CN112704416A

CN112704416A - Granular seasoning quantitative-spreading seasoning box

Info

Publication number: CN112704416A
Application number: CN202110190736.XA
Authority: CN
Inventors: 夏宇
Original assignee: Shanxi Guoke Zhichuang Technology Co ltd
Current assignee: Pizhou Jingpeng Venture Capital Co Ltd
Priority date: 2021-02-20
Filing date: 2021-02-20
Publication date: 2021-04-27
Anticipated expiration: 2041-02-20
Also published as: CN112704416B

Abstract

The invention provides a granular seasoning quantitative-spreading seasoning box, and belongs to the technical field of kitchen supplies. The seasoning box solves the problems that the seasoning box on the current market is simple in structure and single in function, the seasoning is often in contact with hot air in a pot when being used, the seasoning is melted at a discharge port to cause the blockage of the discharge port, and the bagged seasoning cannot be completely filled in a certain way due to the capacity of the seasoning box, so that the packaging bag and the seasoning box are often separated and placed, and the packaging bag is required to be searched when the seasoning box is supplemented with materials, which is very troublesome. The granular seasoning quantitative-spreading seasoning box comprises a shell with an opening at the left end, wherein a clamping mechanism is arranged on the upper end surface of the shell. The granular seasoning quantitative spreading seasoning box is more convenient and labor-saving to use and has better stability.

Description

Granular seasoning quantitative-spreading seasoning box

Technical Field

The invention belongs to the technical field of kitchen supplies, and relates to a granular seasoning quantitative-spreading seasoning box.

Background

The seasoning box is made of environment-friendly materials, does not contain any harmful substances to human bodies through strict food detection, and can be used for containing granular seasonings such as monosodium glutamate, chicken powder, salt and the like.

Disclosure of Invention

The invention aims to solve the problems in the prior art and provides a granular seasoning quantitative-spreading seasoning box which is more convenient to use, saves labor and has better stability.

The purpose of the invention can be realized by the following technical scheme: the granular seasoning quantitative-spreading seasoning box comprises a shell with an opening at the left end, wherein a clamping mechanism is arranged on the upper end surface of the shell, a trigger mechanism for driving the clamping mechanism to operate is arranged on the lower end wall of the shell, an accommodating mechanism is connected to the opening of the shell in a sliding manner, and two discharging mechanisms are arranged on the accommodating mechanism.

Preferably, the trigger mechanism comprises a stop groove formed in the lower end wall of the shell, a stop is connected in the stop groove in a sliding manner, a stop spring is arranged between the stop and the bottom end of the stop groove, a first accommodating cavity is defined in the lower end wall of the shell, at least two trigger assemblies are arranged above the first accommodating cavity in the lower end wall of the shell, the trigger assemblies are uniformly distributed on the lower inner wall of the shell along the length direction of the shell, each trigger assembly comprises a trigger groove fixedly connected to the lower inner wall of the shell, a trigger block is connected in the trigger groove in a sliding manner, a trigger spring is arranged between the trigger block and the bottom end of the trigger groove, a first arc-shaped groove is formed in the left inner wall of the first accommodating cavity, a limit block is connected in the sliding manner on the left inner wall of the first accommodating cavity, and a trigger rod is fixedly connected to one side end face of the limit block, the utility model discloses a novel gear rack, including a casing, a casing center line, a trigger bar, a stopper, a first settling chamber, a first arc wall, a second arc wall, a first spacing groove, a first gear shaft, a second gear shaft, a third gear shaft, a fourth gear shaft, a fifth gear shaft, a sixth gear shaft, a fifth gear shaft, a sixth.

Preferably, the clamping mechanism comprises a feed opening formed in the upper end wall of the shell, a support plate is fixedly connected to the upper end surface of the shell on the left side of the feed opening, a slide way is formed in the upper end wall of the shell on the right side of the feed opening, a slide block is connected in the slide way in a sliding manner, a first tension spring is arranged between the slide block and the left inner wall of the slide way, a second pull rope is connected between the slide block and the first gear shaft of the trigger mechanism in a transmission manner, a second accommodating cavity is defined below the slide way in the upper end wall of the shell, a second rack is arranged on the lower inner wall of the second accommodating cavity, a second gear shaft is rotatably connected to the lower end of the slide block in the second accommodating cavity, a second gear meshed with the second rack is sleeved on the second gear shaft, and two partition boards are formed in the right end wall of the feed opening, each partition board slide way is internally and slidably connected with a partition board slide block, a second extension spring is arranged between each partition board slide block and the left inner wall of each partition board slide way, a partition board is fixedly connected between the two partition board slide blocks, a third pull rope is in transmission connection between each partition board and the second gear shaft, and at least two flapping assemblies are arranged at the upper ends of the slide blocks; patting the subassembly including setting up pivot on the slider, the cover is equipped with the pivot axle sleeve in the pivot, the pivot axle sleeve with first torsional spring has been linked firmly between the pivot, the periphery side of pivot axle sleeve has linked firmly the groove of patting, it has the piece of patting to pat in the inslot sliding connection, pat the piece with it patts the spring, a plurality of to be equipped with between the bottom in groove of patting the right-hand member face of patting the subassembly has linked firmly the soft pole, the soft pole with the transmission is connected with the fourth stay cord between the second gear axle.

Preferably, the receiving mechanism comprises a receiving box detachably arranged in the housing, third accommodating cavities are respectively defined in the left and right end walls of the receiving box, slide rails are respectively arranged above each third accommodating cavity in the left and right end walls of the receiving box, the two slide rails are symmetrically distributed in the left and right directions about the central line of the receiving box, a second arc-shaped groove is formed in the inner wall of one side of the slide rail away from the central line of the receiving box, a slide block is connected in the slide rail in a sliding manner, a second limit groove is formed in the end surface of one side of the slide block close to the second arc-shaped groove, a second limit ball matched with the second arc-shaped groove is connected in the second limit groove in a sliding manner, a second limit spring is arranged between the bottom ends of the second limit groove and the second limit ball, an elastic material pushing plate is fixedly connected between the two slide blocks, and the lower end of the slide block is fixedly connected with a, the intracavity is settled to the third rotates and is connected with the third gear shaft, the third gear epaxial cover be equipped with third rack toothing's third gear, the left and right sides inner wall of receiver has linked firmly the base respectively, two rotate between the base and be connected with the base axle, base axle and every the second torsional spring has been linked firmly between the base, the epaxial cover of base is equipped with two reels, every the reel with correspond the transmission is connected with the fifth stay cord between the third gear shaft, the epaxial cover of base be equipped with at least two with the subassembly is stirred in elasticity scraping wings complex.

Preferably, the toggle assembly comprises a toggle groove sleeved on the base shaft, a toggle rod a is connected in the toggle groove in a sliding manner, a fourth placement cavity is limited in the toggle rod a, a toggle spring is arranged between the toggle rod a and the bottom end of the toggle groove, two transverse moving slideways are arranged on the upper end face of the toggle rod a, a transverse moving slide block is connected in each transverse moving slideway in a sliding manner, a transverse moving spring is arranged between each transverse moving slide block and the inner wall of each transverse moving slideway, a toggle rod b is fixedly connected at the upper ends of the two transverse moving slide blocks, a butting rod is connected in the toggle rod b in a sliding manner, a positioning plate is fixedly connected at the lower end of each transverse moving slideway on the upper inner wall of the fourth placement cavity, an optical shaft is arranged on the positioning plate, an optical shaft sleeve is sleeved on the optical shaft, and a third torsion spring, the periphery side of the optical axis shaft sleeve is provided with an extension groove, extension rods are connected in the extension groove in a sliding mode, an extension spring is arranged between the extension rods and the bottom end of the extension groove, two extension rods are rotatably connected with abutting plates matched with the abutting rods, and seventh pull ropes are connected between the abutting plates and each transverse moving sliding block in a transmission mode.

Preferably, the discharging mechanism comprises a piston plate slidably arranged in a slide rail of the receiving mechanism, a counterweight ball is slidably connected below the piston plate in the slide rail of the receiving mechanism, a first cord is connected between the counterweight ball and the piston plate, a second cord is connected between the counterweight ball and a sliding block of the receiving mechanism in a transmission manner, a piston plate spring is arranged between the piston plate and an upper inner wall of the receiving mechanism, an air inlet valve is arranged at the upper end of the slide rail of the receiving mechanism, a first exhaust valve is arranged at one end of the receiving mechanism far away from the air inlet valve, an exhaust pipe is communicated with an external space and is internally provided with a second exhaust valve, an air wheel shaft is rotatably connected in the exhaust pipe, an air wheel shaft sleeve is sleeved on the air wheel shaft, and at least two air plates are fixedly connected to the outer peripheral side of the air wheel shaft sleeve, the wind plates are uniformly distributed on the periphery of the wind wheel shaft sleeve along the circumferential direction of the wind wheel shaft sleeve, a transmission shaft is rotatably connected below the wind wheel shaft in a containing box of the containing mechanism, a conveying belt is connected between the transmission shaft and the wind wheel shaft in a transmission manner, an eccentric wheel is sleeved on the transmission shaft, a rotating block is rotatably connected on the eccentric wheel, a material discharging slide way is arranged on the upper end wall of the containing box of the containing mechanism, an extrusion rod is fixedly connected to one side end face of the material discharging slide way, a material discharging slide block is slidably connected in the material discharging slide way, a material discharging spring is arranged between the material discharging slide block and the upper side inner wall of the material discharging slide way, a third cotton rope is connected between the material discharging slide block and the rotating block in a transmission manner, and a material discharging assembly matched with the.

As preferred, it is including linking firmly to arrange the material subassembly mandrel axle sleeve on the material slider to arrange, the draw-in groove has been seted up to mandrel axle sleeve's lower extreme, the arc slide has been seted up in the mandrel axle sleeve, arc slide sliding connection has arc slider, arc slider with arc slide's the left and right sides inner wall has linked firmly swinging spring respectively, arc slider is close to a side end face of draw-in groove has seted up the third spacing groove, third spacing inslot sliding connection have with draw-in groove complex gag lever post, the gag lever post with be equipped with the spacing spring of third between the bottom of third spacing groove, arc slider keeps away from a side end face of draw-in groove has linked firmly and is located mandrel in the mandrel axle sleeve, be equipped with row material board on the mandrel, mandrel axle sleeve with be connected with between the stripper bar and keep off.

The working principle is as follows:

initially, bagged granular seasonings are poured into the storage mechanism, the storage mechanism is placed above the trigger mechanism in the shell, the opening of the residual seasonings is aligned with the feed opening and placed between the supporting plate and the flapping component, the stop block is positioned outside the stop block groove under the pushing of the stop block spring and stops the position of the storage mechanism in the shell, as the granular seasonings stored in the storage mechanism have certain weight, the plurality of trigger blocks are extruded and positioned in the trigger groove under the action of external force, the extrusion on the plurality of trigger blocks is gradually reduced along with the reduction of the seasoning amount in the storage mechanism, so that the plurality of trigger blocks generate a tendency of sliding towards the outside of the trigger groove, the trigger rod is pulled to move upwards in the first placement cavity by the first pull rope in the sliding process of the trigger blocks, and as the first limiting spring in the left end of the trigger rod pushes the first limiting ball to be positioned outside the first limiting groove initially, the first limiting ball is in contact fit with the first arc-shaped groove, so that the position of the trigger rod in the first arranging cavity is limited, and the trigger rod can overcome the limitation of the first limiting ball and the first arc-shaped groove to move upwards in the first arranging cavity only when the seasonings of the containing mechanism are too little and the trigger blocks all slide towards the outside of the trigger groove;

the trigger rod drives the first rack to be meshed with the first gear in the upward moving process, the first gear drives the first gear shaft to rotate in the first arranging cavity, the first gear shaft drives the sliding block to slide in the direction far away from the feed opening in the sliding way by winding the second pull rope when rotating, the sliding block drives the second gear shaft to slide in the direction far away from the feed opening in the second arranging cavity in the sliding process, the second gear shaft drives the second gear to intermittently mesh with the second rack in the second arranging cavity in the sliding process, the second gear is controlled to rotate in the second arranging cavity, the second gear shaft is driven to intermittently rotate in the second arranging cavity when rotating, the second gear shaft on the one hand drives the partition plate to slide in the direction far away from the feed opening by the third pull rope when rotating, so that an opening on the feed opening is unfolded, and seasonings between the support plate and the flapping assembly can fall conveniently, on the other hand, the second gear shaft intermittently loosens the fourth pull rope in rotation time, namely the fourth pull rope intermittently pulls the soft rod, and the plurality of flapping assemblies are connected through the first torsion spring;

along with the increase of the weight of the seasonings in the storage mechanism, the trigger assembly gradually resets under the action of the gravity of the seasonings, namely, a first gear shaft of the trigger assembly reversely feeds a second pull rope again, the sliding block resets under the pulling of a first extension spring and slides towards the direction close to the feed opening, the third pull rope is gradually loosened through the reverse meshing of a second gear and a second rack in the sliding process of the sliding block, so that the partition plates reset under the driving of the two partition plate sliding blocks, namely, the second pull rope blocks the feed opening again, the opening is closed, the continuous discharging at the clamping mechanism is avoided, and the seasonings in the storage mechanism overflow to cause waste;

when the seasoning is used, the handheld storage box is taken out from the shell, the storage box is rotated by one hundred eighty degrees, the discharging mechanism is controlled to vertically move downwards, the counterweight ball slides in the slide rail in the direction close to the discharging mechanism, the sliding block is pulled by the second cotton rope during the sliding process of the counterweight ball, so that the two sliding blocks drive the elastic material pushing plate to push the seasoning of the storage box to the discharging mechanism, on the other hand, the counterweight ball pushes the piston plate, and air in the sliding rail is pushed into the exhaust pipe through the first exhaust valve by the piston plate;

air entering the exhaust pipe is exhausted through the second exhaust valve, so that the air generates an air layer above the material discharging mechanism, hot air generated in the pot is isolated, seasoning is prevented from being directly contacted with the hot air, the seasoning is melted at a material outlet to cause the blockage of the material outlet, meanwhile, the air in the exhaust pipe blows a wind plate, the wind plate drives a wind wheel shaft to rotate through a wind wheel shaft sleeve, the wind wheel shaft drives an eccentric wheel to rotate through the transmission of a conveyor belt and a transmission shaft when rotating, the eccentric wheel pulls a third rope through a rotating block when rotating, a material discharging sliding block moves downwards in a material discharging slideway, the limiting rod is initially positioned in a clamping groove under the pushing of a third limiting spring, the position of the arc sliding block in the arc slideway is limited, when the material discharging sliding block moves downwards in the material discharging slideway, the material discharging sliding block drives a mandrel sleeve to slide towards the direction close to an extrusion rod, and when the, the extrusion rod extrudes the limiting rod to slide towards the third limiting groove, so that the limiting rod is disconnected from the clamping groove, the limitation of the arc-shaped sliding block in the arc-shaped sliding way is controlled to disappear, the arc-shaped sliding block slides in the arc-shaped sliding way under the pushing of the swing spring, the discharging plate is driven by the mandrel to swing in the sliding process of the arc-shaped sliding block, the opening of the discharging mechanism is expanded, the seasoning in the containing box is discharged into the pot through the air interlayer, and the quantitative air drives the discharging mechanism to discharge the seasoning, so that the seasoning amount is ensured to be constant during each discharging;

after the seasonings are discharged, the direction of the storage box is adjusted again, so that the discharging mechanism is vertically upward, the sliding block moves downwards in the sliding rail at the moment, the sliding block drives the third rack to enter a third placement cavity in the downwards moving process, the third rack is meshed with the third gear, the third gear is controlled to rotate in the third placement cavity, the third gear drives the third gear shaft to rotate when rotating, the third gear shaft drives the base shaft to rotate in the base through transmission between a fifth pull rope and a winding wheel when rotating, centrifugal force is generated when the base shaft rotates, the poking rod a drives the poking rod b to slide to the outer part of the poking groove under the action of the centrifugal force, and the elastic pushing plate is impacted through the poking rod b;

when the poking rod b is close to the elastic pushing plate, the abutting rod is preferentially contacted with the elastic pushing plate, the abutting rod is extruded by the elastic pushing plate to slide towards the fourth arrangement cavity, the abutting rod drives the two extension rods to rotate at an angle close to the direction of the abutting plate in the sliding process, the abutting plate simultaneously pulls the two seventh pull ropes to enable the transverse sliding block to slide towards the direction close to the central line of the poking rod a in the transverse sliding way, when the abutting rod is disconnected from being contacted with the elastic pushing plate, the transverse sliding block is reset to slide towards the direction far away from the central line of the poking rod a in the transverse sliding way, the two transverse sliding blocks are controlled to slide back and forth in the transverse sliding way through the intermittent contact between the abutting rod and the elastic pushing plate, the poking rod b is driven to slide back and forth below the elastic pushing plate in the sliding process of the transverse sliding block, the poking rod b can swing left and right under the, make elasticity scraping wings receive the external force of horizontal direction and vertical direction simultaneously, make the condiment on the elasticity scraping wings vibrate under the external force effect to realize the replacement of elasticity scraping wings bottom condiment, avoid elasticity scraping wings bottom to remain same partial condiment for a long time, can't be used and take place rotten.

Compared with the prior art, the granular seasoning quantitative spreading seasoning box has the following advantages:

1. due to the design of the trigger mechanism, only when the seasonings of the storage mechanism are too little, and when the plurality of trigger blocks slide to the outside of the trigger groove, the trigger rod can overcome the limitation of the first limiting ball and the first arc-shaped groove to move upwards in the first placement cavity, the clamping mechanism is triggered to operate, and the seasonings in the bag are discharged into the storage opportunity.

2. Because fixture's design, when trigger machine enough drives fixture operation, a plurality of subassemblies of patting in the fixture can carry out certain intermittent type nature to condiment in bags and pat, avoid condiment bag opening less, easily take place the slow condition of opening jam unloading when falling condiment, pat the mode of patting through a plurality of pieces of patting, ensured the speed of opening row material.

3. Because the design of arranging the material chance, when arranging the vertical row of material of row material mechanism on the receiver down, arrange the top of material mechanism and can produce the air interlayer through the blast pipe, the steam that produces in the pot is isolated, avoids condiment direct and steam contact, makes condiment melt and causes the bin outlet to block up at the bin outlet, and arranges the mode of material mechanism row material through quantitative air drive to the certain of the condiment volume when having guaranteed row material at every turn.

4. Because receiving mechanism's design, when putting the receiver orientation back again after the condiment, stirring the subassembly in the receiving mechanism still can carry out the horizontal hunting in elasticity scraping wings below when striking elasticity scraping wings, make elasticity scraping wings receive the external force of horizontal direction and vertical direction simultaneously, make the condiment on the elasticity scraping wings vibrate under the external force effect, in order to realize the replacement of elasticity scraping wings bottom condiment, avoid elasticity scraping wings bottom to remain same partial condiment for a long time, can't be used and take place rotten.

Drawings

FIG. 1 is a sectional view showing the entire structure of the granular seasoning quantitatively dispensing box.

Fig. 2 is a partially enlarged schematic view of the invention at a in fig. 1.

Fig. 3 is a partially enlarged schematic view of the invention at B in fig. 1.

Fig. 4 is an enlarged partial schematic view of the invention at C in fig. 1.

Fig. 5 is an enlarged partial schematic view of the invention at D in fig. 1.

Fig. 6 is a right side view of the component slide 125 of fig. 5 according to the present invention.

Fig. 7 is an enlarged partial schematic view at E of fig. 1 of the present invention.

Fig. 8 is an enlarged partial schematic view of the invention at F in fig. 7.

Fig. 9 is an enlarged partial schematic view of the invention at G in fig. 8.

Fig. 10 is an enlarged partial schematic view at H of fig. 1 of the present invention.

FIG. 11 is an enlarged partial schematic view at I of FIG. 1 of the present invention.

Fig. 12 is an enlarged partial schematic view at J of fig. 11 of the present invention.

In the figure, a housing 100, a stopper groove 101, a stopper 102, a stopper spring 103, a trigger groove 104, a trigger block 105, a trigger spring 106, a first pull rope 107, a first placing cavity 108, a stopper 109, a first arc-shaped groove 110, a first stopper groove 111, a first stopper ball 112, a first stopper spring 113, a trigger rod 114, a return spring 115, a first rack 116, a first gear shaft 117, a first gear 118, a second pull rope 119, a support plate 122, a feed opening 123, a slide rail 124, a slider 125, a first extension spring 126, a second placing cavity 127, a second rack 128, a second gear shaft 129, a second gear 130, a third pull rope 131, a partition slide rail 132, a partition slider 133, a second extension spring 134, a partition 135, a second cord 136, a fourth pull rope 137, a soft rod 138, a rotating shaft 139, a rotating shaft sleeve 140, a first torsion spring 141, a tapping groove 142, a tapping block 143, a tapping spring 144, a storage box 145, a third placing cavity 147, a third pull rope 107, a second pull rope 119, A slide rail 148, a second arc-shaped groove 149, a slide block 150, a second limit groove 151, a second limit ball 152, a second limit spring 153, a third rack 154, a third gear shaft 155, a third gear 156, a fifth pull rope 157, a base 158, a base shaft 159, a second torsion spring 160, a reel 161, a toggle groove 162, a toggle rod 163, a toggle spring 164, an abutment rod 165, a traverse slide 166, a traverse slide 167, a traverse spring 168, a positioning plate 169, a fourth installation cavity 170, an optical axis 171, an optical axis bushing 172, a third torsion spring 173, an extension groove 174, an extension rod 175, an extension spring 176, an abutment plate 177, a seventh pull rope 178, a counterweight ball 179, a first wire 180, a transmission shaft 190, a transmission belt 191, an eccentric wheel 192, a rotating block 193, a third wire 194, a discharge slide 195, a discharge slide 196, a discharge spring 197, a stop cloth 198, a pressing rod 199, a mandrel bushing 200, an arc-shaped slide 201, a card slot 202, a card, The device comprises an arc-shaped sliding block 203, a swing spring 204, a third limit groove 205, a limit rod 206, a third limit spring 207, a mandrel 208, a discharge plate 209 and an elastic material pushing plate 210.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

As shown in fig. 1, a seasoning box for quantitatively spreading granular seasonings comprises a casing 100 with an opening at the left end, a clamping mechanism is arranged on the upper end surface of the casing 100, a trigger mechanism for driving the clamping mechanism to operate is arranged on the lower end wall of the casing 100, an accommodating mechanism is connected to the opening of the casing 100 in a sliding manner, and two discharging mechanisms are arranged on the accommodating mechanism.

As shown in fig. 1, 2 and 3, the trigger mechanism includes a stopper groove 101 formed in a lower end wall of the housing 100, a stopper 102 is slidably connected in the stopper groove 101, a stopper spring 103 is disposed between the stopper 102 and a bottom end of the stopper groove 101, a first accommodating chamber 108 is defined in a lower end wall of the housing 100, at least two trigger assemblies are disposed above the first accommodating chamber 108 in the lower end wall of the housing 100, the trigger assemblies are uniformly distributed on a lower inner wall of the housing 100 along a length direction of the housing 100, each trigger assembly includes a trigger groove 104 fixedly connected to the lower inner wall of the housing 100, a trigger block 105 is slidably connected in the trigger groove 104, a trigger spring 106 is disposed between the trigger block 105 and a bottom end of the trigger groove 104, a first arc-shaped groove 110 is formed in a left inner wall of the first accommodating chamber 108, a limit block 109 is slidably connected to a left inner wall of the first accommodating chamber 108, a trigger rod 114 is fixedly connected to a, at least two reset springs 115 are arranged between the lower inner walls of the trigger rod 114 and the first placement cavity 108, a first pull rope 107 is connected between the upper end surface of the trigger rod 114 and the trigger block 105 of each trigger component in a transmission manner, a first limit groove 111 is formed in one side, away from the central line of the shell 100, of the limit block 109, a first limit ball 112 matched with the first arc-shaped groove 110 is connected in the first limit groove 111 in a sliding manner, a first limit spring 113 is arranged between the bottom end of the first limit ball 112 and the bottom end of the first limit groove 111, a first rack 116 is fixedly connected to the right end surface of the trigger rod 114, a first gear shaft 117 is rotatably connected between the inner walls of the front side and the rear side of the first placement cavity 108, and a first gear 118 meshed with the first rack 116 is sleeved on the first gear shaft.

As shown in fig. 1, 4, 5 and 6, the clamping mechanism includes a feeding opening 123 formed in the upper end wall of the casing 100, a support plate 122 is fixedly connected to the upper end surface of the casing 100 on the left side of the feeding opening 123, a slide 124 is formed on the upper end wall of the casing 100 on the right side of the feeding opening 123, a slide 125 is slidably connected to the slide 124, a first tension spring 126 is disposed between the slide 125 and the left inner wall of the slide 124, a second pull rope 119 is connected between the slide 125 and the first gear shaft 117 of the trigger mechanism in a transmission manner, a second accommodating chamber 127 is defined in the upper end wall of the casing 100 below the slide 124, a second rack 128 is disposed on the lower inner wall of the second accommodating chamber 127, a second gear shaft 129 is rotatably connected to the lower end of the slide 125 in the second accommodating chamber 127, a second gear 130 engaged with the second rack 128 is sleeved on the second gear shaft 129, two partition walls 132 are formed on the right end wall of the feeding, a partition sliding block 133 is connected in each partition sliding way 132 in a sliding manner, a second extension spring 134 is arranged between each partition sliding block 133 and the left inner wall of each partition sliding way 132, a partition 135 is fixedly connected between the two partition sliding blocks 133, a third pull rope 131 is connected between the partition 135 and the second gear shaft 129 in a transmission manner, and at least two beating assemblies are arranged at the upper ends of the sliding blocks 125; the flapping component comprises a rotating shaft 139 arranged on the sliding block 125, a rotating shaft sleeve 140 is sleeved on the rotating shaft 139, a first torsion spring 141 is fixedly connected between the rotating shaft sleeve 140 and the rotating shaft 139, a flapping groove 142 is fixedly connected to the periphery side of the rotating shaft sleeve 140, a flapping block 143 is slidably connected in the flapping groove 142, a flapping spring 144 is arranged between the bottom ends of the flapping block 143 and the flapping groove 142, a soft rod 138 is fixedly connected to the right end face of the flapping component, and a fourth pull rope 137 is in transmission connection between the soft rod 138 and the second gear shaft 129.

As shown in fig. 1 and 7, the receiving mechanism includes a receiving box 145 detachably disposed in the housing 100, third accommodating cavities 147 are respectively defined in left and right end walls of the receiving box 145, slide rails 148 are respectively disposed above each third accommodating cavity 147 in the left and right end walls of the receiving box 145, the two slide rails 148 are symmetrically disposed about a center line of the receiving box 145, a second arc-shaped groove 149 is disposed on an inner wall of one side of the slide rail 148 away from the center line of the receiving box 145, a sliding block 150 is slidably connected in the slide rail 148, a second limiting groove 151 is disposed on an end surface of the sliding block 150 close to the second arc-shaped groove 149, a second limiting ball 152 engaged with the second arc-shaped groove 149 is slidably connected in the second limiting groove 151, a second limiting spring 153 is disposed between the second limiting ball 152 and a bottom end of the second limiting groove 151, an elastic material pushing plate 210 is fixedly connected between the two sliding blocks 150, a third rack 154 extending into the third accommodating cavities 147 is fixedly connected, third arrangement cavity 147 internal rotation is connected with third gear shaft 155, the cover is equipped with third gear 156 with third rack 154 meshing on the third gear shaft 155, the left and right sides inner wall of receiver 145 has linked firmly base 158 respectively, it is connected with base axle 159 to rotate between two base 158, base axle 159 and every base 158 have linked firmly second torsional spring 160, the cover is equipped with two reels 161 on the base axle 159, the transmission is connected with fifth stay cord 157 between every reel 161 and the third gear shaft 155 that corresponds, the cover is equipped with two at least and elasticity scraping wings 210 complex toggle assembly on the base axle 159.

As shown in fig. 7, 8 and 9, the toggle assembly includes a toggle groove 162 sleeved on a base shaft 159, a toggle rod 163a is slidably connected in the toggle groove 162, a fourth accommodating cavity 170 is defined in the toggle rod 163a, a toggle spring 164 is disposed between the toggle rod 163a and the bottom end of the toggle groove 162, two lateral sliding ways 166 are disposed on the upper end surface of the toggle rod 163a, a lateral sliding block 167 is slidably connected in each lateral sliding way 166, a lateral sliding spring 168 is disposed between each lateral sliding block 167 and the inner wall of the lateral sliding way 166, a toggle rod 163b is fixedly connected to the upper ends of the two lateral sliding blocks 167, a butting rod 165 is slidably connected in the toggle rod 163b, a positioning plate 169 is fixedly connected to the lower end of each lateral sliding way 166 on the upper inner wall of the fourth accommodating cavity 170, an optical axis 171 is disposed on the positioning plate 169, an optical axis sleeve 172 is sleeved on the optical axis 171, a, an extension groove 174 is formed in the outer peripheral side of the optical axis sleeve 172, an extension rod 175 is connected in the extension groove 174 in a sliding mode, an extension spring 176 is arranged between the extension rod 175 and the bottom end of the extension groove 174, a butting plate 177 matched with the butting rod 165 is connected between the two extension rods 175 in a rotating mode, and a seventh pull rope 178 is connected between the butting plate 177 and each transverse moving sliding block 167 in a transmission mode.

As shown in fig. 1, 10 and 11, the discharging mechanism includes a piston plate 181 slidably disposed in a sliding rail 148 of the receiving mechanism, a counterweight ball 179 slidably disposed below the piston plate 181 in the sliding rail 148 of the receiving mechanism, a first cord 180 connected between the counterweight ball 179 and the piston plate 181, a second cord 136 connected between the counterweight ball 179 and a sliding block 150 of the receiving mechanism in a transmission manner, a piston plate spring 182 disposed between the piston plate 181 and an upper inner wall of the receiving mechanism, an air inlet valve 183 disposed at an upper end of the sliding rail 148 of the receiving mechanism, a first exhaust valve 184 disposed at an end of the receiving mechanism away from the air inlet valve 183, an exhaust pipe 185 communicated with an external space through the first exhaust valve 184, a second 186 disposed in the exhaust pipe 185, a wind wheel shaft 187 rotatably connected to the exhaust pipe 185, a wind wheel shaft sleeve 188 disposed on the wind wheel shaft sleeve 187, at least two wind plates 189 fixedly connected to an outer circumferential side of the wind wheel, the wind plates 189 are uniformly distributed on the outer peripheral side of the wind wheel shaft sleeve 188 along the circumferential direction of the wind wheel shaft sleeve 188, a transmission shaft 190 is rotatably connected below the wind wheel shaft 187 in a storage box 145 of the storage mechanism, a conveyor belt 191 is connected between the transmission shaft 190 and the wind wheel shaft 187 in a transmission manner, an eccentric wheel 192 is sleeved on the transmission shaft 190, a rotating block 193 is rotatably connected onto the eccentric wheel 192, a discharging slide rail 195 is arranged on the upper end wall of the storage box 145 of the storage mechanism, an extrusion rod 199 is fixedly connected onto one side end face, far away from the transmission shaft 190, of the discharging slide rail 195, a discharging slide block 196 is slidably connected into the discharging slide rail 195, a discharging spring 197 is arranged between the discharging slide block 196 and the upper side inner wall of the discharging slide rail 195, a third wire 194 is connected between the discharging slide block 196 and the rotating.

As shown in fig. 11 and 12, the discharging assembly includes a mandrel sleeve 200 fixedly connected to the discharging slider 196, a clamping groove 202 is formed at the lower end of the mandrel sleeve 200, an arc-shaped slide 201 is formed in the mandrel sleeve 200, an arc-shaped slide 203 is slidably connected to the arc-shaped slide 201, swing springs 204 are respectively fixedly connected to the inner walls of the left side and the right side of the arc-shaped slide 203 and the inner wall of the arc-shaped slide 201, a third limit groove 205 is formed in one side end face of the arc-shaped slide 203, which is close to the clamping groove 202, a limit rod 206 matched with the clamping groove 202 is slidably connected to the third limit groove 205, a third limit spring 207 is arranged between the bottom ends of the limit rod 206 and the third limit groove 205, a mandrel 208 located in the mandrel sleeve 200 is fixedly connected to one side end face of the arc-shaped slide 203, a discharging.

The working principle is as follows:

initially, bagged granular seasonings are poured into the storage mechanism, the storage mechanism is placed above the trigger mechanism in the shell 100, the opening of the residual seasonings is aligned with the feed opening 123 and placed between the supporting plate 122 and the beating component, the stop block 102 is pushed by the stop block spring 103 to be located outside the stop block groove 101, the position of the storage mechanism in the shell 100 is stopped, as the granular seasonings stored in the storage mechanism have a certain weight, the plurality of trigger blocks 105 are extruded and located in the trigger groove 104 under the action of external force, and along with the reduction of the seasoning amount in the storage mechanism, the extrusion on the plurality of trigger blocks 105 is gradually reduced, so that the plurality of trigger blocks 105 generate a tendency of sliding towards the outside of the trigger groove 104, the trigger blocks 105 pull the trigger rod 114 to move upwards in the first placement cavity 108 through the first pull rope 107 in the sliding process, and as the first limit spring 113 in the left end of the trigger rod 114 pushes the first limit ball 112 to be located outside the first limit groove 111 initially, the first limiting ball 112 is in contact fit with the first arc-shaped groove 110, so that the position of the trigger rod 114 in the first arranging cavity 108 is limited, and therefore, only when the seasoning of the storage mechanism is too little and the plurality of trigger blocks 105 all slide towards the outside of the trigger groove 104, the trigger rod 114 can overcome the limitation of the first limiting ball 112 and the first arc-shaped groove 110 to move upwards in the first arranging cavity 108;

the trigger rod 114 drives the first rack 116 to mesh with the first gear 118 in the upward moving process, the first gear 118 drives the first gear shaft 117 to rotate in the first mounting cavity 108, the first gear shaft 117 drives the sliding block 125 to slide in the direction away from the feed opening 123 in the sliding way 124 by winding the second pull rope 119 when rotating, the sliding block 125 drives the second gear shaft 129 to slide in the direction away from the feed opening 123 in the second mounting cavity 127 in the sliding process, the second gear shaft 129 drives the second gear 130 to intermittently mesh with the second rack 128 in the second mounting cavity 127 in the sliding process, the second gear 130 is controlled to rotate in the second mounting cavity 127, the second gear shaft 129 is driven to intermittently rotate in the second mounting cavity 127 when rotating, the second gear shaft 129 on one hand pulls the partition 135 to slide in the direction away from the feed opening 123 by the third pull rope 131 when rotating, the opening on the feeding port 123 is unfolded, so that seasonings between the supporting plate 122 and the beating components can fall conveniently, on the other hand, the second gear shaft 129 rotates for a while to intermittently loosen the fourth pull rope 137, namely, the fourth pull rope 137 is controlled to intermittently pull the soft rod 138, because the beating components are connected through the first torsion spring 141, when the fourth pull rope 137 cancels the pulling of the soft rod 138, the beating components rotate in the direction close to the seasoning bag under the action of the first torsion spring 141, the seasoning bag is beaten through the plurality of beating blocks 143, the opening of the seasoning bag is small, when the seasonings are poured, the opening is easy to block, and the discharging speed of the opening is ensured through the beating of the plurality of beating blocks 143;

along with the increase of the weight of the seasonings in the storage mechanism, the trigger assembly gradually resets under the action of the gravity of the seasonings, namely, the first gear shaft 117 of the trigger assembly reversely feeds the second pull rope 119 again, the sliding block 125 resets under the pulling of the first extension spring 126 and slides towards the direction close to the feed opening 123, the sliding block 125 gradually loosens the third pull rope 131 through the reverse meshing of the second gear 130 and the second gear 128 in the sliding process, so that the partition plate 135 resets under the driving of the two partition plate sliding blocks 133, namely, the second pull rope 136 blocks the feed opening 123 again, so that the opening is closed, the continuous discharging of the clamping mechanism is avoided, and the seasonings in the storage mechanism are overflowed to cause waste;

initially, namely when the discharging mechanism is vertically upward, the second limiting ball 152 in the second limiting groove 151 is pushed by the second limiting spring 153 to be located in the second arc-shaped groove 149, the position of the sliding block 150 in the sliding rail 148 is limited through the cooperation of the second limiting ball 152 and the second arc-shaped groove 149, namely, the position of the elastic material pushing plate 210 in the storage box 145 is limited through the two sliding blocks 150, the counterweight ball 179 is located at the lower end of the sliding rail 148 under the action of gravity, the upper end of the piston plate 181 in the sliding rail 148 is filled with air through the air inlet valve 183, when the seasoning is used, the handheld storage box 145 is taken out from the housing 100, the storage box 145 is rotated by one hundred eighty degrees, the discharging mechanism is controlled to be vertically downward, at this time, the counterweight ball 179 slides in the sliding direction close to the discharging mechanism in the sliding rail 148, on one hand, the sliding block 150 is pulled through the second wire rope 136 during the sliding process of, the two sliding blocks 150 drive the elastic material pushing plate 210 to push the seasonings in the storage box 145 to the discharging mechanism, and on the other hand, the counterweight ball 179 pushes the piston plate 181, so that the air in the sliding rail 148 is pushed into the exhaust pipe 185 through the first exhaust valve 184 by the piston plate 181;

the air entering the exhaust pipe 185 is exhausted through the second exhaust valve 186, so that the air generates an air layer above the discharging mechanism, the hot air generated in the pot is isolated, the seasoning is prevented from directly contacting with the hot air, the seasoning is melted at the discharging port to cause the blocking of the discharging port, meanwhile, the air in the exhaust pipe 185 blows the air plate 189, the air plate 189 drives the air wheel shaft 187 to rotate through the air wheel shaft sleeve 188, the air wheel shaft 187 rotates through the transmission of the conveyor belt 191 and the transmission shaft 190, the eccentric wheel 192 rotates, the third wire rope 194 is pulled through the rotating block 193 when the eccentric wheel 192 rotates, the discharging slide block 196 moves downwards in the discharging slide track 195, the initial limiting rod 206 is positioned in the clamping groove 202 under the pushing of the third limiting spring 207, the position of the arc slide block 203 in the arc slide track 201 is limited, when the discharging slide block 196 moves downwards in the discharging slide track 195, the discharging slide block 196 drives the mandrel shaft sleeve 200 to slide towards the direction close to, when the extrusion rod 199 is in contact with the limiting rod 206, the extrusion rod 199 extrudes the limiting rod 206 to slide towards the third limiting groove 205, so that the limiting rod 206 is disconnected from the clamping groove 202, the limitation of the arc-shaped sliding block 203 in the arc-shaped sliding way 201 is controlled to disappear, at the moment, the arc-shaped sliding block 203 slides in the arc-shaped sliding way 201 under the pushing of the swinging spring 204, the discharging plate 209 is driven to swing by the mandrel 208 in the sliding process of the arc-shaped sliding block 203, the opening of the discharging mechanism is unfolded, the seasonings in the storage box 145 are discharged into the pot through the air interlayer, and the quantitative air drives the discharging mechanism to discharge the seasonings, so that the seasoning amount is ensured to be constant during each discharging;

after the seasonings are discharged, the storage box 145 is aligned again, the discharging mechanism is enabled to be vertical and upward, at the moment, the sliding block 150 moves downwards in the sliding rail 148, the sliding block 150 drives the third rack 154 to enter the third arrangement cavity 147 in the downward moving process, the third rack 154 is meshed with the third gear 156, the third gear 156 is controlled to rotate in the third arrangement cavity 147, the third gear 156 drives the third gear shaft 155 to rotate when rotating, the third gear shaft 155 drives the base shaft 159 to rotate in the base 158 through transmission between the fifth pull rope 157 and the reel 161 when rotating, the base shaft 159 generates centrifugal force when rotating, the poking rod 163a drives the poking rod 163b to slide towards the outside of the poking groove 162 under the action of the centrifugal force, and the elastic material pushing plate 210 is impacted through the poking rod 163 b;

when the poking rod 163b is close to the elastic pushing plate 210, the abutting rod 165 is preferentially contacted with the elastic pushing plate 210, the abutting rod 165 is squeezed by the elastic pushing plate 210 to slide towards the fourth mounting cavity 170, the abutting rod 165 drives the two extending rods 175 to rotate at an angle close to the abutting plate 177 by pushing the abutting plate 177 in the sliding process, meanwhile, the abutting plate 177 pulls the two seventh pull ropes 178, so that the transverse moving slide block 167 slides towards the direction close to the center line of the poking rod 163a in the transverse moving slide way 166, when the abutting rod 165 is disconnected from being contacted with the elastic pushing plate 210, the transverse moving slide block 167 resets to slide towards the direction far away from the center line of the poking rod 163a in the transverse moving slide way 166, the two transverse moving slide blocks 167 are controlled to slide back and forth in the transverse moving slide way 166 through the intermittent contact between the abutting rod 165 and the elastic pushing plate 210, and the poking rod 163b is driven to slide back, the stirring rod 163b can swing left and right below the elastic pushing plate 210 while impacting the elastic pushing plate 210, so that the elastic pushing plate 210 is simultaneously subjected to external forces in the horizontal direction and the vertical direction, and seasonings on the elastic pushing plate 210 vibrate under the action of the external forces, so that the seasonings at the bottom end of the elastic pushing plate 210 are replaced, and the phenomenon that the seasonings at the same part at the bottom end of the elastic pushing plate 210 are remained for a long time and cannot be used to deteriorate is avoided.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a condiment box is broadcast to graininess condiment ration, includes left end open-ended casing (100), its characterized in that: the clamping mechanism is arranged on the upper end face of the shell (100), the lower end wall of the shell (100) is provided with a trigger mechanism for driving the clamping mechanism to operate, an accommodating mechanism is connected to the opening of the shell (100) in a sliding mode, and two discharging mechanisms are arranged on the accommodating mechanism.

2. A granular seasoning dosing bin as claimed in claim 1 wherein: the trigger mechanism comprises a block groove (101) arranged on the lower end wall of the shell (100), a block (102) is connected in the block groove (101) in a sliding mode, a block spring (103) is arranged between the block (102) and the bottom end of the block groove (101), a first arrangement cavity (108) is limited on the lower end wall of the shell (100), at least two trigger assemblies are arranged above the first arrangement cavity (108) on the lower end wall of the shell (100), the trigger assemblies are uniformly distributed on the lower inner wall of the shell (100) along the length direction of the shell (100), each trigger assembly comprises a trigger groove (104) fixedly connected on the lower inner wall of the shell (100), a trigger block (105) is connected in the trigger groove (104) in a sliding mode, a trigger spring (106) is arranged between the trigger block (105) and the bottom end of the trigger groove (104), a first arc-shaped groove (110) is formed in the left inner wall of the first arrangement cavity (108), the inner wall of the left side of the first placement cavity (108) is connected with a limiting block (109) in a sliding manner, a side end face, close to the central line of the shell (100), of the limiting block (109) is fixedly connected with a trigger rod (114), at least two reset springs (115) are arranged between the trigger rod (114) and the inner wall of the lower side of the first placement cavity (108), the upper end face of the trigger rod (114) and each trigger block (105) of the trigger assembly are connected with a first pull rope (107) in a transmission manner, one side, far away from the central line of the shell (100), of the limiting block (109) is provided with a first limiting groove (111), the first limiting groove (111) is connected with a first limiting ball (112) matched with the first arc-shaped groove (110) in a sliding manner, a first limiting spring (113) is arranged between the first limiting ball (112) and the bottom end of the first limiting groove (111), and the right end face of the trigger rod (114) is fixedly connected with a first, the inner walls of the front side and the rear side of the first placement cavity (108) are rotatably connected with a first gear shaft (117), and a first gear (118) meshed with the first rack (116) is sleeved on the first gear shaft (117).

3. The granular seasoning dosing seasoning box as claimed in claim 2 wherein: the clamping mechanism comprises a feed opening (123) formed in the upper end wall of the shell (100), the upper end surface of the shell (100) is located on the left side of the feed opening (123) and fixedly connected with a supporting plate (122), the upper end wall of the shell (100) is located on the right side of the feed opening (123) and provided with a slide way (124), a slide block (125) is connected in the slide way (124) in a sliding manner, a first extension spring (126) is arranged between the slide block (125) and the inner wall of the left side of the slide way (124), a second pull rope (119) is connected between the slide block (125) and a first gear shaft (117) of the trigger mechanism in a transmission manner, a second placing cavity (127) is defined below the slide way (124) in the upper end wall of the shell (100), a second rack (128) is arranged on the inner wall of the lower side of the second placing cavity (127), the lower end of the slide block (125) is located in the second placing cavity (127) and rotatably connected with a second, the cover is equipped with on second gear shaft (129) with second gear (130) of second rack (128) meshing, two baffle slides (132), every have been seted up to the right-hand member wall of feed opening (123) baffle slide (132) sliding connection has baffle slider (133), every be baffle slider (133) with be equipped with second extension spring (134), two between the left side inner wall of baffle slide (132) baffle slider (133) have linked firmly baffle (135), baffle (135) with the transmission is connected with third stay cord (131) between second gear shaft (129), the upper end of slider (125) is equipped with two at least beating subassembly.

4. A granular seasoning dosing bin as claimed in claim 3 wherein: pat the subassembly including setting up pivot (139) on slider (125), the cover is equipped with pivot axle sleeve (140) in pivot (139), pivot axle sleeve (140) with first torsional spring (141) have been linked firmly between pivot (139), the periphery side of pivot axle sleeve (140) has linked firmly patting groove (142), it beats piece (143) to pat sliding connection in groove (142), pat piece (143) with be equipped with between the bottom of patting groove (142) and pat spring (144), it is a plurality of the right-hand member face of patting the subassembly has linked firmly soft pole (138), soft pole (138) with the transmission is connected with fourth stay cord (137) between second gear shaft (129).

5. A granular seasoning dosing bin as claimed in claim 1 wherein: the accommodating mechanism comprises an accommodating box (145) which is detachably arranged in the shell (100), third accommodating cavities (147) are respectively limited in the end walls of the left side and the right side of the accommodating box (145), slide rails (148) are respectively arranged above each third accommodating cavity (147) in the end walls of the left side and the right side of the accommodating box (145), the two slide rails (148) are distributed in bilateral symmetry with respect to the central line of the accommodating box (145), a second arc-shaped groove (149) is formed in the inner wall of one side, far away from the central line of the accommodating box (145), of each slide rail (148), a sliding block (150) is connected in the slide rail (148) in a sliding mode, a second limit groove (151) is formed in the end face, close to the second arc-shaped groove (149), of each sliding block (150), a second limit ball (152) matched with the second arc-shaped groove (149) is connected in the second limit, second spacing ball (152) with be equipped with second spacing spring (153), two between the bottom of second spacing groove (151) sliding block (150) have linked firmly elasticity scraping wings (210), sliding block (150) lower extreme has linked firmly and extends to third rack (154) in third arrangement chamber (147), the third is settled chamber (147) internal rotation and is connected with third gear shaft (155), on third gear shaft (155) the cover be equipped with third gear (156) of third rack (154) meshing, the left and right sides inner wall of receiver (145) has linked firmly base (158) respectively, two rotate between base (158) and be connected with base shaft (159), base shaft (159) and every base (158) have linked firmly second torsional spring (160) between, base shaft (159) are gone up the cover and are equipped with two reels (161), every reel (161) and corresponding be connected with fifth stay cord between third gear shaft (155) (157) And at least two toggle assemblies matched with the elastic material pushing plate (210) are sleeved on the base shaft (159).

6. The granular seasoning dosing seasoning box as claimed in claim 5 wherein: the toggle assembly comprises a toggle groove (162) sleeved on the base shaft (159), a toggle rod (163a) is connected in the toggle groove (162) in a sliding manner, a fourth placement cavity (170) is limited in the toggle rod (163a), a toggle spring (164) is arranged between the toggle rod (163a) and the bottom end of the toggle groove (162), two transverse sliding ways (166) are arranged on the upper end face of the toggle rod (163a), a transverse sliding block (167) is connected in the transverse sliding way (166), a transverse sliding spring (168) is arranged between each transverse sliding block (167) and the inner wall of each transverse sliding way (166), the upper ends of the two transverse sliding blocks (167) are fixedly connected with a toggle rod (163b), a butting rod (165) is connected in the toggle rod (163b) in a sliding manner, the inner wall of the upper side of the fourth placement cavity (170) is positioned at the lower end of each transverse sliding way (166) and fixedly connected with a positioning plate (169, be equipped with optical axis (171) on locating plate (169), the cover is equipped with optical axis axle sleeve (172) on optical axis (171), optical axis axle sleeve (172) with third torsional spring (173) have been linked firmly between optical axis (171), the periphery side of optical axis axle sleeve (172) is equipped with extending groove (174), sliding connection has extending rod (175) in extending groove (174), extending rod (175) with be equipped with extending spring (176), two between the bottom of extending groove (174) rotating between extending rod (175) be connected with butt joint pole (165) complex butt joint board (177), butt joint board (177) and every the transmission is connected with seventh stay cord (178) between sideslip slider (167).

7. The granular seasoning dosing seasoning box as claimed in claim 4 wherein: the discharging mechanism comprises a piston plate (181) arranged in a sliding rail (148) of the receiving mechanism in a sliding mode, a counterweight ball (179) is connected below the piston plate (181) in the sliding rail (148) of the receiving mechanism in a sliding mode, a first cord (180) is connected between the counterweight ball (179) and the piston plate (181), a second cord (136) is connected between the counterweight ball (179) and a sliding block (150) of the receiving mechanism in a transmission mode, a piston plate spring (182) is arranged between the piston plate (181) and the upper inner wall of the receiving mechanism, an air inlet valve (183) is arranged at the upper end of the sliding rail (148) of the receiving mechanism, a first exhaust valve (184) is arranged at one end, far away from the air inlet valve (183), of the receiving mechanism, an exhaust pipe (185) is communicated with the external space, and a second exhaust valve (186) is arranged in the exhaust pipe (185), an air wheel shaft (187) is rotationally connected with the exhaust pipe (185), an air wheel shaft sleeve (188) is sleeved on the air wheel shaft (187), at least two air plates (189) are fixedly connected to the outer peripheral side of the air wheel shaft sleeve (188), the air plates (189) are uniformly distributed on the outer peripheral side of the air wheel shaft sleeve (188) along the circumferential direction of the air wheel shaft sleeve (188), a transmission shaft (190) is rotatably connected to the lower portion of the air wheel shaft (187) in a storage box (145) of the storage mechanism, a conveyor belt (191) is connected between the transmission shaft (190) and the air wheel shaft (187) in a transmission manner, an eccentric wheel (192) is sleeved on the transmission shaft (190), a rotating block (193) is rotatably connected to the eccentric wheel (192), a slide way (195) is arranged on the upper end wall of the storage box (145) of the storage mechanism, and an extrusion rod (199) is fixedly connected to one side end face, far away, a discharging sliding block (196) is connected in the discharging slide way (195) in a sliding mode, a discharging spring (197) is arranged between the discharging sliding block (196) and the inner wall of the upper side of the discharging slide way (195), a third wire rope (194) is connected between the discharging sliding block (196) and the rotating block (193) in a transmission mode, and a discharging assembly matched with the extrusion rod (199) is arranged on one side end face, away from the transmission shaft (190), of the discharging sliding block (196).

8. The granular seasoning dosing seasoning box as claimed in claim 7 wherein: the discharging component comprises a mandrel shaft sleeve (200) fixedly connected to a discharging sliding block (196), a clamping groove (202) is formed in the lower end of the mandrel shaft sleeve (200), an arc-shaped slide way (201) is formed in the mandrel shaft sleeve (200), an arc-shaped sliding block (203) is connected in the arc-shaped slide way (201) in a sliding mode, a swing spring (204) is fixedly connected to the inner walls of the left side and the right side of the arc-shaped slide way (201) respectively, a third limiting groove (205) is formed in one side end face, close to the clamping groove (202), of the arc-shaped sliding block (203), a limiting rod (206) matched with the clamping groove (202) is connected in the third limiting groove (205) in a sliding mode, a third limiting spring (207) is arranged between the bottom end of the limiting rod (206) and the bottom end of the third limiting groove (205), and a side end face, far away from the clamping groove (202), of the arc-shaped sliding block, a material discharge plate (209) is arranged on the mandrel (208), and a material blocking cloth (198) is connected between the mandrel shaft sleeve (200) and the extrusion rod (199).