CN210364560U - Blanking device of bagging machine - Google Patents

Abstract

The utility model discloses a blanking device of a bagging machine, which is characterized by comprising a turnover component, a lower push bracket component, an up-down moving component and a left-right moving component; the left-right moving assembly comprises a channel through which the object to be bagged can pass; the up-down moving component can drive the left-right moving component to move up and down; the overturning assembly comprises a channel which overturns the object to be bagged and slides into the left-right moving assembly; the push-down bracket component pushes the object to be bagged which slides into the channel in the left-right moving component downwards and is placed into the bag. The utility model relates to a sack filling machine doffer when carrying out the bagging-off to the poultry vacuum packaging of similar sweet-scented osmanthus duck, can cooperate with process around for whole packaging process operation is balanced, and the impact force is little.

Description

Blanking device of bagging machine

Technical Field

The utility model belongs to the technical field of the sack filling machine technique and specifically relates to a sack filling machine doffer.

Background

Generally, when poultry cooked food like sweet osmanthus ducks and the like is packaged and sold, vacuum packaging is needed firstly, and then plastic bags are wrapped outside the poultry cooked food. In the prior art, on a packaging production line for cooked food of poultry like sweet osmanthus ducks and the like, the problems of unbalanced action, large impact force and the like exist when plastic bags are externally packaged on the vacuum sweet osmanthus ducks in a packaging process.

SUMMERY OF THE UTILITY MODEL

To the technical problem, the utility model aims at providing a sack filling machine doffer.

In order to solve the technical problem, the purpose of the utility model is to realize like this:

the utility model relates to a blanking device of a bagging machine, which comprises a turnover component, a lower push bracket component, an up-down moving component and a left-right moving component;

the left-right moving assembly comprises a channel through which the object to be bagged can pass;

the up-down moving component can drive the left-right moving component to move up and down;

the overturning assembly comprises a channel which overturns the object to be bagged and slides into the left-right moving assembly;

the push-down bracket component pushes the object to be bagged which slides into the channel in the left-right moving component downwards and is placed into the bag.

As a further explanation of the above scheme, the turnover assembly comprises a turnover plate, a turnover bottom plate, a turnover shaft, a turnover cylinder, an inner baffle assembly and a buffer support rod;

the turnover plate is fixedly connected with the turnover shaft through a turnover plate fixing sleeve; the turnover cylinder is arranged in the turnover cylinder cover and is connected with the turnover shaft through a joint bearing and a driving connecting rod to drive the turnover shaft to rotate; the turnover plate is integrally U-shaped, and a tongue plate is arranged at one end of the turnover plate;

the turnover bottom plate is U-shaped, the inner sides of the two side walls are fixedly connected with turnover cantilever plates, and the outer side of the side wall at one side is fixedly connected with a turnover cylinder cover; the turnover cantilever plate is connected with the turnover shaft through a bearing; the overturning take-up plate is V-shaped;

the inner baffle assembly comprises an inner baffle and an inner baffle front and rear adjusting plate, the inner baffle is fixedly connected with the inner baffle front and rear adjusting plate, and the inner baffle is inclined; the front and rear adjusting plates are fixedly connected with the turnover bottom plate and can be adjusted in position;

one end of the buffering support rod is provided with a buffering block made of polyurethane damping material, and the other end of the buffering support rod is fixedly connected with the turnover bottom plate;

the turnover cylinder cover is provided with an external cable joint and an Addie through plate through joint which are connected with the turnover cylinder;

the joint bearing is an internal thread joint bearing of the Yige.

As a further explanation of the above scheme, the push-down bracket assembly comprises a front transverse plate, an upper cylinder support plate, a push-down cylinder and an outer baffle plate;

the end part of a piston rod of the push-down cylinder is fixedly connected with a cylinder front plate; the two ends of the cylinder front plate are fixedly connected with cylinder guide rods, and the front transverse plate and the upper cylinder support plate are fixedly provided with base bearings at the two sides of the downward pushing cylinder; the cylinder guide rod penetrates through the base bearing and can slide in the base bearing;

an air cylinder supporting rod and an air cylinder frame are fixedly arranged between the front transverse plate and the upper air cylinder supporting plate, and the air cylinder frame is fixed at one end of the front transverse plate and one end of the upper air cylinder supporting plate; the cylinder frame is provided with an external forced cable joint and a Sudoku right-angle through plate joint which are connected with the push-down cylinder;

the front transverse plate is fixedly connected with an outer baffle and a connecting support arm; the number of the connecting support arms is two, and the two connecting support arms are respectively fixed at two ends of the front transverse plate; the connecting support arm comprises a ram, a vertical support rod, a vertical support plate A, a vertical support plate B and a support plate welding block; one end of the ram is fixed with the front transverse plate, and the other end of the ram is fixedly connected with the vertical supporting rod; the vertical supporting rod and the vertical supporting plate A are respectively provided with a plurality of holes correspondingly, and the vertical supporting rod and the vertical supporting plate A are fixedly connected through the holes; the vertical support plate A and the vertical support plate B are connected through a support plate welding block, and the vertical support plate B is fixed through a bolt.

As a further explanation of the above scheme, the up-and-down moving assembly comprises a mounting main board, wherein two motor support plates and two linear slide rails are fixedly connected to the mounting main board; a screw rod seat is arranged between the two end parts of the two linear slide rails, and a screw rod is arranged between the two screw rod seats; a motor upper plate is fixed between the motor support plates, a motor is fixedly connected onto the motor upper plate, a power output end of the motor is connected with a driving belt wheel, and the driving belt wheel and a driven belt wheel fixed at the end part of the screw rod are driven by a rubber synchronous belt to drive the screw rod to rotate; the screw rod is connected with a screw rod nut seat through a screw rod nut, and the screw rod nut seat is connected with the linear slide rail through a slide block; two ends of the screw rod nut seat are fixedly connected with shielding plates;

a tension pulley is arranged between the driving pulley and the driven pulley and is contacted with the rubber synchronous belt to adjust the tension of the rubber synchronous belt; the tension belt wheel is connected with the upper plate of the motor through the synchronous belt tightening seat.

As a further explanation of the above scheme, the left-right moving assembly comprises a left-right moving main plate; the two ends of the left-right moving main board are respectively and fixedly connected with a motor base and a sliding rod base, and the middle position of the left-right moving main board is connected with a sliding rod middle base; two sliding rods are arranged between the motor base and the sliding rod base and penetrate through the sliding rod middle base; the sliding rod is provided with a left sliding seat and a right sliding seat in a sliding manner and is positioned on two sides of the middle seat of the sliding rod; the right sliding seat and the left sliding seat are respectively connected with the right driving screw rod and the left driving screw rod through trapezoidal screw nuts; the right sliding seat and the left sliding seat can slide by the rotation of the right driving screw rod and the left driving screw rod; the right driving screw and the left driving screw are connected through a screw middle connecting sleeve; the left sliding block is fixedly connected with a rocker shaft;

the motor is fixed on the motor base, the output end of the motor is connected with a driving belt wheel, the driving belt wheel and a driven belt wheel are in transmission through a rubber synchronous belt, the driven belt wheel is fixedly connected with the right driving screw rod, and the rotation of the driven belt wheel can drive the right driving screw rod to rotate;

the left sliding seat and the right sliding seat are connected with the left rotating ram component and the right rotating ram component through rotating bearing seats; the left rotating ram component comprises a rotary cylinder, a torsion plate, a rocker arm, a rotating ram and a left fixed inclined plate; the torsion plate is fixedly connected with the rotary cylinder and is provided with an arc-shaped waist-shaped hole; one end of the rocker arm shaft passes through the waist-shaped hole and can move in the waist-shaped hole; the rotary cylinder is fixedly connected with the rocker arm through a bolt and can drive the rocker arm to rotate; the rocker arm is provided with an arc-shaped waist-shaped hole, and a bolt connected with the rotary cylinder can move in the waist-shaped hole; the rocker arm is connected with the rotary ram key to drive the rotary ram to rotate, the rotary ram passes through the rotary bearing seat and is fixedly connected with the left fixed inclined plate through the rotary fixing sleeve, and the rotation of the rotary ram can drive the left fixed inclined plate to rotate; the left fixed inclined plate is provided with an inclined groove part and a straight groove part, the U-shaped groove of the inclined groove part is gradually narrowed, and the side wall of one end of the straight groove part is provided with an inclined surface;

the right rotating ram component and the left rotating ram component have the same structure and are symmetrically arranged.

The utility model has the advantages that: the utility model relates to a sack filling machine doffer when carrying out the bagging-off to the poultry vacuum packaging of similar sweet-scented osmanthus duck, can cooperate with process around for whole packaging process operation is balanced, and the impact force is little.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a schematic structural view of the flip assembly;

FIG. 3 is a schematic view of the flip assembly from another perspective;

FIG. 4 is a schematic structural view of the inner barrier assembly;

FIG. 5 is a schematic structural view of the push down bracket assembly;

FIG. 6 is a schematic view of the up and down moving assembly;

FIG. 7 is a schematic structural view of the side-to-side movement assembly;

FIG. 8 is a schematic view of the left-right moving assembly from another perspective;

FIG. 9 is a schematic view of the construction of a left turn ram assembly;

FIG. 10 is an enlarged partial view of FIG. 9;

FIG. 11 is a schematic diagram of the structure of the left slider;

fig. 12 is a schematic structural view of the torsion plate;

FIG. 13 is a schematic structural view of a rocker arm;

fig. 14 is a schematic structural view of the slewing cylinder.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and specific embodiments.

The present invention will be described in detail with reference to fig. 1 to fig.. The blanking device of the bagging machine comprises an overturning assembly 1, a downward pushing support assembly 2, an upward and downward moving assembly 3 and a leftward and rightward moving assembly 4.

As shown in fig. 1, the left-right moving assembly 4 includes a passage through which the object to be bagged can pass; the up-down moving component 3 can drive the left-right moving component to move up and down; the overturning assembly 1 comprises a channel which overturns the object to be bagged and slides into the left-right moving assembly; the lower push bracket component 2 pushes the object to be bagged which slides into the channel of the left and right moving component downwards and is placed into the bag.

As shown in fig. 2 and 3, the turnover assembly includes a turnover plate 101, a turnover bottom plate 102, a turnover shaft 103, a turnover cylinder 104, an inner baffle plate assembly 105, and a buffer strut 106.

The turnover plate 101 is fixedly connected with the turnover shaft 103 through a turnover plate fixing sleeve 107; the turnover cylinder 104 is arranged in a turnover cylinder cover 108 and is connected with the turnover shaft 103 through a joint bearing 109 and a driving connecting rod 110 to drive the turnover shaft 103 to rotate. The turnover plate 101 is integrally U-shaped, one end of the turnover plate is provided with a tongue plate 1011, and the tongue plate 1011 protrudes out of the turnover plate 101 so that the object to be bagged can slide down conveniently. The end of the piston rod of the turning cylinder 104 is connected with a joint bearing 109, the joint bearing 109 is connected with a driving connection, and the forward and backward movement of the piston rod of the turning cylinder 104 can drive the driving connection 110 to rotate, so as to drive the turning shaft 103 to rotate. The knuckle bearing 110 is an IGES female thread knuckle bearing, and the model is GMF-1517-17.

The turnover bottom plate 102 is U-shaped, the inner sides of the two side walls are fixedly connected with a turnover flip plate 111 through bolts, and the outer side of one side wall is fixedly connected with the turnover cylinder cover 18 through bolts or welding. The V-shaped turnover picking plate 111 is connected with the turnover shaft 103 through a bearing.

As shown in fig. 4, the inner barrier assembly 105 includes an inner barrier 1051, an inner barrier forward-aft adjustment plate 1052. The inner baffle 1051 is fixedly connected with the inner baffle front and rear adjusting plate 1052 through a connecting block 1053. The inner baffle 1051 is inclined when the bagging machine works, so that the bagged materials can slide down conveniently. The inner baffle plate adjusting plate 1052 and the turnover bottom plate 102 are fixedly connected through bolts, and the position can be adjusted back and forth. The adjustment is realized through strip-shaped holes arranged on the front and rear adjusting plates of the inner baffle. The bolts are unscrewed to adjust the position of the front and rear adjusting plates 1052 of the inner baffle, and the position of the inner baffle 1051 is adjusted in the front-in direction.

A bumper strut 106 is provided at the proximal end of the inner baffle forward-aft adjustment plate 1052. One end of the buffer strut 106 is provided with a buffer block 1061 made of polyurethane shock-absorbing material, and the other end is fixedly connected with the turnover base plate 102 through threads. The buffer strut 106 is for buffering the floor panel 101 during turning.

The turnover cylinder cover 108 is provided with an external cable joint 1081 and an addend through-plate joint 1082, which are connected with the turnover cylinder 104. The cable is passed through in the forced cable joint 1081 to supply power for the turnover cylinder 104, and the through plate joint 1082 supplies air for the turnover cylinder 104.

As shown in fig. 5, the lower push bracket assembly 2 includes a front cross plate 201, an upper cylinder support plate 202, a lower push cylinder 203, and an outer baffle 204.

The end part of the piston rod of the downward pushing cylinder 203 is fixedly connected with a cylinder front plate 205; the cylinder guide rods 206 are fixedly connected to both ends of the cylinder front plate 205. The front cross plate 201 and the upper cylinder stay 202 are fixedly provided with base bearings 207 on both sides of the push-down cylinder 203. The cylinder guide 206 passes through the base bearing 207 and is slidable within the base bearing 207.

A cylinder support rod 208 and a cylinder frame 209 are fixedly arranged between the front cross plate 201 and the upper cylinder support plate 202. The cylinder frame 209 is fixed to the front cross plate 201 and one end of the upper cylinder stay 202. The cylinder frame 209 is provided with an external force type cable joint 210 and a hadamard right-angle through-plate joint 211 connected to the push-down cylinder. The external forcing type cable joint 210 penetrates a cable to supply power for the push-down cylinder 203, and the Sudoku right-angle penetrating plate joint 211 is communicated with an air source to supply air for the push-down cylinder 203.

The front cross plate 201 is fixedly connected with an outer baffle plate 205 and a connecting support arm 212. The number of the connecting arms 212 is two, and the two connecting arms are respectively fixed at two ends of the front cross plate 201. The connecting arm 212 includes a ram 2121, a vertical support rod 2122, a vertical support plate a2123, a vertical support plate B2124, and a support plate weld block 2125. One end of the ram 2121 is fixed to the front cross plate 201 by a bolt, and the other end is fixedly welded to the vertical strut 2122. A plurality of holes are correspondingly formed in the vertical support rod 2122 and the vertical support plate A2123, the vertical support rod 2122 and the vertical support plate A2123 are fixedly connected through the holes by bolts, the fixing position of the bolts can be adjusted, the fixing position of the vertical support rod 2122 and the vertical support plate A2123 can be adjusted, and the height of the vertical support plate A2123 can be adjusted. The vertical support plate A2123 and the vertical support plate B2124 are connected through a support plate welding block 2125, and the vertical support plate B2124 is fixed with the mounting main plate 301 in the up-and-down moving assembly 3 through bolts.

The push-down bracket assembly 2 is during operation to push down the action of cylinder 203, and the piston rod on it promotes cylinder front bezel 205 downstream, drives cylinder guide arm 206 simultaneously and removes, and the setting of cylinder guide arm 206 can make the more stable of the motion of cylinder front bezel 205. The downward movement of the cylinder front plate 205 pushes the object to be bagged to move downward.

As shown in fig. 6, the up-down moving unit 3 includes a mounting main board 301 therein. Two motor support plates 302 and two linear slide rails 303 are fixedly connected to the mounting main plate 301. A screw rod seat 304 is arranged between the two end parts of the linear slide rail, and a screw rod 305 is arranged between the two screw rod seats 304. A motor upper plate 306 is fixed between the motor support plates 302, a motor 307 is fixedly connected to the motor upper plate, a power output end of the motor 307 is connected with a driving pulley 308, and the driving pulley 308 and a driven pulley 309 fixed at the end of the screw 308 are driven by a rubber synchronous belt 310 to drive the screw 305 to rotate. The screw 305 is connected to a feed screw nut holder 311 through a feed screw nut. The feed screw nut seat 311 is connected with the linear slide rail 303 through a slide block 312. Two ends of the feed screw nut seat 311 are fixedly connected with shielding plates 313. The inside of the sliding block 312 is provided with a groove with a matched section of the linear sliding rail 303, so that the sliding block 313 can slide on the linear sliding rail 312 to drive the screw rod nut seat 311 to move. The mounting main board 301 is provided with a strip-shaped hole at the outer side of the linear slide rail 303. The linear slide 303 used is an ABBA guide BRH25 BL. The slider 312 used is the ABBA slider BRH25 BL. The screw 305 used is an ABBA screw. An ohm dragon approach switch is arranged on the outer side of the sliding rail 303 near the end part of the screw 305 of the sliding rail 303 and the driven belt wheel 309.

A tension pulley 314 is provided between the driving pulley 308 and the driven pulley 309 to contact the rubber timing belt 310, and adjusts the tension of the rubber timing belt 310. The tension pulley 314 is connected to the motor top plate 306 via a timing belt tensioner 315.

As shown in fig. 7, the left-right moving assembly 4 includes a left-right moving main plate 401. Two ends of the left-right moving main board 401 are respectively and fixedly connected with a motor base 402 and a sliding rod base 403, and the middle position of the left-right moving main board is connected with a sliding rod middle base 404. Two sliding rods 405 are arranged between the motor base 402 and the sliding rod base 403 and penetrate through the sliding rod middle base 404. The slide rod 405 is slidably provided with a left slide seat 406 and a right slide seat 407, which are located at two sides of the slide rod middle seat 404. The right sliding seat 407 and the left sliding seat 406 are respectively connected with a right driving screw 409 and a left driving screw 410 through a trapezoidal screw nut 408; the right and left slide blocks 406 and 407 can slide by the rotation of the right and left drive screws 409 and 410. The right driving screw 409 and the left driving screw 410 are connected through a screw middle connecting sleeve 411. A rocker shaft 412 is fixedly attached to the left slider 406. The left and right moving main board 401 is fixed with the feed screw nut seat 311, and when the feed screw nut seat 311 moves, the left and right moving main board 401 is driven to move up and down.

The motor 413 is fixed on the motor base 402, the output end of the motor 413 is connected with a driving pulley 414, the driving pulley 44 and a driven pulley 415 are driven by a rubber synchronous belt 416, the driven pulley 415 is fixedly connected with the right driving screw 409, and the rotation of the driven pulley 415 can drive the right driving screw 409 to rotate.

The left sliding seat 406 and the right sliding seat 407 are connected with the left rotating ram assembly 417 and the right rotating ram assembly 418 through the rotating bearing seat. The right rotating ram assembly 418 is identical in structure to the left rotating ram assembly 417 and is symmetrically disposed. The left rotating ram assembly 417 is taken as an example to illustrate the structure. The rotating ram 4174 of the right and left rotating ram assemblies 418 and 417 pass through a strip-shaped hole of the mounting main plate 301 disposed outside the linear slide rail 303.

The left rotary ram assembly 417 includes a rotary cylinder 4171, a torque plate 4172, a rocker arm 4173, a rotary ram 4174, and a left fixed swash plate 4175. The torsion plate 4172 fixedly connected to the revolving cylinder 4171 is provided with an arc-shaped waist-shaped hole. One end of the rocker shaft 412 passes through the kidney-shaped hole and is movable in the kidney-shaped hole. The rotary cylinder 4171 is fixedly connected with the rocker arm 4173 through a bolt and can drive the rocker arm 4173 to rotate. The rocker arm 4173 is uniformly provided with arc-shaped kidney-shaped holes in the circumferential direction, a bolt connected with the rotary cylinder 4171 can move in the kidney-shaped holes, and the connecting angle between the rocker arm 4173 and the rotary ram 4174 can be adjusted by adjusting the position of the bolt fixed in the kidney-shaped holes, so that the inclination degree of the left fixed swash plate 4175 can be adjusted. The rocker arm 4173 is keyed to the rotating ram 4174 to rotate the rotating ram 4174. The rotating ram 4173 passes through the rotating bearing seat 419 and is fixedly connected with the left fixed swash plate 4175 through the rotating fixing sleeve 4176, and the rotation of the rotating ram 4174 can drive the left fixed swash plate 4175 to rotate. The left fixed swash plate 4175 has a diagonal groove portion 4176 and a straight groove portion 4177. The U-shaped groove of the chamfer portion 4176 is gradually narrowed. The side wall of one end of the straight groove 4177 has an inclined surface. In the present embodiment, the rotary cylinder 4171 used is the hadamard rotary cylinder HRQ 20.

An approach seat 419 is fixed to the slide bar seat 403, and an approach switch 420 is fixed to the approach seat. For detecting the movement position of the left sliding seat. One side of the left-right moving main board 401 is fixed with a drag chain phase 5, and a hose connected with an air source and used for accommodating a lead is arranged in the drag chain.

The utility model relates to a sack filling machine doffer's working process as follows: when the object to be bagged of the last process falls into the turnover plate, the turnover cylinder acts to turn over the turnover plate, so that the object to be bagged falls into a channel formed by the left fixed inclined plate and the right fixed inclined plate from the turnover plate and the inner baffle plate, the inner baffle plate is matched with the outer baffle plate in the lower push bracket component 2, and the object to be bagged is carried out in the channel according to the specified requirement. When the object to be bagged is in the channel, the push-down cylinder in the push-down support component acts, so that the piston rod drives the cylinder front plate to move downwards, and the object to be bagged is pushed down. When the overturning cylinder acts, the up-down moving assembly drives the left-right moving assembly to move upwards, so that the object to be bagged can fall into the channel. When the pushing cylinder moves downwards, the up-down moving assembly drives the left-right moving assembly to move downwards, so that the lower end of the channel is matched with the opening of the packaging bag. When the left and right moving assembly moves upwards, the rotary cylinder moves, so that the left fixed inclined plate and the right fixed inclined plate incline in opposite directions, the opening at the upper end is enlarged, and a bagged object can fall into the channel conveniently. When the left-right moving assembly moves downwards, the rotary air cylinder acts to enable the left fixed inclined plate and the right fixed inclined plate to incline in opposite directions, so that the opening at the lower end of the channel is enlarged, and the object to be bagged can easily fall into the packaging bag from the channel. After the packaging bag falls into the packaging bag, the rotary cylinder acts to enable the left fixed inclined plate and the right fixed inclined plate to incline to enable the upper end opening of the channel to be enlarged, and the lower end opening of the channel to be reduced to avoid the object to be packaged from falling.

In order to adapt to the objects to be bagged with different sizes, namely, the size of the opening at the lower end of the channel when the initial position is exceeded is adjusted, the positions of bolts fixed in arc-shaped waist-shaped holes arranged on the rocker arm and the waist-shaped holes on the torsion plate can be adjusted. Namely, when the bolt of the waist-shaped hole on the torsion plate is adjusted, the angle of the rotary cylinder fixed with the torsion plate is adjusted, so that the angle of the output end in the rotary cylinder is adjusted. The fixed position of the bolt in the arc waist-shaped hole on the rocker arm is adjusted, the position of key connection of the rocker arm and the rotating ram can be adjusted, and the inclination degree of the left fixed inclined plate and the right fixed inclined plate is adjusted, so that the size of the lower end opening of the channel can be adjusted.

The foregoing has described in detail preferred embodiments of the present invention. It should be understood that numerous modifications and variations can be devised by those skilled in the art in light of the present teachings without departing from the inventive concepts. Therefore, the technical solutions that can be obtained by a person skilled in the art through logic analysis, reasoning or limited experiments based on the prior art according to the concepts of the present invention should be within the scope of protection defined by the claims.

Claims (5)

1. A blanking device of a bagging machine is characterized by comprising a turnover component, a downward pushing support component, an upward and downward moving component and a leftward and rightward moving component;

the left-right moving assembly comprises a channel through which the object to be bagged can pass;

the up-down moving component can drive the left-right moving component to move up and down;

the overturning assembly comprises a channel which overturns the object to be bagged and slides into the left-right moving assembly;

the push-down bracket component pushes the object to be bagged which slides into the channel in the left-right moving component downwards and is placed into the bag.

2. The blanking device of the bagging machine according to claim 1, wherein the turnover assembly comprises a turnover plate, a turnover bottom plate, a turnover shaft, a turnover cylinder, an inner baffle assembly and a buffer support rod;

the turnover plate is fixedly connected with the turnover shaft through a turnover plate fixing sleeve; the turnover cylinder is arranged in the turnover cylinder cover and is connected with the turnover shaft through a joint bearing and a driving connecting rod to drive the turnover shaft to rotate; the turnover plate is integrally U-shaped, and a tongue plate is arranged at one end of the turnover plate;

the turnover bottom plate is U-shaped, the inner sides of the two side walls are fixedly connected with turnover cantilever plates, and the outer side of the side wall at one side is fixedly connected with a turnover cylinder cover; the turnover cantilever plate is connected with the turnover shaft through a bearing; the overturning take-up plate is V-shaped;

the inner baffle assembly comprises an inner baffle and an inner baffle front and rear adjusting plate, the inner baffle is fixedly connected with the inner baffle front and rear adjusting plate, and the inner baffle is inclined; the front and rear adjusting plates are fixedly connected with the turnover bottom plate and can be adjusted in position;

one end of the buffering support rod is provided with a buffering block made of polyurethane damping material, and the other end of the buffering support rod is fixedly connected with the turnover bottom plate;

the turnover cylinder cover is provided with an external cable joint and an Addie through plate through joint which are connected with the turnover cylinder;

the joint bearing is an internal thread joint bearing of the Yige.

3. The blanking device of the bagging machine according to claim 1, wherein the lower push bracket assembly comprises a front cross plate, an upper cylinder support plate, a lower push cylinder and an outer baffle plate;

the end part of a piston rod of the push-down cylinder is fixedly connected with a cylinder front plate; the two ends of the cylinder front plate are fixedly connected with cylinder guide rods, and the front transverse plate and the upper cylinder support plate are fixedly provided with base bearings at the two sides of the downward pushing cylinder; the cylinder guide rod penetrates through the base bearing and can slide in the base bearing;

an air cylinder supporting rod and an air cylinder frame are fixedly arranged between the front transverse plate and the upper air cylinder supporting plate, and the air cylinder frame is fixed at one end of the front transverse plate and one end of the upper air cylinder supporting plate; the cylinder frame is provided with an external forced cable joint and a Sudoku right-angle through plate joint which are connected with the push-down cylinder;

the front transverse plate is fixedly connected with an outer baffle and a connecting support arm; the number of the connecting support arms is two, and the two connecting support arms are respectively fixed at two ends of the front transverse plate; the connecting support arm comprises a ram, a vertical support rod, a vertical support plate A, a vertical support plate B and a support plate welding block; one end of the ram is fixed with the front transverse plate, and the other end of the ram is fixedly connected with the vertical supporting rod; the vertical supporting rod and the vertical supporting plate A are respectively provided with a plurality of holes correspondingly, and the vertical supporting rod and the vertical supporting plate A are fixedly connected through the holes; the vertical support plate A and the vertical support plate B are connected through a support plate welding block, and the vertical support plate B is fixed through a bolt.

4. The blanking device of a bagging machine according to claim 1, wherein the up-and-down moving assembly comprises a mounting main plate, and two motor support plates and two linear sliding rails are fixedly connected to the mounting main plate; a screw rod seat is arranged between the two end parts of the two linear slide rails, and a screw rod is arranged between the two screw rod seats; a motor upper plate is fixed between the motor support plates, a motor is fixedly connected onto the motor upper plate, a power output end of the motor is connected with a driving belt wheel, and the driving belt wheel and a driven belt wheel fixed at the end part of the screw rod are driven by a rubber synchronous belt to drive the screw rod to rotate; the screw rod is connected with a screw rod nut seat through a screw rod nut, and the screw rod nut seat is connected with the linear slide rail through a slide block; two ends of the screw rod nut seat are fixedly connected with shielding plates;

a tension pulley is arranged between the driving pulley and the driven pulley and is contacted with the rubber synchronous belt to adjust the tension of the rubber synchronous belt; the tension belt wheel is connected with the upper plate of the motor through the synchronous belt tightening seat.

5. The blanking device of a bag loader as set forth in claim 1, characterized in that said left-right moving assembly comprises a left-right moving main plate; the two ends of the left-right moving main board are respectively and fixedly connected with a motor base and a sliding rod base, and the middle position of the left-right moving main board is connected with a sliding rod middle base; two sliding rods are arranged between the motor base and the sliding rod base and penetrate through the sliding rod middle base; the sliding rod is provided with a left sliding seat and a right sliding seat in a sliding manner and is positioned on two sides of the middle seat of the sliding rod; the right sliding seat and the left sliding seat are respectively connected with the right driving screw rod and the left driving screw rod through trapezoidal screw nuts; the right sliding seat and the left sliding seat can slide by the rotation of the right driving screw rod and the left driving screw rod; the right driving screw and the left driving screw are connected through a screw middle connecting sleeve; the left sliding block is fixedly connected with a rocker shaft;

the motor is fixed on the motor base, the output end of the motor is connected with a driving belt wheel, the driving belt wheel and a driven belt wheel are in transmission through a rubber synchronous belt, the driven belt wheel is fixedly connected with the right driving screw rod, and the rotation of the driven belt wheel can drive the right driving screw rod to rotate;

the left sliding seat and the right sliding seat are connected with the left rotating ram component and the right rotating ram component through rotating bearing seats; the left rotating ram component comprises a rotary cylinder, a torsion plate, a rocker arm, a rotating ram and a left fixed inclined plate; the torsion plate is fixedly connected with the rotary cylinder and is provided with an arc-shaped waist-shaped hole; one end of the rocker arm shaft passes through the waist-shaped hole and can move in the waist-shaped hole; the rotary cylinder is fixedly connected with the rocker arm through a bolt and can drive the rocker arm to rotate; the rocker arm is provided with an arc-shaped waist-shaped hole, and a bolt connected with the rotary cylinder can move in the waist-shaped hole; the rocker arm is connected with the rotary ram key to drive the rotary ram to rotate, the rotary ram passes through the rotary bearing seat and is fixedly connected with the left fixed inclined plate through the rotary fixing sleeve, and the rotation of the rotary ram can drive the left fixed inclined plate to rotate; the left fixed inclined plate is provided with an inclined groove part and a straight groove part, the U-shaped groove of the inclined groove part is gradually narrowed, and the side wall of one end of the straight groove part is provided with an inclined surface;

the right rotating ram component and the left rotating ram component have the same structure and are symmetrically arranged.

Images