CN219562232U - Multi-procedure horizontal-adding integrated tool for motor front end cover - Google Patents

Abstract

The utility model relates to machining, in particular to a multi-procedure horizontal machining integrated tool for a motor front end cover, which comprises a base, wherein the base is suitable for being clamped on a working table plate of a horizontal machining center, and unlike the prior art, two sides of the base are fixedly connected with a first vertical plate and a second vertical plate respectively, the top ends of the first vertical plate and the second vertical plate are fixedly connected with a top plate, the first vertical plate clamps the motor front end cover and is suitable for machining an inner end face and a bearing hole of the motor front end cover, the second vertical plate clamps the motor front end cover and is suitable for machining an outer end face and a shaft hole of the motor front end cover, and the top plate clamps the motor front end cover and is suitable for machining a mounting hole on the motor front end cover. Compared with the prior art, the utility model can clamp 3 motor front end covers at a time, and can respectively process three processing procedures of the 3 motor front end covers through the horizontal processing center without repeated clamping, thereby greatly improving the clamping efficiency and the processing efficiency.

Description

Multi-procedure horizontal-adding integrated tool for motor front end cover

Technical Field

The utility model relates to machining, in particular to a multi-procedure horizontal-adding integrated tool for a front end cover of a motor.

Background

The front end cover of the motor is a key part of the motor, and the blank is a casting with special shape. In the prior art, at least three different procedures are needed for clamping respectively: machining the inner end face and the central hole, machining the outer end face and the central hole, and machining the side face and the plurality of radial holes. Because of the need of multiple clamping, the loading and unloading are labor-consuming and have low efficiency.

Disclosure of Invention

In order to overcome the defects or one of the defects in the prior art, the utility model discloses a multi-procedure horizontal-adding integrated tool for a front end cover of a motor, which adopts the following technical scheme:

the utility model provides a motor front end housing multi-process crouches and adds integrative frock, including the base, the base is suitable for the clamping on horizontal machining center's work platen, unlike prior art, the both sides of base rigid coupling riser one and riser two respectively, riser one and riser two's top rigid coupling roof, riser one clamping motor front end housing is suitable for processing motor front end housing's interior terminal surface and bearing hole, riser two clamping motor front end housings is suitable for processing motor front end housing's outer terminal surface and shaft hole, roof clamping motor front end housing is suitable for processing motor front end housing's mounting hole.

Further, a profiling hole is formed in the middle of the first vertical plate, the profile of the profiling hole is similar to that of the first vertical plate outside the profiling hole so as to accommodate partial embedding of the first motor end cover, the bottom wall of the profiling hole is abutted against the outer end face of the first motor end cover, a circular middle hole I for accommodating penetration of a convex ring gap of the first motor end cover is formed in the bottom wall of the profiling hole, a positioning pin is arranged on the bottom wall of the profiling hole corresponding to one mounting hole of the first motor end cover, the positioning pin can be inserted into the mounting hole, three caulking grooves are formed in the first vertical plate outside the profiling hole, 3 pressing plates are fixedly connected in the three caulking grooves respectively, and the pressing plates abut against the side face of the first motor end cover.

Further, the depth of the profiling hole is smaller than the thickness of the motor front end cover, and the profiling hole is in clearance fit with the side face of the motor front end cover.

Further, the three caulking grooves are uniformly distributed along the circumferential direction of the first hole in the circle.

Further, the inner ends of the 3 pressing plates profile the corresponding side surfaces of the front end cover of the motor.

Further, a round middle hole II is formed in the middle of the second vertical plate, 3 through holes corresponding to the 3 screw holes in the front end cover of the motor are formed in the second vertical plate outside the round middle hole II, the inner end surface of the front end cover of the motor is abutted to the outer surface of the second vertical plate, and the 3 fastening screws penetrate through the through holes and are in threaded connection with the 3 screw holes of the front end cover of the motor.

Further, those 3 screw holes corresponding to the 3 through holes are not adjacent to each other.

Further, the upper surface rigid coupling bed hedgehopping piece of roof, the contour of bed hedgehopping piece does not surpass the contour of motor front end housing, and the circle centre groove that the bulge loop clearance that holds the motor front end housing got into is offered at bed hedgehopping piece middle part, and the outer terminal surface butt bed hedgehopping piece's of motor front end housing upper surface, axial fastening screw pass through the through-hole and the bed hedgehopping piece spiro union that the pressure disk middle part was offered, and at least one circumference locating pin or circumference set screw pass the axial mounting hole and the bed hedgehopping piece rigid coupling on the motor front end housing.

Further, the contours of the elevating block and the pressure plate do not exceed the minimum contour of the front end cover of the motor.

Compared with the prior art, the utility model can clamp 3 motor front end covers at a time, and can respectively process three processing procedures of the 3 motor front end covers through the horizontal processing center without repeated clamping, thereby greatly improving the clamping efficiency and the processing efficiency.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below.

FIG. 1 is a schematic view of the structure of the present utility model after the platen is hidden.

Fig. 2 is a schematic diagram of a rear structure of the front end cover of the 3-motor.

Fig. 3 is a schematic view of the structure of fig. 2 from another view angle.

Fig. 4 is a schematic elevational view of the structure of fig. 2.

Fig. 5 is a cross-sectional view at A-A in fig. 4.

Fig. 6 is a cross-sectional view at C-C in fig. 4.

Detailed Description

The utility model is further described below with reference to the accompanying drawings.

In the description of the present utility model, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

In the description of the present utility model, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected, mechanically connected, electrically connected, directly connected, indirectly connected via an intervening medium, or connected internally of two elements. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

The multi-process horizontal machining integrated tool for the motor front end cover as shown in fig. 1-6 comprises a base 1, wherein the base 1 is suitable for being clamped on a workbench plate of a horizontal machining center, two sides of the base 1 are fixedly connected with a first vertical plate 2 and a second vertical plate 3 respectively, top ends of the first vertical plate 2 and the second vertical plate 3 are fixedly connected with a top plate 4, the first vertical plate 2 clamps the motor front end cover 100 and is suitable for machining an inner end face and a bearing hole of the motor front end cover 100, the second vertical plate 3 clamps the motor front end cover 100 and is suitable for machining an outer end face and a shaft hole of the motor front end cover 100, and the top plate 4 clamps the motor front end cover 100 and is suitable for machining a mounting hole on the motor front end cover 100.

The middle part of the first vertical plate 2 is provided with a profiling hole 21, the profile of the profiling hole 21 is similar to that of the front motor end cover 100 so as to accommodate partial embedding of the front motor end cover 100, the bottom wall of the profiling hole 21 is in butt joint with the outer end surface of the front motor end cover 100, the bottom wall of the profiling hole 21 is provided with a circular middle hole I22 which is penetrated by a convex ring gap of the front motor end cover 100, the bottom wall of the profiling hole 21 corresponding to one mounting hole of the front motor end cover 100 is provided with a positioning pin 23, the positioning pin 23 can be inserted into the mounting hole, the first vertical plate 2 at the outer side of the profiling hole 21 is provided with three caulking grooves 24, 3 pressing plates are fixedly connected to the three caulking grooves 24 respectively and are propped against the side surface of the front motor end cover 100. The depth of the profiling hole 21 is smaller than the thickness of the motor front end cover 100, and the profiling hole 21 is in clearance fit or transition fit with the side surface of the motor front end cover 100. The three caulking grooves 24 are uniformly distributed along the circumference of the circular center hole one 22. The inner ends of the 3 pressing plates profile the corresponding sides of the motor front end cover 100.

The middle part of the second vertical plate 3 is provided with a second circular middle hole 31, the second vertical plate 3 outside the second circular middle hole 31 is provided with 3 through holes 32 corresponding to 3 screw holes in the motor front end cover 100, the inner end surface of the motor front end cover 100 is abutted with the outer surface of the second vertical plate 3, and 3 fastening screws penetrate through the through holes 32 and are in threaded connection with the 3 screw holes of the motor front end cover 100. Those 3 screw holes corresponding to the 3 through holes 32 are not adjacent to each other.

The upper surface rigid coupling bed hedgehopping piece 5 of roof 4, the contour of bed hedgehopping piece 5 does not surpass the contour of motor front end housing 100, and the circle centre groove 51 that holds the bulge loop clearance entering of motor front end housing 100 is offered at bed hedgehopping piece 5 middle part, and the outer terminal surface butt bed hedgehopping piece 5's of motor front end housing 100 upper surface, axial fastening screw pass through the through-hole that platen 6 middle part was offered and bed hedgehopping piece 5 spiro union, and at least one circumference locating pin or circumference set screw pass the axial mounting hole on the motor front end housing 100 and bed hedgehopping piece 5 rigid coupling. The contours of the elevating block 5 and the pressure plate 6 do not exceed the minimum contour of the motor front end cover 100.

The front end cover of the motor clamped in the middle of the first vertical plate 2 can be processed into a central hole and an inner end surface through a horizontal processing center, and the process is a first process; the front end cover of the motor clamped in the middle of the second vertical plate 3 can be processed into a central hole and an outer end surface through a horizontal processing center, and the second process is a step II; the front end cover of the motor clamped in the middle of the top plate 4 can be processed into side surfaces and radial holes through a horizontal processing center, and the step three is a step; the fixture can clamp 3 motor front end covers at one time, and can respectively process three processing procedures of the 3 motor front end covers through the horizontal processing center, multiple clamping is not needed, and the clamping efficiency and the processing efficiency are greatly improved.

The present utility model is not described in detail in the prior art or common general knowledge in the art.

Claims (9)

1. The utility model provides a motor front end housing multi-process crouches and adds integrative frock, including base (1), base (1) are suitable for the clamping on horizontal machining center's work platen, its characterized in that, the both sides of base (1) rigid coupling riser one (2) and riser two (3) respectively, riser one (2) and riser two (3) top rigid coupling roof (4), riser one (2) clamping motor front end housing (100) are suitable for interior terminal surface and the bearing hole of processing motor front end housing (100), riser two (3) clamping motor front end housing (100) are suitable for the outer terminal surface and the shaft hole of processing motor front end housing (100), roof (4) clamping motor front end housing (100) are suitable for the mounting hole on the processing motor front end housing (100).

2. The multi-process horizontal machining integrated tool for the motor front end cover according to claim 1 is characterized in that a profiling hole (21) is formed in the middle of a first vertical plate (2), the profile of the profiling hole (21) is similar to that of a first vertical plate (100) to accommodate partial embedding of the motor front end cover (100), the bottom wall of the profiling hole (21) is abutted against the outer end face of the motor front end cover (100), a circular middle hole I (22) for accommodating penetration of a convex ring gap of the motor front end cover (100) is formed in the bottom wall of the profiling hole (21) corresponding to one mounting hole of the motor front end cover (100), a positioning pin (23) is arranged on the bottom wall of the profiling hole (21) of the corresponding motor front end cover (100), three caulking grooves (24) are formed in the first vertical plate (2) on the outer side of the profiling hole (21), and 3 pressing plates are fixedly connected in the three caulking grooves (24) respectively and abut against the side face of the motor front end cover (100).

3. The multi-process horizontal machining integrated tool for the motor front end cover according to claim 2, wherein the depth of the profiling hole (21) is smaller than the thickness of the motor front end cover (100), and the profiling hole (21) is in clearance fit with the side face of the motor front end cover (100).

4. The multi-process horizontal machining integrated tool for the front end cover of the motor according to claim 2, wherein three caulking grooves (24) are uniformly distributed along the circumference of the round center hole I (22).

5. The multi-process horizontal machining integrated tool for the motor front end cover according to claim 2, wherein the inner ends of the 3 pressing plates are contoured to the corresponding side surfaces of the motor front end cover (100).

6. The multi-process horizontal machining integrated tool for the motor front end cover of claim 1, wherein a round middle hole II (31) is formed in the middle of a vertical plate II (3), 3 through holes (32) corresponding to 3 screw holes in the motor front end cover (100) are formed in the vertical plate II (3) on the outer side of the round middle hole II (31), the inner end face of the motor front end cover (100) is abutted to the outer face of the vertical plate II (3), and 3 fastening screws penetrate through the through holes (32) and are then in threaded connection with the 3 screw holes in the motor front end cover (100).

7. The multi-process horizontal machining integrated tool for the front end cover of the motor according to claim 6, wherein the 3 screw holes corresponding to the 3 through holes (32) are not adjacent to each other.

8. The multi-process horizontal machining integrated tool for the front end cover of the motor according to claim 1, wherein the upper surface of the top plate (4) is fixedly connected with a heightening block (5), the outline of the heightening block (5) does not exceed the outline of the front end cover (100) of the motor, a circular middle groove (51) for accommodating a convex ring gap of the front end cover (100) of the motor is formed in the middle of the heightening block (5), the outer end face of the front end cover (100) of the motor is abutted against the upper surface of the heightening block (5), an axial fastening screw penetrates through a through hole formed in the middle of a pressure plate (6) to be in threaded connection with the heightening block (5), and at least one circumferential positioning pin or a circumferential positioning screw penetrates through an axial mounting hole in the front end cover (100) of the motor to be fixedly connected with the heightening block (5).

9. The multi-process horizontal machining integrated tool for the front end cover of the motor according to claim 1, wherein the outlines of the heightening block (5) and the pressure plate (6) do not exceed the minimum outline of the front end cover (100) of the motor.