DE-202025106536-U1 - Storage device for scrapers used in SMT processing.

Abstract

Storage device for scrapers used in SMT processing, characterized in that it comprises a storage cabinet (1) wherein two pivot doors (3) are arranged symmetrically and rotatably at the front end of the storage cabinet (1), wherein several pairs of sliding slots (5) are arranged at vertical intervals in the storage cabinet (1), wherein a storage plate (6) is jointly connected to each pair of sliding slots (5) in a sliding and position-limiting manner, wherein several suspension slots (7) are provided at intervals on each storage plate (6), wherein a scraper (8) is suspended from the suspension slot (7), and wherein several labeling panels (9) are fixedly arranged on the front of each of the storage plates (6), and wherein labels are affixed to the labeling panel (9).

Assignees

• CHONGQING E ONG OPTOELECTRONICS TECH CO LTD

Dates

Publication Date

20260513

Application Date

20251028

Priority Date

20241107

Claims (6)

1. Storage device for scrapers used in SMT processing, characterized in that it comprises a storage cabinet (1) wherein two pivot doors (3) are arranged symmetrically and rotatably at the front end of the storage cabinet (1), wherein several pairs of sliding slots (5) are arranged at vertical intervals in the storage cabinet (1), and wherein a storage plate (6) is jointly connected to each pair of sliding slots (5) in a sliding and position-limiting manner, and wherein several suspension slots (7) are provided at intervals on each storage plate (6), and wherein a scraper (8) is suspended from the suspension slot (7), and wherein several labeling plates (9) are fixedly arranged on the front of each of the storage plates (6), and wherein labels are affixed to the labeling plate (9).
2. Storage device for scrapers used in SMT processing, according to Claim 1 , characterized in that several universal wheels (2) are rotatably installed at the lower end of the storage cabinet (1) via an installation plate, with a brake pad being arranged on one of the universal wheels (2).
3. Storage device for scrapers used in SMT processing, according to Claim 1 , characterized in that a transparent plate (4) is embedded in the revolving door (3), wherein the transparent plate (4) is made of acrylic material.
4. Storage device for scrapers used in SMT processing, according to Claim 1 , characterized in that at the front end of the storage cabinet (1) two pairs of rotary sleeves (11) are arranged symmetrically, wherein at the rear end of the revolving door (3) a pivot pin is arranged which is rotatably connected to the two rotary sleeves (11).
5. Storage device for scrapers used in SMT processing, according to Claim 1 , characterized in that the scraper (8) comprises a blade holder (81) and a blade (82), wherein the blade (82) is arranged on the underside of the blade holder (81), and wherein the blade (82) is suspended in the storage cabinet (1), and wherein there is a certain gap between the blade (82) and the storage cabinet (1).
6. Storage device for scrapers used in SMT processing, according to Claim 1 , characterized in that two sliding blocks (61) are symmetrically fixedly connected to both ends of the shelf plate (6), wherein the sliding blocks (61) are slidably connected to the sliding slots (5), and wherein the width of an end facing the shelf plate of each pair of sliding slots (5) is smaller than the width of an end facing away from the shelf plate.

Description

TECHNICAL AREA The present utility model relates to the technical field of storage devices, in particular a storage device for scrapers used in SMT processing. STATE OF THE ART Surface Mount Technology (SMT) is a technique used in the assembly of electronic components, allowing parts to be mounted directly onto the surface of a printed circuit board (PCB) instead of using traditional through-hole technology. This technique has found widespread application in modern electronics manufacturing. The scraper is a core component of SMT equipment and is characterized by high precision. The flatness of its blade has a decisive influence on SMT print quality. Since the blade is inherently thin and exposed, the method of storage after use is particularly important for its protection. The shortcomings of existing techniques include the following: 1. In existing operating procedures, storage takes place in antistatic boxes, whereby the core component - the blade - comes into contact with the bottom of the box, and prolonged exposure to force poses a risk of deformation; 2. There is a risk of the blades colliding with each other, which can lead to damage; 3. Since these scrapers are used in pairs, separate storage leads to a lack of clarity. CONTENTS OF THE PRESENT USE SAMPLE With regard to the above-described shortcomings of existing techniques, the present utility model provides a storage device for scrapers used in SMT processing in order to solve the problem of existing prior art operating methods in which the scrapers are stored in antistatic boxes, whereby the core component - the blade - comes into contact with the bottom of the box and prolonged exposure to force poses a risk of deformation. To achieve the above objective, the present utility model uses the following technical solution: The present utility model provides a storage device for scrapers used in SMT processing, comprising a storage cabinet, wherein two pivot doors are arranged symmetrically and rotatably at the front end of the storage cabinet, and wherein several pairs of sliding slots are arranged at vertical intervals in the storage cabinet, and wherein a storage plate is jointly connected to each pair of sliding slots in a sliding and position-limiting manner, and wherein several suspension slots are provided at intervals on each storage plate, and wherein a scraper is suspended from the suspension slot, and wherein several labeling panels are fixedly arranged on the front of each of the storage plates, and wherein labels are affixed to the labeling panel. According to a storage device for scrapers used in SMT processing mentioned above, several universal wheels are rotatably mounted at the bottom of the storage cabinet via a mounting plate, with a brake pad arranged on one of the universal wheels. According to a storage device for scrapers used in SMT processing mentioned above, a transparent plate is embedded in the revolving door, the transparent plate being made of acrylic material. According to a storage device for scrapers used in SMT processing mentioned above, two pairs of rotary sleeves are arranged symmetrically at the front end of the storage cabinet, with a pivot pin arranged at the rear end of the rotating door, rotatably connected to the two rotary sleeves. According to a storage device for scrapers used in SMT processing mentioned above, the scraper comprises a blade holder and a blade, wherein the blade is arranged at the bottom of the blade holder, and wherein the blade is suspended in the storage cabinet, and wherein there is a certain gap between the blade and the storage cabinet. According to a storage device for scrapers used in SMT processing mentioned above, two sliding blocks are symmetrically fixed to both ends of the storage plate, the sliding blocks being slidably connected to the sliding slots, and the width The width of a facing end of each pair of sliding slots is smaller than the width of a facing end. Compared to known existing techniques, the technical solution provided by the present utility model has the following advantages: In the present utility model, the door panels of the two hinged doors are each made of transparent acrylic material, which facilitates visual management for determining the quantity and dimensions of the scrapers; four universal wheels are installed on the underside of the storage cabinet to allow for easy movement; the scrapers are attached to the storage cabinet with their own mounting screws in the suspension slots on the shelf, thus suspending them in the storage cabinet, and there is a specific gap between the scraper blade and the storage cabinet to prevent damage from impacts; the scrapers are arranged in two separate levels, with identical number plates attached to the front of the labeling panel to enable the scrapers to be managed in pairs. BRIEF DESCRIPTION OF THE DRAWING To more clearly explain the technical solution in the embodiments of the present utility model or the prior