CN112977900B - Packaging machine for packaging monosodium glutamate - Google Patents

Abstract

The utility model relates to a packagine machine for packing monosodium glutamate relates to equipment for packing's field, which comprises a frame, frame fixedly connected with places the platform, place one side fixedly connected with supporting shoe of platform, supporting shoe upper end fixedly connected with is hollow branch workbin, it is provided with the weight mechanism that is used for carrying out intermittent type weight unloading with monosodium glutamate to divide the workbin, divide workbin lower fixed surface intercommunication to have hopper down, one side of frame is provided with the support, support upper end fixedly connected with feeder hopper, the feeder hopper lower extreme is connected in branch workbin upper end, one side that the support deviates from the feeder hopper is connected with the discharge hopper, the support is provided with and is used for promoting the lifting mechanism who promotes the discharge hopper to the feeder hopper, lifting mechanism connects in the discharge hopper. This application has the effect that can reduce workman intensity of labour.

Description

Packaging machine for packaging monosodium glutamate

Technical Field

The application relates to the field of packaging equipment, in particular to a packaging machine for packaging monosodium glutamate.

Background

Monosodium glutamate is one of flavoring, and its main ingredient is sodium glutamate. The main function of monosodium glutamate is to increase the delicate flavor of food, and the monosodium glutamate is used mostly in Chinese dishes and can also be used for soup and sauce.

In the production process of monosodium glutamate, in order to transfer newly produced monosodium glutamate to a packaging workshop, a manufacturer firstly uses a large bag to contain monosodium glutamate, then transfers the large-bag monosodium glutamate to the packaging workshop, and manually subpackages the large-bag monosodium glutamate into small bags which are generally sold in the market, so that the monosodium glutamate is convenient for consumers to purchase. In the split charging process, one worker is required to use the container to contain the monosodium glutamate in the large packaging bag, and the other worker is responsible for opening the mouth of the small packaging bag to facilitate the monosodium glutamate to be poured in, so that the split charging is completed.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: in the process of packaging the big bags into the small bags, two workers are required to operate, so that the labor intensity of the workers is increased.

Disclosure of Invention

In order to reduce the labor intensity of workers, the application provides a packing machine for packing monosodium glutamate.

The application provides a packagine machine for packing monosodium glutamate, adopts following technical scheme:

a packaging machine for packaging monosodium glutamate comprises a machine frame, wherein a placing table is fixedly connected with the machine frame, a supporting block is fixedly connected to one side of the placing table, a hollow material distributing box is fixedly connected to the upper end of the supporting block, a component mechanism for carrying out intermittent component blanking on monosodium glutamate is arranged in the material distributing box, a blanking hopper is fixedly communicated with the lower surface of the material distributing box, a support is arranged on one side of the machine frame, a feeding hopper is fixedly connected to the upper end of the support, the lower end of the feeding hopper is connected to the upper end of the material distributing box, a discharging hopper is connected to one side, away from the feeding hopper, of the support, a lifting mechanism for lifting the discharging hopper to the feeding hopper is arranged on the support, and the lifting mechanism is connected to the discharging hopper; the weight mechanism comprises a rotating shaft which is rotationally connected with the inner wall of the material distributing box, the rotating shaft is fixedly connected with a swinging block, one end of the swinging block close to the feed hopper is fixedly connected with a hollow bearing box with an opening at the upper end, the lower end of the feed hopper is fixedly communicated with a hollow feed block, the lower end of the feed block is fixedly arranged at the upper end of the material distribution box in a penetrating way, the lower end of the feed block is provided with a first blanking port for discharging monosodium glutamate, the receiving box is arranged below the feeding block, the lower end of the feeding block is provided with a spacing component for enabling the first blanking port to perform spacing blanking, the spacing component is connected with the upper end of the bearing box, the side wall of the material distribution box is fixedly connected with a blanking component used for blanking the bearing box, the unloading subassembly is connected in the box that holds, divide workbin inner wall fixedly connected with to be the stock guide of slope, the one end of stock guide is connected in hopper down.

By adopting the technical scheme, large bagged monosodium glutamate can be poured into the discharge hopper, then the discharge hopper is lifted upwards to the upper part of the feed hopper by the lifting mechanism, monosodium glutamate in the discharge hopper can be poured into the feed hopper, then monosodium glutamate falls into the material distribution box, monosodium glutamate falls into the feed block after entering the feed hopper, and falls into the receiving box through the first blanking port, the weight of the receiving box is heavier and heavier along with continuous falling of monosodium glutamate, the receiving box can drive the swinging block to swing downwards, the receiving box can pull the spacing assembly, the spacing assembly can stop blanking according to the weight of the receiving box, meanwhile, the monosodium glutamate in the receiving box can fall down and slide into the blanking hopper along the guide plate, so that monosodium glutamate can flow out from the opening of the blanking hopper, monosodium glutamate can intermittently fall from the blanking hopper, only one worker needs to open the opening of the blanking hopper to receive monosodium glutamate, thereby accomplishing the sub-packaging and further reducing the labor intensity of workers.

Optionally, hoist mechanism is including the hoisting frame of fixed connection in the support both sides respectively, the hoisting frame is the slope setting, just the upper end orientation of hoisting frame extends the setting near the direction of feeder hopper, the slide has been seted up respectively to the lateral wall that the hoisting frame is relative, the internal sliding of slide is connected with the promotion piece, two fixedly connected with connecting rod between the promotion piece, connecting rod fixed connection is in the discharge hopper lateral wall, the slide is provided with and is used for driving the drive assembly that the promotion piece slided along the slide, drive assembly connects in the promotion piece.

Through adopting above-mentioned technical scheme, after pouring monosodium glutamate into the discharge hopper, drive assembly drive lifting block is along slide rebound to make the lifting block can drive the discharge hopper rebound through the connecting rod, make the discharge hopper remove to the upper end of hoisting frame, because the upper end bending extension setting of hoisting frame, make monosodium glutamate in the discharge hopper can pour to the feeder hopper in.

Optionally, the driving assembly comprises a winding wheel rotatably connected to the upper end of the slideway, a rope is fixedly connected to the side wall of the winding wheel, one end of the rope is fixedly connected to the side wall of the winding wheel, the other end of the rope is fixedly connected to the lifting block, a lifting motor is fixedly connected to the outer side of the lifting frame, and the output end of the lifting motor is fixedly connected to a wheel shaft of the winding wheel.

Through adopting above-mentioned technical scheme, promote motor drive take-up pulley and rotate, make the take-up pulley can carry out the rolling with the rope, and then make the rope can apply ascending pulling force to promoting the piece, make the piece that promotes can upwards remove along the slide, make the discharge hopper promote to the feeder hopper top.

Optionally, the interval subassembly includes fixed connection in the mount of feed block lower extreme, the mount slides and is connected with the baffler, the baffler can seal in first blanking mouth, feed block fixedly connected with extends the piece, extend a fixedly connected with spring, the one end fixed connection of spring is in extending the piece, the other end fixed connection of spring is in the baffler, the baffler deviates from the one end fixedly connected with of spring and connects the rope, the one end fixedly connected with wheel carrier of mount, the wheel carrier rotates and is connected with the fixed pulley, connect the one end that the rope deviates from the baffler and walk around fixed pulley and fixed connection in the box upper end that holds.

By adopting the technical scheme, after the monosodium glutamate in the receiving box reaches a certain weight, the monosodium glutamate can move downwards, the receiving box can drive the connecting rope to move, the connecting rope slides on the fixed pulley, the blocking plate is driven to overcome the tensile force of the spring so as to move the blocking plate, the blocking plate gradually closes the first blanking port, the monosodium glutamate stops blanking, and meanwhile, the blanking assembly can enable the monosodium glutamate in the receiving box to be blanked.

Optionally, the unloading subassembly includes fixed connection in the link of branch workbin inner wall, the second blanking mouth has been seted up to the box lower extreme that holds, the step has been seted up to the lateral wall that holds box bottom inner wall to be located the second blanking mouth, step one side is rotated and is connected with the closed plate that is used for closed second blanking mouth, works as the baffler seals when first blanking mouth, the one end of link stretches into in the second blanking mouth and upwards backs down the closed plate.

By adopting the technical scheme, when the first blanking port stops blanking and the end part of the barrier plate abuts against the fixed pulley, one end of the connecting frame just extends into the second blanking port and can apply upward driving force to the closing plate to enable the closing plate to rotate upwards and open, so that monosodium glutamate can fall from the second blanking port and flow into the blanking hopper along the material guide plate, then the weight of the receiving box is lighter and lighter along with the decrease of monosodium glutamate in the receiving box, so that the spring can restore deformation, the barrier plate is pulled to enable the barrier plate to pull the receiving box upwards through the connecting rope, the driving force to the closing plate is removed from the connecting frame, the closing plate closes the second blanking port again, the barrier plate is separated from the first blanking port, the monosodium glutamate can continuously fall into the receiving box from the first blanking port, and the process is continuously repeated subsequently, therefore, monosodium glutamate can be fed intermittently, and workers can replace the next packaging bag to receive monosodium glutamate conveniently.

Optionally, one side fixedly connected with of feeder hopper erects the frame, it rotates and is connected with the connecting axle to erect the frame, connecting axle fixedly connected with carousel, erect frame upper end fixedly connected with horizontal pole, the carousel is connected with the stirring piece, the stirring piece is connected in the horizontal pole, erect frame fixedly connected with agitator motor, agitator motor output end fixed connection is in the connecting axle.

Through adopting above-mentioned technical scheme, in order to prevent that the monosodium glutamate in big bag can agglomerate to after monosodium glutamate pours into the feeder hopper, stirring motor drive connecting axle rotates, makes the stirring piece under the drive of carousel, and cooperates the horizontal pole, can stir the monosodium glutamate in the feeder hopper, makes the dispersion that monosodium glutamate can be better, improves the quality of monosodium glutamate.

Optionally, the stirring piece includes fixed connection in the actuating lever of carousel, the actuating lever rotates the cover and is equipped with the poking bar, waist type groove has been seted up to the poking bar upper end, the horizontal pole slides and wears to locate waist type inslot, the poking bar lower extreme stretches into in the feeder hopper.

Through adopting above-mentioned technical scheme, when the carousel rotated, the carousel can drive the actuating lever and remove, and then made the actuating lever can drive the poking bar and reciprocate, and the horizontal pole slides in waist type inslot, makes the poking bar can obtain spacingly, makes the poking bar stir about can going on smoothly in the feeder hopper to make monosodium glutamate more disperse, prevent the monosodium glutamate caking.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the monosodium glutamate split charging device has the advantages that monosodium glutamate in large bags can be poured into the discharging hopper, then the discharging hopper is lifted upwards to the position above the feeding hopper through the lifting mechanism, monosodium glutamate in the discharging hopper can be poured into the feeding hopper, monosodium glutamate falls into the split charging box, the split charging mechanism carries out intermittent split charging on monosodium glutamate, monosodium glutamate can fall from the discharging hopper intermittently, only one worker needs to stretch the opening of the small packaging bag at the opening of the discharging hopper to support monosodium glutamate, split charging is completed, and labor intensity of the worker is reduced.

2. In order to prevent the large bagged monosodium glutamate from caking, after the monosodium glutamate is poured into the feed hopper, the stirring motor drives the connecting shaft to rotate, so that the stirring part is driven by the turntable and matched with the cross rod, monosodium glutamate can be stirred in the feed hopper, monosodium glutamate can be better dispersed, and the quality of monosodium glutamate is improved.

Drawings

Fig. 1 is a schematic overall structure diagram of an embodiment of the present application.

Fig. 2 is a schematic structural diagram of a feed hopper in an embodiment of the present application.

Fig. 3 is a partial structural schematic diagram of a hoisting frame in an embodiment of the present application.

FIG. 4 is a schematic view of the internal structure of the material distribution box in the embodiment of the present application.

Fig. 5 is a schematic structural diagram of a spacer assembly in an embodiment of the present application.

FIG. 6 is a cross-sectional view of a splice enclosure in an embodiment of the subject application.

Description of reference numerals: 1. a frame; 11. a placing table; 12. a support block; 13. a material distributing box; 2. a support; 21. a feed hopper; 22. a material feeding block; 23. a first blanking port; 3. a component mechanism; 24. feeding a hopper; 25. a discharge hopper; 4. a lifting mechanism; 41. a hoisting frame; 42. a slideway; 43. a lifting block; 44. a ball bearing; 45. a connecting rod; 46. a drive assembly; 461. a winding wheel; 462. a rope; 463. a hoisting motor; 5. erecting; 51. a connecting shaft; 52. a turntable; 53. a stirring motor; 54. a cross bar; 55. a stirring member; 551. a drive rod; 552. a stirring rod; 553. a waist-shaped groove; 554. a stirring plate; 31. a rotating shaft; 32. a swing block; 33. a receiving box; 34. a spacer assembly; 341. a fixed mount; 342. a dovetail groove; 343. a dovetail block; 344. a barrier plate; 345. an extension block; 346. a spring; 347. connecting ropes; 348. a wheel carrier; 349. a fixed pulley; 35. a blanking assembly; 351. a connecting frame; 352. a second blanking port; 353. a step; 354. a closing plate; 355. a material guide plate.

Detailed Description

The present application is described in further detail below with reference to figures 1-6.

The embodiment of the application discloses a packaging machine for packaging monosodium glutamate. Referring to fig. 1 and 2, the packaging machine for packaging monosodium glutamate comprises a machine frame 1, wherein a horizontal placing table 11 is welded at the upper end of the machine frame 1, a vertical supporting block 12 is welded at one side of the placing table 11, and a horizontal distributing box 13 is welded at the upper end of the supporting block 12. One side of frame 1 is provided with and is vertical support 2, and the welding of support 2 upper end and the one side that is close to branch workbin 13 has and is vertical feeder hopper 21. The feed hopper 21 is positioned above the material separating box 13, the feed hopper 21 is arranged in a funnel shape, and the lower end of the feed hopper 21 is integrally communicated with a feeding block 22 in a hollow cuboid shape. The feeding block 22 is vertically arranged, the lower end of the feeding block 22 is fixedly arranged on the upper surface of the material distribution box 13 in a penetrating mode, and the feeding block 22 is arranged at one end, close to the supporting block 12, of the material distribution box 13. The lower end of the feeding block 22 is provided with a first blanking port 23 for monosodium glutamate blanking along the longitudinal direction.

Referring to fig. 1, the material distribution box 13 is hollow, and a component mechanism 3 capable of intermittently distributing and discharging monosodium glutamate is arranged in the material distribution box 13. Divide workbin 13 lower fixed surface intercommunication to have and be vertical hopper 24 down, and hopper 24 is located the one end setting that divides workbin 13 to deviate from supporting shoe 12 down to make hopper 24 be located the top of placing platform 11 down. One side of support 2 that deviates from feeder hopper 21 is connected with discharge hopper 25, and support 2 is provided with the hoist mechanism 4 that is used for promoting discharge hopper 25 from top to bottom.

Referring to fig. 2, the welding of one side that feeder hopper 21 deviates from support 2 has vertical frame 5, and vertical frame 5 middle part is connected with through the bearing rotation and is horizontally connecting axle 51, and connecting axle 51 has towards the welding of the one end of feeder hopper 21 and is vertical carousel 52, and carousel 52 is circular setting, and carousel 52 is located the setting of feeder hopper 21 top. The side wall of the vertical frame 5 is welded with a stirring motor 53, and the output end of the stirring motor 53 is welded on the connecting shaft 51. A horizontal cross rod 54 is welded at the upper end of the vertical frame 5, and the cross rod 54 is arranged right above the rotating disc 52.

Referring to fig. 2, the rotating disc 52 is connected with a stirring member 55, the stirring member 55 includes a driving rod 551 welded to a side of the rotating disc 52 away from the stirring motor 53, the driving rod 551 is horizontally disposed, and the driving rod 551 is disposed at a side of the rotating disc 52 away from the connecting shaft 51. The driving rod 551 is rotatably sleeved with a vertical stirring rod 552, and the rotation plane of the stirring rod 552 is parallel to the rotation plane of the turntable 52. The upper end of the stirring rod 552 is provided with a waist-shaped groove 553 along the length direction, and the cross rod 54 slides and penetrates through the waist-shaped groove 553. The lower end of the stirring rod 552 extends into the feed hopper 21 and is welded with an arc-shaped stirring plate 554, the stirring plate 554 protrudes in an arc shape and is arranged downwards, meanwhile, the stirring rod 552 is arranged in the middle of the stirring plate 554, and then the plane of the length direction of the stirring plate 554 is vertical to the moving plane of the stirring rod 552.

Referring to fig. 3, hoist mechanism 4 is including welding respectively in the hoisting frame 41 of support 2 both sides, and hoisting frame 41 is the slope setting, makes hoisting frame 41 follow supreme orientation slope setting that is close to support 2 gradually down, and hoisting frame 41 upper end orientation is close to the crooked extension setting of direction of feeder hopper 21, makes hoisting frame 41 upper end be located the top of feeder hopper 21. The opposite side walls of the lifting frame 41 are respectively provided with a slideway 42, the slideways 42 are arranged along the length direction of the lifting frame 41, and the cross section of each slideway 42 is arranged in a T shape. Two lifting blocks 43 are connected in each slideway 42 in a sliding manner, a plurality of balls 44 are embedded in the side walls of the lifting blocks 43, and the balls 44 roll and rub in the slideways 42. And all weld between two liang of corresponding promotion pieces 43 of two slides 42 and be horizontal connecting rod 45, connecting rod 45 is cylindricly setting, and welds respectively in the upper and lower both ends of discharge hopper 25 at two connecting rods 45. The slideway 42 is provided with a drive assembly 46, the drive assembly 46 being used to drive the lifting block 43 to slide along the slideway 42.

Referring to fig. 1 and 3, the driving assembly 46 includes a winding wheel 461 rotatably connected to the upper end of the slideway 42 through a bearing, a rope 462 is welded to the side wall of the winding wheel 461, one end of the rope 462 is welded to the side wall of the winding wheel 461, the other end of the rope 462 is welded to the upper surface of the lifting block 43, two lifting blocks 43 in the same slideway 42 are connected through the rope 462, a lifting motor 463 is welded to the upper end of the lifting frame 41, the lifting motor 463 is a servo motor, and the output end of the lifting motor 463 is welded to the axle of the winding wheel 461.

Referring to fig. 4, weight mechanism 3 includes rotating shaft 31 connected in the internal wall of branch workbin 13 through the bearing rotation, and rotating shaft 31 is the level setting, and rotating shaft 31 welds there is swing piece 32 to make swing piece 32 can rotate along vertical plane, and swing piece 32 is close to the welding of the one end of feeder hopper 21 and has the box 33 that holds that is cavity and the upper end is the opening setting, makes to hold box 33 and is located into material piece 22 below, and material piece 22 lower extreme stretches into to branch workbin 13 inner chamber and is provided with the interval subassembly 34 that is used for making the interval unloading of first blanking mouth 23.

Referring to fig. 5, the spacing assembly 34 includes a fixing frame 341 welded to the lower end of the feeding block 22, and the fixing frame 341 is disposed at two sides of the first blanking opening 23, and the fixing frame 341 is disposed horizontally. The opposite side walls of the fixing frame 341 are transversely provided with dovetail grooves 342, two ends of each dovetail groove 342 are provided with openings, each dovetail groove 342 is connected with a dovetail block 343 in a sliding manner, the extending end of each dovetail block 343 is welded with a horizontal blocking plate 344, the upper surface of each blocking plate 344 is attached to the lower surface of the corresponding material inlet block 22, each blocking plate 344 slides along the length direction of the corresponding oscillating block 32, meanwhile, the length of each blocking plate 344 is equal to the width of the lower end of the corresponding material inlet block 22, and the first blanking port 23 is arranged in the middle of the lower end of the corresponding material inlet block 22, so that each blocking plate 344 can be closed to the corresponding first blanking port 23, and monosodium glutamate stops falling.

Referring to fig. 5, a horizontal extension block 345 is welded to one side of the feed block 22 facing the lower hopper 24, and the extension block 345 is disposed near the lower end of the feed block 22. The extension block 345 comprises a transverse part and a vertical part, the transverse part and the vertical part are vertically welded, the vertical part is arranged at one end of the extension block 345, which is far away from the material inlet block 22, a horizontal spring 346 is welded at the vertical part of the extension block 345, one end of the spring 346 is welded at the vertical part of the extension block 345, and the other end of the spring 346 is welded at one end of the barrier plate 344, which is close to the extension block 345. A connecting cord 347 is secured to the end of barrier panel 344 remote from spring 346. One end of the fixed frame 341 away from the extending block 345 is welded with a horizontal wheel frame 348, the wheel frame 348 is rotatably connected with a fixed pulley 349 through a bearing, one end of the connecting rope 347 away from the blocking plate 344 passes around the fixed pulley 349 and is welded at the upper end of the receiving box 33, and the connecting rope 347 is connected with one end of the receiving box 33 away from the swinging block 32. Secondly, the length of the fixing frame 341 is greater than the width of the feeding block 22, so as to prevent the blocking plate 344 from being pulled out of the fixing frame 341 by the spring 346.

When no monosodium glutamate is in the receiving box 33, the swinging block 32 can be tilted by the tension of the spring 346, so that the receiving box 33 is close to the feeding block 22, and the initial position of the end of the blocking plate 344 connected with the connecting rope 347 is located at the end of the fixed frame 341 close to the extending block 345. After the monosodium glutamate falls into the receiving box 33 from the first blanking port 23, the weight of the receiving box 33 is heavier and heavier along with the increase of the monosodium glutamate in the receiving box 33, so that in the process that the receiving box 33 moves downwards, the connecting rope 347 is pulled, the connecting rope 347 pulls the blocking plate 344 to move, the blocking plate 344 can overcome the tensile force of the spring 346 and is gradually closed to the first blanking port 23, and the monosodium glutamate stops blanking.

Referring to fig. 4 and 6, divide workbin 13 inner wall welding to have the unloading subassembly 35 that is used for making the unloading of box 33 that holds, unloading subassembly 35 is including welding in the link 351 that divides workbin 13 inner wall, and link 351 is located and divides workbin 13 to be close to the one side setting of holding box 33, and link 351 is the level setting, and link 351 is including erecting the portion, horizontal portion, and horizontal portion is perpendicular welding with erecting the portion, erects the one end setting that the horizontal portion deviates from box 13. The lower end of the receiving box 33 is longitudinally provided with a second blanking port 352 with a circular cross section, the side wall of the inner wall of the bottom of the receiving box 33, which is located at the second blanking port 352, is longitudinally provided with a step 353, and the step 353 is circumferentially provided along the second blanking port 352. One side of the step 353 is hinged with a closing plate 354 for closing the second blanking port 352, and the edge of the closing plate 354 is rounded and is positioned in the step 353. And the upper end of the vertical part of the connecting frame 351 is positioned in the swing track of the receiving box 33 driving the second blanking port 352.

Referring to fig. 4 and 5, when the blocking plate 344 is closed at the first blanking opening 23 and the end of the blocking plate 344 abuts against the fixed pulley 349, the vertical portion of the connecting frame 351 can extend into the second blanking opening 352 and push up the closing plate 354, so that the monosodium glutamate can fall from the second blanking opening 352. Secondly, the inner wall of the material distribution box 13 is welded with an inclined guide plate 355, the upper end of the guide plate 355 is positioned below the connecting frame 351, the lower end of the guide plate 355 is connected with the opening of the discharging hopper 24, meanwhile, the guide plate 355 is arc-shaped, and the arc-shaped protrusion of the guide plate 355 is arranged downwards.

The implementation principle of the embodiment of the application is as follows: the large bagged monosodium glutamate can be poured into the discharging hopper 25, and the winding wheel 461 is wound by the lifting motor 463, so that the lifting block 43 can be pulled by the rope 462, the lifting block 43 can move upwards along the slide rail 42, the discharging hopper 25 is lifted to the upper end of the lifting frame 41, and the monosodium glutamate in the discharging hopper 25 can be poured into the feeding hopper 21;

then the stirring motor 53 can drive the rotating disc 52 to rotate, so that the rotating disc 52 drives the driving rod 551 to move, the stirring rod 552 can move up and down, the cross rod 54 slides in the kidney-shaped groove 553 to limit the stirring rod 552, the stirring rod 552 can drive the stirring plate 554 to stir and disperse the monosodium glutamate, then the monosodium glutamate enters the feeding block 22, falls into the receiving box 33 through the first blanking port 23, the weight of the receiving box 33 is increased, the receiving box 33 gradually moves downwards, the connecting rope 347 can pull the separating plate 344 to move, the separating plate 344 gradually closes the first blanking port 23, the monosodium glutamate stops blanking, when the end of the separating plate 344 abuts against the fixed pulley 349, the vertical part of the connecting frame 351 gradually extends into the second blanking port 352, and can jack the closing plate 354 upwards, so that the monosodium glutamate falls from the second blanking port 352 and falls into the blanking hopper 24 along the material guiding plate 355, so that a worker can take in and fill in a small packing bag at the mouth of the lower hopper 24.

When the weight of the monosodium glutamate in the receiving box 33 is continuously reduced, the spring 346 can pull the receiving box 33 to move upwards, after the connecting frame 351 is moved out of the second blanking port 352, the blocking plate 344 gradually moves and is gradually separated from the first blanking port 23, so that the monosodium glutamate is continuously blanked, and then the operations are continuously repeated, so that the monosodium glutamate can be blanked intermittently, a worker can conveniently replace the next packaging bag for receiving, and the labor intensity of the worker is reduced.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (7)

1. A packaging machine for packaging monosodium glutamate, comprising: comprises a frame (1), the frame (1) is fixedly connected with a placing table (11), one side of the placing table (11) is fixedly connected with a supporting block (12), the upper end of the supporting block (12) is fixedly connected with a hollow distributing box (13), a component mechanism (3) for intermittently distributing monosodium glutamate is arranged in the distributing box (13), the lower surface of the distributing box (13) is fixedly communicated with a blanking hopper (24), one side of the frame (1) is provided with a support (2), the upper end of the support (2) is fixedly connected with a feeding hopper (21), the lower end of the feeding hopper (21) is connected with the upper end of the distributing box (13), one side of the support (2) departing from the feeding hopper (21) is connected with a discharging hopper (25), the support (2) is provided with a lifting mechanism (4) for lifting the discharging hopper (25) to the feeding hopper (21), the lifting mechanism (4) is connected with the discharge hopper (25); the weight mechanism (3) is including rotating axis of rotation (31) of connecting in branch workbin (13) inner wall, axis of rotation (31) fixedly connected with swing piece (32), the one end fixedly connected with that swing piece (32) are close to feeder hopper (21) is cavity and upper end and is open-ended and holds box (33), the fixed intercommunication of feeder hopper (21) lower extreme has and is hollow feed block (22), feed block (22) lower extreme is fixed to be worn to locate in branch workbin (13) upper end, feed block (22) lower extreme is seted up first blanking mouth (23) that supplies the monosodium glutamate unloading, just it sets up to hold box (33) to be located feed block (22) below, feed block (22) lower extreme is provided with interval subassembly (34) that are used for making first blanking mouth (23) interval unloading, interval subassembly (34) are connected in holding box (33) upper end, branch workbin (13) lateral wall fixedly connected with is used for making hold unloading subassembly (35) of box (33) unloading, unloading subassembly (35) are connected in holding box (33), divide workbin (13) inner wall fixedly connected with to be inclined stock guide (355), the one end of stock guide (355) is connected in hopper (24) down.

2. A packaging machine for packaging monosodium glutamate as claimed in claim 1, wherein: hoist mechanism (4) are including hoisting frame (41) of difference fixed connection in support (2) both sides, hoisting frame (41) are the slope setting, just the upper end orientation of hoisting frame (41) extends the setting near the direction of feeder hopper (21), slide (42) have been seted up respectively to the relative lateral wall of hoisting frame (41), slide (42) internal slipping is connected with hoisting block (43), two fixedly connected with connecting rod (45) between hoisting block (43), connecting rod (45) fixed connection is in discharge hopper (25) lateral wall, slide (42) are provided with and are used for driving drive assembly (46) that hoisting block (43) slided along slide (42), drive assembly (46) are connected in hoisting block (43).

3. A packaging machine for packaging monosodium glutamate as claimed in claim 2, wherein: the driving assembly (46) comprises a winding wheel (461) rotatably connected to the upper end of the slideway (42), a rope (462) is fixedly connected to the side wall of the winding wheel (461), one end of the rope (462) is fixedly connected to the side wall of the winding wheel (461), the other end of the rope (462) is fixedly connected to the lifting block (43), a lifting motor (463) is fixedly connected to the outer side of the lifting frame (41), and the output end of the lifting motor (463) is fixedly connected to the wheel shaft of the winding wheel (461).

4. A packaging machine for packaging monosodium glutamate as claimed in claim 1, wherein: the spacing component (34) comprises a fixing frame (341) fixedly connected to the lower end of the feeding block (22), the fixed frame (341) is connected with a blocking plate (344) in a sliding way, the blocking plate (344) can be sealed in the first blanking port (23), the feed block (22) is fixedly connected with an extension block (345), the extension block (345) is fixedly connected with a spring (346), one end of the spring (346) is fixedly connected with the extension block (345), the other end of the spring (346) is fixedly connected with the blocking plate (344), one end of the barrier plate (344) departing from the spring (346) is fixedly connected with a connecting rope (347), one end of the fixed frame (341) is fixedly connected with a wheel frame (348), the wheel frame (348) is rotationally connected with a fixed pulley (349), one end of the connecting rope (347) departing from the blocking plate (344) passes around the fixed pulley (349) and is fixedly connected to the upper end of the receiving box (33).

5. A packaging machine for packaging monosodium glutamate as claimed in claim 4, wherein: unloading subassembly (35) are including link (351) of fixed connection in dividing workbin (13) inner wall, second blanking mouth (352) have been seted up to holding box (33) lower extreme, step (353) have been seted up to the lateral wall that holds box (33) bottom inner wall to be located second blanking mouth (352), step (353) one side is rotated and is connected with closing plate (354) that are used for closed second blanking mouth (352), works as baffler board (344) seal in first blanking mouth (23), the one end of link (351) stretches into in second blanking mouth (352) and upwards backs down with closing plate (354).

6. A packaging machine for packaging monosodium glutamate as claimed in claim 1, wherein: one side fixedly connected with of feeder hopper (21) erects frame (5), it rotates and is connected with connecting axle (51) to erect frame (5), connecting axle (51) fixedly connected with carousel (52), erect frame (5) upper end fixedly connected with horizontal pole (54), carousel (52) are connected with stirring piece (55), stirring piece (55) are connected in horizontal pole (54), erect frame (5) fixedly connected with agitator motor (53), agitator motor (53) output end fixed connection is in connecting axle (51).

7. A packaging machine for packaging monosodium glutamate as claimed in claim 6, wherein: stirring member (55) is including drive rod (551) of fixed connection in carousel (52), drive rod (551) rotate the cover and are equipped with poking bar (552), waist type groove (553) have been seted up to poking bar (552) upper end, horizontal pole (54) slide and wear to locate in waist type groove (553), poking bar (552) lower extreme stretches into in feeder hopper (21).

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