CN115057401A - Quantitative filling process for seasoning production - Google Patents

Abstract

The invention discloses a quantitative filling process for seasoning production, and the quantitative filling equipment in the second step comprises a transmission table and a feeding box, wherein the top of the transmission table is provided with a transmission groove, the top of the transmission table is fixedly connected with a transmission box, the front side of the feeding box is fixedly connected with an upper top plate, and the bottom of the upper top plate is fixedly connected with a connecting rod. This a quantitative filling technology for flavouring production, through being provided with quantitative filling mechanism and interface conversion unit, utilize the cylinder to drive the removal of piston rod and slurcam, and the first drive assembly of cooperation and second drive assembly realize the charging conduit and lead to the contact conversion between the groove, with this not only can realize quantitative filling operation, and can avoid the problem that inlet pipe and charging conduit were opened simultaneously, with this quantitative precision has been improved, and the efficiency of filling has been accelerated, make flavouring production operation automation more.

Description

Quantitative filling process for seasoning production

Technical Field

The invention relates to the technical field of seasoning processing, in particular to a quantitative filling process for seasoning production.

Background

The seasoning is auxiliary food which can increase the color, the fragrance and the taste of dishes, promote appetite and is beneficial to human health; its main function is to improve the quality of the dish and meet the sensory requirements of consumers, thus stimulating appetite and improving human health. In a broad sense, the seasonings include salty agent, sour agent, sweetener, flavor enhancer and spicy agent, such as salt, soy sauce, vinegar, monosodium glutamate, sugar (mentioned otherwise), anise, fennel, pricklyash peel and mustard.

The in-process of can is being produced to current liquid flavouring, often can't reach the ration operation through personnel's manual can to during the operation of can filling, inefficiency, and after the problem of solving artifical filling, the operation of filling equipment still has following problem:

1. in the process of quantitative storage, the product is easy to drip because the blanking pipe is not closed during extraction, and in the process of quantitative filling, the product is easy to push into the feeding box because the feeding pipe is closed, so that the problem of incomplete filling product in operation is caused;

2. and the problem that the synchronous conversion of the pipeline communicating port can not be realized during the material pumping and discharging;

3. during filling, the filling mouth can't extend to in the material bottle, produces the problem that liquid splashes to the workstation easily during the product unloading.

Therefore, the invention provides a quantitative filling process for seasoning production.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a quantitative filling process for seasoning production, which solves the problems that the communication port of a pipeline cannot be synchronously converted during material pumping and discharging, and a filling nozzle cannot extend into a material filling bottle, so that liquid is easily splashed to a workbench during product discharging.

In order to achieve the purpose, the invention is realized by the following technical scheme: a quantitative filling process for seasoning production specifically comprises the following steps:

step one, manufacturing a product: uniformly grinding the raw materials, stirring and mixing to prepare a seasoning product;

step two, product filling: at the moment, the prepared seasoning product is conveyed to quantitative filling equipment for filling operation;

step three, product packaging: sealing the filled product, conveying the product to a labeling position for pasting and packaging, and finally boxing and packaging;

wherein, the quantitative filling equipment of the second step comprises a transmission platform and a feeding box, the top of the transmission platform is provided with a transmission groove, the top of the transmission platform is fixedly connected with a transmission box, the front side of the feeding box is fixedly connected with an upper top plate, the bottom of the upper top plate is fixedly connected with a connecting rod, the bottom end of the connecting rod is fixedly connected with a lower bottom plate, a quantitative filling mechanism is arranged below the upper top plate, the quantitative filling mechanism comprises an air cylinder and a quantitative tank, the surface of the quantitative tank and the surface of the lower bottom plate are fixedly penetrated, the bottom of the quantitative tank is fixedly communicated with a conversion block through a connecting pipe, the bottom of the feeding box is fixedly communicated with the conversion block through a feeding pipe, the bottom of the conversion block is fixedly communicated with a blanking pipe, the bottom of the blanking pipe is provided with a filling positioning unit, the air cylinder is fixedly arranged at the top of the upper top plate, and the bottom of the air cylinder is connected with a piston rod in a sliding manner, the bottom of the piston rod is fixedly connected with a push plate, the surface of the push plate is provided with an interface conversion unit, the bottom of the push plate is fixedly connected with a plurality of push rods, the bottom of each push rod is fixedly connected with a sealing piston, the surface of each sealing piston is in close contact with the inner wall of the quantifying tank, the interface conversion unit comprises an extension plate and a rotating rod, the bottom of each extension plate enables a transmission rotating shaft to rotate on the inner wall of a transmission box through a first transmission assembly, the surface of each transmission rotating shaft enables a fixing block to move through a second transmission assembly, the surface of each fixing block enables a supporting block to horizontally move on the front side and the rear side through a moving assembly, one side of the transmission box is provided with a moving groove, the surface of each supporting block and the inner surface of the moving groove slide in a penetrating manner, one side of each supporting block is fixedly connected with a first rotating rod, one end of each first rotating rod is rotatably connected with a second rotating rod through a rotating pin, the one end of second bull stick and the one end fixed connection of dwang, the extension end fixedly connected with regulating block of dwang, and the surface of regulating block has seted up the silo that falls, the switching groove has been seted up to the internal surface of switching block, and the inside of switching block and the internal surface that is located the switching groove have seted up logical groove, the surface of regulating block is connected with the internal surface rotation of switching groove.

Preferably, including vertical rack and drive gear in the first transmission assembly, the top fixed mounting of vertical rack is in the bottom fixed connection of extension board, and the surface of vertical rack and the surface of transmission case run through the slip, drive gear fixed mounting is on the surface of transmission pivot, the surface looks meshing of vertical rack and drive gear.

Preferably, the second transmission assembly comprises a transverse rack and a transmission gear, the bottom of the transverse rack is connected with the inner wall of the transmission box in a sliding mode through a sliding assembly, and one end of the transverse rack is fixedly connected with a vertical rod.

Preferably, one side of the vertical rod is fixedly connected with one side of the fixing block, the transmission gear is fixedly installed on the surface of the transmission rotating shaft, and the transverse rack is meshed with the surface of the transmission gear.

Preferably, the sliding assembly comprises a supporting seat and a sliding block, the sliding block is fixedly installed at the bottom of the transverse rack, the supporting seat is fixedly installed at the bottom of the inner cavity of the transmission case, a sliding groove is formed in the top of the supporting seat, and the outer surface of the sliding block is connected with the inner surface of the sliding groove in a sliding mode.

Preferably, including telescopic link and carriage release lever in the removal subassembly, the one end fixed mounting of telescopic link is on the surface of fixed block, and the extension end of telescopic link has seted up the spacing groove, the one end fixed mounting of carriage release lever is in one side of supporting shoe, the extension end fixedly connected with limiting plate of carriage release lever, the surperficial sliding connection of limiting plate and spacing groove.

Preferably, including lifter plate and filling mouth in the filling positioning unit, the welt department fixedly connected with spacing ring at filling mouth top, and the internal surface sliding connection of the surface of spacing ring and blanking pipe, it is fixed to run through between lifter plate and the filling mouth.

Preferably, the fixed surface of dwang is connected with and rotates the wheel, the coiling groove has been seted up on the surface of rotating the wheel, and the internal surface fixed connection of coiling groove pulls the rope, the top of lifter plate and the one end fixed connection who pulls the rope.

Advantageous effects

The invention provides a quantitative filling process for seasoning production. Compared with the prior art, the method has the following beneficial effects:

(1) this a quantitative filling technology for flavouring production, through being provided with quantitative filling mechanism and interface conversion unit, utilize the cylinder to drive the removal of piston rod and slurcam, and the first drive assembly of cooperation and second drive assembly realize the charging conduit and lead to the contact conversion between the groove, with this not only can realize quantitative filling operation, and can avoid the problem that inlet pipe and charging conduit were opened simultaneously, with this quantitative precision has been improved, and accelerated the efficiency of filling, make flavouring production operation automation more.

(2) This a quantitative filling technology for flavouring production through being provided with the removal subassembly, utilizes the slip between cover barrel pole and the carriage release lever to come control to the charging chute and lead to the contact conversion between the groove through the sliding distance of limiting plate and spacing groove, realized opening of feeding pipe junction after the unloading is accomplished, opening of charging pipe junction after the storage is accomplished, make more accurate and convenient of filling.

(3) This a quantitative filling technology for flavouring production, through being provided with filling positioning unit, at dwang pivoted in-process, the rolling operation of synchronous drive rotating wheel for lifter plate pulling rope drives the synchronous motion of lifter plate and filling mouth, with this synchronous operation who realizes regulating block conversion and filling mouth lift, avoided liquid flavouring to produce the problem that splashes when accelerating work efficiency, the waste of product has been avoided, also avoid follow-up clearance to the transmission platform simultaneously.

Drawings

FIG. 1 is an external perspective view of the present invention;

FIG. 2 is a sectional view showing the internal structure of the transmission case of the present invention;

FIG. 3 is an enlarged view of a portion of the structure of FIG. 2;

FIG. 4 is a perspective view of the present invention;

FIG. 5 is an exploded perspective view of the dosing mechanism of the present invention;

FIG. 6 is an exploded perspective view of the interface conversion unit of the present invention;

FIG. 7 is an exploded perspective view of the moving assembly of the present invention;

fig. 8 is an exploded perspective view of the filling positioning unit of the present invention.

In the figure: 1-transmission platform, 2-feeding box, 3-transmission groove, 4-transmission box, 5-upper top plate, 6-connecting rod, 7-lower bottom plate, 8-quantitative filling mechanism, 81-cylinder, 82-quantitative tank, 83-connecting pipe, 84-conversion block, 85-feeding pipe, 86-filling positioning unit, 86-1-lifting plate, 86-2-filling nozzle, 86-3-limit ring, 86-4-rotating wheel, 86-5-coiling groove, 86-6-pulling rope, 87-interface conversion unit, 87-1-extension plate, 87-2-rotating rod, 87-3-first transmission component, 87-31-vertical rack, 87-32-driving gear, 87-4-transmission rotating shaft, 87-5-second transmission assembly, 87-51-transverse rack, 87-52-transmission gear, 87-53-sliding assembly, 87-531-supporting seat, 87-532-sliding block, 87-533-sliding groove, 87-54-vertical rod, 87-6-fixed block, 87-7-moving assembly, 87-71-sleeve rod, 87-72-moving rod, 87-73-limiting groove, 87-74-limiting plate, 87-8-supporting block, 87-9-moving groove, 87-10-first rotating rod, 87-11-second rotating rod, 87-12-adjusting block, 87-13-blanking groove, 87-14-conversion groove, 87-15-through groove, 88-blanking pipe, 89-piston rod, 810-pushing plate, 811-pushing rod and 812-sealing piston.

Detailed Description

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

Referring to fig. 1-7, the present invention provides a technical solution: a quantitative filling process for seasoning production specifically comprises the following steps:

step one, manufacturing a product: uniformly grinding the raw materials, stirring and mixing to prepare a seasoning product;

step two, product filling: at the moment, the prepared seasoning product is conveyed to quantitative filling equipment for filling operation;

step three, product packaging: sealing the filled product, conveying the product to a labeling position for pasting and packaging, and finally boxing and packaging;

wherein, the quantitative filling equipment of the second step comprises a transmission platform 1 and a feeding box 2, the transmission platform 1 is internally provided with intermittent transmission equipment for realizing intermittent transmission of packaging bottles so as to realize automatic operation, the top of the transmission platform 1 is provided with a transmission groove 3, the transmission groove 3 is used for realizing transmission of the packaging bottles, the top of the transmission platform 1 is fixedly connected with a transmission box 4, the front side of the feeding box 2 is fixedly connected with an upper top plate 5, the connection rod 6 and the lower bottom plate 7 are fixedly used for realizing support of the quantitative filling mechanism 8, the bottom of the upper top plate 5 is fixedly connected with a connection rod 6, the bottom of the connection rod 6 is fixedly connected with a lower bottom plate 7, the quantitative filling mechanism 8 is arranged below the upper top plate 5, the quantitative filling mechanism 8 comprises an air cylinder 81 and a quantitative tank 82, the air cylinder 81 is communicated with an oil outlet of an external oil way, and the quantitative tank 82 is used for realizing quantitative storage of seasoning, the surface of the quantitative tank 82 and the surface of the lower bottom plate 7 are fixedly penetrated, the bottom of the quantitative tank 82 is fixedly communicated with a conversion block 84 through a connecting pipe 83, wherein a first rotating rod 87-10 and a second rotating rod 87-11 are driven by a supporting block 87-8 to rotate, so that the second rotating rod 87-11 keeps a vertical state, the second rotating rod 87-11 drives a rotating rod 87-2 and an adjusting block 87-12 to synchronously rotate, at the moment, the surface of the adjusting block 87-12 and a blanking groove 87-13 communicated with a feeding pipe 85 rotate to a through groove 87-15 communicated with the connecting pipe 83, at the same time, the through groove 87-15 connected with a blanking pipe 88 is opened, and at the moment, the quantitative tank 82 is also stored, otherwise, the surface of the adjusting block 87-12 and the blanking groove 87-13 communicated with the connecting pipe 83 rotate to the through groove 87-15 communicated with the feeding pipe 85, meanwhile, the through grooves 87-15 connected with the blanking pipe 88 are closed, the bottom of the feeding box 2 is fixedly communicated with the conversion block 84 through the feeding pipe 85, the blanking pipe 88 is fixedly communicated with the bottom of the conversion block 84, the bottom of the blanking pipe 88 is provided with the filling positioning unit 86, the air cylinder 81 is fixedly installed at the top of the upper top plate 5, the bottom of the air cylinder 81 is slidably connected with a piston rod 89, the bottom of the piston rod 89 is fixedly connected with a push plate 810, the push plate 810 slides through the surface of the connecting rod 6, the surface of the push plate 810 is provided with the interface conversion unit 87, the bottom of the push plate 810 is fixedly connected with a plurality of push rods 811, the bottom ends of the push rods 811 are fixedly connected with sealing pistons 812, the sealing pistons 812 and the inner wall of the quantitative tank 82 can generate suction force or thrust force in the moving process, and the sealing pistons 812 cannot be separated from the inner wall of the quantitative tank 82, the surface of the sealing piston 812 is in close contact with the inner wall of the quantitative tank 82, the interface conversion unit 87 comprises an extension plate 87-1 and a rotating rod 87-2, the bottom of the extension plate 87-1 enables the transmission rotating shaft 87-4 to rotate on the inner wall of the transmission case 4 through a first transmission assembly 87-3, the first transmission assembly 87-3 comprises a vertical rack 87-31 and a driving gear 87-32, the vertical rack 87-31 does not collide with the transmission case 4 during vertical movement, the top end of the vertical rack 87-31 is fixedly connected with the bottom of the extension plate 87-1, the surface of the vertical rack 87-31 and the surface of the transmission case 4 slide in a penetrating manner, the driving gear 87-32 is fixedly arranged on the surface of the transmission rotating shaft 87-4, and the vertical rack 87-31 and the surface of the driving gear 87-32 are meshed, the surface of the transmission rotating shaft 87-4 enables the fixed block 87-6 to move through the second transmission assembly 87-5, the second transmission assembly 87-5 comprises a transverse rack 87-51 and a transmission gear 87-52, the transverse rack 87-51 does not collide with the transmission box 4 in the process of moving in the horizontal direction of the front side and the rear side, the bottom of the transverse rack 87-51 is connected with the inner wall of the transmission box 4 in a sliding way through the sliding assembly 87-53, one end of the transverse rack 87-51 is fixedly connected with a vertical rod 87-54, one side of the vertical rod 87-54 is fixedly connected with one side of the fixed block 87-6, the transmission gear 87-52 is fixedly arranged on the surface of the transmission rotating shaft 87-4, the transverse rack 87-51 is meshed with the surface of the transmission gear 87-52, the sliding assembly 87-53 comprises a supporting seat 87-531 and a sliding block 87-532, the sliding clamping between the sliding blocks 87-532 and the sliding grooves 87-533 is used for supporting the transverse racks 87-51, the sliding blocks 87-532 are fixedly arranged at the bottoms of the transverse racks 87-51, the supporting seats 87-531 are fixedly arranged at the bottoms of the inner cavities of the transmission case 4, the sliding grooves 87-533 are formed in the tops of the supporting seats 87-531, the outer surfaces of the sliding blocks 87-532 are in sliding connection with the inner surfaces of the sliding grooves 87-533, the supporting block 87-8 is horizontally moved at the front and back sides by the surface of the fixed block 87-6 through the moving assembly 87-7, the moving assembly 87-7 comprises the sleeve rods 87-71 and the moving rods 87-72, and when the sleeve rods 87-71 and the moving rods 87-72 are in contact, the second rotating rods 87-11 are kept in a vertical state or in a horizontal state different, until the inner side of the limiting groove 87-73 on the sleeve rod 87-71 is contacted with the limiting plate 87-74, namely the sleeve rod 87-71 and the moving rod 87-72 do not slide, the second rotating rod 87-11 is rotated, one end of the sleeve rod 87-71 is fixedly arranged on the surface of the fixed block 87-6, the extending end of the sleeve rod 87-71 is provided with the limiting groove 87-73, one end of the moving rod 87-72 is fixedly arranged on one side of the supporting block 87-8, the extending end of the moving rod 87-72 is fixedly connected with the limiting plate 87-74, the limiting plate 87-74 is slidably connected with the surface of the limiting groove 87-73, and the sliding distance between the sleeve rod 87-71 and the moving rod 87-72 and the limiting groove 87-73 is utilized to control the falling groove 87-13 and the through groove 87-73 through the arrangement of the moving component 87-7 87-15, the connection of the feeding pipe 85 is opened after the blanking is finished, the connection of the blanking pipe 88 is opened after the storage is finished, so that the filling is more accurate and convenient, one side of the transmission case 4 is provided with a moving groove 87-9, the moving groove 87-9 is used for keeping the supporting block 87-8 horizontally moving at the front side and the rear side, so that the second rotating rod 87-11 can be driven to rotate only 90 degrees, the surface of the supporting block 87-8 and the inner surface of the moving groove 87-9 run through and slide, one side of the supporting block 87-8 is fixedly connected with a first rotating rod 87-10, one end of the first rotating rod 87-10 is rotatably connected with a second rotating rod 87-11 through a rotating pin, one end of the second rotating rod 87-11 is fixedly connected with one end of a rotating rod 87-2, and the extending end of the rotating rod 87-2 is fixedly connected with an adjusting block 87-12, the surface of the adjusting block 87-12 is provided with 3 blanking grooves 87-13, the through groove 87-15 connected with the blanking pipe 88 and the through groove 87-15 communicated with the feeding pipe 85 only have one open state during working, the through groove 87-15 communicated with the connecting pipe 83 is always in an open state, the surface of the adjusting block 87-12 is provided with the blanking groove 87-13, the inner surface of the conversion block 84 is provided with the conversion groove 87-14, the inner surface of the conversion block 84 and the conversion groove 87-14 is provided with the through groove 87-15, the surface of the adjusting block 87-12 is rotatably connected with the inner surface of the conversion groove 87-14, the quantitative filling mechanism 8 and the interface conversion unit 87 are arranged, the cylinder 81 is used for driving the piston rod 89 and the push plate 810 to move, and the first transmission assembly 87-3 and the second transmission assembly 87-5 are matched for realizing the movement of the blanking groove 87-13 and the through groove 87-5 15, so that not only can the quantitative filling operation be realized, but also the problem of simultaneous opening of the feeding pipe 85 and the blanking pipe 88 can be avoided, thereby improving the quantitative accuracy and speeding up the filling efficiency, and further automating the seasoning production operation.

Referring to fig. 8, the filling positioning unit 86 includes a lifting plate 86-1 and a filling nozzle 86-2, the lower end of the filling nozzle 86-2 can extend into the packaging bottle, a position of a bead at the top of the filling nozzle 86-2 is fixedly connected with a limit ring 86-3, the surface of the limit ring 86-3 is slidably connected with the inner surface of the blanking tube 88, the lifting plate 86-1 and the filling nozzle 86-2 are fixed in a penetrating manner, the surface of the rotating rod 87-2 is fixedly connected with a rotating wheel 86-4, the surface of the rotating wheel 86-4 is provided with a winding groove 86-5, the inner surface of the winding groove 86-5 is fixedly connected with a pulling rope 86-6, the top of the lifting plate 86-1 is fixedly connected with one end of the pulling rope 86-6, and by the filling positioning unit 86, during the rotation of the rotating rod 87-2, the rolling operation of the rotating wheel 86-4 is synchronously driven, so that the lifting plate 86-1 pulls the rope 86-6 to drive the lifting plate 86-1 and the filling nozzle 86-2 to synchronously move, the conversion of the adjusting block 87-12 and the lifting of the filling nozzle 86-2 are synchronously operated, the problem of splashing of liquid seasonings is avoided while the working efficiency is improved, the waste of products is avoided, and the subsequent cleaning of the transmission platform 1 is avoided.

And those not described in detail in this specification are well within the skill of those in the art.

During operation, quantitative material storage operation: the liquid seasoning is first placed in the feeding tank 2, at this time, the air cylinder 81 is started, the piston rod 89 and the pushing plate 810 are moved upward by the air cylinder 81, and the plurality of pushing rods 811 and the sealing piston 812 below the pushing plate 810 are moved on the inner wall of the quantifying tank 82, so that the seasoning in the feeding tank 2 is transferred from the feeding pipe 85 to the conversion block 84, at this time, the feeding pipe 85 in the conversion block 84 and the through groove 87-15 and the blanking groove 87-13 to which the connecting pipe 83 is connected are communicated, so that the seasoning is transferred from the connecting pipe 83 to the quantifying tank 82.

Interface conversion operation: in the process that the cylinder 81 drives the piston rod 89 and the push plate 810 to move upwards, the extension plate 87-1 and the vertical rack 87-31 on the push plate 810 move synchronously, the vertical rack 87-31 drives the driving gear 87-32 to rotate, and the driving gear 87-32 and the transmission gear 87-52 have the same size and rotate synchronously through the transmission rotating shaft 87-4, so that the transverse rack 87-51 moves horizontally in the front and back directions, the vertical rod 87-54 drives the sleeve rod 87-71 to move on the surface of the moving rod 87-72 until the inner surface of the limiting groove 87-73 contacts with the limiting plate 87-74 and drives the moving rod 87-72 to move, and at the moment, the supporting block 87-8 drives the first rotating rod 87-10 and the second rotating rod 87-11 to rotate, so that the second rotating rod 87-11 is kept in a vertical state, the second rotating rod 87-11 drives the rotating rod 87-2 and the adjusting block 87-12 to synchronously rotate, at the moment, the surface of the adjusting block 87-12 and the feeding groove 87-13 communicated with the feeding pipe 85 rotate to the through groove 87-15 communicated with the connecting pipe 83, at the same time, the through groove 87-15 connected with the feeding pipe 88 is opened, and at the moment, the material storage of the quantitative tank 82 is also finished.

Quantitative filling operation: then starting the air cylinder 81, driving the piston rod 89 and the pushing plate 810 to move downwards by using the air cylinder 81, so that a plurality of pushing rods 811 and sealing pistons 812 below the pushing plate 810 move downwards on the inner wall of the quantifying tank 82, and squeeze the seasonings inside the quantifying tank 82 to be transmitted into the blanking pipe 88 from the connecting pipe 83, and fall into a packaging bottle of a product from the filling nozzle 86-2 below the blanking pipe 88;

in the process that the cylinder 81 drives the piston rod 89 and the push plate 810 to move downwards, the extending plate 87-1 and the vertical rack 87-31 on the push plate 810 synchronously move to realize the reverse operation of the interface conversion operation, at the moment, the supporting block 87-8 drives the first rotating rod 87-10 and the second rotating rod 87-11 to rotate, so that the second rotating rod 87-11 is kept in a horizontal state, the second rotating rod 87-11 drives the rotating rod 87-2 and the adjusting block 87-12 to synchronously rotate, at the moment, the surface of the adjusting block 87-12 and the blanking groove 87-13 communicated with the connecting pipe 83 rotate to the through groove 87-15 communicated with the feeding pipe 85, at the same time, the through groove 87-15 connected with the blanking pipe 88 realizes a closed state, and at the moment, one filling operation is completed;

and in the process of rotating the rotating rod 87-2, the rotating wheel 86-4 is driven to rotate, when the material storage is finished, the rotating wheel 86-4 drives the pulling rope 86-6 to realize the extension operation, so that the lifting plate 86-1 and the filling nozzle 86-2 move downwards and extend to the inside of a packaging bottle for filling operation, and when the material discharging is finished, the rotating wheel 86-4 drives the pulling rope 86-6 to realize the winding operation, so that the lifting plate 86-1 and the filling nozzle 86-2 move upwards, and the packaging bottle in the next stage can move to the position below the filling nozzle 86-2.

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

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

Claims (8)

1. A quantitative filling process for seasoning production is characterized in that: the method specifically comprises the following steps:

step one, manufacturing a product: uniformly grinding the raw materials, stirring and mixing to prepare a seasoning product;

step two, product filling: at the moment, the prepared seasoning product is conveyed to quantitative filling equipment for filling operation;

step three, product packaging: sealing the filled product, conveying the product to a labeling position for pasting and packaging, and finally boxing and packaging;

the quantitative filling equipment in the second step comprises a transmission platform (1) and a feeding box (2), wherein a transmission groove (3) is formed in the top of the transmission platform (1), the transmission box (4) is fixedly connected to the top of the transmission platform (1), an upper top plate (5) is fixedly connected to the front side of the feeding box (2), a connecting rod (6) is fixedly connected to the bottom of the upper top plate (5), a lower bottom plate (7) is fixedly connected to the bottom end of the connecting rod (6), and a quantitative filling mechanism (8) is arranged below the upper top plate (5);

the quantitative filling mechanism (8) comprises an air cylinder (81) and a quantitative tank (82), the surface of the quantitative tank (82) and the surface of a lower bottom plate (7) are fixedly penetrated, the bottom of the quantitative tank (82) is fixedly communicated with a conversion block (84) through a connecting pipe (83), the bottom of a feeding box (2) is fixedly communicated with the conversion block (84) through an inlet pipe (85), the bottom of the conversion block (84) is fixedly communicated with a blanking pipe (88), the bottom of the blanking pipe (88) is provided with a filling positioning unit (86), the air cylinder (81) is fixedly installed at the top of an upper top plate (5), the bottom of the air cylinder (81) is slidably connected with a piston rod (89), the bottom of the piston rod (89) is fixedly connected with a push plate (810), an interface conversion unit (87) is arranged on the surface of the push plate (810), and a plurality of push rods (811) are fixedly connected with the bottom of the push plate (810), the bottom end of the push rod (811) is fixedly connected with a sealing piston (812), and the surface of the sealing piston (812) is tightly contacted with the inner wall of the quantifying tank (82);

the interface conversion unit (87) comprises an extension plate (87-1) and a rotating rod (87-2), the bottom of the extension plate (87-1) enables a transmission rotating shaft (87-4) to rotate on the inner wall of a transmission box (4) through a first transmission assembly (87-3), the surface of the transmission rotating shaft (87-4) enables a fixed block (87-6) to move through a second transmission assembly (87-5), the surface of the fixed block (87-6) enables a supporting block (87-8) to horizontally move on the front side and the rear side through a moving assembly (87-7), one side of the transmission box (4) is provided with a moving groove (87-9), the surface of the supporting block (87-8) and the inner surface of the moving groove (87-9) penetrate and slide, one side of the supporting block (87-8) is fixedly connected with a first rotating rod (87-10), one end of the first rotating rod (87-10) is rotatably connected with a second rotating rod (87-11) through a rotating pin, one end of the second rotating rod (87-11) is fixedly connected with one end of the rotating rod (87-2), an extending end of the rotating rod (87-2) is fixedly connected with an adjusting block (87-12), a blanking groove (87-13) is formed in the surface of the adjusting block (87-12), a conversion groove (87-14) is formed in the inner surface of the conversion block (84), a through groove (87-15) is formed in the inner surface of the conversion block (84) and located in the conversion groove (87-14), and the surface of the adjusting block (87-12) is rotatably connected with the inner surface of the conversion groove (87-14).

2. A quantitative filling process for the production of seasonings according to claim 1, wherein: the first transmission assembly (87-3) comprises a vertical rack (87-31) and a driving gear (87-32), the top end of the vertical rack (87-31) is fixedly installed at the bottom of the extension plate (87-1) and fixedly connected with the bottom of the extension plate, the surface of the vertical rack (87-31) penetrates through and slides with the surface of the transmission case (4), the driving gear (87-32) is fixedly installed on the surface of the transmission rotating shaft (87-4), and the surfaces of the vertical rack (87-31) and the driving gear (87-32) are meshed.

3. The quantitative filling process for condiment production according to claim 1, wherein: the second transmission assembly (87-5) comprises a transverse rack (87-51) and a transmission gear (87-52), the bottom of the transverse rack (87-51) is connected with the inner wall of the transmission box (4) in a sliding mode through a sliding assembly (87-53), and one end of the transverse rack (87-51) is fixedly connected with a vertical rod (87-54).

4. A quantitative filling process for condiment production according to claim 3, characterised in that: one side of the vertical rod (87-54) is fixedly connected with one side of the fixed block (87-6), the transmission gear (87-52) is fixedly arranged on the surface of the transmission rotating shaft (87-4), and the transverse rack (87-51) is meshed with the surface of the transmission gear (87-52).

5. A quantitative filling process for the production of seasonings according to claim 3, wherein: the sliding assembly (87-53) comprises a supporting seat (87-531) and a sliding block (87-532), the sliding block (87-532) is fixedly installed at the bottom of the transverse rack (87-51), the supporting seat (87-531) is fixedly installed at the bottom of the inner cavity of the transmission case (4), a sliding groove (87-533) is formed in the top of the supporting seat (87-531), and the outer surface of the sliding block (87-532) is in sliding connection with the inner surface of the sliding groove (87-533).

6. A quantitative filling process for the production of seasonings according to claim 1, wherein: move subassembly (87-7) including sleeve pole (87-71) and carriage release lever (87-72), the one end fixed mounting of sleeve pole (87-71) is on the surface of fixed block (87-6), and sleeve pole (87-71) the extension end seted up spacing groove (87-73), the one end fixed mounting of carriage release lever (87-72) is in one side of supporting shoe (87-8), the extension end fixedly connected with limiting plate (87-74) of carriage release lever (87-72), the surperficial sliding connection of limiting plate (87-74) and spacing groove (87-73).

7. A quantitative filling process for the production of seasonings according to claim 1, wherein: the filling positioning unit (86) comprises a lifting plate (86-1) and a filling nozzle (86-2), a limiting ring (86-3) is fixedly connected to the edge of the top of the filling nozzle (86-2), the surface of the limiting ring (86-3) is in sliding connection with the inner surface of a blanking pipe (88), and the lifting plate (86-1) and the filling nozzle (86-2) are fixed in a penetrating mode.

8. A quantitative filling process for the production of seasonings according to claim 7, wherein: the surface of the rotating rod (87-2) is fixedly connected with a rotating wheel (86-4), the surface of the rotating wheel (86-4) is provided with a winding groove (86-5), the inner surface of the winding groove (86-5) is fixedly connected with a pulling rope (86-6), and the top of the lifting plate (86-1) is fixedly connected with one end of the pulling rope (86-6).

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