阅读说明：本技术 一种报废定子的摆放料框 (Scrap stator put material frame ) 是由 徐文 于 2020-06-29 设计创作，主要内容包括：本发明公开了一种报废定子的摆放料框,包括定位料框和底座组成,定位料框包括顶板,顶板上成型有若干个矩形的定位孔,定位孔矩形阵列在顶板上,所述底板上成型有若干与顶板定位孔相正对的穿孔,分隔柱的上端固定在定位孔周边顶板上,分隔柱的下端固定在底板上,分隔柱矩形阵列在顶板或底板上；底板的两侧边成型有导向条；所述底座包括矩形的承托板,承托板的下端面上固定有若干槽钢,槽钢之间成型有插槽；所述承托板上端面的两侧成型有凸条,凸条的内侧壁上成型有贯穿凸条一端侧壁的卡槽；定位料框上的导向条插接在底座的卡槽内。(The invention discloses a material placing frame for a scrapped stator, which comprises a positioning material frame and a base, wherein the positioning material frame comprises a top plate, a plurality of rectangular positioning holes are formed in the top plate, the positioning holes are arrayed on the top plate in a rectangular mode, a plurality of through holes opposite to the positioning holes of the top plate are formed in the bottom plate, the upper ends of partition columns are fixed on the top plate at the periphery of the positioning holes, the lower ends of the partition columns are fixed on the bottom plate, and the partition columns are arrayed on the top plate or the bottom plate in a rectangular mode; guide strips are formed on two side edges of the bottom plate; the base comprises a rectangular bearing plate, a plurality of channel steels are fixed on the lower end face of the bearing plate, and slots are formed among the channel steels; convex strips are formed on two sides of the upper end surface of the bearing plate, and clamping grooves penetrating through the side wall of one end of each convex strip are formed on the inner side walls of the convex strips; the guide strip on the positioning material frame is inserted in the clamping groove of the base.)

1. The utility model provides a scrap stator put material frame, includes location material frame (1) and base (2) constitution, its characterized in that: the positioning material frame (1) comprises a top plate (11), partition columns (12) and a bottom plate (13), wherein a plurality of rectangular positioning holes (111) are formed in the top plate (11), the positioning holes (111) are arrayed on the top plate (11) in a rectangular mode, a plurality of through holes (131) opposite to the positioning holes (111) in the top plate (11) are formed in the bottom plate (13), the upper ends of the partition columns (12) are fixed on the top plate (11) on the periphery of the positioning holes (111), the lower ends of the partition columns (12) are fixed on the bottom plate (13), and the partition columns (12) are arrayed on the top plate (11) or the bottom plate (13) in a rectangular mode; guide strips (132) are formed on two side edges of the bottom plate (13); the base (2) comprises a rectangular bearing plate (21), a plurality of channel steels (22) are fixed on the lower end face of the bearing plate (21), and slots (a) are formed among the channel steels (22); convex strips (211) are formed on two sides of the upper end face of the bearing plate (21), and clamping grooves (212) penetrating through the side wall of one end of each convex strip (211) are formed on the inner side walls of the convex strips (211); the guide strip (132) on the positioning material frame (1) is inserted into the clamping groove (212) of the base (2), and a T-shaped handle (14) is fixed on the side edge of the bottom plate (13) close to one side of the notch of the clamping groove (212) on the convex strip (211).

2. The material placing frame for scrapped stators of claim 1, wherein: the thickness of the bottom plate (13) is equal to the width of the clamping groove (212), and the length of the bottom plate (13) is smaller than that of the clamping groove (212).

3. The material placing frame for scrapped stators as claimed in claim 2, wherein: the lower bottom surface of the clamping groove (212) on the bearing plate (21) is flush with the upper end surface of the bearing plate (21).

4. The material placing frame for scrapped stators of claim 1, wherein: the handle (14) on the positioning material frame (1) is exposed out of the side wall of the bearing plate (21) on the base (2).

5. The material placing frame for scrapped stators of claim 1, wherein: one end of the convex strip (211) on the bearing plate (21), which deviates from the notch of the clamping groove (212), is connected with a lifting ring (23) in a threaded manner, a steel wire rope (24) is arranged between the lifting rings (23), and two ends of the steel wire rope (24) are fixed on the lifting rings (23).

6. The material placing frame for scrapped stators of claim 1, wherein: the separating columns (12) are located in the middle of the side edge of each side of the positioning hole (111), the cross sections of the separating columns (12) are circular, and the diameter of each separating column (12) is equal to the distance between every two adjacent positioning holes (111) in the top plate (11).

7. The material placing frame for scrapped stators of claim 1, wherein: channel-section steel (22) be equipped with three at least, the length of channel-section steel (22) is greater than the width of bearing board (21), the length of channel-section steel (22) is not more than the length of bearing board (21).

Technical Field

The invention relates to the technical field of motor assembling devices, in particular to a material placing frame for a scrapped stator.

Background

The stator and the rotor are important components of the motor, the stator consists of a stator core and a wire group on the stator, and in the production process of the stator, the procedures of punching slot bottom paper, loading a main wire group, primary shaping, loading isolation paper, loading an auxiliary wire group, reshaping, connecting an external terminal, binding a wire, final shaping, measuring pressure and the like are required. The scrapped stators cannot be avoided in the production process, the scrapped stators need to be orderly stacked on the turnover vehicle after the wire groups are removed, then the scrapped stator cores on the turnover vehicle are transferred to a scrapped placement area, and the stators still need to be orderly stacked after the stators rotate to the scrapped area, wherein the orderly stacking can be realized by differently placing more stator cores during scrapping; secondly, the cleanliness of the workshop is improved, and the environment of the workshop is improved; but the stacking work is more physical; there is a need for a material frame or transfer cart that facilitates stacking.

Disclosure of Invention

The invention aims to provide a material placing frame for scrapped stators, which is convenient for placing and neatly stacking scrapped stator cores in the material placing frame and neatly transferring the stator cores in the material placing frame to a scrapped placing area.

In order to achieve the purpose, the technical scheme adopted by the invention is as follows:

a material placing frame for scrapped stators comprises a positioning material frame and a base, wherein the positioning material frame comprises a top plate, partition columns and a bottom plate, a plurality of rectangular positioning holes are formed in the top plate and are arrayed on the top plate in a rectangular mode, a plurality of through holes opposite to the positioning holes of the top plate are formed in the bottom plate, the upper ends of the partition columns are fixed on the top plate on the periphery of the positioning holes, the lower ends of the partition columns are fixed on the bottom plate, and the partition columns are arrayed on the top plate or the bottom plate in a rectangular mode; guide strips are formed on two side edges of the bottom plate; the base comprises a rectangular bearing plate, a plurality of channel steels are fixed on the lower end face of the bearing plate, and slots are formed among the channel steels; convex strips are formed on two sides of the upper end surface of the bearing plate, and clamping grooves penetrating through the side wall of one end of each convex strip are formed on the inner side walls of the convex strips; the guide strip on the positioning material frame is inserted in the clamping groove of the base, and a T-shaped handle is fixed on the side edge of the bottom plate close to one side of the notch of the clamping groove on the raised strip.

Preferably, the thickness of the bottom plate is equal to the width of the clamping groove, and the length of the bottom plate is smaller than that of the clamping groove.

Preferably, the lower bottom surface of the clamping groove on the bearing plate is flush with the upper end surface of the bearing plate.

Preferably, the upper handle of the positioning material frame is exposed out of the side wall of the supporting plate on the base.

Preferably, one end of the supporting plate, which is provided with the convex strip and deviates from the notch of the clamping groove, is connected with a lifting ring in a threaded manner, a steel wire rope is arranged between the lifting rings, and two ends of the steel wire rope are fixed on the lifting rings.

Preferably, the separation columns are located in the middle of the side edges of each side of the positioning holes, the cross sections of the separation columns are circular, and the diameters of the separation columns are equal to the distance between adjacent positioning holes in the top plate.

Preferably, the channel steel is at least three, the length of the channel steel is greater than the width of the bearing plate, and the length of the channel steel is not greater than the length of the bearing plate.

The invention has the beneficial effects that: the scrapped stator iron cores are neatly stacked in the material placing frame, and the stator iron cores in the material placing frame are neatly transferred to a scrapped placing area.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic cross-sectional view of the present invention in a top view;

FIG. 3 is a schematic perspective view of a positioning frame according to the present invention;

fig. 4 is a schematic perspective view of the base of the present invention.

In the figure: 1. positioning a material frame; 11. a top plate; 111. positioning holes; 12. separating the columns; 13. a base plate; 131. perforating; 132. a guide strip; 14. a handle; 2. a base; 21. a support plate; 211. a convex strip; 212. a card slot; 22. channel steel; 23. a hoisting ring; 24. a steel cord.

Detailed Description