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Manufacturing method of slipper boxing device

发布日期:2019-12-27 17:11 Document serial number: 19546540 Release date: 2019-12-27 17:11
Manufacturing method of slipper boxing device

The utility model relates to the technical field of slipper finishing, in particular to a slipper boxing device.



Background technique:

Slippers play a very important role in people's daily life. At present in China, with the improvement of people's living standards, more and more people pay attention to indoor hygiene. When they enter homes or rest in hotels, they will put on slippers to move indoors; in some special places, such as some experiments Rooms, clean rooms, will require slippers to enter. At the same time, if the slippers are not cleaned in time, they often become a place to hide dirt and dirt; therefore, a large number of slippers will be put into the slipper cleaning equipment for cleaning. However, it takes a lot of time, a lot of manpower, and the work efficiency is not high to use manual finishing.



Technical realization elements:

In order to solve the problem of slipper packing, the utility model provides a slipper packing device.

The technical scheme adopted by the contents of this utility model is as follows:

Slipper boxing device includes a loading intermediate box. A slipper transfer plate is provided at the entrance of the loading intermediate box. A slipper pushing mechanism is provided above the slipper transferring plate. The slipper pushing mechanism pushes the slippers on the slipper transferring plate. Enter the loading intermediate box.

The slipper advancing mechanism includes an up and down pushing cylinder, a left and right pushing cylinder, and a slipper pushing plate. The up and down pushing cylinder drives the slipper pushing plate to move up and down, and the left and right pushing cylinder drives the slipper pushing plate to move left and right.

The loading intermediate box is provided with a pushing mechanism, and the pushing mechanism pushes the loading intermediate box to move forward and backward.

It also includes a lifting mechanism. The loading intermediate box is disposed above the lifting mechanism. The loading intermediate box is provided with at least two placing layers. The lifting mechanism can realize multiple layers of slippers.

A separation propulsion plate is provided on the side of the placement layer near the outer side, and the height and length of the placement layer are longer than the height and length of the separation propulsion plate. A connecting column is installed on the outside of the separation propulsion plate. The width and the separation pushing plates are all connected to the same connecting plate.

The separating and advancing plate is provided with a cylinder, and the cylinder drives the separating and advancing plate to move, and the separating and advancing plates of each layer are arranged in linkage.

It also includes a turnover box conveying mechanism. The turnover box conveying mechanism includes a plurality of turnover boxes and a belt conveyor for conveying the turnover boxes. Any one of the turnover box inlets is aligned with the position of the loading intermediate box. The middle box is placed for loading.

Beneficial effects:

Slippers are placed on the slipper transfer plate. Slippers are pushed into the loading intermediate box through the slipper pushing plate. The removable loading intermediate box can complete the placement of slippers in multiple rows and columns. The installation of the device saves time and effort and improves work efficiency.

BRIEF DESCRIPTION OF THE DRAWINGS

Figure 1 is a schematic diagram of the utility model.

FIG. 2 is a schematic view of loading a first pair of slippers.

FIG. 3 is a schematic diagram of loading a second pair of slippers.

FIG. 4 is a schematic diagram of loading a third pair of slippers.

FIG. 5 is a schematic diagram of loading a fourth pair of slippers.

Fig. 6 is the first schematic diagram of the transfer of loading the intermediate box.

Figure 7 is the second schematic diagram of the transfer of the loaded intermediate box.

FIG. 8 is the third schematic diagram of the transfer of the loaded intermediate box.

Figure 9 is a schematic diagram of the turnover container transportation.

FIG. 10 is a schematic diagram of loading an intermediate box.

Load the intermediate box 1, slipper transfer plate 2, slipper advancement mechanism 3, slipper advancement plate 4, separation advancement plate 5, placement layer 6, connection plate 7, connection column 8, turnover box 9, belt conveyor 10.

detailed description

The following further describes the utility model with reference to the drawings and embodiments:

The following uses five-layer loading intermediate box 1 as an example. Each layer can place 4 pairs of slippers. Starting from the bottom of the loading intermediate box 1, the slippers placed on the slipper transfer plate 2 are pushed in using the slipper board pusher. The first pair of slippers, the slipper board pushing plate is provided with a left and right push cylinder and an up and down pushing cylinder, respectively. The left and right pushing cylinders and the up and down pushing cylinders respectively drive the slipper board pushing plate to move up and down, and when the slippers enter the slipper transfer plate 2 The board is located at the top. When the slippers enter the slipper transfer plate 2, the slipper transfer plate 2 moves downwards, driven by the upward and downward movement of the cylinder, and reaches the heel of the slipper and is level with the slippers. At this time, the cylinder is pushed to the right by left and right movement. , Push the slippers into the loading middle box 1, after the push-in is completed, the slipper transfer plate 2 is reset to the original position by the left and right push cylinders and the up and down push cylinders, and wait until the second pair of slippers enter the slipper transfer plate 2 before starting Repeat the shoe push action described above.

As shown in Figure 2, after the first pair of slippers is completed, first use the pushing mechanism of the middle box 1 to advance 22cm forward, and then use the slipper board to push the plate to push in the second pair of slippers.

As shown in FIG. 3, continue to use the slipper board to push the board and push in a third pair of slippers.

As shown in FIG. 4, using the propulsion mechanism for loading the intermediate box 1, it retracts a distance of 22 cm backward to reach the original position, and then uses the slipper board to push the board to push in the fourth pair of slippers.

After the bottom slippers are placed, use the lifting mechanism to lower the loading advance box by 8cm, so that the second floor below the loading middle box 1 reaches the original position of the bottom layer, and repeat the bottom layer on the second floor below the loading middle box 1. The above-mentioned repeating process continues to start loading slippers, until a total of twenty pairs of slippers are filled at all positions in the middle five floors of the loading box, and the next step of the transfer is performed.

Then move the loaded intermediate box 1 with slippers into the surrounding box. In order to prevent the change of the position of the slippers and affect the overall packing effect, using the propulsion mechanism, first push the loading intermediate box 1 and the separation pushing plate 5 together in synchronization. In the turnover box 9, first keep the separation advance plate 5 stationary, and then use the propulsion mechanism to return and load the intermediate box 1. During the process of pushing and loading the intermediate box 1, the height and length of the separation advance plate 5 are shorter than the placement layer 6. The height and length of the separation push plate 5 can pass through the placement layer 6 and keep the separation push plate 5 stationary during the movement of the loading intermediate box 1, and the length of the connecting column 8 is greater than the width of the placement layer 6, so the loading middle There can be enough examples for the box 1 to return to the original position. At this time, the separation pushing plate 5 does not need to perform the work of preventing the position change of the slippers, and the separation cylinder starts to work to drive the separation pushing plate 5 to return to the original position.

The setting of the connecting rod only needs to set a propulsion cylinder to drive all the separate propulsion plates 5 to move.

The function of the moving box pushing mechanism makes the loading intermediate box 1 return to the original position, and then uses the loading intermediate box 1 lifting mechanism to align the bottom entrance with the slipper transfer plate 2 to start the next round of slipper installation work. At the same time, the belt conveyor 10 is started. After the completion of the turnover box 9, the conveyor belt is manually removed from the platform, and the equipment enters the next cycle.

The propulsion mechanism can push the loading intermediate box 1 back and forth through the power of the cylinder or the motor.

Obviously, the foregoing embodiments of the present invention are merely examples for explaining the present invention, and are not intended to limit the embodiments of the present invention. For those of ordinary skill in the art, other different forms of changes or modifications can be made on the basis of the above description. There is no need and cannot be exhaustive for all implementations. However, these obvious changes or variations that are derived from the essential spirit of the present invention still belong to the protection scope of the present invention.

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