CN112623313B - Linkage type parallel material pressing mechanism of packaging machinery - Google Patents

Abstract

The invention provides a linkage type parallel material pressing mechanism of a packaging machine, which relates to the technical field of packaging mechanical equipment and solves the problems that the existing packaging machine can not press down small-sized agricultural materials (such as straws) and simultaneously ensure the side edge forming in the actual application process, and can not realize a plurality of packaging modes for agricultural materials by using one driving device, therefore, the problems of low working efficiency and complicated structure and inconvenient maintenance of the traditional device are caused, and the device comprises a pressing mechanism which is connected at the inner position of a supporting and guiding mechanism in a sliding way, the screw rod can be engaged with the hydraulic cylinder in the pressing mechanism to drive the hydraulic cylinder to slide along the slide rail at the inner sides of two limit blocks to adjust the position, then, the hydraulic rod can be driven to move downwards by starting the hydraulic cylinder, and when the hydraulic rod moves downwards, the support plate in the linkage mechanism can be synchronously pushed to move downwards.

Description

Packaging machinery coordinated type parallel swager constructs

Technical Field

The invention belongs to the technical field of packaging mechanical equipment, and particularly relates to a linkage type parallel material pressing mechanism of a packaging machine.

Background

The packaging machine can be divided into a full-automatic packaging machine and a semi-automatic packaging machine according to the supply mode of a package and a packaging material; if the packaging materials are divided according to the use range of the packaging materials, the packaging materials can be divided into a general packaging machine, a dual-purpose packaging machine and a special packaging machine; the packaging machines for processing packaging materials and containers include composite material processing machines, bag making machines, plastic hollow container processing machines and the like;

and packaging machinery needs the multichannel process to carry out the packing operation simultaneously when packing the packing to agricultural material, consequently need set up a plurality of drive arrangement and just can realize the packing operation, consequently can make the device structure become complicated, leads to the unable convenient maintenance and the maintenance in later stage.

For example, application No.: CN 201711125322.9 the invention relates to a novel food packaging machinery device, comprising a conveying crawler belt, a fixed support plate, a feed hopper, a packaging bag, a packaging box, a conveying belt and a hydraulic telescopic rod, wherein the conveying crawler belt is provided with two horizontal support rods, one end of each horizontal support rod is provided with the fixed support plate, the other end of the horizontal support rod is provided with a movable support plate, and the horizontal support rod is also provided with a chute, the food packaging, sealing and boxing are integrated, the adjusting time between the original steps is effectively shortened, the production efficiency is greatly improved, the production cost is reduced, meanwhile, a magnet and an electromagnet are used as a fixing device of the packaging bag, the installation is very convenient, the operation difficulty of workers is reduced, the working efficiency is further improved, the packaging bag can be completely opened by utilizing the repulsion force between the two when the food is loaded, the food can conveniently enter the packaging bag, the possibility of blanking is reduced.

Based on the search of above-mentioned patent to and combine the equipment discovery among the prior art, above-mentioned equipment when using, though can carry out the extranal packing to the extranal packing of food, nevertheless there is the side shaping of guaranteeing in the time of can't pushing down miniature agricultural material (like straw) class in the practical application in-process, and can't realize utilizing a drive arrangement to realize the multiple packing mode to agricultural material simultaneously, consequently can cause work efficiency to be low and traditional device structure comparatively complicated be convenient for maintenance.

Disclosure of Invention

In order to solve the technical problems, the invention provides a linkage type parallel material pressing mechanism of a packaging machine, which aims to solve the problems that the existing packaging machine cannot press down small agricultural materials (such as straws) and ensure side edge forming, and cannot realize multiple packaging modes of the agricultural materials by using one driving device, so that the working efficiency is low, and the traditional device is complex in structure and inconvenient to maintain and repair.

The invention relates to a packaging mechanical linkage type parallel material pressing mechanism, which is achieved by the following specific technical means:

a linkage type parallel pressing mechanism of packaging machinery comprises a pressing mechanism, a linkage mechanism and a pressing mechanism, wherein the pressing mechanism is connected to the inner position of a supporting and guiding mechanism in a sliding mode and is in meshed transmission with the supporting and guiding mechanism; the linkage mechanisms are arranged at two positions, and the two linkage mechanisms are respectively fixedly connected to the left side and the right side of the top end face of the limiting mechanism and are meshed with the pressing mechanism for transmission; the material pressing mechanism is elastically connected to the bottom side of the inner part of the limiting mechanism; the pressing mechanism comprises a pressing disc, shock-absorbing columns and springs, the shock-absorbing columns are provided with six positions, the shock-absorbing columns are of telescopic structure design and are fixedly connected to the top end face of the pressing disc in an annular array mode, the springs are provided with six positions, the springs are respectively sleeved on the outer side positions of the shock-absorbing columns, and the pressing disc is fixedly connected to the bottom end face of the hydraulic rod in the installation state.

Furthermore, the supporting and guiding mechanism comprises upright posts, limiting blocks and sliding rails, wherein the upright posts are provided with four positions, every two upright posts form one group, the top ends of the two groups of upright posts are fixedly connected with the limiting blocks, the sliding rails are provided with two positions, and the two sliding rails are fixedly connected with the inner positions of the two limiting blocks in a longitudinal array manner;

furthermore, the supporting and guiding mechanism also comprises a motor and a screw rod, the motor is screwed on the right side position of the limiting block on the right side, and the screw rod is installed at the left end position of the motor and is positioned on the inner side positions of the two slide rails;

furthermore, the pressing mechanism comprises a hydraulic cylinder, a hydraulic rod and a guide rack, the hydraulic rod is mounted at the bottom end of the hydraulic cylinder, the guide rack is symmetrically and fixedly connected to the left side and the right side of the outer peripheral surface of the hydraulic rod, and the hydraulic cylinder is connected to the inner side positions of the two limiting blocks in a sliding mode through a sliding rail in the mounting state;

furthermore, the linkage mechanism comprises a support plate, two guide gears and a transmission gear A, wherein the support plate is provided with two positions, the inner sides of the two support plates are connected with the guide gears in a shaft mode, the front ends of the guide gears are connected with the transmission gear A in a shaft mode, and the guide gears are in meshing transmission with the guide racks;

furthermore, the linkage mechanism further comprises a transmission gear B, a clamping gear and a chain, wherein the transmission gear B is connected to the left side of the transmission gear A in a shaft mode and is in meshing transmission with the transmission gear A, the front end of the transmission gear B is connected with the clamping gear in a shaft mode, the clamping gear is provided with two positions, the two clamping gears are in meshing transmission through the chain, and the lower support plate is fixedly connected to the top end face of the transverse limiting plate in the installation state;

further, stop gear is including horizontal limiting plate, circular deflector, side clamp plate and commentaries on classics piece, the inside central point of horizontal limiting plate puts and has seted up circular through-hole, and the inside top of circular through-hole installs the circular deflector of a central zone round hole, the side clamp plate is equipped with two altogether, and the equal fixedly connected with in top of the both sides clamp plate changes the piece to the both sides side clamp plate rotates the left and right sides position of connecting at horizontal limiting plate through changeing the piece respectively.

Compared with the prior art, the invention has the following beneficial effects:

according to the agricultural material compression device, the position of the hydraulic cylinder can be adjusted in a sliding mode along the inner sides of two limiting blocks by utilizing the meshing transmission of the screw and the hydraulic cylinder in the pressing mechanism, then the hydraulic cylinder can be started to drive the hydraulic rod to move downwards, when the hydraulic rod moves downwards, the supporting plate in the linkage mechanism can be synchronously pushed to move downwards, the agricultural material can be pressed downwards by utilizing the downward pushing force of the transverse limiting plate to achieve the purpose of compressing the volume, on the other hand, the guide rack fixedly connected with the outer peripheral surface of the hydraulic rod is meshed with the guide gears connected to the inner sides of the two supporting plates in the linkage mechanism in a meshing transmission mode, so that the transmission gear B is driven to rotate reversely through the meshing transmission between the transmission gear A and the transmission gear B, and when the transmission gear B rotates reversely, the side clamping plates in the limiting mechanism can be driven to rotate 90 degrees through the meshing transmission between the clamping gears and the chain to clamp the two sides of the agricultural material to clamp the two sides of the inner side of the agricultural material Industry, this design can utilize linkage drive both sides clamp plate synchronous to press from both sides the tight agricultural material tightly when horizontal limiting plate extrudees the top of agricultural material to reach more practical purpose.

Drawings

FIG. 1 is a side view of the present invention.

Fig. 2 is a schematic front view of the present invention.

Fig. 3 is a left side view of the present invention.

Fig. 4 is an enlarged schematic view of the structure at a in fig. 1 according to the present invention.

Fig. 5 is a schematic structural diagram of the limiting mechanism of the present invention.

Fig. 6 is an enlarged schematic view of the invention at B in fig. 2.

In the drawings, the corresponding relationship between the component names and the reference numbers is as follows:

1. a support guide mechanism; 101. a column; 102. a limiting block; 103. a slide rail; 104. a motor; 105. a screw; 2. a pressing mechanism; 201. a hydraulic cylinder; 202. a hydraulic rod; 203. a guide rack; 3. a linkage mechanism; 301. a support plate; 302. a guide gear; 303. a transmission gear A; 304. a transmission gear B; 305. clamping the gear; 306. a chain; 4. a limiting mechanism; 401. a transverse limiting plate; 402. a circular guide plate; 403. a side clamping plate; 404. rotating the block; 5. a material pressing mechanism; 501. pressing a material plate; 502. a shock absorbing column; 503. a spring.

Detailed Description

Embodiments of the present invention will be described in further detail with reference to the drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

Example (b):

as shown in figures 1 to 6:

the invention provides a linkage type parallel material pressing mechanism of packaging machinery, which comprises: the pressing mechanism 2 is connected to the inner position of the supporting and guiding mechanism 1 in a sliding manner and is in meshed transmission with the supporting and guiding mechanism 1; the supporting and guiding mechanism 1 further comprises a motor 104 and a screw 105, the motor 104 is screwed on the right side of the limiting block 102 positioned on the right side, and the screw 105 is installed at the left end position of the motor 104 and positioned on the inner side positions of the two slide rails 103; the linkage mechanisms 3 are provided with two positions, and the two linkage mechanisms 3 are respectively fixedly connected to the left side and the right side of the top end surface of the limiting mechanism 4 and are meshed with the pressing mechanism 2 for transmission; the material pressing mechanism 5 is elastically connected to the bottom side of the inner part of the limiting mechanism 4; the material pressing mechanism 5 comprises a material pressing disc 501, a shock-absorbing column 502 and springs 503, the shock-absorbing column 502 is provided with six positions, the shock-absorbing columns 502 in the six positions are all designed in a telescopic structure, the shock-absorbing columns 502 in the six positions are fixedly connected to the top end face of the material pressing disc 501 in an annular array mode, the springs 503 are provided with six positions, the springs 503 in the six positions are respectively sleeved on the outer side positions of the shock-absorbing columns 502 in the six positions, and the material pressing disc 501 is fixedly connected to the bottom end face of the hydraulic rod 202 in an installation state.

Wherein, support guiding mechanism 1 including stand 101, stopper 102 and slide rail 103, stand 101 is equipped with everywhere altogether, and wherein every two places stand 101 is a set of, and the equal fixedly connected with stopper 102 in top of two sets of stands 101, and slide rail 103 is equipped with two altogether, and two slide rail 103 are the inside position of longitudinal array fixed connection at two stopper 102.

Wherein, the pushing mechanism 2 includes the pneumatic cylinder 201, the hydraulic stem 202 and the direction rack 203, the hydraulic stem 202 is installed to the bottom of pneumatic cylinder 201, and the bilateral position symmetry fixedly connected with direction rack 203 in the peripheral face of hydraulic stem 202, the inboard position of two stopper 102 is connected through slide rail 103 sliding connection to hydraulic stem 201 under the installation state, then can promote the extension board 301 downward motion in this link gear 3 simultaneously when the downward motion of hydraulic stem 202, the usable power that horizontal limiting plate 401 pushed down of this design compresses tightly the agricultural material downwards in order to reach the purpose of compression volume.

The linkage mechanism 3 comprises a support plate 301, a guide gear 302 and a transmission gear A303, the support plate 301 is provided with two positions, the inner sides of the two support plates 301 are connected with the guide gear 302 in a shaft mode, the front end of the guide gear 302 is connected with the transmission gear A303 in a shaft mode, and the guide gear 302 is in meshed transmission with the guide rack 203.

The linkage mechanism 3 further comprises a transmission gear B304, a clamping gear 305 and a chain 306, the transmission gear B304 is connected to the left side of the transmission gear A303 in a shaft mode and is in meshed transmission with the transmission gear A303, the front end of the transmission gear B304 is connected with the clamping gear 305 in a shaft mode, the clamping gear 305 is provided with two positions, the two clamping gears 305 are in meshed transmission through the chain 306, and the support plate 301 is fixedly connected to the top end face of the transverse limiting plate 401 in the installation state.

Wherein, stop gear 4 is including horizontal limiting plate 401, circular deflector 402, side clamp plate 403 and commentaries on classics piece 404, the inside central point of horizontal limiting plate 401 puts and has seted up circular through-hole, and the inside top of circular through-hole installs the circular deflector 402 of a central zone round hole, side clamp plate 403 is equipped with two altogether, and the equal fixedly connected with in top of both sides clamp plate 403 changes piece 404, and both sides clamp plate 403 rotates the left and right sides position of connecting at horizontal limiting plate 401 through changeing piece 404 respectively.

When in use: firstly, the four upright posts 101 in the supporting and guiding mechanism 1 are sequentially placed, then the screw 105 is driven to rotate by the starting motor 104, so that the engagement transmission between the screw 105 and the hydraulic cylinder 201 in the pressing mechanism 2 is utilized to drive the hydraulic cylinder 201 to slide and adjust the position at the inner sides of the two limit blocks 102 along the slide rail 103, the slide rail 103 is provided with two positions, the two slide rails 103 are fixedly connected at the inner positions of the two limit blocks 102 in a longitudinal array manner, and the two positions are provided with two positions, and the two slide rails 103 are fixedly connected at the inner positions of the two limit blocks 102 in a longitudinal array manner, so that the hydraulic cylinder 201 can move more stably along the slide rail 103, then the hydraulic cylinder 201 can be started to drive the hydraulic rod 202 to move downwards, when the hydraulic rod 202 moves downwards, the support plate 301 in the linkage mechanism 3 can be synchronously pushed to move downwards, and the left side and right side positions of the outer peripheral surface of the hydraulic rod 202 are symmetrically and fixedly connected with the guiding racks 203, therefore, one-way bilateral meshing transmission can be realized, so that the two rotating blocks 404 can rotate synchronously and reversely, and the agricultural material can be pressed downwards by the downward pushing force of the transverse limiting plate 401 to achieve the purpose of compressing the volume;

on the other hand, when the hydraulic rod 202 pushes the transverse limiting plate 401 downward to contact with the agricultural material, the hydraulic rod 202 further pushes the material pressing disk 501 in the material pressing mechanism 5 to move downward, when the material pressing disk 501 moves downward, the material pressing disk gradually contacts with the agricultural material, and further gaps and moisture inside the agricultural material can be squeezed through the contact with the agricultural material, so as to achieve the purpose of further compacting the agricultural material, and when the hydraulic rod 202 continues to move downward, the guide rack 203 fixedly connected to the outer peripheral surface of the hydraulic rod 202 and the guide gear 302 axially connected to the inner sides of the two support plates 301 in the linkage mechanism 3 are in meshing transmission, so that the transmission gear B304 is further driven to rotate in the reverse direction through the meshing transmission between the transmission gear a303 and the transmission gear B304, and when the transmission gear B304 rotates in the reverse direction, the side clamping plate 403 in the limiting mechanism 4 is driven to rotate 90 inward through the meshing transmission between the clamping gear 305 and the chain 306 The agricultural material shaping device can clamp two sides of agricultural materials, the shaping operation can be carried out on the shapes of the agricultural materials through the mutual matching of the side clamping plates 403 and the material pressing disc 501, the agricultural materials can be extruded into regular square blocks with the same size to achieve the purpose of convenient subsequent transportation and storage, and the agricultural materials can be clamped synchronously by utilizing the linkage driving of the two side clamping plates 403 when the transverse limiting plate 401 extrudes the agricultural materials, so that the purpose of being more practical is achieved.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (1)

1. A use method of a linkage type parallel material pressing mechanism of packaging machinery is characterized in that: the mechanism comprises a pressing mechanism (2), a linkage mechanism (3) and a material pressing mechanism (5), wherein the pressing mechanism (2) is connected to the inner position of the supporting and guiding mechanism (1) in a sliding manner and is in meshing transmission with the supporting and guiding mechanism; the linkage mechanisms (3) are provided with two positions, and the two linkage mechanisms (3) are respectively fixedly connected to the left side and the right side of the top end face of the limiting mechanism (4) and are meshed with the pressing mechanism (2) for transmission; the material pressing mechanism (5) is elastically connected to the bottom side of the inner part of the limiting mechanism (4); the material pressing mechanism (5) comprises a material pressing disc (501), shock-absorbing columns (502) and springs (503), the shock-absorbing columns (502) are provided with six positions, the shock-absorbing columns (502) at the six positions are all designed in a telescopic structure, the shock-absorbing columns (502) at the six positions are fixedly connected to the top end face of the material pressing disc (501) in an annular array mode, the springs (503) are provided with six positions, the springs (503) at the six positions are respectively sleeved on the outer sides of the shock-absorbing columns (502), and the material pressing disc (501) is fixedly connected to the bottom end face of the hydraulic rod (202) in an installation state;

the supporting and guiding mechanism (1) comprises upright posts (101), limiting blocks (102) and sliding rails (103), wherein the upright posts (101) are provided with four positions, every two upright posts (101) form one group, the top ends of the two groups of upright posts (101) are fixedly connected with the limiting blocks (102), the sliding rails (103) are provided with two positions, and the two sliding rails (103) are fixedly connected to the inner positions of the two limiting blocks (102) in a longitudinal array manner;

the supporting and guiding mechanism (1) further comprises a motor (104) and a screw rod (105), the motor (104) is screwed on the right side of the limiting block (102) on the right side, and the screw rod (105) is installed at the left end of the motor (104) and is located on the inner side of the two sliding rails (103);

the pressing mechanism (2) comprises a hydraulic cylinder (201), a hydraulic rod (202) and guide racks (203), the hydraulic rod (202) is installed at the bottom end of the hydraulic cylinder (201), the guide racks (203) are symmetrically and fixedly connected to the left side and the right side of the outer peripheral surface of the hydraulic rod (202), and the hydraulic cylinder (201) is connected to the inner sides of two limiting blocks (102) in a sliding mode through a sliding rail (103) in an installation state;

the linkage mechanism (3) comprises a support plate (301), a guide gear (302) and a transmission gear A (303), the support plate (301) is provided with two positions, the inner sides of the two support plates (301) are connected with the guide gear (302) in a shaft mode, the front end of the guide gear (302) is connected with the transmission gear A (303) in a shaft mode, and the guide gear (302) is in meshed transmission with the guide rack (203);

the linkage mechanism (3) further comprises a transmission gear B (304), a clamping gear (305) and a chain (306), the transmission gear B (304) is connected to the left side of the transmission gear A (303) in a shaft mode and is in meshing transmission with the transmission gear A (303), the front end of the transmission gear B (304) is connected with the clamping gear (305) in a shaft mode, the clamping gear (305) is provided with two positions, the two clamping gears (305) are in meshing transmission through the chain (306), and the support plate (301) is fixedly connected to the top end face of the transverse limiting plate (401) in the installation state;

the limiting mechanism (4) comprises a transverse limiting plate (401), a circular guide plate (402), side clamping plates (403) and a rotating block (404), a circular through hole is formed in the center of the inside of the transverse limiting plate (401), the top end of the inside of the circular through hole is provided with the circular guide plate (402) with a circular hole in the center, the side clamping plates (403) are provided with two positions, the rotating block (404) is fixedly connected to the top ends of the two side clamping plates (403), and the two side clamping plates (403) are respectively rotatably connected to the left side and the right side of the transverse limiting plate (401) through the rotating block (404);

when in use, firstly, four upright posts (101) in the supporting and guiding mechanism (1) are sequentially placed, then the screw rod (105) is driven to rotate by the starting motor (104), so that the hydraulic cylinder (201) is driven to slide along the slide rail (103) at the inner sides of two limit blocks (102) to adjust the position by utilizing the meshing transmission of the screw rod (105) and the hydraulic cylinder (201) in the pressing mechanism (2), the slide rail (103) is provided with two positions, the two slide rails (103) are fixedly connected at the inner positions of the two limit blocks (102) in a longitudinal array manner, and the slide rail (103) is provided with two positions, and the two slide rails (103) are fixedly connected at the inner positions of the two limit blocks (102) in a longitudinal array manner, so that the hydraulic cylinder (201) is more stable when moving along the slide rail (103), then, a hydraulic cylinder (201) is started to drive a hydraulic rod (202) to move downwards, when the hydraulic rod (202) moves downwards, a support plate (301) in a linkage mechanism (3) is pushed to move downwards synchronously, and guide racks (203) are symmetrically and fixedly connected to the left side and the right side of the outer peripheral surface of the hydraulic rod (202), so that one-way bilateral meshing transmission is realized, two rotating blocks (404) are enabled to rotate synchronously and reversely, and agricultural materials are pressed downwards by the aid of downward pushing force of a transverse limiting plate (401) to achieve the purpose of volume compression;

on the other hand, when the hydraulic rod (202) pushes the transverse limiting plate (401) downwards to be in contact with the agricultural material, the hydraulic rod (202) further pushes a material pressing disc (501) in the material pressing mechanism (5) to move downwards, when the material pressing disc (501) moves downwards, the material pressing disc can be gradually in contact with the agricultural material, gaps and water inside the agricultural material are further extruded through the contact with the agricultural material, the purpose of further compacting the agricultural material is achieved, and when the hydraulic rod (202) continues to move downwards, a guide rack (203) fixedly connected with the outer peripheral surface of the hydraulic rod (202) is in meshing transmission with guide gears (302) which are connected with the inner sides of two support plates (301) in the linkage mechanism (3), so that the transmission gear B (302) is driven to be driven through the meshing transmission between the transmission gear A (303) and the transmission gear B (304) 304) The agricultural material clamping device comprises a transmission gear B (304), wherein the transmission gear B rotates reversely, when the transmission gear B (304) rotates reversely, side clamping plates (403) in a clamping gear (305) and a chain (306) are driven to rotate 90 degrees inwards to clamp two sides of an agricultural material, the shapes of the agricultural material are shaped through the mutual matching of the side clamping plates (403) and a material pressing disc (501), the agricultural material is extruded into square blocks with regular and same sizes to achieve the purpose of facilitating subsequent transportation and storage, and when a transverse limiting plate (401) extrudes the agricultural material, the agricultural material is synchronously clamped by the linkage driving of the two side clamping plates (403), so that the purpose of being more practical is achieved.

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