CN105775425A - Quantitative discharging mechanism - Google Patents
Quantitative discharging mechanism Download PDFInfo
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- CN105775425A CN105775425A CN201610187789.5A CN201610187789A CN105775425A CN 105775425 A CN105775425 A CN 105775425A CN 201610187789 A CN201610187789 A CN 201610187789A CN 105775425 A CN105775425 A CN 105775425A
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- discharging opening
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
- B65D83/00—Containers or packages with special means for dispensing contents
- B65D83/06—Containers or packages with special means for dispensing contents for dispensing powdered or granular material
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- Mechanical Engineering (AREA)
- Filling Or Emptying Of Bunkers, Hoppers, And Tanks (AREA)
Abstract
The invention provides a quantitative discharging mechanism. The quantitative discharging mechanism comprises a material storage chamber, a material pulling device, a material stopping device and a quantitative device, wherein a discharging opening is formed in the side wall of the material storage chamber; the material pulling device is rotationally arranged on the material storage chamber; the material stopping device is movably arranged on the discharging opening and used for opening or closing the discharging opening; and the quantitative device is suitable for driving the material stopping device to do reciprocating motion one time when a containing tool is placed below the discharging opening, and in other words, the quantitative device is suitable for driving the material stopping device to open the discharging opening one time when the containing tool is placed below the discharging opening; and when the discharging opening is opened, materials in the material storage chamber fall into the containing tool, the quantitative device can drive the material pulling device to rotate at the same time, and the materials are promoted to fall down from the discharging opening. In addition, when the containing tool with the large size is placed below the discharging opening, the opened time of the discharging opening is longer, and therefore the falling materials are many; and when the containing tool with the small size is placed below the discharging opening, the opened time of the discharging opening is shorter, and the falling materials are fewer.
Description
Technical field
The present invention relates to a kind of quantitative discharging mechanism, particularly relate to a kind of mechanism quantifying puffed rice.
Background technology
The fried colored technology of the corn popper of existing market, has been suitable maturation, but this maturation is confined in the process of generation puffed rice.In the process selling puffed rice, when wanting quantitative puffed rice, it appears that be just less than succinctly.Generally can only manually quantitatively go to take, but this process too complex is not easy to extract rapidly puffed rice, and when artificial shovel takes, puffed rice can be caused some antihygienic phenomenons.
Summary of the invention
Present invention is primarily targeted at a kind of quantitative discharging mechanism of offer, after the container of different capabilities is placed on this discharging mechanism by user, this discharging mechanism selects different load automatically according to the volume of container.
For reaching object above, the present invention provides a kind of quantitative discharging mechanism, including:
Storage compartment, described storage compartment sidewall has a discharging opening;
Poking device, described poking device is rotatably arranged in described storage compartment, is suitable to the material stirring when it rotates in described storage compartment, promotes material to fall from described discharging opening;
Stop gauge, described stop gauge is movably disposed in described discharging opening, is used for opening or closing described discharging opening;And
Proportioning device, including:
Pallet, described pallet is located at below described discharging opening;
At least one fixing chuck, described fixing chuck is fixedly arranged on described pallet;
At least one slip chuck, described slip chuck is slidingly disposed at described pallet, so that the distance variable between described slip chuck and described fixing chuck, one container is adapted for placement between described fixing chuck and described slip chuck, thus when the size difference of described container, the distance that described slip chuck moves is also different;
Quantitative moving member, it is movably mounted at outside described storage compartment by a spring, described quantitative moving member coordinates with described poking device, so that when described quantitative moving member moves, described poking device is driven to rotate, described quantitative moving member coordinates with described stop gauge, so that when described quantitative moving member moves back and forth, driving described stop gauge to move back and forth and opened or closed by described discharging opening;And
Locating part, described locating part is for limiting the maximum shift motion of described quantitative moving member, described locating part coordinates with described slip chuck so that when described slip chuck moves different distances, and described locating part allows the ultimate range that described quantitative moving member moves also different.
The quantitative discharging mechanism of the present invention is semi-automatic discharging, when feeding, first container is placed between the fixing chuck of pallet and slip chuck, described slip chuck moves corresponding distance according to the size of described container, now described locating part also is moved into corresponding position, the size that the range of described quantitative moving member is limited to described container is mated, then user drives described quantitative moving member to move to range, the person of being then used by removes the effect to described quantitative moving member, described quantitative moving member resets under the effect of described spring, the size of described container is more big, the range of described quantitative moving member is also more big, therefore to move the time needed back and forth longer for described quantitative moving member.Simultaneously, when user drives described quantitative moving member to move, described quantitative moving member drives described stop gauge to move to, from the position closing described discharging opening, the position opening described discharging opening, described poking device also concomitant rotation so that the material in described storage compartment falls into described container from described discharging opening;After user removes the effect to described quantitative moving member, described quantitative moving member resets under described spring effect, drives described stop gauge to move to the position closing described discharging opening from the position opening described discharging opening simultaneously.Owing to the size at the described container placed is more big, it is more long that described quantitative moving member moves the time needed back and forth, namely described stop gauge is more long to the interval cutting out described discharging opening from opening described discharging opening, therefore the material fallen from described discharging opening is also more many, it is achieved thereby that the purpose of quantitative discharging.
Preferably, described proportioning device includes a little fixing chuck, a greatly fixing chuck, a little slip chuck and slide greatly chuck.Described little fixing chuck and described big fixing chuck are the circular arc that two sections of radiuses are different, fix chuck described in two to be arranged concentrically, and described big fixing chuck is located at the periphery of described little fixing chuck, described little slip chuck is located at the opposite of described little fixing chuck radially movablely, described big slip chuck is located at the outside of described little slip chuck radially movablely, when a smaller container is located between described little fixing chuck and described little slip chuck, the distance that described little slip chuck moves is L1, when a larger-size container be located at described big fixing between chuck and described big slip chuck time, the distance that described big slip chuck moves is L2, L1> L2。
Preferably, described quantitative moving member has a stairstepping quantitative limit position groove, described locating part is movably disposed in the side of described quantitative moving member by a limit spring, and it is relative with described quantitative stopper slot, when described little slip chuck moves bigger distance, described locating part is driven to move into the inner side of described quantitative stopper slot, now the range of described quantitative moving member is less, when described big slip chuck moves less distance, described locating part is driven to move into the outside of described quantitative stopper slot, now the range of described quantitative moving member is bigger.
Preferably, described proportioning device also includes a certain amount of push rod, one end of described quantitative push rod is connected with described little slip chuck and described big slip chuck, the other end is relative with described locating part, the other end of described quantitative push rod is an inclined-plane, thus described little slip chuck and described big slip chuck drive described locating part to move in described quantitative stopper slot by described quantitative push rod.
Preferably, described poking device includes material toggling axle, multiple rod for stiring materials, travelling gear and flywheel, described material toggling axle is rotatably arranged in described storage compartment, described rod for stiring materials is located on described material toggling axle, described material toggling axle utilizes described flywheel selectively to coordinate with described travelling gear, thus when described travelling gear rotates along positive direction, described material toggling axle is driven to rotate, when described travelling gear rotates in reverse direction, described material toggling axle does not rotate therewith, the side of described quantitative moving member has the engaging tooth of certain length, described quantitative moving member is engaged with described travelling gear by described engaging tooth.
Preferably, when described quantitative moving member is in initial position, it is spaced a distance between described engaging tooth and the described travelling gear of described quantitative moving member.
Preferably, described quantitative discharging mechanism pedal and substrate, described storage compartment is located on described substrate, and one end of described pedal is rotatably arranged in described pedestal, the other end is connected with described quantitative moving member, thus operator drives described quantitative moving member by trampling described pedal.
Preferably, described stop gauge includes striker plate and backgauge connecting rod, described striker plate is removable to be located between described discharging opening and described guide passage, one end of described backgauge connecting rod is connected with described striker plate, the other end is connected with described quantitative moving member rotationally, thus when described quantitative moving member moves, driving described striker plate to move, to open or close described discharging opening.
Preferably, described storage compartment also includes a guide passage, and described guide passage is located at described discharge outlet, and the material being suitable to make to discharge from described discharging opening falls along certain direction.
The above preferred embodiment of the present invention has the advantages that the present invention automatically selects the load adapted with container volume according to the volume of container, thus pollution to material when avoiding artificial charge, also makes operator need not manually adjust load;Additionally, the present invention utilizes puffed rice cup common on market just can realize quantitative puffed rice, it is not necessary to making special container, therefore it is practical.
Accompanying drawing explanation
Fig. 1 is the schematic perspective view of a preferred embodiment of the quantitative discharging mechanism according to the present invention.
Fig. 2 is the explosive view of a preferred embodiment of the quantitative discharging mechanism according to the present invention.
Fig. 3 is the partial schematic diagram of a preferred embodiment of the quantitative discharging mechanism according to the present invention.
Fig. 4 is the sectional view of a preferred embodiment of the quantitative discharging mechanism according to the present invention, it is shown that striker plate is in the close position.
Fig. 5 is the sectional view of a preferred embodiment of the quantitative discharging mechanism according to the present invention, it is shown that striker plate is in an open position.
Fig. 6 A and 6B is the partial schematic diagram of the proportioning device of a preferred embodiment of the quantitative discharging mechanism according to the present invention, and Fig. 6 A shows the back side of pallet, and Fig. 6 B shows the front of pallet.
Fig. 7 is the perspective view of the proportioning device of a preferred embodiment of the quantitative discharging mechanism according to the present invention.
Fig. 8 is the phantom of the proportioning device of a preferred embodiment of the quantitative discharging mechanism according to the present invention, it is shown that the quantitatively position relationship between push rod and locating part.
Fig. 9 A and 9B is the schematic diagram of the quantitative moving member of a preferred embodiment of the quantitative discharging mechanism according to the present invention, it is shown that quantitatively step-like quantitative stopper slot on moving member.
Figure 10 shows that travelling gear utilizes a kind of embodiment that flywheel is connected with power transmission shaft, and when travelling gear drives flywheel to rotate clockwise, power transmission shaft does not rotate, when travelling gear drives flywheel to rotate counterclockwise, and power transmission shaft concomitant rotation.
Detailed description of the invention
It is described below for disclosing the present invention so that those skilled in the art are capable of the present invention.Preferred embodiment in being described below is only used as citing, it may occur to persons skilled in the art that other apparent modification.
Fig. 1-Figure 10 is a preferred embodiment of a kind of quantitative discharging mechanism of the present invention.Described quantitative discharging mechanism includes storage compartment 1, poking device 2, stop gauge 3, proportioning device 4, pedal 5 and pedestal 6.
Described storage compartment 1 is used for storing material, and in one embodiment, the material of storage is the puffed rice processed.Described storage compartment 1 sidewall has a discharging opening (not shown).Described storage compartment 1 also includes a guide passage 11, and described guide passage 11 is located at described discharge outlet, and the material being suitable to make to discharge from described discharging opening falls along certain direction.
Described poking device 2 is rotatably arranged in described storage compartment 1, is suitable to stir the material in described storage compartment 1 when it rotates, promotes material to fall from described discharging opening.
Preferably, described poking device 2 includes material toggling axle 21, multiple rod for stiring materials 22, material toggling bevel gear 23, drive bevel gear 24, power transmission shaft 25, travelling gear 26 and flywheel 27.Described material toggling axle 21 is rotatably arranged in described storage compartment 1, and described rod for stiring materials 22 is located on described material toggling axle 21, and when described material toggling axle 21 rotates, described rod for stiring materials 22 rotates in described storage compartment 1, thus the material stirred in described storage compartment 1.Described material toggling bevel gear 23 is located at the lower end of described material toggling axle 21, and described drive bevel gear 24 engages with described material toggling bevel gear 23.One end of described power transmission shaft 25 is connected with described drive bevel gear 24, the other end is connected with described travelling gear 26 by described flywheel 27, thus only when described travelling gear 26 rotates along certain direction, described power transmission shaft 25 could be driven to rotate, it is further driven to described drive bevel gear 24 rotate, when described travelling gear 26 rotates backward, described power transmission shaft 25 does not rotate.Connected mode between described flywheel 27 and described power transmission shaft 25 is with reference to Figure 10, and when described flywheel 27 is along when rotating clockwise, described power transmission shaft 25 does not rotate, and when described flywheel 27 rotates counterclockwise, described power transmission shaft 25 rotates along with described flywheel 27.
That is, described travelling gear 26 selectively drives described material toggling axle 21 to rotate, and when described travelling gear 26 rotates along positive direction, described material toggling axle 21 can be driven to rotate, when described travelling gear 26 rotates in reverse direction, it is impossible to drive described material toggling axle 21 to rotate.Described material toggling axle 21 rotates along same direction all the time to utilize this point ensure that, it is to avoid described rod for stiring materials 22 carrys out back rotation and the material that causes can not be pushed described discharge outlet smoothly.
Described stop gauge 3 is movably disposed in described discharging opening, is used for opening or closing described discharging opening.Described stop gauge 3 includes striker plate 31 and a backgauge connecting rod 32, described striker plate 31 is removable to be located between described discharging opening and described guide passage 11, when described striker plate 31 inserts between described discharging opening and described guide passage 11, described discharging opening is closed, material in described storage compartment 1 can not fall, when described striker plate 31 leaves between described discharging opening and described batch turning passage 11, described discharging opening is opened, and namely the material in described storage compartment 1 falls along described guide passage 11.Described backgauge connecting rod 32 one end is connected with described striker plate 31, and when the other end of described backgauge connecting rod 32 rotates, described backgauge connecting rod 32 drives described striker plate 31 to move between open and closed positions.
Described proportioning device 4 includes a pallet 41, at least one fixing chuck 42, at least one slip chuck 43, a certain amount of moving member 44, locating part 45 and a certain amount of push rod 46.
Described pallet 41 is located at below described guide passage 11.Described fixing chuck 42 is fixedly arranged on described pallet 41, described slip chuck 43 is slidingly disposed at described pallet 41, so that the distance variable between described slip chuck 43 and described fixing chuck 42, one container is adapted for placement between described fixing chuck 42 and described slip chuck 43, thus when the size difference of described container, the distance that described slip chuck 43 moves is also different.
Described quantitative moving member 44 is movably mounted at outside described storage compartment 1 by a spring 401, thus when user drives described quantitative moving member 44 to be moved, described spring 401 is suitable to make described quantitative moving member 44 reset to initial position.
Described quantitative moving member 44 engages with the described travelling gear 26 of described poking device 2, so that when described quantitative moving member 44 moves, driving described travelling gear 26 to rotate.When described quantitative moving member 44 is moved by external force, described travelling gear 26 is driven to rotate along positive direction, thus driving described material toggling axle 21 to rotate;When described quantitative moving member 44 resets under the effect of described spring 401, driving described travelling gear 26 to rotate in reverse direction, now described travelling gear 26 can not drive described material toggling axle 21 to rotate.
Described quantitative moving member 44 is connected with the described backgauge connecting rod 32 of described stop gauge 3, so that when described quantitative moving member 44 is moved by external force, described backgauge connecting rod 32 drives described striker plate 31 to move and is opened by described discharging opening, when described moving member 44 resets under the effect of described spring 401, described backgauge connecting rod 32 drives described striker plate 31 to move and is closed by described discharging opening.Preferably, the middle part of described backgauge connecting rod 32 has one first rail groove 321, and a steady pin 7, through described first rail groove 321, thus described backgauge connecting rod 32 can rotate around described steady pin 7, and moves along described steady pin 7.The other end of described backgauge connecting rod 32 has one second rail groove 322, described quantitative moving member 44 has a moving pin 442, described moving pin 442 described second rail groove 322 of traverse, thus when described quantitative moving member 44 moves, described backgauge connecting rod 32 is driven to rotate around described steady pin 7, thus driving described striker plate 31 to move, to open or close described discharging opening.
Described locating part 45 is for limiting the maximum shift motion of described quantitative moving member 44.Described locating part 45 is coordinated with described slip chuck 43 by described quantitative push rod 46, so that when described slip chuck 43 moves different distances, described locating part 45 allows the ultimate range that described quantitative moving member 44 moves also different.
Described quantitative discharging mechanism is semi-automatic discharging, when feeding, first container is placed between fixing chuck 42 and the slip chuck 43 of described pallet 41, described slip chuck 43 moves corresponding distance according to the size of described container, and driving described locating part 45 also to be moved into corresponding position, the size that the range of described quantitative moving member 44 is limited to described container is mated by described locating part 45;Then user drives described quantitative moving member 44 to move to range, the person of being then used by removes the effect to described quantitative moving member 44, described quantitative moving member 44 resets under the effect of described spring 401, the size of described container is more big, the range of described quantitative moving member 44 is also more big, and therefore to move the time needed back and forth longer for described quantitative moving member 44;While user drives described quantitative moving member 44 to move, described quantitative moving member 44 drives described striker plate 31 to move to open position from closedown, described material toggling axle 21 also concomitant rotation so that the material in described storage compartment 1 falls into described container from described discharging opening;After user removes the effect to described quantitative moving member 44, described quantitative moving member 44 resets under described spring 401 acts on, drive described striker plate 31 to move to closed position from open position simultaneously, now owing to described travelling gear 26 reverses, under the effect of described flywheel 27, described power transmission shaft 25 does not rotate, and corresponding described material toggling axle 21 does not also rotate, and rotates in opposite direction thus avoiding described rod for stiring materials 22.The size of the described container owing to placing is more big, it is more long that described quantitative moving member 44 moves the time needed back and forth, namely described striker plate 31 is more long to the interval closing described discharging opening from opening described discharging opening, therefore the material fallen from described discharging opening is also more many, it is achieved thereby that the purpose of quantitative discharging.
It addition, user is in use, it is necessary to after described quantitative moving member 44 is moved to range place, then remove the effect to described quantitative moving member 44.Just remove the effect to described quantitative moving member 44 without moving to range, can cause that load reduces.
Preferably, the side of described quantitative moving member 44 has the engaging tooth 441 of certain length, described quantitative moving member 44 is engaged with described travelling gear 26 by described engaging tooth 441, when described quantitative moving member 44 is in initial position, it is spaced a distance between described engaging tooth 441 and described travelling gear 26, therefore when described quantitative moving member 44 is subjected to displacement, first described striker plate 31 is driven to be moved, after described striker plate 31 is opened, described engaging tooth 441 engages with described travelling gear 26, thus driving described material toggling axle 21 to rotate.
The described quantitative discharging mechanism of the present invention can be used for the quantitative discharging of puffed rice, the puffed rice processed is put into described storage compartment 1, when various sizes of cup is placed between described fixing chuck 42 and described slip chuck 43 by user, namely the described proportioning device 4 of the present invention determines the number of discharging according to the size of described cup, next, user only need to drive described quantitative moving member to move 44 behind range place, then removes the effect to described quantitative moving member 44.
One end of described pedal 5 is rotatably arranged in described pedestal 6, the other end is connected with described quantitative moving member 44, thus operator can drive described quantitative moving member 44 by trampling described pedal 5, after described quantitative moving member 44 moves to range, the displacement of described quantitative moving member 44 is limited by described locating part 45, now, described pedal 5 can not be rotated further, then operator unclamps pedal, namely having removed the effect to described quantitative moving member 44, described quantitative moving member 44 resets under the effect of described spring 401.
Further, described proportioning device 4 includes little fixing chuck 421, fixing greatly chuck 422, little slip chuck 431 and a big slip chuck 432.Described little fixing chuck 421 and described big fixing chuck 422 are the circular arc that two sections of radiuses are different, fix chuck 42 and are arranged concentrically, and described big fixing chuck 422 is located at the periphery of described little fixing chuck 421 described in two.Described little slip chuck 431 is located at the opposite of described little fixing chuck 421 radially movablely, the initial position of described little slip chuck 431 to the distance of center of circle o less than the radius of described little fixing chuck 421, thus when a container is arranged between described little fixing chuck 421 and described little slip chuck 431, the outer wall of described container drives described little slip chuck 431 radially side shifting.Described big slip chuck 432 is located at the opposite of described big fixing chuck 422 radially movablely, and described big slip chuck 432 is in the outside of described little slip chuck 422, the initial position of described big slip chuck 432 to the distance of center of circle o less than the radius of described big fixing chuck 422, thus when a container be arranged on described big fixing between chuck 422 and described big slip chuck 432 time, the outer wall of described container drives described big slip chuck 432 radially side shifting.Simultaneously, the initial position of described little slip chuck 431 is to the difference of the radius of distance and the described little fixing chuck 421 of center of circle o more than the difference of the distance of the initial position of described big slip chuck 432 to center of circle o with the radius of described big fixing chuck 422, namely aliquot container drives the distance that described little slip chuck 431 moves bigger than the distance that the described big slip chuck 432 of one large container driving moves.In other words, when described container smaller, the distance that corresponding described slip chuck 43 moves is bigger.
Preferably, described little slip chuck 431 and described big slip chuck 432 are connected with described quantitative push rod 46 simultaneously, when arbitrary described card 43 that slides moves, all can pass through described quantitative push rod 46 and drive described locating part 45 to move.
Preferably, each described slip chuck 43 is maintained at initial position by a back-moving spring 48, namely when described slip chuck 43 is not by External Force Acting, is maintained at initial position by described back-moving spring 48.
Preferably, described quantitative moving member 44 has a step-like quantitative stopper slot 440, and when described locating part 45 moves to different ladders, the range of described quantitative moving member 44 is different.One end of described quantitative push rod 46 is relative with described locating part 45, the other end of described quantitative push rod 46 is connected with described little slip chuck 431 and described big slip chuck 432 simultaneously, thus when described little slip chuck 431 moves bigger distance, described quantitative push rod 46 promotes described locating part 45 to move to the inner side of described quantitative stopper slot 440, the range making described quantitative moving member 44 is less, when described big slip chuck 432 moves less distance, described quantitative push rod 46 promotes described locating part 45 to move to the outside of described quantitative stopper slot 440, the range making described quantitative moving member 44 is bigger, such as Fig. 8, shown in Fig. 9.
Shown little slip chuck 431 and described big slip chuck 432 are connected by a connection piece 47, and described connector 47 is connected with described back-moving spring 48.When making not place container on described pallet 41 by described back-moving spring 48, described little slip chuck 431 and described big slip chuck 432 are maintained at initial position.
Described quantitative push rod 46 is connected with described connector 47 by a connecting rod 49, so that the rectilinear movement of described connector 47 is converted to the rectilinear movement of described quantitative push rod 46.
Preferably, the one side that described quantitative push rod 46 is relative with described locating part 45 forms an inclined-plane, when described quantitative push rod 46 moves forward, described locating part 45 is promoted to move in described quantitative stopper slot 440, the distance that described quantitative push rod 46 advances is more big, the degree of depth that described locating part 45 enters described quantitative stopper slot 440 is more deep, and the range of described quantitative moving member 44 is more little.Preferably, described locating part 45 is connected with a limit spring (not shown), the effect of described limit spring is to make described locating part 45 reset, when described locating part 45 is not acted on by described quantitative push rod 46, described limit spring makes described locating part 45 away from described quantitative stopper slot 440.
Described pallet 41, described locating part 45, described quantitative push rod 46 are arranged on fixed position by a support 40, described quantitative push rod 46 can be arranged on described support 40 movably forward and backward, described locating part 45 can move left and right installation 40 at described support, one end of described limit spring is arranged on described support 40, and the other end is connected with described locating part 45.
It is noted that the bottom surface of aliquot container is circular, its radius is equal with the radius of described little fixing chuck 421;The bottom surface of one large container is circular, and its radius is identical with the radius of described big fixing chuck 422;The edge of container bottom surface downwardly extends out a segment distance so that when one large container is placed on described pallet 41, and the bottom surface of container and described little fixing chuck 421 and described little slip chuck 431 do not produce to interfere.
Considering in real life, puffed rice generally has only to be designed as one large with aliquot, and therefore described proportioning device two operation range of design of the present invention are sufficient for daily need.It addition, the shape of the common cup containing puffed rice also fully meets the present invention requirement to cup-shape.
The ultimate principle of the present invention, principal character and advantages of the present invention have more than been shown and described.Skilled person will appreciate that of the industry; the present invention is not restricted to the described embodiments; simply principles of the invention described in above-described embodiment and description; the present invention also has various changes and modifications without departing from the spirit and scope of the present invention, and these changes and improvements both fall within claimed the scope of the present invention.The protection domain of application claims is defined by appending claims and equivalent thereof.
Claims (9)
1. a quantitative discharging mechanism, it is characterised in that including:
Storage compartment, described storage compartment sidewall has a discharging opening;
Poking device, described poking device is rotatably arranged in described storage compartment;
Stop gauge, described stop gauge is movably disposed in described discharging opening, is used for opening or closing described discharging opening;And
Proportioning device, including:
Pallet, described pallet is located at below described discharging opening;
At least one fixing chuck, described fixing chuck is fixedly arranged on described pallet;
At least one slip chuck, described slip chuck is slidingly disposed at described pallet, so that the distance variable between described slip chuck and described fixing chuck;
Quantitative moving member, it is movably mounted at outside described storage compartment by a spring, described quantitative moving member coordinates with described poking device, so that when described quantitative moving member moves, driving described poking device to rotate, described quantitative moving member coordinates with described stop gauge, so that when described quantitative moving member moves, drive described stop gauge to move, described discharging opening is opened or closed;And
Locating part, described locating part is for limiting the maximum shift motion of described quantitative moving member, described locating part coordinates with described slip chuck so that when described slip chuck moves different distances, and described locating part allows the ultimate range that described quantitative moving member moves also different.
2. quantitative discharging mechanism according to claim 1, it is characterised in that described proportioning device includes a little fixing chuck, a greatly fixing chuck, a little slip chuck and slide greatly chuck.Described little fixing chuck and described big fixing chuck are the circular arc that two sections of radiuses are different, fix chuck described in two to be arranged concentrically, described big fixing chuck is located at the periphery of described little fixing chuck, described little slip chuck is located at the opposite of described little fixing chuck radially movablely, described big slip chuck is located at the outside of described little slip chuck radially movablely, when a smaller container is located between described little fixing chuck and described little slip chuck, the distance that described little slip chuck moves is L1, when a larger-size container be located at described big fixing between chuck and described big slip chuck time, the distance that described big slip chuck moves is L2, L1> L2。
3. quantitative discharging mechanism according to claim 2, it is characterized in that, described quantitative moving member has a stairstepping quantitative limit position groove, described locating part is movably disposed in the side of described quantitative moving member by a limit spring, and it is relative with described quantitative stopper slot, when described little slip chuck moves bigger distance, described locating part is driven to move into the inner side of described quantitative stopper slot, now the range of described quantitative moving member is less, when described big slip chuck moves less distance, described locating part is driven to move into the outside of described quantitative stopper slot, now the range of described quantitative moving member is bigger.
4. quantitative discharging mechanism according to claim 3, it is characterized in that, described proportioning device also includes a certain amount of push rod, one end of described quantitative push rod is connected with described little slip chuck and described big slip chuck, the other end is relative with described locating part, the other end of described quantitative push rod is an inclined-plane, thus described little slip chuck and described big slip chuck drive described locating part to move in described quantitative stopper slot by described quantitative push rod.
5. according to the arbitrary described quantitative discharging mechanism of claim 1-4, it is characterized in that, described poking device includes material toggling axle, multiple rod for stiring materials, travelling gear and flywheel, described material toggling axle is rotatably arranged in described storage compartment, described rod for stiring materials is located on described material toggling axle, described material toggling axle utilizes described flywheel selectively to coordinate with described travelling gear, thus when described travelling gear rotates along positive direction, described material toggling axle is driven to rotate, when described travelling gear rotates in reverse direction, described material toggling axle does not rotate therewith, the side of described quantitative moving member has the engaging tooth of certain length, described quantitative moving member is engaged with described travelling gear by described engaging tooth.
6. quantitative discharging mechanism according to claim 5, it is characterised in that when described quantitative moving member is in initial position, is spaced a distance between described engaging tooth and the described travelling gear of described quantitative moving member.
7. quantitative discharging mechanism according to claim 6, it is characterized in that, described quantitative discharging mechanism pedal and substrate, described storage compartment is located on described substrate, one end of described pedal is rotatably arranged in described pedestal, the other end is connected with described quantitative moving member, thus operator drives described quantitative moving member by trampling described pedal.
8. quantitative discharging mechanism according to claim 7, it is characterized in that, described stop gauge includes striker plate and backgauge connecting rod, described striker plate is removable to be located between described discharging opening and described guide passage, one end of described backgauge connecting rod is connected with described striker plate, and the other end is connected with described quantitative moving member rotationally, thus when described quantitative moving member moves, described striker plate is driven to move, to open or close described discharging opening.
9. quantitative discharging mechanism according to claim 8, it is characterised in that described storage compartment also includes a guide passage, and described guide passage is located at described discharge outlet, and the material being suitable to make to discharge from described discharging opening falls along certain direction.
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| CN201610187789.5A CN105775425B (en) | 2016-03-23 | 2016-03-23 | A kind of quantitative discharging mechanism |
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| CN201610187789.5A CN105775425B (en) | 2016-03-23 | 2016-03-23 | A kind of quantitative discharging mechanism |
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| CN105775425B CN105775425B (en) | 2018-09-25 |
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Cited By (8)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN107307300A (en) * | 2017-06-23 | 2017-11-03 | 孝感市元达新材料科技有限公司 | A kind of puffed rice processing method and its device |
| CN107319619A (en) * | 2017-06-23 | 2017-11-07 | 孝感市元达新材料科技有限公司 | A kind of self-service corn popper |
| CN108502335A (en) * | 2018-04-17 | 2018-09-07 | 深圳贝仕达克技术股份有限公司 | Smart storage device |
| CN109754678A (en) * | 2019-02-26 | 2019-05-14 | 王玲 | A kind of higher mathematics demonstration device for probability |
| CN109774103A (en) * | 2019-01-29 | 2019-05-21 | 广州市加简派电子科技有限公司 | It is a kind of for be blow molded production the discharging device with quantitative function |
| CN111572981A (en) * | 2020-06-05 | 2020-08-25 | 严高超 | Automatic put device of tealeaves |
| CN112339241A (en) * | 2020-10-16 | 2021-02-09 | 界首市宏达塑业有限公司 | Feeding equipment of plastic extruding machine for plastic particle production and working method of feeding equipment |
| CN114194866A (en) * | 2021-12-27 | 2022-03-18 | 北京鸿霁科技有限公司 | Solid material storage and quantitative feeding intelligent device |
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| Publication number | Priority date | Publication date | Assignee | Title |
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| CN107307300A (en) * | 2017-06-23 | 2017-11-03 | 孝感市元达新材料科技有限公司 | A kind of puffed rice processing method and its device |
| CN107319619A (en) * | 2017-06-23 | 2017-11-07 | 孝感市元达新材料科技有限公司 | A kind of self-service corn popper |
| CN107319619B (en) * | 2017-06-23 | 2019-10-11 | 孝感市元达新材料科技有限公司 | A kind of self-service corn popper |
| CN107307300B (en) * | 2017-06-23 | 2021-04-30 | 夏婷 | Popcorn processing method and device |
| CN108502335A (en) * | 2018-04-17 | 2018-09-07 | 深圳贝仕达克技术股份有限公司 | Smart storage device |
| CN108502335B (en) * | 2018-04-17 | 2023-08-15 | 深圳贝仕达克技术股份有限公司 | Intelligent storage device |
| CN109774103A (en) * | 2019-01-29 | 2019-05-21 | 广州市加简派电子科技有限公司 | It is a kind of for be blow molded production the discharging device with quantitative function |
| CN109754678A (en) * | 2019-02-26 | 2019-05-14 | 王玲 | A kind of higher mathematics demonstration device for probability |
| CN111572981A (en) * | 2020-06-05 | 2020-08-25 | 严高超 | Automatic put device of tealeaves |
| CN112339241A (en) * | 2020-10-16 | 2021-02-09 | 界首市宏达塑业有限公司 | Feeding equipment of plastic extruding machine for plastic particle production and working method of feeding equipment |
| CN114194866A (en) * | 2021-12-27 | 2022-03-18 | 北京鸿霁科技有限公司 | Solid material storage and quantitative feeding intelligent device |
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