阅读说明：本技术 新型硅钢铁心叠装台 (Novel silicon steel iron core stacking platform ) 是由 王学海 于 2019-09-19 设计创作，主要内容包括：本发明公开了一种新型硅钢铁心叠装台,包括底座,固定在底座上的三根平行的直线导轨,可在导轨上滑动、位于每根导轨两端的滑块,位于直线导轨上方相互平行且与直线导轨垂直的三根方钢管,以及位于每根方钢管上面与方钢管平行的第一支架和第二支架；第一支架和第二支架之间留有间隙；两边的方钢管固定在直线导轨上的滑块上,并通过固定卡与底座固定,中间的方钢管通过支撑块固定在底座上；底座下表面为平面,可在流转辊道上滑动；方钢管两端内套叠片支架,叠片支架可在方钢管内滑动和固定。本发明叠装台精巧、方便、实用,适用于各种不同规格尺寸铁心叠装,适用于自动化流水线生产,大大提高了铁心叠装、流转翻转效率。(The invention discloses a novel silicon steel iron core stacking platform which comprises a base, three parallel linear guide rails, sliding blocks, three square steel tubes, a first support and a second support, wherein the three parallel linear guide rails are fixed on the base; a gap is reserved between the first bracket and the second bracket; the square steel pipes at the two sides are fixed on the sliding blocks on the linear guide rails and are fixed with the base through fixing clamps, and the square steel pipe in the middle is fixed on the base through supporting blocks; the lower surface of the base is a plane and can slide on the flow roller way; the laminated supports are sleeved in the two ends of the square steel pipe and can slide and be fixed in the square steel pipe. The iron core stacking table is exquisite, convenient and practical, is suitable for stacking iron cores with different specifications and sizes, is suitable for automatic assembly line production, and greatly improves the efficiency of iron core stacking, circulation and overturning.)

1. A novel silicon steel core stacking table is characterized by comprising a base (1), three parallel linear guide rails (3) fixed on the base (1), sliders (2) capable of sliding on the guide rails and located at two ends of each guide rail, three square steel tubes (4) which are parallel to each other and perpendicular to the linear guide rails and located above the linear guide rails (3), and a first support (6) and a second support (7) which are parallel to the square steel tubes (4) and located above each square steel tube (4); a gap is reserved between the first support (5) and the second support (6); the square steel pipes (4) at the two sides are fixed on the sliding block (2) on the linear guide rail and are fixed with the base (1) through the fixing clamp (10), and the square steel pipe (4) in the middle is fixed on the base (1) through the supporting block (5); the lower surface of the base (1) is a plane and can slide on the flow roller way; the square steel tube is characterized in that a first lamination support (8) and a second lamination support (9) are respectively sleeved at two ends of the square steel tube (4), and the first lamination support (8) and the second lamination support (9) can slide and be fixed in the square steel tube (4).

2. The novel silicon steel core stacking table as claimed in claim 1, wherein the frame of the base (1) is formed by tailor welding galvanized steel channels, and stainless steel plates are coated outside the upper layer and the lower layer.

3. The novel silicon steel core stacking table as claimed in claim 1, wherein the square steel tube (4) is externally paved with anti-skid and shock-absorbing polyester plates.

4. The novel silicon steel core stacking table according to claim 1, wherein the first bracket (6) and/or the second bracket (7) are provided with holes or slots.

5. The novel silicon steel core stacking table according to claim 1, wherein the first support (6) and the second support (7) are respectively flush with the end face of the square steel tube (4), and the first lamination support (8) and the second lamination support (9) have a length exceeding the first support (6) or the second support (7) and are used for placing a pre-charging material.

6. The novel silicon steel core stacking table as claimed in claim 1, wherein the base (1) is provided with a braking groove on the side surface in the length direction.

Technical Field

The invention relates to a novel stacking table for a 10kV silicon steel core, which is suitable for flow line production and belongs to the field of manufacturing of the silicon steel core of a power transformer.

Background

The stacking of 10kV small-capacity (50kVA-630kVA) silicon steel cores needs to be carried out on a stacking frame, the stacking of conventional cores needs to be carried out on a simple support, an iron core overlapping and stacking platform is overlapped by using angle steel according to the size of the core, the core is hoisted to a turnover platform by using a crane to be turned over after the stacking of the core is completed, and in the operation processes, firstly, the size of the core stacking platform is adjusted every time, time and labor are wasted, secondly, the core is hoisted to occupy the crane, the efficiency is lower, and thirdly, various problems are easy to occur in the iron core hoisting process. In order to solve the problems, the stacking platform is newly researched and developed to achieve the purposes of convenient adjustment, free rotation, butt joint with the overturning platform, more comfort and high efficiency in stacking operation.

Disclosure of Invention

The purpose of the invention is as follows: the invention aims to provide a novel silicon steel iron core stacking table, which at least solves one of the following problems: the iron core stacking is efficient and can be conveniently adjusted, and the iron core stacking device is suitable for stacking iron cores with different specifications and sizes; the iron core can be circulated on the automatic circulation track, the iron core is ensured to be firmly and reliably fixed in the circulation process, and the stacking platform is firm and reliable in structural material and resistant to abrasion; the stacking platform can be in butt joint with the overturning platform and fixed, and the problems of shaking and the like cannot occur in the iron core overturning process.

The technical scheme is as follows: in order to achieve the purpose, the invention adopts the following technical scheme:

a novel silicon steel core stacking platform comprises a base, three parallel linear guide rails fixed on the base, sliders capable of sliding on the guide rails and located at two ends of each guide rail, three square steel tubes which are parallel to each other and perpendicular to the linear guide rails and located above each square steel tube, and a first support and a second support which are parallel to the square steel tubes and located above each square steel tube, wherein the sliders are located at two ends of each guide rail; a gap is reserved between the first bracket and the second bracket; the square steel pipes at the two sides are fixed on the sliding blocks on the linear guide rails and are fixed with the base through fixing clamps, and the square steel pipe in the middle is fixed on the base through supporting blocks; the lower surface of the base is a plane and can slide on the flow roller way; the first lamination support and the second lamination support are sleeved at two ends of the square steel pipe respectively, and both the first lamination support and the second lamination support can slide and be fixed in the square steel pipe.

Preferably, the frame of the base is formed by welding galvanized channel steel, and the upper layer and the lower layer are coated with stainless steel plates.

Preferably, the antiskid and shock-absorption polyester plate is paved on the square steel pipe.

Preferably, the first support and/or the second support are provided with holes or grooves.

Preferably, the first support and the second support are respectively flush with the end face of the square steel pipe, and the length of the first laminated support and the length of the second laminated support exceed that of the first support or the second support and are used for placing a pre-charging material.

Preferably, the base is provided with a braking groove on the side surface in the length direction.

Has the advantages that: compared with the prior art, the invention has the following advantages:

the stacking table is simple to operate and durable, the size of the stacking table can be freely adjusted in the width direction by adopting the linear guide rail adjustable mechanism, and the locking and fixing mechanism is arranged on the base to ensure that the sliding rail is firmly fixed. All structural parts are made of high-quality stainless steel, and the weighing of the guide rail can reach 0.8 ton. Secondly, reduce operating personnel's intensity of labour, improve the production efficiency of producing the line, saved former operation of opening a platform and needed to carry the angle steel, the overlap joint is preloaded and is placed the work of platform, and both ends have the slidable and take out the support, are convenient for place and are folded in advance and load. And thirdly, the travelling crane hoisting is not needed any more, the travelling crane equipment cost and the maintenance cost are saved, the equipment can be circulated on a circulation roller way, and is butted with a turnover table for turnover, so that the time and the labor are saved. And fourthly, the stacking platform is suitable for automatic assembly line production, the iron core stacking and circulating turnover efficiency is greatly improved, the stacking platform is exquisite, convenient and practical, and the production efficiency is greatly improved for streamlined operation.

Drawings

Fig. 1 is a schematic top view of the present invention.

Fig. 2 is a schematic front view of the embodiment of the present invention.

Fig. 3 is a left side view structural diagram of the embodiment of the invention.

Fig. 4 is a schematic three-dimensional structure diagram according to an embodiment of the present invention.

In the figure: the method comprises the following steps of 1-a base, 2-a slide block, 3-a linear guide rail, 4-a square steel pipe, 5-a support block, 6-a first support, 7-a second support, 8-a first lamination support, 9-a second lamination support and 10-a fixing clamp.

Detailed Description

The present invention is further illustrated by the following examples, which are intended to be purely exemplary and are not intended to limit the scope of the invention, as various equivalent modifications of the invention will occur to those skilled in the art upon reading the present disclosure and fall within the scope of the appended claims.

As shown in fig. 1 to 4, the novel silicon steel core stacking table disclosed in the embodiment of the present invention includes a base 1, a linear guide rail 3, a slider 2, a square steel tube 4, a first support 6, a second support 7, a first lamination support 8, a second lamination support 9, and the like; three parallel linear guide rails 3 are fixed on the base 1, and the sliding block 2 can slide at two ends of the guide rails; the three parallel square steel tubes 4 are positioned above the linear guide rail 3 and are vertical to the linear guide rail 3. A first bracket 6 and a second bracket 7 which are parallel to the square steel tubes 4 are arranged on each square steel tube 4, and a gap is reserved between the two brackets, so that after the iron cores are assembled in a stacked mode, a temporary fastening bracket is fixed before the iron cores are turned over; the square steel pipes 4 at the two sides are fixed on the slide blocks 2 on the linear guide rail and are fixed with the base 1 through fixing clips 9, and the middle square steel pipe 4 is fixed on the base 1 through supporting blocks 5; the first lamination support 8 and the second lamination support 9 are respectively sleeved at two ends of the square steel tube 4, and the lamination supports can slide and be fixed in the square steel tube 4.

Specifically, the frame of the base 1 of the stacking platform is formed by splicing and welding 8# galvanized steel channels, and 3mm stainless steel plates are coated outside the upper layer and the lower layer to form the integral base 1. A high-quality linear guide rail 3 is arranged on a frame of a base 1, the material and the bearing of the guide rail 3 all need to meet the technical requirements, and then the linear guide rail 3 and the base 2 are firmly fixed. Install stainless steel material square steel pipe 4 on linear guide 3, the practical application of being convenient for such as processing in advance as required on square steel pipe support 6, 7, need guarantee that the surfacing to at the upper portion installation antiskid insulating pad, upper portion fluting hole for moving mechanism's connection etc..

The movable laminated support is sleeved in the square steel tube 4, so that the support can freely slide in the square steel tube 4 and is reliably fixed for placing the pre-loaded material. The antiskid and shock-absorption polyester plates are externally paved on the square steel pipe 4, so that friction is increased, and vibration in the circulation process is reduced.

The fixing clamp structure is welded on the base 1, so that the guide rail can be firmly fixed at any size in the width direction, and the iron core stacking device is suitable for stacking iron cores of various sizes in the specified width size; the fixing clamp structure is additionally arranged in the length direction of the square tube, so that the iron core channel steel can be firmly fixed at any position.

The periphery of the base frame is provided with a fixing structure, the side face of the base in the length direction is provided with a braking groove, and after the stacking platform reaches the appointed station of the overturning platform, the stacking platform and the overturning platform are firmly fixed, so that the safety and reliability of the stacking process are ensured.

The overall structure size design needs to guarantee reliable cooperation with the roll-over table, and the problem such as rock can not appear in the closed assembly cover among the iron core roll-over process, and can not appear turning over the scheduling problem, and the closed assembly table turns back just along with the roll-over table upset after the iron core upset, flows to next operation behind the loose closed assembly table locking mechanism.