CN210942463U - High efficiency dress box-packed putting - Google Patents

Abstract

The utility model discloses a high efficiency dress box-packed putting. Including the material conveyer belt, distribute set up in feed bin check on the material conveyer belt to and corresponding pusher, pusher is one time and pushes away the device, it includes the driver to push away the device doubly, and connect in a plurality of rows of the driver, respectively with the corresponding feed bin check of material conveyer belt correspond to the pusher, its a plurality of rows of the pusher are corresponding with each corresponding packing material row of packing carton respectively. The high-efficiency boxing device is relatively simple and reasonable in structure, the boxing efficiency is improved in a multiplied mode, and the operation is stable and reliable.

Description

High efficiency dress box-packed putting

Technical Field

The utility model relates to a cartoning device especially relates to a high efficiency cartoning device.

Background

The types of medicine packages are various, and for packaging and boxing of granular materials, strip bag packages and rectangular bag packages are available, while for boxing and packaging of rectangular bag materials, according to the size and the like of material packaging bags and packaging boxes, the packaging boxes are respectively provided with single-row multi-bag stacked boxing packages and multi-row multi-bag stacked boxing packages. For the multi-row boxing and packaging of materials, the existing boxing and packaging devices can only carry out repeated action in multiple times to push the packaging boxes into the boxes by conveying the packaging boxes to stay at loading operation positions for a long time; the time of the packing machine staying at the loading operation position is in direct proportion to the number of packing lines of the packing box materials, the operation efficiency is particularly low, the packing time is long, and the production efficiency is low.

SUMMERY OF THE UTILITY MODEL

The utility model aims at the not enough of above-mentioned prior art existence, provide a high efficiency dress box-packed putting. The high-efficiency boxing device is relatively simple and reasonable in structure, the boxing efficiency is improved in a multiplied mode, and the operation is stable and reliable.

The utility model discloses high efficiency dress box-packed putting's technical scheme include the material conveyer belt, distribute set up in feed bin check on the material conveyer belt to and corresponding pusher, pusher is one time and pushes away the device, it includes the driver to push away the device doubly, and connect in a plurality of rows of the driver, respectively with the corresponding feed bin check of material conveyer belt correspond push away the head, its a plurality of rows of push away the head respectively with each corresponding packing material row of packing carton are corresponding.

The plurality of rows of pushing heads respectively correspond to the corresponding packaging material rows of the packaging box and comprise: the length of the packaging box is sequentially corresponding to the position of the corresponding packaging box, the position of the packaging material column of the packaging box or the depth of the packaging material column of the packaging box.

The rows of pushing heads of the double pushing device are shortened in length sequence according to the material conveying direction of the material conveying belt.

The number of the pushing heads of the double pushing device is equal to the number of the rows of the boxing packing materials of the packing box.

The rows of pushing heads are connected to the drivers through a pushing head bracket or a self-adaptive adjusting bracket device.

The driver is arranged above the double-pushing device or the row of pushing heads.

The utility model discloses high efficiency dress box-packed putting utilizes a plurality of row's of its doubly a plurality of packing carton in succession that push away device's a plurality of corresponding feed bin check in succession that correspond to the material conveyer belt and its packing carton conveyer belt respectively to be listed as the pusher, carries the operation in-process at the material, realizes the synchronous dress box of multiseriate of a plurality of packing carton of material, has improved dress box speed and dress box production efficiency at double, has correspondingly reduced energy consumption and manufacturing cost.

Drawings

Fig. 1 is a schematic perspective view of an embodiment of the present invention; FIG. 2 is a top view of FIG. 1; FIG. 3 is a schematic illustration of a remote row of packaging material being pushed into position; FIG. 4 is a schematic view of the remote and near rows of packaging materials being pushed into position under normal operating conditions; FIG. 5 is a schematic structural view of the buffer guiding detection device of the present invention; fig. 6 is a schematic structural view of another embodiment of the present invention; FIG. 7 is a schematic structural diagram of another embodiment of a cushioning guide detection device; fig. 8 is a top view structural diagram of the two stepped support plates of fig. 7.

Detailed Description

In order to further understand the technical solution of the present invention, the present invention will be further explained by the following embodiments with reference to the attached drawings. The utility model discloses the dress box method sets up one and has a plurality of push away the device doubly of turning round, and its a plurality of push away the head and correspond continuous a plurality of feed bin check on the material conveyer belt or the packing carton on the feed bin check respectively and the packing material in the corresponding packing carton is listed as the position and sets up. Namely, the number of the row pushing heads of the doubling pushing device is corresponding to or the same as the number of the material boxing rows of the corresponding packaging boxes, namely, the row pushing heads are arranged in multiples of the rows of the boxing materials; meanwhile, each row of pushing heads respectively corresponds to the packaging material rows (or the materials of the packaging material rows) at different positions of each continuous corresponding packaging box, and in the continuous material conveying and running process, each row of pushing heads of the double pushing device respectively pushes the materials on each continuous bin grid of the material conveying belt to the corresponding packaging material row position in each continuous packaging box in sequence, so that multi-box synchronous continuous automatic loading of the materials is implemented, and multi-box synchronous box packaging and packaging of multi-row single-layer or multi-row multi-layer materials are realized. Namely, the multi-box synchronous pushing and loading of the materials are implemented in the continuous material running and conveying process by utilizing the rows of pushing heads of the double pushing devices which are arranged in parallel in sequence and run independently or synchronously. The material conveying belt can be a material synchronous conveying belt. The length sequence of each row of pushing heads of the double pushing device is shortened (corresponding to each corresponding packaging material row) according to the material conveying direction of the material conveying belt.

Each row of pushing heads is driven by the same driver; the push heads of the rows respectively correspond to the corresponding packaging material rows of the packaging boxes or the materials of the packaging boxes, namely, the push heads of the rows are different in position and length according to the packaging material rows in the corresponding packaging boxes. Along with the stepping of the bin lattices of the material synchronous conveying belt, under the driving action of the same driver, each row of pushing heads simultaneously push and load different packaging material rows to the materials of each corresponding bin lattice according to the length sequence of the row pushing heads.

The material synchronous conveyer belt 1, the packing box conveyer belt 6 and the driver of the high-efficiency packing box device or the high-efficiency double-pushing device are respectively in signal connection with a system controller of the packing box machine or a corresponding controller, and the controller implements synchronous coordination packing box operation control.

The high-efficiency boxing device comprises a material synchronous conveying belt 1, material bin grids 2 which are distributed on the material synchronous conveying belt, a corresponding double-pushing device and the like. The double-pushing device comprises a driver and a plurality of rows of pushing heads 3 which are driven by the driver and sequentially and respectively correspond to a plurality of corresponding stock bin grids on the material synchronous conveying belt 1. The plurality of rows of pushing heads respectively correspond to the materials of the corresponding packaging material rows of the packaging box. That is, the length of each row of pushing heads is adapted or corresponding to the depth or position of the packaging material row of the packaging box. The number of the rows of pushing heads of the double pushing device is multiple of the rows of the boxing packing materials of the packing box.

As shown in fig. 1-2. The material packaging specification of the packaging box is two rows of multilayer box packaging, the double pushing device is provided with a front row of pushing heads 3 and a rear row of pushing heads 3 (or adjacent) which respectively correspond to the front bin grid 2 and the rear bin grid 2 (or adjacent) in sequence along the material conveying direction, wherein the front row of pushing heads 3b are shorter than the rear row of pushing heads 3a and can correspond to one row (near row) of packaging materials 5b at one end, close to a box opening, of the packaging box; the rear row of pushing heads 3a can correspond to a row (far row) of packing materials 5a at one end of the packing box 7 close to the inner side of the box. The driver can be a driving cylinder 9 arranged on the corresponding side of the material synchronous conveying belt 1.

The two rows of pushing heads are respectively connected to a pushing head bracket 8 through corresponding buffer guide detection devices, and the pushing head bracket is fixedly connected to a piston rod of a driving cylinder 9 of the pushing head bracket. When each row of pushing heads is in an initial state, the pushing heads are positioned on one corresponding side of the material synchronous conveying belt 1, and the conveying belt 6 of the packaging box 7 is arranged on the other corresponding side of the material synchronous conveying belt 1. One side of the packing box conveying belt is provided with a packing box baffle.

The buffer guide detection device comprises a guide mounting hole arranged on the push head bracket, a sliding guide rod 18 connected with the guide mounting hole and the corresponding row of push heads 3, and the push heads are fixedly connected with the sliding guide rod. A buffer stroke stretch-top spring 4a which is movably sleeved on the sliding guide rod and is propped against the space between the row pushing head and the pushing head bracket, a stroke limit trigger screw 15 and a corresponding position detector. The corresponding end of the sliding guide rod passes through the movable connection to the guide mounting hole, and the stroke limit trigger screw is fixedly connected to the end part of the sliding guide rod from the outer side of the head pushing support in a threaded connection mode. As shown in fig. 5.

The position detector comprises a stroke limit trigger screw corresponding to a corresponding row of pushing heads, a kidney-shaped adjusting hole 14 arranged on the pushing head support, and a position detector 13 which corresponds to the free end of the stroke limit trigger screw of the row of pushing heads and is arranged on the kidney-shaped adjusting hole in a position-adjustable mode through fixed connecting pieces such as corresponding screws. The stroke limiting trigger screw is used for stroke limiting of the row of pushing heads through the pushing head support and fault triggering detection is carried out at the same time. Under normal conditions, the column pushing head performs telescopic pushing work under the action of a buffer stroke ejection spring. When external resistance including packaging materials, deformation of a packaging box cover and the like is met, the resistance overcomes the buffer stroke jacking spring force to enable the stroke limiting trigger screw to approach or touch the position detector, the position detector acts, a detection signal is output to a corresponding system or a machine controller, and shutdown is controlled so as to process faults. The position detector can be a limit switch or a strain gauge type pressure actuator which is connected with a corresponding controller through an electric signal. The guide mounting hole and the sliding guide rod of the buffer guide detection device are in a straight-through type, no additional limiting device is arranged, and the buffer guide detection device is simple in relative structure composition, simple and convenient to mount and stable and reliable in operation.

During operation, as shown in fig. 2, the head of each row of pushing heads is located at one side of the material synchronous conveyor belt, when the double pushing device starts loading operation at the start-up for the first time, and when the material synchronous conveyor belt transports the first bag material to the position corresponding to the rear row of pushing heads, the double pushing device acts, the driver pushes the first bag material on the material synchronous conveyor belt into one end of the inner side of the packing box 7 through the rear pushing heads, so as to complete the boxing of the far row of packing materials 5a, and the two rows of pushing heads retract and reset; in the first running state of the starting machine, only the rear row pushing head pushes materials, and the front row pushing head does not push materials and runs in an idle mode. As shown in fig. 3.

Then, when two bag materials of two bin grids on the material synchronous conveyor belt run to simultaneously correspond to two rows of pushing heads of the double pushing device respectively, the two rows of pushing heads act, the two rows of pushing heads push the corresponding two bag materials to the inner side end and the box opening end in the front and back packaging boxes respectively, the row pushing heads retract and withdraw, the next step of loading action is prepared, after the step of action is completed, the next packaging box completes loading of a far row of packaging materials 5a into the packaging box, and simultaneously completes loading of a near row of packaging materials 5b into the packaging box in the front packaging box, and the previous packaging box completes all material packaging boxes; the row of pushing heads circularly operate in such a way, and continuous two-row single-layer or multi-layer multi-box synchronous boxing and packaging of materials are implemented. As shown in fig. 4.

In another embodiment, as shown in fig. 6-8, the drive of the double pushing device is arranged above the material synchronous conveyor belt and the train pushing head through a vertical frame 10. The piston rod of the cylinder 9 of the driver is fixedly connected with the head pushing bracket 8 through a vertical connecting guide rod 11, and the push heads 3 of each row are respectively connected with the corresponding side of the head pushing bracket. The whole machine volume of the boxing machine can be greatly reduced, and the space of a machine room is saved.

The push head support comprises a left step type support plate and a right step type support plate, opposite ends of the two step type support plates are respectively provided with a step-shaped end portion 16 which is correspondingly matched and connected with each other in an opposite mode, a waist-shaped open slot or a waist-shaped hole 17 is formed in the plate surface of the step-shaped end portion, and a rear row push head 3a and a front row push head 3b are respectively and correspondingly arranged on the left step type support plate 8a and the right step type support plate 8 b. The two step type support plates are fixedly connected with each other through a waist-shaped open slot or a waist-shaped hole by locking screws and the like. The spacing distance between the rear row of pushing heads and the front row of pushing heads can be adjusted through fixing pieces such as locking screws and the like and the waist-shaped open slots or the waist-shaped holes. To accommodate different transport package spacing.

The guide mounting hole of the buffer guide detection device is a guide mounting blind hole, the buffer fixed coupling spring 4b is movably sleeved on the sliding guide rod, and two ends of the buffer fixed coupling spring are respectively and fixedly connected with the pushing head bracket and the corresponding row pushing heads. One end of the sliding guide rod is fixed with the pushing head, the other end (free end) is movably sleeved in the guiding installation blind hole of the pushing head support, and the bottom wall of the guiding installation blind hole or the free end face of the sliding guide rod is provided with a strain gauge type pressure driver. The structure is simpler, the guide mounting hole and the sliding guide rod are in a straight-through type, and any limiting device is not needed. The buffer fixing coupling spring can increase the cantilever force of the pushing head, and has the advantages of stable operation, flexible operation action and sensitive and reliable fault detection. The rest of the structure and the corresponding operation loading operation mode of this embodiment can be similar to the above-described embodiment.

Claims (6)

1. The utility model provides a high efficiency device that cartoning, includes the material conveyer belt, distribute set up in feed bin check on the material conveyer belt to and corresponding pusher, characterized by pusher is one time and pushes away the device, it includes the driver to push away the device doubly, and connect in a plurality of rows of the push heads that the corresponding feed bin check of driver, respectively with the material conveyer belt correspond, its a plurality of rows of push heads are respectively corresponding with each corresponding packing material row of packing carton.

2. The high efficiency cartoning apparatus of claim 1 wherein the plurality of rows of pusher heads respectively corresponding to respective rows of packaging material of the cartoning frame comprises: the length of the packaging box is sequentially corresponding to the position of the corresponding packaging box, the position of the packaging material column of the packaging box or the depth of the packaging material column of the packaging box.

3. A high efficiency boxing apparatus in accordance with claim 1 or 2, wherein the rows of pushing heads of the double pushing device are shortened in length in the material conveying direction of the material conveying belt.

4. A high efficiency boxing apparatus in accordance with claim 1 or 2, wherein the number of said rows of pushing heads of the double pushing apparatus is the number of rows of boxing packing materials of the packing boxes.

5. A high efficiency cartoning apparatus according to claim 1, wherein the rows of pusher heads are connected to their drives by a pusher head carriage or adaptive adjustment carriage apparatus.

6. A high efficiency cartoning apparatus according to claim 1 or 5, wherein the drive is disposed above its doubler or its row of pusher heads.

Images