and is filtered by the filter screen 108 to remove impurities;

on the other hand, in the initial state, the lifting plate 205 does not contact the bending rod 402, and the bending rod 402 presses the outlet at the bottom end of the lower rice pipe 106 from below by the baffle 405 under the action of the spring 403, so as to realize plugging; when the lifting plate 205 ascends along with the operation of the driving assembly 2, the left end of the lifting plate 205 contacts and abuts against the upper section of the bending rod 402, the bending rod 402 rotates anticlockwise, the baffle plate 405 opens the outlet at the bottom end of the rice discharging pipe 106, so that rice discharging is realized, and the discharged rice is guided by the funnel 110, discharged from the bottom of the funnel 110 and falls onto the conveying assembly 3 below; when the lifting plate 205 descends, the left end of the lifting plate 205 is gradually separated from the bending rod 402, and under the deformation recovery action of the first-class spring 403, the bending rod 402 rotates reversely and the baffle 405 seals the outlet at the bottom end of the rice discharging pipe 106 again; the rice discharging component 3 realizes intermittent rice discharging;

meanwhile, the first gear 202 also drives the coaxial first transmission wheel 301 to rotate, and the second transmission wheel 303 is driven to rotate through the action of the second transmission belt 302; and the incomplete gear 304 coaxial with the second driving wheel 303 also synchronously rotates and is in intermittent fit with a driven gear 306, so that the roller 307 synchronously and intermittently rotates, and the conveyor belt 309 intermittently moves at equal intervals: the driving belt 309 is stopped for a period of time after moving for a certain distance, and automatic rice receiving and conveying, convenient and fast, are realized by matching with the intermittent rice discharging operation above: a rice receiving box 311 moves to the lower part of the funnel 110 along with the movement of the conveyor belt 309 and then stops, the rice discharging component 3 discharges rice, and the rice receiving box 311 receives rice; then the rice discharging component 3 stops discharging rice, the conveyor belt 309 continues moving, the next rice receiving box 31 moves to the position below the funnel 110 and then stops, the rice discharging component 3 discharges rice again, and the rice receiving box 311 receives rice.

One end of the conveying component 3 is positioned in the finished rice product area, and the other end extends to the storage area after subpackaging, so that the rice receiving box 311 which has completed receiving rice is automatically conveyed to the storage area and is taken down in time, and manual operation is not needed to transfer the rice between the areas; meanwhile, an empty rice receiving box 311 is timely supplemented at one end of the conveying assembly 3 until the rice is subpackaged.

It should be noted that, the baffle 405 is left low right high state when opening the bottom opening of rice pipe 106 down, can produce the water conservancy diversion to the rice falls, proposes to set up funnel 110 to the left or with the higher of funnel 110 left part design, avoids the rice excessive.

In another embodiment of the present invention, the substrate is,

the stirring component 5 also comprises a fifth connecting rod 605 and a scraper 606;

the bottom of the rice storage tank 104 is of a necking structure; the bottom end of the stirring shaft 601 is connected with a scraper 606 through a five-connecting rod 605, and the scraper 606 is lapped with the inner wall of the necking structure at the bottom of the rice storage tank 104.

Specifically, along with the rotation of the stirring shaft 601, the scraper 606 scrapes the inner wall of the bottom of the rice storage tank 104, so as to avoid the attachment of rice.

Example 3

On the basis of the above-described embodiments,

also comprises a vibration component 7; the vibration component 7 comprises a class II spring 701, a straight hole 702, a sliding shaft 703, a number II connecting rod 704, an upper convex strip 705, a lower convex strip 706, a guide rod 707 and an end plate 708;

the top surface of the filter screen 108 is connected with a guide rod 707, the guide rod 707 extends upwards out of the filter cavity 107 and is fixedly connected with an end plate 708, and a class II spring 701 is connected between the end plate 708 and the outer top of the filter cavity 107;

the upper section of the bending rod 402 is provided with a straight hole 702, the straight hole 702 is matched with a sliding shaft 703, and the sliding shaft 703 is connected with a second connecting rod 704 leftwards; the second connecting rod 704 horizontally extends into the filter cavity 107 and is positioned below the filter screen 108; the second connecting rod 704 has an upper protrusion 705 bent upward at its left end, and a plurality of lower protrusions 706 fixed to the bottom surface of the filter 108 at left and right intervals.

Specifically, referring to the above embodiment, when the bending rod 402 rotates under the action of the driving assembly 2 and the first-class spring 403, the linear hole 702 acts on the sliding shaft 703, so that the sliding shaft 703 drives the second connecting rod 704 to move horizontally, the lower protruding strip 705 moves along with the sliding shaft and acts on the upper protruding strip 705, so that the filter screen 108 vibrates, and the filtering efficiency is accelerated;

referring to the drawings, longitudinal sections of the lower and upper flanges 705, 705 are both arc-shaped; the lower convex strip 705 contacts with the upper convex strip 705 when moving, and jacks up the filter screen 108, and the deformation of the second-class spring 701 is increased; when the lower protrusion 705 moves between the two upper protrusions 705, the screen 108 falls down by its own weight and the second-type spring 701, thereby realizing the vertical vibration of the screen 108.

It should be noted that, sealing rings are installed at the joints of the second connecting rod 704, the guide rod 707 and the wall surface of the filter cavity 108, so as to prevent rice from leaking.

Example 4

The rice is gathered in the rice discharging pipe 106, and due to the existence of the filter screen 108, the rice discharging pipe 106 is easy to be blocked;

therefore, on the basis of the embodiment 3, the anti-blocking device further comprises an anti-blocking component 8; the anti-blocking component 8 comprises a third connecting rod 801, a top rod 802, a fourth connecting rod 803, a rotating rod 804 and a pull rope 805;

the stirring shaft 601 is a hollow shaft; the fourth connecting rod 803 penetrates through the stirring shaft 601 and upwards penetrates through the driving wheel at the top end of the stirring shaft 601; the top of the rack 501 is connected with a third connecting rod 801, and the top end of the third connecting rod 801 is connected with the top end of a fourth connecting rod 803 through a top rod 802; a rotating rod 804 is circumferentially arranged at the bottom end of the fourth connecting rod 803; the bottom end of the rotating rod 804 is hinged to the fourth connecting rod 803, and a pull rope 805 is further connected between the rotating rod 804 and the fourth connecting rod 803.

Specifically, the fourth connecting rod 803 is intermittently matched with the stirring shaft 601; a through hole is also formed in the driving wheel at the top end of the stirring shaft 601, and the fourth connecting rod 803 is also in clearance fit with the through hole; therefore, the third connecting rod 801 moves along with the rack 501, and synchronously ascends and descends through the ejector rod 802 with the fourth connecting rod 803, and avoids interference with the stirring shaft 601 and the transmission wheel at the top end of the stirring shaft;

the fourth connecting rod 803 extends into the rice discharging pipe 106, so that when the fourth connecting rod 803 moves downwards, the rotating rod 804 is acted by rice to rotate and is close to the fourth connecting rod 803, the resistance of the rotating rod 804 moving downwards is reduced, and the pull rope 805 is loosened; the bottom end of the fourth connecting rod 803 moves to a position close to the filter screen 108 and then moves upwards immediately, at the moment, the rotating rod 804 is subjected to the action of the rice to rotate reversely and is far away from the fourth connecting rod 803, and meanwhile, the pull rope 805 is tightened to prevent the fourth connecting rod 803 from rotating excessively, so that when the fourth connecting rod 803 moves upwards, the rotating rod 804 is opened to scrape the rice, and the rice discharging pipe 106 is prevented from being blocked.

It should be noted that the electrical components are provided with power supplies, and the control method is the prior art, and is unified here for avoiding the redundancy of description; and the present invention is primarily intended to protect mechanical equipment, the control means and circuit connections will not be explained in detail herein.

In the description herein, references to the description of "one embodiment," "an example," "a specific example," etc., mean that a particular feature, structure, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise forms disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (10)

1. The split charging equipment with the conveying function for rice sales is characterized by comprising a frame assembly (1), a driving assembly (2), a conveying assembly (3), a rice feeding assembly (4), a transmission assembly (5) and a stirring assembly (6);

the frame component (1) comprises a base (101), a vertical support plate (102), a horizontal support plate (103), a rice storage tank (104), a rice adding hopper (105), a rice discharging pipe (106), a filtering cavity (107), a filter screen (108), a first fixing rod (109) and a funnel (110); the right end of the base (101) is connected with a vertical support plate (102), the top end of the vertical support plate (102) is connected with a horizontal support plate (103) leftwards, and the left end of the horizontal support plate (103) is provided with a rice storage tank (104); the left end of the top of the rice storage tank (104) is connected with a rice adding hopper (105), the bottom of the rice storage tank is connected with a lower rice pipe (106), the middle part of the lower rice pipe (106) is provided with a filter chamber (107), and a filter screen (108) is arranged in the filter chamber (107); the funnel (110) is positioned below the lower rice pipe (106) and is connected with the lower rice pipe (106) through a first fixing rod (109);

a driving assembly (2) is arranged on the left side of the vertical support plate (102), a conveying assembly (3) is arranged below the funnel (110), and the driving assembly (2) is matched with the conveying assembly (3); the rice discharging pipe (106) is provided with a rice discharging assembly (4), and the rice discharging assembly (4) is also matched with the driving assembly (2); the rice storage tank (104) is provided with a stirring component (6), and the stirring component (6) is connected with the driving component (2) through a transmission component (5).

2. The rice split charging equipment with the conveying function for sale is characterized in that the driving assembly (2) comprises a first mounting frame (201), a first gear (202), a second gear (203), a push-pull rod (204), a lifting plate (205), a sliding block (206) and a sliding rail (207);

the first mounting rack (201) is fixedly connected to the vertical support plate (102), a first gear (202) is arranged on the first mounting rack (201), and the first gear (202) is driven by a servo motor; the first mounting rack (201) is also provided with a second gear (203), and the second gear (203) is positioned above the first gear (202) and meshed with the first gear (202);

the bottom end of the push-pull rod (204) is hinged with a wheel surface eccentric position of a second gear (203), and the top end of the push-pull rod is hinged with a lifting plate (205); the right end of the lifting plate (205) is provided with a sliding block (206), the left side of the vertical support plate (102) is provided with a sliding rail (207) in the vertical direction, and the sliding block (206) is in sliding connection with the sliding rail (207).

3. The rice split charging equipment with the conveying function for sale is characterized in that the conveying assembly (3) comprises a first driving wheel (301), a first driving belt (302), a second driving wheel (303), an incomplete gear (304), a second mounting rack (305), a first driven gear (306), a roller (307), a third mounting rack (308), a conveying belt (309), a spacing block (310) and a rice receiving box (311);

a third mounting rack (308) is arranged on the base (101) at left and right intervals, rollers (307) are arranged on the third mounting rack (308), a conveyor belt (309) is connected between the rollers (307), and the roller (307) on the right side is coaxially connected with a first-class driven gear (306); a second mounting rack (305) is arranged on the right side of the base (101) corresponding to the first-class driven gear (306), an incomplete gear (304) is arranged on the second mounting rack (305), and the incomplete gear (304) is matched with the first-class driven gear (306); the first gear (202) is coaxially connected with a first driving wheel (301), the incomplete gear (304) is coaxially connected with a second driven gear, and the first driving wheel (301) and the second driving wheel (303) are in transmission connection through a first transmission belt (302); the rice receiving box is characterized in that the conveyor belt (309) is provided with placing sections at equal intervals, the placing sections are used for placing rice receiving boxes (311), and the left end and the right end of the placing sections are provided with spacing blocks (310).

4. The rice split charging equipment with the conveying function for sale is characterized in that the rice feeding assembly (4) comprises a second fixing rod (401), a bending rod (402), a first spring (403), a first connecting rod (404) and a baffle plate (405);

the second fixing rod (401) is fixedly connected to the right side of the rice discharging pipe (106), and the bending end of the bending rod (402) is hinged to the right end of the second fixing rod (401); a spring (403) is connected between the bending rod (402) and the outer wall of the lower rice pipe (106); the bottom end of the bending rod (402) is connected with a baffle (405) through a first connecting rod (404); the lifting plate (205) is positioned on the left side of the bending rod (402), and the left end of the lifting plate is matched with the upper section of the bending rod (402).

5. The rice split charging equipment with conveying function for sale is characterized in that when the lifting plate (205) is not in contact with the bending rod (402), the bending rod (402) enables the baffle plate (405) to press the outlet at the bottom end of the lower rice pipe (106) from below under the action of a spring (403) to realize blocking.

6. The rice selling split charging equipment with the transmission function is characterized in that the transmission assembly (5) comprises a rack (501), a second-class driven gear (502), a first rotating shaft (503), a first fixed seat (504), a first bevel gear (505), a second bevel gear (506), a second rotating shaft (507) and a second fixed seat (508);

the lifting plate (205) is connected with a rack (501), and the rack (501) upwards penetrates through the horizontal support plate (103); a first fixed seat (504) is arranged on the horizontal support plate (103), and a first rotating shaft (503) horizontally penetrates through the first fixed seat (504); a second-class driven gear (502) is arranged at the right end of the first rotating shaft (503), and a first bevel gear (505) is arranged at the left end of the first rotating shaft; the second-type driven gear (502) is matched with the rack (501);

a second fixed seat (508) is arranged on the right side of the rice storage tank (104), and a second rotating shaft (507) vertically penetrates through the second fixed seat (508); the bottom end of the second rotating shaft (507) is provided with a second bevel gear (506), and the second bevel gear (506) is vertically meshed with the first bevel gear (505).

7. The split charging equipment with the transmission function for the rice sale is characterized in that the stirring assembly (6) comprises a stirring shaft (601), a stirring rod (602), a transmission wheel set (603) and a second transmission belt (604);

the stirring shaft (601) is coaxially arranged in the rice storage tank (104); a stirring rod (602) is arranged on the stirring shaft (601); the top end of the stirring shaft (601) extends out of the top of the rice storage tank (104), a transmission wheel set (603) is correspondingly arranged on the second rotating shaft (507), and the transmission wheel set (603) is in transmission connection through a second transmission belt (604).

8. The rice split charging equipment with the conveying function for sale is characterized by further comprising a five-number connecting rod (605) and a scraper (606);

the bottom of the rice storage tank (104) is of a necking structure; the bottom end of the stirring shaft (601) is connected with a scraper (606) through a fifth connecting rod (605), and the scraper (606) is lapped with the inner wall of the necking structure at the bottom of the rice storage tank (104).

9. The rice split charging equipment with the conveying function for sale is characterized by further comprising a vibration component (7); the vibration component (7) comprises a second-class spring (701), a straight hole (702), a sliding shaft (703), a second connecting rod (704), an upper convex strip (705), a lower convex strip (706), a guide rod (707) and an end plate (708);

the top surface of the filter screen (108) is connected with a guide rod (707), the guide rod (707) extends upwards out of the filter cavity (107) and is provided with an end plate (708), and a second-class spring (701) is connected between the end plate (708) and the outer top of the filter cavity (107);

the upper section of the bending rod (402) is provided with a straight hole (702), the straight hole (702) is matched with a sliding shaft (703), and the sliding shaft (703) is connected with a second connecting rod (704) leftwards; the second connecting rod (704) horizontally extends into the filter cavity (107) and is positioned below the filter screen (108); the left end of the second connecting rod (704) is bent upwards and provided with an upper convex strip (705), and a plurality of lower convex strips (706) are arranged on the bottom surface of the filter screen (108) at intervals along the left-right direction.

10. The rice split charging equipment with the transmission function for sale is characterized by further comprising an anti-blocking component (8); the anti-blocking component (8) comprises a third connecting rod (801), a top rod (802), a fourth connecting rod (803), a rotating rod (804) and a pull rope (805);

the stirring shaft (601) is a hollow shaft; the fourth connecting rod (803) penetrates through the stirring shaft (601) and upwards penetrates through a driving wheel at the top end of the stirring shaft (601); the top of the rack (501) is connected with a third connecting rod (801), and the top end of the third connecting rod (801) is connected with the top end of a fourth connecting rod (803) through a top rod (802); a rotating rod (804) is arranged at the bottom end of the fourth connecting rod (803) in the circumferential direction; the bottom end of the rotating rod (804) is hinged to the fourth connecting rod (803), and a pull rope (805) is further connected between the rotating rod (804) and the fourth connecting rod (803).

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