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A mold logistics management device

A technology of logistics management and mold placement rack, which is applied in storage devices, transportation and packaging, etc. It can solve the problems of space consumption, increased operational risk, unfavorable management, etc., and achieves convenient logistics management, increased space utilization, and optimized management. Effect

Active Publication Date: 2020-08-25
CHANGZHOU VOCATIONAL INST OF ENG
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

In the existing technology, the form of placing the mold on the frame is adopted. When using it, the forklift needs to be driven to the position where the mold is placed, and then the mold is forked out from the frame. Due to the need to meet the traffic of the forklift, Therefore, the factory building used for mold placement is generally very large, which consumes a lot of space; secondly, because the forklift has to be repeatedly driven to a certain mold placement point, it is not conducive to management and virtually increases the risk of operation

Method used

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  • A mold logistics management device
  • A mold logistics management device
  • A mold logistics management device

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0048] refer to figure 1 , Figure 5 and Figure 8 , a logistics management device for a mould, including a house body 1, in order to facilitate the logistics management of the mould, that is, to manage the entry and exit of the mold into the house body 1, a window 10 for conveniently pushing the mold into and out of the house body 1 is provided on the side of the house body 1 , in order to monitor the situation in the house body 1, a camera 11 is arranged on the top surface of the house body 1. In order to facilitate the placement of molds, a mold placement rack 2 for placing molds is also arranged in the house body 1. In order to realize the mold placement Automatic entry and exit on the rack 2. Multiple mold push stations 3 matching the number of molds to be stored are set on the mold placement rack 2; in addition, a transport device 4 for transporting molds is also provided in the house 1. At the same time, the transport device 4 is provided with a first pushing part 5 f...

Embodiment 2

[0056] The difference from Example 1 is that the surface of the sliding seat 45 is coated with a layer of wear-resistant coating. Since the mold will be repeatedly pushed on the sliding table for transportation, the surface of the sliding table is prone to abrasion. In order to increase the wear resistance of the sliding table Wear resistance, so a layer of wear-resistant coating is coated on the surface of the sliding table, so a preparation method of a wear-resistant coating is provided, which has the advantages of short preparation process and simple preparation, wherein the wear-resistant coating on the surface of the sliding table The preparation method is as follows:

[0057]Get the following component raw materials by weight for subsequent use: 25 parts of nano-manganese oxide powder, 29 parts of nano-magnesium powder, 18 parts of nano-nickel powder, 19 parts of nano-cobalt powder, 23 parts of nano-chromium powder, 21 parts of nano-silicon nitride powder, 12 parts of na...

Embodiment 3

[0063] The difference from Example 2 is the preparation of the wear-resistant coating on the surface of the sliding seat 45, wherein the preparation method of the wear-resistant coating is as follows:

[0064] Get the following component raw materials by weight for subsequent use: 26 parts of nano-manganese oxide powder, 30 parts of nano-magnesium powder, 19 parts of nano-nickel powder, 20 parts of nano-cobalt powder, 23 parts of nano-chromium powder, 21 parts of nano-silicon nitride powder, 12 parts of nano copper oxide powder;

[0065] S1, mixing materials, adding nano-manganese oxide powder, nano-magnesium powder, nano-nickel powder, nano-cobalt powder, nano-chromium powder, nano-silicon nitride powder and nano-copper oxide powder into the powder mixing machine and mixing for 30 minutes;

[0066] S2, heating, preheating the mixture obtained in S1 to 93°C;

[0067] S3, sand blasting is performed on the surface of the sliding seat 45, the scale and dirt on the surface are re...

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Abstract

The invention discloses a die logistics management device, and belongs to the field of die management. According to the technical scheme, the die logistics management device is characterized by comprising a house body. A window which enables dies to be pushed to enter and leave the house body advantageously is formed in the side face of the house body. A camera is arranged on the top surface of the interior of the house body. A die placement frame which is used for allowing the dies to be placed is further arranged in the house body, and multiple die push stations are arranged on the die placement frame. The die logistics management device further comprises a conveying device which conveys the dies in the house body. A first push portion and a second push portion are arranged on the conveying device, the first push portion is used for pushing the dies out of the house body from the window, and the second push portion is used for pushing the dies to the push stations from the conveyingdevice. When the die logistics management device is used and stores the dies, the degree of automation of the device is high, the management of the dies is facilitated, the space required by storage of the quantitative dies is also narrowed, the situation that a forklift is repeatedly utilized to fork the dies at different positions of the die placement frame is not required, and the 5S managementof a factory is optimized.

Description

technical field [0001] The invention relates to the field of mold management, more specifically, it relates to a logistics management device for molds. Background technique [0002] A mold is a characteristic tool that changes the shape of an item through the physical state of the molding material, and the most common mold is a stamping mold. Stamping die is a special process equipment for processing materials (metal or non-metal) into parts (or semi-finished products) in cold stamping processing, called cold stamping die. [0003] Sheet metal parts in electrical appliance factories often use a variety of different molds to produce electrical casings. These molds generally include punching dies, stretching dies, and flanging dies. Since these molds need to be matched with the production line, these molds need to be stored in the warehouse first, and then they are forked out with a forklift when production needs, and then installed in the stamping station in the sheet metal ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): B65G1/04
Inventor 耿亚吴访升王晓宇马永山邵顺增杨小来
Owner CHANGZHOU VOCATIONAL INST OF ENG