CN111498183A - Transition mechanism for cartoning machine - Google Patents

Abstract

The invention discloses a transition mechanism for a boxing machine, which comprises a fixed plate, a first cylinder, a second cylinder and a third cylinder, wherein the fixed plate is provided with a first enclosing plate and a second enclosing plate which are opposite to each other; two opposite baffle plates are arranged in the cavity and are perpendicular to the middle enclosing plate, and the distance between the baffle plates is adjustable; and a first material receiving plate and a second material receiving plate are respectively arranged below the baffle and divide the cavity into an upper part and a lower part. According to the invention, a transition flow is inserted before boxing, materials to be boxed are firstly stacked and arranged, and then are output to the boxing machine after being collected, so that the waiting time of the boxing machine is reduced, material pushing and material stacking are synchronously carried out in different spaces, and the working efficiency is greatly improved.

Description

Transition mechanism for cartoning machine

Technical Field

The invention relates to the technical field of packaging machinery, in particular to a transition mechanism for a box packing machine.

Background

The boxing machine is one of packaging machines and is used for placing products into boxes and packaging the products, however, in the working process of the existing boxing machine, a robot directly grabs the products and places the products, waiting is needed, the products are not placed into the boxes until enough materials are stacked, the waiting time is long, the working efficiency is reduced, and the productivity is greatly influenced; and a cartoning machine is only usually suitable for packing the product of same specification, and the function is single, can not adapt to multiple specification product. Therefore, how to improve the boxing efficiency and adapt to various specifications of products becomes a technical problem to be solved urgently by technical personnel in the field.

Disclosure of Invention

In view of the above technical problems, the present invention aims to: the transition mechanism for the boxing machine is suitable for products of different sizes and specifications, and boxing efficiency is improved.

In order to achieve the purpose, the invention provides the following technical scheme:

a transition mechanism for a box packing machine comprises a fixed plate, a first cylinder, a second cylinder and a third cylinder, wherein a first enclosing plate and a second enclosing plate which are opposite to each other are arranged on the fixed plate, an opposite middle enclosing plate is arranged between the first enclosing plate and the second enclosing plate, the first enclosing plate, the second enclosing plate and the two middle enclosing plates enclose a cavity, and the distance between the middle enclosing plates is adjustable; two opposite baffle plates are arranged in the cavity and are perpendicular to the middle enclosing plate, and the distance between the baffle plates is adjustable; a first material receiving plate and a second material receiving plate are respectively arranged below the baffle plate, the first material receiving plate and the second material receiving plate divide the cavity into an upper part and a lower part, the first material receiving plate and the second material receiving plate are respectively driven by a first cylinder and a second cylinder and perform synchronous intermittent reciprocating linear motion along a direction vertical to the first enclosing plate, and the motion directions of the first material receiving plate and the second material receiving plate are opposite; and a material pushing plate is arranged below the first material receiving plate and driven by a third cylinder and used for pushing out the material falling into the lower part.

Preferably, a first horizontal groove is formed in the first enclosing plate, a second horizontal groove is formed in the second enclosing plate corresponding to the first horizontal groove, first threaded holes are formed in the two ends of the middle enclosing plate at the positions corresponding to the height of the first horizontal groove and the height of the second horizontal groove, and the first threaded holes are connected with the first threaded holes in a matched mode through the first horizontal groove and the second horizontal groove respectively.

Preferably, the middle enclosing plate is provided with a third horizontal groove, the two ends of the baffle are provided with second threaded holes at the positions corresponding to the height of the third horizontal groove, the two sides of the baffle are provided with a barrel, a plurality of second screws sequentially penetrate through the third horizontal groove and the barrel to be matched and connected with the second threaded holes, and the barrel is provided with different length sizes for selection.

Preferably, the back of baffle is provided with the guide, the guide includes connecting portion and guide part, connecting portion link to each other with the baffle, the part that the guide part is close to the baffle is roughly level with the bottom of baffle, the part that the guide part is kept away from the baffle inclines to the top.

Preferably, the first cylinder and the second cylinder are arranged outside the cavity, the first material receiving plate is provided with a first connecting plate extending to the outside of the first enclosing plate, the first cylinder is connected with the first enclosing plate, a push rod of the first cylinder is connected with the first connecting plate, the second material receiving plate is provided with a second connecting plate extending to the outside of the second enclosing plate, the second cylinder is connected with the second enclosing plate, and a push rod of the second cylinder is connected with the second connecting plate.

Preferably, the first cylinder and the second cylinder are vertically staggered.

Preferably, the third cylinder is located below the fixed plate, guide shafts parallel to the third cylinder are arranged on two sides of the third cylinder, linear bearings are sleeved on the guide shafts, and the material pushing plate is connected with the linear bearings.

Preferably, the part of the material pushing plate, which is in contact with the fixed plate, is provided with a wear-resistant strip.

Preferably, the second enclosing plate is provided with an outlet through which materials can pass, guide plates are arranged on two sides of the outlet, and the distance between the guide plates is adjustable.

Preferably, the top of the baffle is provided with a first inclined plane which is inclined inwards, and the top of the middle enclosing plate is provided with a second inclined plane which is inclined inwards.

Due to the application of the technical scheme, compared with the prior art, the invention has the following advantages:

according to the transition mechanism for the box packing machine, a transition flow is inserted before box packing, materials needing to be packed are firstly stacked and arranged, and then are output to the box packing machine after being collected, so that the waiting time of the box packing machine is reduced, and the working efficiency is improved; the fixed plate is provided with a first enclosing plate and a second enclosing plate which are opposite, an opposite middle enclosing plate is arranged between the first enclosing plate and the second enclosing plate, two opposite baffle plates are arranged in a cavity which is enclosed by the first enclosing plate, the second enclosing plate and the two middle enclosing plates, and the distance between the middle enclosing plate and the baffle plates is adjusted, so that the fixed plate can adapt to various products with different dimensions and specifications and is flexible and convenient to use; the first material receiving plate and the second material receiving plate are driven by the first air cylinder and the second air cylinder to do synchronous intermittent reciprocating linear motion, so that materials stacked in enough quantity fall to the lower portion of the cavity from the upper portion of the cavity and are pushed out to a butt joint conveying line by the material pushing plate, new materials do not fall to the upper portion, material pushing and material stacking are carried out synchronously in different spaces, the structure is compact, the operation is convenient, the working flow of the box packing machine is improved, and the working efficiency is greatly improved.

Drawings

The technical scheme of the invention is further explained by combining the accompanying drawings as follows:

FIG. 1 is a perspective view of a transition mechanism for a cartoning machine of the present invention;

FIG. 2 is a left side view of a transition mechanism for the cartoning machine of the present invention;

FIG. 3 is a perspective sectional view A-A of FIG. 2;

FIG. 4 is a B-B perspective sectional view of FIG. 2 with a portion omitted;

FIG. 5 is a perspective view of a transition mechanism for a cartoning machine of the present invention with a partial structure omitted.

Wherein: 1. a fixing plate; 2. a first cylinder; 3. a second cylinder; 4. a third cylinder; 5. a first enclosing plate; 501. a first horizontal groove; 6. a second enclosing plate; 601. a second horizontal groove; 602. an outlet; 7. a middle coaming plate; 701. a first threaded hole; 702. a third horizontal groove; 703. a second inclined plane; 8. a baffle plate; 801. a second threaded hole; 802. a first inclined plane; 9. a first receiving plate; 901. a first connecting plate; 10. a second material receiving plate; 101. a second connecting plate; 11. an upper portion; 12. a lower portion; 13. a material pushing plate; 15. a barrel; 16. a guide member; 161. a connecting portion; 162. a guide portion; 17. a guide shaft; 18. a linear bearing; 19. wear resistant strips; 20. a guide plate.

Detailed Description

The following detailed description of the preferred embodiments of the present invention, taken in conjunction with the accompanying drawings, will make the advantages and features of the invention easier to understand by those skilled in the art, and thus will clearly and clearly define the scope of the invention.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or intervening elements may also be present.

In addition, it should be noted that the terms of orientation such as left, right, up and down in the embodiments of the present invention are only relative concepts or reference to the normal use state of the product, and should not be considered as limiting. The following describes the implementation of the present invention in detail with reference to specific embodiments.

As shown in fig. 1 and 2, the transition mechanism for the cartoning machine of the present invention comprises a fixed plate 1, a first cylinder 2, a second cylinder 3 and a third cylinder 4, which are horizontally arranged, wherein a first enclosing plate 5 and a second enclosing plate 6 which are opposite to each other are installed on the fixed plate 1, two opposite middle enclosing plates 7 are installed between the first enclosing plate 5 and the second enclosing plate 6, the middle enclosing plates 7 are perpendicular to the first enclosing plate 5 and the second enclosing plate 6, and the first enclosing plate 5, the second enclosing plate 6 and the two middle enclosing plates 7 enclose a cavity for temporarily storing the materials to be sorted. First bounding wall 5 is last to be provided with first horizontal groove 501, and second bounding wall 6 is provided with second horizontal groove 601 corresponding first horizontal groove 5, and the both ends of well bounding wall 7 have first screw hole 701 in the high department that corresponds first horizontal groove 501 and second horizontal groove 601, and a plurality of first screws pass first horizontal groove 501 and second horizontal groove 601 respectively from both sides and are connected with the first screw hole 701 cooperation at well bounding wall 7 both ends. The distance between the two middle enclosing plates 7 can be adjusted by fixing the middle enclosing plates 7 at different positions relative to the first horizontal groove 501 and the second horizontal groove 601, so that the adjustable middle enclosing plates can adapt to products with different widths.

As shown in fig. 4, two opposite vertical baffle plates 8 are arranged in a cavity surrounded by the first enclosing plate 5, the second enclosing plate 6 and the two middle enclosing plates 7, and the baffle plates 8 are perpendicular to the middle enclosing plates 7. A plurality of third horizontal grooves 702 are formed in the middle enclosing plate 7, second threaded holes 801 are formed in the two ends of the baffle 8 at the positions corresponding to the heights of the third horizontal grooves 702, hollow cylinders 15 are arranged on the two sides of the baffle 8, a plurality of second screws sequentially penetrate through the third horizontal grooves 702 and the cylinders 15 to be connected with the second threaded holes 801 in a matched mode, and the baffle 8 is fixed on the middle enclosing plate 7 in this mode. The barrel 15 may alternatively have different length dimensions to accommodate different distances between the midboards 7. The distance between the two baffle plates 8 can be adjusted by adjusting the position of the second screw in the third horizontal groove 702, so that the baffle plates are suitable for products with different lengths.

A first material receiving plate 9 and a second material receiving plate 10 are respectively arranged below the two baffle plates 8, and the cavity is divided into an upper part 11 and a lower part 12 by the first material receiving plate 9 and the second material receiving plate 10. The first material receiving plate 9 and the second material receiving plate 10 are driven by the first cylinder 2 and the second cylinder 3 respectively and do synchronous intermittent reciprocating linear motion along the direction vertical to the first enclosing plate 5, and the motion directions of the first material receiving plate 9 and the second material receiving plate 10 are opposite. The material falls between the two baffles 8 from the upper part, is firstly blocked by the first material receiving plate 9 and the second material receiving plate 10 and stays at the upper part 11 of the cavity, and then the first material receiving plate 9 and the second material receiving plate 10 move towards two sides, so that the material falls to the lower part 12 of the cavity. A material pushing plate 13 is arranged below the first material receiving plate 9, and the material pushing plate 13 is driven by the third cylinder 4 and used for pushing the materials falling into the lower part 11 out to a butted conveying line (not shown in the figure).

As shown in fig. 4, the guide member 16 is mounted on the back surface of the flap 8, the guide member 16 is a bent sheet metal member and includes a connecting portion 161 and a guide portion 162, the connecting portion 161 is fixedly connected to the flap 8, a portion of the guide portion 162 close to the flap 8 is substantially flush with the bottom of the flap 8, and a portion of the guide portion 162 far from the flap 8 is inclined upward. The guide part 162 is used for guiding the operation of the first material receiving plate 9 and the second material receiving plate 10, when the first material receiving plate 9 or the second material receiving plate 10 moves from the back of the baffle 8 to the center of the cavity, the inclined plane of the guide part 162 provides the effect of buffering and guiding, the first material receiving plate 9 or the second material receiving plate 10 is prevented from directly impacting the back of the baffle 8 under the unstable operation condition, the impact is reduced, and the whole operation process is more smooth and stable. The top of the baffle 8 is provided with a first inclined surface 802 which is inclined inwards, the top of the middle enclosing plate 7 is provided with a second inclined surface 703 which is inclined inwards, and if the position of a material falling from the top is deviated, the material can slide downwards along the first inclined surface 802 or the second inclined surface 703 and finally can still fall in the center of the cavity.

As shown in fig. 5, the first cylinder 2 and the second cylinder 3 are mounted outside a cavity surrounded by the first enclosing plate 5, the second enclosing plate 6 and the two middle enclosing plates 7. The first material receiving plate 9 is provided with a first connecting plate 901 which extends to the outside of the first enclosing plate 5 and extends downwards, the first cylinder 2 is connected with the first enclosing plate 5, and a push rod of the first cylinder 2 is connected with the first connecting plate 901 to drive the first material receiving plate 9 to move; the second material receiving plate 10 is provided with a second connecting plate 101 which extends to the outside of the second enclosing plate 6 and extends upwards, the second cylinder 3 is connected with the second enclosing plate 6, and a push rod of the second cylinder 3 is connected with the second connecting plate 101 to drive the second material receiving plate 10 to move. The first cylinder 2 and the second cylinder 3 are staggered up and down, the structure is compact, the occupied area of the device is reduced, and the space is saved.

As shown in fig. 3 and 4, the third cylinder 4 is located below the fixed plate 1, guide shafts 17 parallel to the third cylinder 4 are installed on two sides of the third cylinder 4, linear bearings 18 are sleeved on the guide shafts 17, and the material pushing plate 13 is indirectly connected with the linear bearings 18 through some centering elements. The combination of the guide shaft 17 and the linear bearing 18 enables the material pushing plate 13 to run more smoothly and stably, and can adapt to long-term reciprocating running. The wear-resistant strips 19 are arranged on the contact part of the material pushing plate 13 and the fixed plate 1, so that the abrasion or strain is reduced, and the service life is prolonged.

As shown in fig. 1, the second enclosing plate has an outlet 602 through which the material can pass, guide plates 20 are installed on both sides of the outlet 602, the distance between the guide plates 20 is adjustable, and the guide plates 20 keep the pushed material in a stacked state to avoid messy scattering.

The operation mode is as follows: the robot grabs the materials and places the materials in the cavity, at the moment, the first cylinder 2 and the second cylinder 3 are in a retraction state, and the first material receiving plate 9 and the second material receiving plate 10 receive the materials, so that the materials are left on the upper part 11 of the cavity; when the material that piles up on first flitch 9 and the second flitch 10 that connects reaches 5, the push rod of first cylinder 2 and second cylinder 3 stretches out, drives first flitch 9 that connects and the second flitch 10 that connects and removes to both sides, and the material drops to the lower part 12 of cavity, and the push rod of third cylinder 4 stretches out this moment, drives scraping wings 13 and releases the material to the transfer line of butt joint through the export 602 of second bounding wall 6 on, will pile up the material of putting in order and carry to cartoning machine and dress box. After the materials fall from the first receiving plate 9 and the second receiving plate 10, the push rods of the first cylinder 2 and the second cylinder 3 retract immediately, so that the first receiving plate 9 and the second receiving plate 10 can continuously receive subsequent materials. The above movement is repeated.

According to the transition mechanism for the box packing machine, a transition flow is inserted before box packing, materials needing to be packed are firstly stacked and arranged, and then are output to the box packing machine after being collected, so that the waiting time of the box packing machine is shortened, and the working efficiency is improved; the fixed plate 1 is provided with a first enclosing plate 5 and a second enclosing plate 6 which are opposite, an opposite middle enclosing plate 7 is arranged between the first enclosing plate 5 and the second enclosing plate 6, two opposite baffle plates 8 are arranged in a cavity which is formed by enclosing the first enclosing plate 5, the second enclosing plate 6 and the two middle enclosing plates 7, and the fixed plate can adapt to various products with different sizes and specifications by adjusting the distance between the middle enclosing plate 7 and the baffle plates 8 and is flexible and convenient to use; the first material receiving plate 9 and the second material receiving plate 10 are driven by the first air cylinder 2 and the second air cylinder 3 to do synchronous intermittent reciprocating linear motion, so that materials stacked in sufficient quantity fall to the lower portion 12 from the upper portion 11 of the cavity and are pushed out to a butt joint conveying line by the material pushing plate 13, new materials do not fall to the upper portion 11, material pushing and material stacking are conducted in different spaces synchronously, the efficiency is high, convenience is high, and waiting time is shortened.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by the present specification, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. The utility model provides a cartoning machine is with transition mechanism which characterized in that: the cylinder body comprises a fixed plate, a first cylinder, a second cylinder and a third cylinder, wherein a first enclosing plate and a second enclosing plate which are opposite to each other are arranged on the fixed plate, an opposite middle enclosing plate is arranged between the first enclosing plate and the second enclosing plate, the first enclosing plate, the second enclosing plate and the two middle enclosing plates enclose a cavity, and the distance between the middle enclosing plates is adjustable; the cavity is internally provided with opposite baffle plates, the baffle plates are perpendicular to the middle coaming plate, and the distance between the baffle plates is adjustable; a first material receiving plate and a second material receiving plate are respectively arranged below the baffle plate, the first material receiving plate and the second material receiving plate divide the cavity into an upper part and a lower part, the first material receiving plate and the second material receiving plate are respectively driven by a first cylinder and a second cylinder and perform synchronous intermittent reciprocating linear motion along a direction vertical to the first enclosing plate, and the motion directions of the first material receiving plate and the second material receiving plate are opposite; and a material pushing plate is arranged below the first material receiving plate and driven by a third cylinder and used for pushing out the material falling into the lower part.

2. The transition mechanism for a box packing machine according to claim 1, characterized in that: the first horizontal groove is formed in the first enclosing plate, the second horizontal groove is formed in the second enclosing plate corresponding to the first horizontal groove, first threaded holes are formed in the two ends of the middle enclosing plate at the height positions corresponding to the first horizontal groove and the second horizontal groove, and the first threaded holes are connected with the first threaded holes in a matched mode through the first horizontal groove and the second horizontal groove respectively.

3. The transition mechanism for a box packing machine according to claim 1, characterized in that: the middle enclosing plate is provided with a third horizontal groove, second threaded holes are formed in the two ends of the baffle at the height corresponding to the third horizontal groove, barrels are arranged on the two sides of the baffle, a plurality of second screws sequentially penetrate through the third horizontal groove and the barrels to be matched and connected with the second threaded holes, and the barrels have different length sizes and are used for selection.

4. The transition mechanism for a box packing machine according to claim 1, characterized in that: the back of baffle is provided with the guide, the guide includes connecting portion and guide part, connecting portion link to each other with the baffle, the part that the guide part is close to the baffle roughly flushes with the bottom of baffle, the part that the baffle was kept away from to the guide part inclines to the top.

5. The transition mechanism for a box packing machine according to claim 1, characterized in that: first cylinder and second cylinder set up in the outside of cavity, first flitch that connects is provided with the first connecting plate that extends to the outside of first bounding wall, first cylinder is connected with first bounding wall, the push rod of first cylinder links to each other with first connecting plate, the second connects the flitch to be provided with the second connecting plate that extends to the outside of second bounding wall, the second cylinder is connected with the second bounding wall, the push rod of second cylinder links to each other with the second connecting plate.

6. The transition mechanism for a box packing machine according to claim 5, characterized in that: the first cylinder and the second cylinder are staggered up and down.

7. The transition mechanism for a box packing machine according to claim 1, characterized in that: the third cylinder is located below the fixing plate, guide shafts parallel to the third cylinder are arranged on two sides of the third cylinder, linear bearings are sleeved on the guide shafts, and the material pushing plate is connected with the linear bearings.

8. The transition mechanism for a box packing machine according to claim 1, characterized in that: and wear-resistant strips are arranged at the contact parts of the material pushing plates and the fixed plates.

9. The transition mechanism for a box packing machine according to claim 1, characterized in that: an outlet through which materials can pass is formed in the second enclosing plate, guide plates are arranged on two sides of the outlet, and the distance between the guide plates is adjustable.

10. The transition mechanism for a box packing machine according to claim 1, characterized in that: the top of baffle is provided with the first inclined plane of inside slope, the top of well bounding wall is provided with the second inclined plane of inside slope.

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