CN219383083U - Continuous flattening output mechanism after pickle packaging - Google Patents

Abstract

The utility model discloses a continuous flattening output mechanism after pickle packaging, which comprises a primary shaping part, a flattening part and a sorting line body, wherein the primary shaping part is used for conveying bagged materials and carrying out primary shaping on the bagged materials, and comprises a square roller for driving the bagged materials to move and shake; the flattening part comprises a conveyor for receiving and conveying the first-stage shaping part to shape and output the bagged materials, one end of the conveyor is connected with one end of the shaping part, a second-stage shaping assembly for further shaping the bagged materials and a flattening assembly for flattening the bagged materials by rolling are respectively arranged above the conveyor, and the flattening part further comprises a power component for providing power for the working of the second-stage shaping assembly and the flattening assembly; the sorting line body receives and conveys the pressed and flattened bagged materials. The utility model discloses it is effectual to flatten, and has higher continuity, has improved work efficiency.

Description

Continuous flattening output mechanism after pickle packaging

Technical Field

The utility model relates to the technical field of pickle production, in particular to a continuous flattening output mechanism after pickle packaging.

Background

The kimchi ancient scale is a fermented vegetable for a long time, and generally, the kimchi can be prepared from vegetables or fruits rich in fibers; such as cabbage, chinese cabbage, carrot, white radish, garlic, green onion, cucumber, onion, korean vegetable, etc., the vegetables have special flavor after pickling and seasoning, and many people can eat the vegetables as a common side dish, and in the process of industrial processing of the pickle, the pickle needs to be cut and packaged so as to be convenient for consumers to eat.

The prior pickle needs to be flattened after being packed, so that the occupied volume of the packaging bag is reduced, the packaging bag is convenient to transport, the automation degree of the prior packaging bag flattening process is low, time and labor are wasted, and the packaging bag is inconvenient to automatically transport.

The utility model with the application number of CN202222226311 discloses a frozen chicken inner packaging bag processing flattening device, which comprises a supporting bottom plate, a fixed vertical plate, a frozen chicken inner packaging bag conveying assembly and a frozen chicken inner packaging bag flattening device, wherein the frozen chicken inner packaging bag conveying assembly comprises a conveying motor, a conveying transmission shaft, a rotary conveying roll shaft, a rotary shaft supporting plate, a frozen chicken inner packaging bag conveying belt and a frozen chicken inner packaging bag conveying plate, and the frozen chicken inner packaging bag flattening device comprises a fixed supporting frame, a rotary motor, a rotary transmission shaft, a rotary eccentric wheel, a fixed connecting plate, a telescopic supporting spring, a movable supporting seat, a flattening plate connecting rod and a movable flattening plate.

The technical scheme effectively solves the problems that the packaging bag flattening process is low in automation degree and inconvenient to automatically convey the packaging bag, and achieves the purposes that the automation degree is high, time and labor are saved, and the packaging bag is automatically conveyed conveniently when the packaging bag is flattened after material packaging. But when the internal packaging is flattened, the rotating motor needs to be started, the rotating transmission shaft rotates along with the rotating motor to drive the rotating eccentric wheel to eccentrically rotate, the rotating eccentric wheel rotates to drive the movable supporting seat and the flattening plate connecting rod to move, meanwhile, the telescopic supporting spring contracts along with the movable flattening plate to downwardly move along with the movable supporting seat to flatten the frozen chicken internal packaging bag, the required time in the process is too long, and therefore the continuity of the flattening packaging of the device is poor, and the efficiency is reduced.

Disclosure of Invention

Therefore, in order to solve the above-mentioned shortcomings, the utility model provides a continuously flattening output mechanism after packaging of pickled vegetables, comprising a primary shaping part, a flattening part and a sorting line body, wherein the primary shaping part is used for conveying bagged materials and carrying out primary shaping on the bagged materials, and comprises a square roller for driving the bagged materials to move and shake; the flattening part comprises a conveyor for receiving and conveying the first-stage shaping part to shape and output the bagged materials, one end of the conveyor is connected with one end of the shaping part, a second-stage shaping assembly for further shaping the bagged materials and a flattening assembly for flattening the bagged materials by rolling are respectively arranged above the conveyor, and the flattening part further comprises a power component for providing power for the working of the second-stage shaping assembly and the flattening assembly; the secondary shaping assembly comprises a pair of mounting plates which are driven by the power component and rotate along the circumferential direction of the secondary shaping assembly, and at least one square column is circumferentially arranged between the pair of mounting plates and close to the circumferential surface of the mounting plates; wherein, the flattening component comprises a roller which is driven by the power component and can rotate along the circumferential direction of the roller; the sorting line body receives and conveys the pressed and flattened bagged materials.

For example, in the continuous flattening output mechanism provided by at least one embodiment of the present utility model, the flattening assembly further includes a first adjusting assembly for adjusting the distance between the flattening assembly and the conveyor, the first adjusting assembly includes a pair of first movable plates disposed in parallel, the first movable plates are rotatable about one end thereof, the drum is mounted between the pair of first movable plates, and the first adjusting assembly further includes a first power assembly for driving the first movable plates to rotate about one end thereof.

For example, in the continuous flattening output mechanism after packaging kimchi provided in at least one embodiment of the present utility model, the first power assembly includes a first fixed block capable of rotating along the circumferential direction of the first power assembly and a first screw rod screwed to the first fixed block, wherein a first hand wheel is installed at the top end of the first screw rod, and a first connecting block is installed at the bottom end of the first screw rod, and the first connecting block is rotatably connected with the first screw rod and hinged with the first movable plate.

For example, in the continuous flattening output mechanism after packaging kimchi provided in at least one embodiment of the present utility model, the secondary shaping assembly further comprises a second adjusting assembly for adjusting the distance between the flattening assembly and the conveyor, the second adjusting assembly comprises a pair of second movable plates arranged in parallel, the second movable plates can rotate around one end of the second movable plates, the mounting plate is mounted between the pair of second movable plates, and the second adjusting assembly further comprises a second power assembly for driving the second movable plates to rotate around one end of the second movable plates.

For example, in the continuous flattening output mechanism after packaging of the kimchi provided in at least one embodiment of the present utility model, the second power assembly includes a second fixed block capable of rotating along the circumferential direction of the second power assembly and a second screw rod screwed with the second fixed block, the top end of the second screw rod is provided with a second hand wheel, the bottom end of the second screw rod is provided with a second connecting block, and the second connecting block is rotatably connected with the second screw rod and hinged with the second movable plate.

For example, at least one embodiment of the utility model provides a continuous flattening output mechanism after packaging pickled vegetables, which further comprises a baffle plate for conveying and turning and guiding bagged materials.

For example, in the continuous flattening output mechanism after packaging pickle provided by at least one embodiment of the utility model, the continuous flattening output mechanism further comprises a third adjusting component for adjusting the height and the width of the baffle plate, wherein the third adjusting component comprises a stand column fixedly arranged on the side part of the shaping part or the conveyor, a sliding block capable of sliding along the axis direction of the stand column, and a longitudinal rod arranged on the outer side surface of the baffle plate and capable of sliding along the axis direction of the longitudinal rod, and the longitudinal rod penetrates through the sliding block and can slide along the axis direction of the longitudinal rod.

The utility model has the following advantages:

the utility model discloses a pivoted square roller carries the bagging-off material on the one-level plastic portion, because Fang Gun is the cube form, and then when the bagging-off material carries, the material in the wrapping bag is evenly distributed gradually under the slight beating of this square roller, and then realize the preliminary plastic of wrapping bag, at least one square post is installed to the position circumference that is close to the mounting panel global between the mounting panel, power component drives the mounting panel and follows self circumference rotation, beat wrapping bag upper portion, extrude, and then realize the further plastic of wrapping bag, power component drives the cylinder and can follow self circumference rotation, under the effect of conveyer and cylinder, the wrapping bag is thoroughly flattened by the roll-in, it is effectual to flatten, and have higher continuity, work efficiency has been improved.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of the structure of the flattening section;

FIG. 3 is a schematic longitudinal cross-sectional view of a flattened section;

in the figure: 100. a first-stage shaping part; 101. a square roller; 200. a flattening section; 201. a support frame; 202. a conveyor; 203. a mounting frame; 204. a first hand wheel; 205. a first screw rod; 206. a first fixed block; 207. a first connection block; 208. a roller; 209. a mounting plate; 210. square columns; 211. a movable plate; 212. a power component; 213. a baffle; 214. a vertical rod; 215. a sliding block; 216. a longitudinal bar; 217. a second movable plate; 218. the second hand wheel; 219. a second screw rod; 220. a second fixed block; 221. a second connection block; 300. sorting lines.

Detailed Description

The technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to fig. 1 to 3, and it is apparent that the described embodiments are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The utility model provides a continuous flattening output mechanism after pickle packaging through improvement, as shown in fig. 1-3, which comprises a primary shaping part 100, a flattening part 200 and a sorting line body 300, wherein the primary shaping part is used for conveying bagged materials and carrying out primary shaping on the bagged materials, comprises a Fang Gun 101 driving the bagged materials to move and shake, and the square roller 101 is driven by an internal motor of the primary shaping part 100; the flattening part 200 comprises a conveyor 202 for receiving and conveying the first-stage shaping part 100 to shape and output the bagged materials, one end of the conveyor 202 is connected with one end of the shaping part 100, a second-stage shaping assembly for further shaping the bagged materials and a flattening assembly for flattening the bagged materials by rolling are respectively arranged above the conveyor 202, and the flattening part 200 also comprises a power component 212 for providing power for the working of the second-stage shaping assembly and the flattening assembly; wherein, the secondary shaping assembly comprises a pair of mounting plates 209 driven by the power component 212 to rotate along the circumferential direction thereof, and at least one square column 210 is circumferentially arranged between the pair of mounting plates 209 at a position close to the circumferential surface of the mounting plates; wherein, the flattening component comprises a roller 208 which is driven by the power component 212 and can rotate along the circumferential direction; the sorting line 300 receives and conveys the flattened bagged materials.

Wherein, pivoted square roller 101 carries the bagging-off material on the one-level plastic portion 100, because square roller 101 is cube form, and then when the bagging-off material carries, the material in the wrapping bag is evenly distributed gradually under the slight beating of this square roller, and then realize the preliminary plastic of wrapping bag, at least one square post 210 is installed to the position circumference that is close to the mounting panel global between the mounting panel 209, power component 212 drives mounting panel 209 along self circumference rotation, hit and squeeze wrapping bag upper portion, and then realize the further plastic of wrapping bag, power component 212 drives cylinder 208 and can follow self circumference rotation, under the effect of conveyer and cylinder, the wrapping bag thoroughly is leveled by the roll-in. In the flattening portion, the flattening device further comprises a supporting frame 201 and a mounting frame 203, the conveyor 202 is mounted on the top of the supporting frame 201, the mounting frame 203 is mounted on two sides of the upper end face of the conveyor 202, and the power component 212, the secondary shaping assembly and the flattening assembly are mounted on the mounting frame 203. The roller, the mounting plate and the power component 212 are driven by gears, and the power component 212 is a component capable of realizing power output in a rotating manner, such as a servo motor.

In this embodiment, as shown in fig. 3, the flattening assembly further includes a first adjusting assembly for adjusting the distance between the flattening assembly and the conveyor 202, the first adjusting assembly includes a pair of first movable plates 211 disposed in parallel, one ends of the first movable plates 211 are rotatably connected with the mounting frame 203, the roller 208 is installed between the pair of first movable plates 211, and the first adjusting assembly further includes a first power assembly for driving the first movable plates 211 to rotate around one ends thereof.

The first power assembly includes a first fixing block 206 capable of rotating along the circumferential direction of the first power assembly and a first screw rod 205 in threaded connection with the first fixing block 206, the first fixing block 206 is rotatably mounted on the mounting frame, a first hand wheel 204 is mounted at the top end of the first screw rod 205, a first connecting block 207 is mounted at the bottom end of the first screw rod 205, and the first connecting block 207 is rotatably connected with the first screw rod 205 and hinged with the first movable plate 211 away from the end of the hinged end of the first movable plate 211 and the mounting frame 203.

In this embodiment, as shown in fig. 3, the secondary shaping assembly further includes a second adjusting assembly for adjusting the distance between the flattening assembly and the conveyor 202, where the second adjusting assembly includes a pair of second movable plates 217 disposed in parallel, one ends of the second movable plates 217 are rotatably connected to the mounting frame 203, and the mounting plate 209 is mounted between the pair of second movable plates 217, and the second adjusting assembly further includes a second power assembly for driving the second movable plates 217 to rotate around one ends thereof.

The second power assembly includes a second fixed block 220 capable of rotating along the circumferential direction of the second power assembly and a second screw rod 219 screwed with the second fixed block 220, wherein a second hand wheel 218 is installed at the top end of the second screw rod 219, a second connecting block 221 is installed at the bottom end of the second screw rod, and the second connecting block 221 is rotatably connected with the second screw rod 219 and hinged with the second movable plate 217 away from the end of the hinged end of the second movable plate 217 and the mounting frame 203.

Through rotatory hand wheel, make the lead screw take place to rotate, the lead screw takes place linear displacement relative to fixed block to drive the fly leaf and take place to rotate around its articulated shaft with the mounting bracket, thereby realize second grade plastic subassembly or flatten the subassembly and adjust for the interval of conveyer, it should be noted that, outside the structure that mentions in this embodiment of adjusting part ejection of compact, can also adopt other modes that can change second grade plastic subassembly or flatten the subassembly for the conveyer interval, for example replace the structure of above-mentioned adjusting part with the cylinder, perhaps install motor etc. on the articulated shaft of fly leaf and mounting bracket.

In this embodiment, as shown in fig. 2 and 3, the continuous flattening output mechanism further includes a baffle 213 for conveying and turnably guiding the bagged materials.

In this embodiment, the continuous flattening output mechanism further includes a third adjusting assembly for adjusting the height and width of the baffle 213, where the third adjusting assembly includes a column 214 fixedly installed on the side of the shaping portion 100 or the conveyor 202, a sliding block 215 that can slide along the axial direction of the column 214, and a vertical rod 216 installed on the outer side of the baffle 213 and that can slide along the axial direction of the vertical rod 216, and the vertical rod 216 penetrates the sliding block 215 and can slide along the axial direction of the vertical rod.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present utility model. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model. Thus, the present utility model is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (7)

1. A continuous flattening output mechanism after pickle packaging is characterized by comprising

A primary shaping part (100) configured to convey the bagged materials and perform primary shaping on the bagged materials, comprising Fang Gun (101) configured to drive the bagged materials to move and shake;

the flattening part (200) comprises a conveyor (202) configured to receive and convey the first-stage shaping part (100) to shape and output the bagged materials, one end of the conveyor (202) is connected with one end of the shaping part (100), a second-stage shaping assembly configured to further shape the bagged materials and a flattening assembly configured to roll and flatten the bagged materials are arranged above the conveyor (202), and the flattening part (200) further comprises a power component (212) configured to provide power for the working of the second-stage shaping assembly and the flattening assembly;

the secondary shaping assembly comprises a pair of mounting plates (209) driven by the power component (212) to rotate along the circumferential direction of the secondary shaping assembly, and at least one square column (210) is circumferentially arranged between the pair of mounting plates (209) at a position close to the circumferential surface of the mounting plates;

wherein, the flattening component comprises a roller (208) which is driven by the power component (212) and can rotate along the circumferential direction of the roller;

a sorting line (300) is configured to receive and transport flattened bagged materials.

2. The continuous pressing and outputting mechanism after packaging kimchi as in claim 1, wherein the pressing assembly further comprises a first adjusting assembly configured to adjust a distance between the pressing assembly and the conveyor (202), the first adjusting assembly comprising a pair of first movable plates (211) disposed in parallel, the first movable plates (211) being rotatable about one ends thereof, the drum (208) being installed between the pair of first movable plates (211), the first adjusting assembly further comprising a first power assembly for driving the first movable plates (211) to rotate about one ends thereof.

3. The continuous flattening output mechanism after packaging of kimchi according to claim 2, wherein the first power assembly comprises a first fixed block (206) capable of rotating along the circumferential direction of the first power assembly and a first screw rod (205) screwed with the first fixed block (206), wherein a first hand wheel (204) is mounted at the top end of the first screw rod (205), a first connecting block (207) is mounted at the bottom end of the first screw rod, and the first connecting block (207) is rotatably connected with the first screw rod (205) and hinged with the first movable plate (211).

4. The continuous pressing output mechanism after packaging kimchi as in claim 1, wherein the secondary shaping assembly further comprises a second adjusting assembly configured to adjust a distance between the pressing assembly and the conveyor (202), the second adjusting assembly comprising a pair of second movable plates (217) disposed in parallel, the second movable plates (217) being rotatable about one ends thereof, the mounting plate (209) being mounted between the pair of second movable plates (217), the second adjusting assembly further comprising a second power assembly for driving the second movable plates (217) to rotate about one ends thereof.

5. The mechanism as claimed in claim 4, wherein the second power assembly comprises a second fixed block (220) rotatable in a circumferential direction thereof and a second screw rod (219) screw-coupled to the second fixed block (220), the second screw rod (219) having a second hand wheel (218) mounted at a top end thereof and a second connection block (221) mounted at a bottom end thereof, the second connection block (221) being rotatably coupled to the second screw rod (219) and being hinged to the second movable plate (217).

6. The mechanism for continuously flattening and outputting pickled vegetable after packaging according to any one of claims 1-5, further comprising a baffle (213) configured to guide the conveyance and turnover of the bagged materials.

7. The mechanism as claimed in claim 6, further comprising a third adjusting assembly for adjusting the height and width of the baffle (213), the third adjusting assembly comprising a column (214) fixedly installed at the side of the shaping unit (100) or the conveyor (202), a sliding block (215) slidably installed along the axial direction of the column (214), and a vertical rod (216) slidably installed at the outer side of the baffle (213) along the axial direction thereof, wherein the vertical rod (216) penetrates through the sliding block (215) and slidably moves along the axial direction thereof.