CN220721772U - Rice jar with ejection of compact anti-blocking function - Google Patents

Abstract

The utility model discloses a rice can with a discharging anti-blocking function, which comprises a support frame, wherein a hydraulic push rod is fixedly arranged at one end of the support frame, a connecting plate is fixedly arranged at one end of a piston rod of the hydraulic push rod, a storage component is movably arranged between two groups of connecting plates, a connecting block is fixedly arranged at one end of the hydraulic push rod, a guide rail groove is formed at one end of the connecting block, a sealing component is movably arranged in the guide rail groove, and the sealing component is opposite to the storage component up and down and is attached to the storage component. The rice guiding device has the advantages that when rice is taken out, only the rice storing device is placed on the lower surface of the storage barrel, then the rice can be guided into the storage device by applying thrust, and rice grains at the discharge hole can be driven to move upwards when the rice is taken out, so that rice lines at the periphery of the discharge hole are flushed into the position of the discharge hole, and the condition that the rice grains are extruded at one position to cause blockage can be avoided.

Description

Rice jar with ejection of compact anti-blocking function

Technical Field

The utility model belongs to the technical field of rice storage, and particularly relates to a rice pot with a discharging anti-blocking function.

Background

Rice has become a part of people's life, especially in the south, as a staple food for people, and people are loving rice.

However, the prior art has some problems: the existing rice pot is required to manually scoop or pour rice to take out the rice when taking out the rice, so that time and labor are wasted when taking out the rice, and the rice pot with a smaller discharge hole can cause blockage when pouring rice, so that the rice pot with the discharging anti-blocking function is provided.

Disclosure of Invention

Aiming at the problems existing in the prior art, the rice pot with the discharging anti-blocking function is provided by the utility model, and has the advantages that when rice is taken out, only a rice storage device is required to be placed on the lower surface of the storage drum, then, the rice can be guided into the storage device by applying a pushing force, and when the rice is taken out, the rice at the discharge port can be driven to move upwards, so that rice grains at the periphery of the discharge port are flushed into the position of the discharge port, the situation that the rice grains are fully extruded at one position to cause blocking can be avoided, the problem that when the rice is taken out by the existing rice pot, the rice needs to be manually scooped or poured to take out the rice, so that time and labor are wasted when the rice is taken out, and the rice pot with the smaller discharge port is poured to cause blocking is solved.

The rice can with the discharging anti-blocking function comprises a support frame, wherein a hydraulic push rod is fixedly arranged at one end of the support frame, a connecting plate is fixedly arranged at one end of a piston rod of the hydraulic push rod, a storage component is movably arranged between two groups of connecting plates, a connecting block is fixedly arranged at one end of the hydraulic push rod, a guide rail groove is formed at one end of the connecting block, a sealing component is movably arranged in the guide rail groove, and the sealing component is opposite to the storage component up and down and is attached to the storage component.

As the preferred storage component of the utility model, the storage component comprises a storage cylinder which is fixedly arranged between two groups of connecting plates, the lower surface of the storage cylinder is provided with a discharge hole, and the discharge hole is opposite to and attached to the sealing component up and down.

As the preferable mode of the utility model, the upper surface of the storage cylinder is movably provided with the closing cover, the upper surface of the storage cylinder is fixedly provided with the motor, one end of an output shaft of the motor is fixedly provided with the threaded conveying rod, the threaded conveying rod is rotatably positioned in the storage cylinder, and the threaded conveying rod is vertically opposite to the discharge hole.

As the preferable mode of the utility model, the sealing component comprises guide rail blocks which are movably arranged in the guide rail grooves, sealing plates are fixedly arranged between the two groups of guide rail blocks, and the sealing plates are opposite to the discharge hole up and down and are attached to the discharge hole.

As preferable in the utility model, the upper surface of the sealing plate is provided with a butt joint which can be vertically opposite to the discharge hole.

As preferable, the upper surface of the guide rail block is provided with a storage groove, an elastic plate is fixedly arranged in the storage groove, and one end of the elastic plate is fixedly provided with a clamping column.

As preferable, the clamping column can be clamped and installed in the first clamping groove and the second clamping groove, and the first clamping groove and the second clamping groove are both arranged in the guide rail groove.

Compared with the prior art, the utility model has the following beneficial effects:

1. according to the utility model, when the rice storage device is used, through the design of the support frame, the hydraulic push rod, the connecting plate, the storage component, the connecting block and the sealing component, the connecting plate fixedly arranged at one end of the push rod of the hydraulic push rod is started to push and pull the connecting plate to move up and down, and the storage component is fixedly arranged between the connecting plates, so that the storage component can be driven to move up and down to adjust, the storage components with different heights can be placed on the lower surface of the storage component, when rice in the storage component is guided into the storage, the sealing effect of the storage component can be relieved by pushing the sealing component through external force, the rice can be guided into the storage, and when the rice is guided into the storage, the storage component can be started to drive the rice at the discharge port to move up, so that the condition that the rice is totally extruded at one position to cause blockage can be avoided.

2. According to the utility model, when the storage barrel, the connecting plate, the discharge hole and the sealing component are designed, the storage barrel, the connecting plate fixedly arranged at one end of the push-pull piston rod of the hydraulic push rod can be started to perform up-and-down movement operation, the storage barrel is fixedly arranged between the connecting plates, so that the storage barrel can be driven to perform up-and-down movement adjustment operation, the storages with different heights can be placed on the lower surface of the storage barrel, when rice in the storage barrel is guided into the storages, the sealing component can be pushed by external force to separate from the sealing operation of the discharge hole formed on the lower surface of the storage barrel, the discharge hole formed on the lower surface of the storage barrel can be unfolded, rice grains in the storage barrel can be guided into the storages placed below through the discharge hole, and when the rice is guided into the storages, the motor can be started to drive the screw conveying rod to perform rotation operation, and the rice grains at the discharge hole can be driven to move upwards when the screw conveying rod rotates, and the peripheral rice grains are completely extruded into the discharge hole to cause blockage, so that the blocking prevention function is realized.

3. According to the utility model, when the rice storage device is used, through the design of the storage cylinder, the closing cover, the motor, the threaded conveying rod and the discharge port, the connecting plate fixedly arranged at one end of the push-pull piston rod of the hydraulic push rod can be started to perform up-and-down movement operation, the storage cylinder is fixedly arranged between the connecting plates, so that the storage cylinder can be driven to perform up-and-down movement adjustment operation, the storages with different heights can be placed on the lower surface of the storage cylinder, when rice in the storage cylinder is guided into the storage cylinder, the sealing assembly can be pushed by external force to separate the sealing assembly from the operation of sealing the discharge port arranged on the lower surface of the storage cylinder, the discharge port arranged on the lower surface of the storage cylinder can be unfolded, so that rice grains in the storage cylinder can be guided into the storage cylinder placed below through the discharge port, and when the rice is guided into the storage cylinder, the motor can be started to drive the threaded conveying rod to perform rotation operation, and the rice grains at the discharge port can be driven to move upwards when the threaded conveying rod rotates, and the peripheral rice grains are used to enter the discharge port, so that the rice grains can be prevented from being blocked by extrusion at the discharge port.

4. According to the rice storage device, through the design of the sealing assembly, the guide rail blocks, the guide rail grooves, the sealing plate and the discharge hole, when rice in the storage barrel is guided into the storage, the sealing plate can be pushed by external force, the butt joint opening formed in the upper surface of the sealing plate is driven to vertically face the discharge hole formed in the lower surface of the storage barrel, rice grains in the storage barrel can be guided into the storage placed below through the discharge hole and the butt joint opening, the guide rail blocks fixedly arranged at two ends can be driven to slide in the guide rail grooves formed in one end of the connecting block when the sealing plate is pushed, and after the guide rail blocks slide to the top of the guide rail grooves through the pushing force exerted by the sealing plate, the butt joint opening formed in the upper surface of the sealing plate is vertically opposite to the discharge hole, and the rice grains can flow into the storage through the butt joint opening and the discharge hole.

5. According to the utility model, when rice in the storage cylinder is guided into the storage through the design of the sealing plate, the sealing plate can be pushed by external force, so that the sealing plate drives the counter port arranged on the upper surface to vertically face the discharge port arranged on the lower surface of the storage cylinder, rice grains in the storage cylinder can be guided into the storage placed below through the discharge port and the counter port, and when the sealing plate is pushed, the guide rail blocks with the two ends fixedly installed can be driven to slide in the guide rail grooves arranged at one end of the connecting block until the guide rail blocks slide to the top of the guide rail grooves by the thrust exerted by the sealing plate, the counter port arranged on the upper surface of the sealing plate can vertically face the discharge port, the rice grains can flow into the storage through the counter port and the discharge port, and when the storage cylinder is sealed, the sealing plate can be pulled out of the discharge port by external force again, so that the sealing plate and the discharge port are vertically opposite and attached, and the storage cylinder can be sealed.

6. According to the utility model, through the design of the guide rail block, the storage groove, the elastic plate and the clamping column, the guide rail block with the two fixedly installed ends is driven to slide in the guide rail groove formed in one end of the connecting block when the sealing plate is pushed, the storage groove is formed in the upper surface of the guide rail block, the elastic plate and the clamping column are fixedly installed in the storage groove, so that the clamping column and the first clamping groove are mutually extruded when the guide rail block is pushed to slide in the guide rail groove, the elastic plate can drive the elastic plate to be extruded and stored in the storage groove, the elastic plate can apply a reset elastic force to the clamping column after being extruded and stored in the storage groove, then the sealing plate can be pushed continuously until the guide rail block slides to the top of the guide rail groove through the pushing force applied by the sealing plate, the clamping column can vertically face the second clamping groove through the elastic force applied by the elastic plate, and when the sealing plate is pulled back again, the sealing plate can drive the guide rail block to slide to the initial position, and the clamping column can be installed in the first clamping groove and the discharging hole can vertically face the discharging hole.

7. According to the utility model, through the design of the clamping column, the first clamping groove, the second clamping groove and the guide rail groove, the guide rail blocks with the two ends fixedly installed can be driven to slide in the guide rail groove formed in one end of the connecting block when the sealing plate is pushed, the storage groove is formed in the upper surface of the guide rail block, the elastic plate and the clamping column are fixedly installed in the storage groove, so that the clamping column and the first clamping groove are mutually extruded when the guide rail block is pushed to slide in the guide rail groove, the elastic plate can drive the elastic plate to be extruded and stored in the storage groove, the elastic plate can apply a reset elastic force to the clamping column after being extruded and stored in the storage groove, then the sealing plate can be pushed continuously until the guide rail block slides to the topmost part of the guide rail groove through the pushing force applied by the sealing plate, the clamping column can vertically opposite to the second clamping groove through the elastic force applied by the elastic plate, the clamping column can simultaneously vertically opposite to the discharge port, the guide rail block can be driven to slide to the initial position when the sealing plate is pulled back again, and the sealing plate can be vertically opposite to the discharge port when the sealing plate is vertically arranged in the storage cylinder.

Drawings

FIG. 1 is a schematic perspective view of an overall structure provided in an embodiment of the present utility model;

fig. 2 is a schematic perspective view of a connection board structure according to an embodiment of the present utility model;

FIG. 3 is a schematic perspective view of a storage component according to an embodiment of the present utility model;

fig. 4 is a schematic perspective view of a connection block structure according to an embodiment of the present utility model;

fig. 5 is a schematic perspective view of a seal assembly according to an embodiment of the present utility model.

In the figure: 1. a support frame; 101. a connecting block; 102. a guide rail groove; 103. a first clamping groove; 104. a second clamping groove; 2. a hydraulic push rod; 201. a connecting plate; 3. a storage component; 301. a storage cylinder; 302. closing the cover; 303. a motor; 304. a threaded conveying rod; 305. a discharge port; 4. a seal assembly; 401. a sealing plate; 402. an interface; 403. a guide rail block; 404. a storage groove; 405. an elastic plate; 406. and (5) clamping the column.

Detailed Description

For a further understanding of the utility model, its features and advantages, reference is now made to the following examples, which are illustrated in the accompanying drawings.

The structure of the present utility model will be described in detail with reference to the accompanying drawings.

As shown in fig. 1 to 5, the rice can with the discharging anti-blocking function provided by the embodiment of the utility model comprises a support frame 1, wherein one end of the support frame 1 is fixedly provided with a hydraulic push rod 2, one end of a piston rod of the hydraulic push rod 2 is fixedly provided with a connecting plate 201, a storage component 3 is movably arranged between the two groups of connecting plates 201, one end of the hydraulic push rod 2 is fixedly provided with a connecting block 101, one end of the connecting block 101 is provided with a guide rail groove 102, a sealing component 4 is movably arranged in the guide rail groove 102, and the sealing component 4 is opposite to the storage component 3 up and down and is attached to the storage component 3.

The scheme is adopted: through the design of support frame 1, hydraulic push rod 2, connecting plate 201, storage subassembly 3, connecting block 101, seal assembly 4, when using it, the accessible starts hydraulic push rod 2 push-pull piston rod one end fixed mounting's connecting plate 201 and carries out the reciprocating operation, and fixed mounting has storage subassembly 3 between the connecting plate 201, thereby can drive storage subassembly 3 and carry out the reciprocating adjustment operation, thereby just can make the memory of different height place in storage subassembly 3 lower surface department, when the rice water conservancy diversion in storage subassembly 3 is in the memory, accessible external force promotes seal assembly 4 and can release the sealed effect of storage subassembly 3, can make the rice water conservancy diversion go into the memory in, and when going into the memory with the rice water conservancy diversion can start the rice water conservancy diversion in storage subassembly 3 drive the grain of rice upward movement of discharge gate 305 department, thereby can avoid whole extrusion in order to cause the condition of jam in one.

Referring to fig. 3, the storage assembly 3 includes a storage cylinder 301, the storage cylinder 301 is fixedly installed between two groups of connecting plates 201, a discharge port 305 is formed in the lower surface of the storage cylinder 301, and the discharge port 305 is vertically opposite to and attached to the sealing assembly 4.

The scheme is adopted: through the design of storage section of thick bamboo 301, connecting plate 201, discharge gate 305, seal assembly 4, when using it, accessible start hydraulic push rod 2 push-pull piston rod one end fixed mounting's connecting plate 201 carries out the operation of reciprocating, and fixed mounting has storage section of thick bamboo 301 between the connecting plate 201, thereby can drive storage section of thick bamboo 301 and carry out the regulation operation of reciprocating, thereby just can make the memory of different altitudes place in storage section of thick bamboo 301 lower surface department, when the rice water conservancy diversion in storage section of thick bamboo 301 is in the memory, accessible external force promotes seal assembly 4 can make seal assembly 4 break away from the operation of sealing up the discharge gate 305 that sets up in storage section of thick bamboo 301 lower surface, can expand the discharge gate 305 that sets up the lower surface of storage section of thick bamboo 301, can make the rice grain in the storage section of thick bamboo 301 flow into the memory that the below was placed through the discharge gate 305, and can start motor 303 drive screw conveyer 304 and rotate the operation when will be rice water conservancy diversion into the memory, and screw conveyer 304 can drive the rice grain 305 of discharge gate 305 and upwards move, use peripheral rice grain in the discharge gate to go out, thereby can all extrude in order to cause the condition of blocking up in order to have the jam preventing.

Referring to fig. 3, a closing cap 302 is movably mounted on the upper surface of a storage cylinder 301, a motor 303 is fixedly mounted on the upper surface of the storage cylinder 301, a threaded conveying rod 304 is fixedly mounted at one end of an output shaft of the motor 303, the threaded conveying rod 304 is rotatably positioned in the storage cylinder 301, and the threaded conveying rod 304 is vertically opposite to a discharge port 305.

The scheme is adopted: through the design of storage section of thick bamboo 301, closing cap 302, motor 303, screw conveyer 304, discharge gate 305, when using it, accessible start hydraulic push rod 2 push-pull piston rod one end fixed mounting's connecting plate 201 carries out the operation of reciprocating, and fixed mounting has storage section of thick bamboo 301 between the connecting plate 201, thereby can drive storage section of thick bamboo 301 and carry out the regulation operation of reciprocating, thereby just can make the memory of different height place in storage section of thick bamboo 301 lower surface department, when the rice water conservancy diversion in storage section of thick bamboo 301 is in the memory, can push seal assembly 4 through external force can make seal assembly 4 break away from the operation of sealing the discharge gate 305 of seting up in storage section of thick bamboo 301 lower surface, can expand the discharge gate 305 of seting up in can making the rice grain in the storage section of thick bamboo 301 flow into the memory of being placed below through the discharge gate 305, and can start motor 303 drive screw conveyer 304 and rotate the operation when being led into the memory, and screw conveyer 304 rotates and can drive the upward movement of discharge gate 305 department, use peripheral rice grain in discharge gate 305, thereby can prevent that the whole situation from pressing and leading to the fact the condition of blocking up in order to have the whole rice grain in storage section of thick bamboo 305.

Referring to fig. 5, the sealing assembly 4 includes a guide rail block 403, the guide rail block 403 is movably mounted in the guide rail groove 102, a sealing plate 401 is fixedly mounted between two sets of guide rail blocks 403, and the sealing plate 401 is opposite to and attached to the discharge port 305 vertically.

The scheme is adopted: through seal assembly 4, guide rail piece 403, guide rail groove 102, closing plate 401, the design of discharge gate 305, when the rice in the storage section of thick bamboo 301 is guided into the memory, accessible external force promotes closing plate 401, make closing plate 401 drive the butt joint mouth 402 that the upper surface was seted up and the discharge gate 305 that the storage section of thick bamboo 301 lower surface was seted up vertically opposite, can make the rice grain in the storage section of thick bamboo 301 pass through discharge gate 305 and butt joint mouth 402 water conservancy diversion in the memory of placing in the below, and guide rail piece 403 that can drive both ends fixed mounting when closing plate 401 is promoted carries out the sliding operation in guide rail groove 102 that the connecting block 101 one end was seted up, until guide rail piece 403 slides to the top of guide rail groove 102 through the thrust that closing plate 401 applyed, butt joint mouth 402 that closing plate 401 upper surface was seted up will be vertically opposite with discharge gate 305, the rice grain will flow into the memory through butt joint mouth 402 and discharge gate 305.

Referring to fig. 5, the upper surface of the sealing plate 401 is provided with an interface 402, and the interface 402 may be vertically opposite to the discharge port 305.

The scheme is adopted: through the design of closing plate 401, butt joint 402, discharge gate 305, when the rice in the storage section of thick bamboo 301 is guided into in the memory, accessible external force promotes closing plate 401, make butt joint 402 that the closing plate 401 drove the upper surface and the discharge gate 305 that storage section of thick bamboo 301 lower surface set up vertically opposite, can make the rice grain in the storage section of thick bamboo 301 pass through discharge gate 305 and butt joint 402 water conservancy diversion in the memory that the below was placed, and can drive both ends fixed mounting's guide rail block 403 when closing plate 401 was promoted and carry out the sliding operation in guide rail groove 102 that connecting block 101 one end was seted up, until guide rail block 403 slides to the top of guide rail groove 102 through the thrust that closing plate 401 applyed, butt joint 402 that closing plate 401 upper surface was seted up will be the vertical opposite to discharge gate 305, the rice grain will flow into in the memory through butt joint 402 and discharge gate 305, and when sealed to storage section of thick bamboo 301, accessible external force pulls closing plate 401 again makes butt joint 402 shift out discharge gate 305, make sealing plate 401 and discharge gate 305 vertically opposite and laminating, thereby can seal operation to storage section of thick bamboo 301.

Referring to fig. 5, a receiving groove 404 is formed on the upper surface of the guide rail block 403, an elastic plate 405 is fixedly installed in the receiving groove 404, and a clamping post 406 is fixedly installed at one end of the elastic plate 405.

The scheme is adopted: through the design of guide rail block 403, accomodate groove 404, elastic plate 405, joint post 406, and guide rail block 403 that can drive both ends fixed mounting when closing plate 401 is pushed carries out sliding operation in guide rail groove 102 that connecting block 101 one end was seted up, and guide rail block 403 upper surface has seted up accomodate groove 404, accomodate inslot fixed mounting has elastic plate 405 and joint post 406, thereby promote guide rail block 403 and can make joint post 406 and first joint groove 103 extrudeed each other when the guide rail groove 102 slides, can make joint post 406 drive elastic plate 405 and be extruded and accomodate into accomodate groove 404, after elastic plate 405 is extruded and accomodate into accomodate groove 404, elastic plate 405 can apply a reset elasticity to joint post 406, can make closing plate 401 continue to promote afterwards, until guide rail block 403 slides to the top of guide rail groove 102 through the thrust that closing plate 401 applyed, joint post 406 can be with second joint groove 104 from top to bottom, can make joint post 406 can stretch into second joint groove 104 through the elasticity that elastic plate 405 applyed, and simultaneously can be to interface 402 and outlet port 103 can be extruded and take back into the relative position to sealing plate 401 when can be relative to the opposite to sealing plate 401, can make the relative position of sealing plate 401 and can be opened simultaneously in the relative seal the relative position of sealing plate 401 when opening to the sealing plate 401.

Referring to fig. 5, the clamping post 406 may be installed in the first clamping groove 103 and the second clamping groove 104 in a clamping manner, and the first clamping groove 103 and the second clamping groove 104 are both opened in the guide rail groove 102.

The scheme is adopted: through the design of joint post 406, first joint groove 103, second joint groove 103, guide rail groove 102, and sealing plate 401 is pushed the time can drive both ends fixed mounting's guide rail piece 403 and carry out sliding operation in guide rail groove 102 that connecting block 101 one end was seted up, and guide rail piece 403 upper surface has seted up storage groove 404, storage groove 404 internally fixed mounting has elastic plate 405 and joint post 406, thereby promote guide rail piece 403 and can make joint post 406 and first joint groove 103 extrudeed each other when the guide rail piece 403 slides in guide rail groove 102, can make joint post 406 drive elastic plate 405 and be extruded and accomodate into storage groove 404, elastic plate 405 is extruded and accomodate into storage groove 404 after, can make sealing plate 401 continue pushing afterwards, after guide rail piece 403 slides to the topmost of guide rail groove 102 through the thrust that sealing plate 401 applyed, joint post 406 can be with second joint groove 104 from top to bottom, and simultaneously can make joint post 406 be sprung into second joint groove 104 through the elasticity that elastic plate 405 applyed, and simultaneously can make joint post 305 can be relative to the relative position of a seal 401 when can be driven to draw back to the relative seal plate 401 to the discharge port, can make sealing plate 401 and seal the relative position can be opened when sealing plate 401 and sealing plate 401 can be sealed and the relative to the discharge port 305.

The working principle of the utility model is as follows:

when in use, the storage barrel 301 can be driven to move up and down by starting the hydraulic push rod 2 to push and pull the connecting plate 201 fixedly arranged at one end of the piston rod to move up and down, the storage barrel 301 is fixedly arranged between the connecting plates 201, so that the storage barrels 301 can be driven to move up and down to adjust, memories with different heights can be placed on the lower surface of the storage barrel 301, when rice in the storage barrel 301 is guided into the memories, the sealing plate 401 can be pushed by external force, the sealing plate 401 drives the butt joint 402 formed on the upper surface to vertically face the discharge hole 305 formed on the lower surface of the storage barrel 301, rice grains in the storage barrel 301 can be guided into the memories placed below through the discharge hole 305 and the butt joint 402, when the rice is guided into the memories, the motor 303 can be started to drive the screw conveying rod 304 to rotate, and the rice grains at the discharge hole 305 can be driven to move upwards when the screw conveying rod 304 rotates, the peripheral rice grains are used to pour into the discharge hole 305 and flow out, so that the condition that the rice grains are totally extruded at the discharge hole 305 to cause blockage can be avoided, the sealing plate 401 has a blockage prevention function, the guide rail blocks 403 fixedly installed at two ends are driven to slide in the guide rail grooves 102 formed at one end of the connecting block 101 when being pushed, the storage grooves 404 are formed on the upper surfaces of the guide rail blocks 403, the elastic plates 405 and the clamping columns 406 are fixedly installed in the storage grooves 404, the clamping columns 406 and the first clamping grooves 103 are mutually extruded when the guide rail blocks 403 are pushed to slide in the guide rail grooves 102, the clamping columns 406 can drive the elastic plates 405 to be extruded and stored in the storage grooves 404, the elastic plates 405 can apply a reset elastic force to the clamping columns 406 after being extruded and stored in the storage grooves 404, and then the sealing plate 401 can be pushed continuously, until the guide rail block 403 slides to the top of the guide rail groove 102 through the thrust force exerted by the sealing plate 401, the clamping column 406 is vertically aligned with the second clamping groove 104, the clamping column 406 can be sprung into the second clamping groove 104 through the elastic force exerted by the elastic plate 405, and meanwhile, the opposite port 402 is vertically opposite to the discharge port 305, when the sealing plate 401 is pulled back again, the sealing plate 401 drives the guide rail block 403 to slide to the initial position, so that the clamping column 406 can be clamped and installed into the first clamping groove 103, and meanwhile, the discharge port 305 formed in the lower surface of the storage cylinder 301 can be vertically opposite to seal.

To sum up: this rice jar with ejection of compact anti-blocking function through support frame 1, connecting block 101, guide rail groove 102, first joint groove 103, second joint groove 104, hydraulic push rod 2, connecting plate 201, cooperation between storage component 3 and the seal assembly 4, has solved current rice jar and just needs the manual work to scoop or empty in order to take out rice when taking out rice to cause can comparatively waste time and energy when taking out rice, and the less rice jar of discharge gate still can cause the problem that the condition that blocks up when empting rice grain.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. Rice jar with ejection of compact anti-blocking function, including support frame (1), its characterized in that: support frame (1) one end fixed mounting has hydraulic push rod (2), hydraulic push rod (2) piston rod one end fixed mounting has connecting plate (201), two sets of movable mounting has storage module (3) between connecting plate (201), hydraulic push rod (2) one end fixed mounting has connecting block (101), guide rail groove (102) have been seted up to connecting block (101) one end, movable mounting has seal assembly (4) in guide rail groove (102), seal assembly (4) are relative and laminating about with storage module (3).

2. The rice can with discharging anti-clogging function as recited in claim 1, wherein: the storage assembly (3) comprises a storage cylinder (301), the storage cylinder (301) is fixedly arranged between two groups of connecting plates (201), a discharge hole (305) is formed in the lower surface of the storage cylinder (301), and the discharge hole (305) is opposite to and attached to the sealing assembly (4) up and down.

3. A rice can with discharging anti-clogging function as recited in claim 2, wherein: the novel storage device is characterized in that a closing cover (302) is movably mounted on the upper surface of the storage cylinder (301), a motor (303) is fixedly mounted on the upper surface of the storage cylinder (301), a threaded conveying rod (304) is fixedly mounted at one end of an output shaft of the motor (303), the threaded conveying rod (304) is rotatably positioned in the storage cylinder (301), and the threaded conveying rod (304) is vertically opposite to a discharge hole (305).

4. The rice can with discharging anti-clogging function as recited in claim 1, wherein: the sealing assembly (4) comprises guide rail blocks (403), the guide rail blocks (403) are movably installed in the guide rail grooves (102), sealing plates (401) are fixedly installed between the two groups of guide rail blocks (403), and the sealing plates (401) are opposite to the discharge holes (305) up and down and are attached to the discharge holes.

5. The rice can with discharging anti-blocking function as claimed in claim 4, wherein: the upper surface of the sealing plate (401) is provided with a butt joint opening (402), and the butt joint opening (402) can be vertically opposite to the discharge opening (305).

6. The rice can with discharging anti-blocking function as claimed in claim 4, wherein: the guide rail block (403) upper surface has seted up and has accomodate groove (404), accomodate inslot (404) fixed mounting has elastic plate (405), elastic plate (405) one end fixed mounting has joint post (406).

7. The rice can with discharging anti-blocking function as recited in claim 6, wherein: the clamping columns (406) can be installed in the first clamping grooves (103) and the second clamping grooves (104) in a clamping mode, and the first clamping grooves (103) and the second clamping grooves (104) are formed in the guide rail grooves (102) in a clamping mode.