CN208929729U - A kind of tooling for wheel hub oblique surface machining - Google Patents

Abstract

The utility model discloses a kind of tooling, especially a kind of tooling for wheel hub oblique surface machining belongs to wheel hub processing unit (plant) technical field；The device includes for assembling transition mould to be processed, and for the pedestal as support, the top surface which is used to assemble excessive mould is inclined-plane, and the workpiece to be added is by transition mould fixing assembling on pedestal；The problem for the current wheel hub oblique surface machining hardly possible that a kind of tooling for wheel hub oblique surface machining of the utility model solves, pass through the carry out inclined design to tooling base, and using transition mould as the direct component of assembly wheel hub, the versatility of entire tooling can be effectively improved, which can also make wheel hub have more stable clamping effect after mounting.

Description

A kind of tooling for wheel hub oblique surface machining

Technical field

The utility model relates to a kind of tooling, especially a kind of tooling for wheel hub oblique surface machining belongs to wheel hub processing Engineering device technique field.

Background technique

Wheel hub inclined-plane tooling processes an important factor for wheel hub inclined-plane, in the design of tooling, on the one hand needs inclined-plane tooling With enough intensity, guarantee with good stability during processing wheel hub inclined-plane；On the other hand inclined-plane work is needed again Accuracy, the interchangeability of datum level of the datum mark of dress guarantee the consistency of three inclined-plane of polymorphic type wheel hub in process.

Summary of the invention

The goal of the invention of the utility model is: in view of the above problems, providing a kind of for wheel hub oblique surface machining Tooling, there is accuracy, interchangeability, and have the effect of sufficient intensity, can effectively solve the problem that current wheel hub oblique surface machining Difficulty.

The technical solution adopted in the utility model is as follows:

A kind of tooling for wheel hub oblique surface machining including for assembling transition mould to be processed, and is used for conduct The pedestal of support, the top surface which is used to assemble excessive mould is inclined-plane, which passes through transition mould fixing assembling In on pedestal.A kind of tooling for wheel hub oblique surface machining of the utility model is realized using the design of transition mould improves clamping In addition the versatility of device and can effectively meet workpiece to be added by the design method that tool structure is inclined-plane and assemble It is more reasonable assembly method when the process processed afterwards.

Further, which is round plate body, and the plate face which is used to assemble workpiece to be added is provided with First positioning annular convex platform.The design method preferably assembles effect to realize.

Further, the transition mould and the plate face of pedestal assembly are provided with the second positioning annular convex platform used for positioning, It is provided on the pedestal and the matched positioning annular groove of second boss.

Further, which is located at the inside of workpiece to be added, and with workpiece inside bottom surface phase to be added Cooperation.

Further, be additionally provided between the workpiece to be added and transition mould multiple groups be conducive to assembly the first positioning mechanism with Making workpiece to be added is not in relative circumferential displacement on transition mould.

Further, it is provided with multiple groups between the transition mould and pedestal and is conducive to the second positioning mechanism of assembly so that transition Mould is not in relative circumferential displacement on pedestal.

Further, first positioning mechanism and the second positioning mechanism are connecting pin, and the first positioning mechanism is assemblied in Between workpiece to be added and transition mould, the second positioning mechanism is assemblied between transition mould and pedestal.

Further, first positioning mechanism and the second positioning mechanism at least have 2.The design method can be effective The problem of guarantee is not in relative rotation.

Further, workpiece to be added, transition mould and pedestal pass through multiple groups bolt fixing assembling.

It further, further include at least 3 groups cushion blocks for being used for adjustment base gradient, the thickness of every group of cushion block is incremented by step by step, The bevel direction that it is formed is consistent with the bevel direction of pedestal.Improve the versatility of work.

In conclusion by adopting the above-described technical solution, the beneficial effects of the utility model are:

The problem for the current wheel hub oblique surface machining hardly possible that a kind of tooling for wheel hub oblique surface machining of the utility model solves, It, can be effective by the carry out inclined design to tooling base, and using transition mould as the direct component of assembly wheel hub The entire tooling of raising versatility, which can also make wheel hub have more stable clamping effect after mounting Fruit.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the utility model；

Fig. 2 is the structural schematic diagram of base vertical view；

Fig. 3 is the structural schematic diagram of transition mould top view；

Fig. 4 is the utility model schematic cross-section；

Fig. 5 is the enlarged structure schematic diagram at the utility model A.

Marked in the figure: 1- workpiece to be added, 2- transition mould, 3- pedestal, 4- first position annular convex platform, the second positioning ring of 5- Shape boss, 6- position annular groove, 7- connecting pin, 8- cushion block, 9- groove, 10- reinforcing rib.

Specific embodiment

With reference to the accompanying drawing, the utility model is described in detail.

In order to make the purpose of the utility model, technical solutions and advantages more clearly understood, below in conjunction with attached drawing and implementation Example, the present invention will be further described in detail.It should be appreciated that specific embodiment described herein is only used to explain The utility model is not used to limit the utility model.

Embodiment

A kind of tooling for wheel hub oblique surface machining, as Figure 1-Figure 4, including the transition for assembling workpiece 1 to be added Mould 2, and for the pedestal 3 as support, the top surface which is used to assemble excessive mould is inclined-plane, the workpiece 1 to be added By 2 fixing assembling of transition mould on pedestal 3.

In the present embodiment, according to the model of the size selection transition mould of workpiece to be added, transition mould is assemblied in pedestal On, it is assemblied on transition mould by workpiece to be added, then assembly is fixed in workpiece to be added, transition mould and pedestal, with Positioning assembly when work pieces process to be added is realized, to effectively realize high-precision oblique surface machining.As more specifical, In this implementation, which is wheel hub, and required processing is wheel hub inclined-plane.Due to being processing inclined-plane, in actual processing During, it needs to carry out plane machining, and take the design method that so that workpiece to be added is carried out in assembling process It finds positioning accurately, realizes accurate processing.

As more specifical, in the design principle based on above-mentioned specific embodiment, in another specific implementation embodiment party In formula, which is round plate body, and the plate face which is used to assemble workpiece to be added is provided with the first positioning annular Boss 4.Since as wheel hub, the wheel hub in the present embodiment is three face through-holes, and the design of circular hole is used mainly to be applied to fill With effect.

In design principle based on above-mentioned specific embodiment, in another specific embodiment, the transition mould 2 and bottom The plate face of seat assembly is provided with the second positioning annular convex platform 5 used for positioning, is provided on the pedestal matched with second boss Position annular groove 6.The design of which can effectively ensure that the effect of assembly, especially in the effect to inclined-plane centering more Has effect.The second circular orientation boss structure design on, in specific embodiment, the second boss be positioned at The endless belt of transition mould outer layer, just face is high for the relatively transition mould of the endless belt.

In design principle based on above-mentioned specific embodiment, in another specific embodiment, the first positioning annular Boss 4 is located at the inside of workpiece to be added, and matches with workpiece inside bottom surface to be added.In the structure of design, one can be used The raised line of annular is to form the first annular boss.Certainly in as the design of this programme, the annular convex platform are as follows: assembly generation Transition mould surface location where workpiece is lower than the position on the transition table top surface of inside.

In design principle based on above-mentioned specific embodiment, in another specific embodiment, as more specifical, It is additionally provided with multiple groups between the workpiece to be added and transition mould and is conducive to the first positioning mechanism assembled so that workpiece to be added is in transition It is not in relative circumferential displacement on mould.In the design of structure, workpiece to be added and mistake are realized using the first positioning mechanism Cross the assembly between mould.

Certainly, as more specifical design, in another specific embodiment, it is arranged between the transition mould and pedestal There are multiple groups to be conducive to the second positioning mechanism of assembly so that transition mould is not in relative circumferential displacement on pedestal.

In design principle based on above-mentioned specific embodiment, in another specific embodiment, as more specifical, First positioning mechanism and the second positioning mechanism are connecting pin 7, and the first positioning mechanism is assemblied in workpiece to be added and transition tire Between tool, the second positioning mechanism is assemblied between transition mould and pedestal.As specific design, set in the bottom of workpiece to be added It is equipped with first positioning hole, a pair of of second location hole is provided on transition mould, third positioning is provided on pedestal, one of them the Two location holes are cooperated by connecting pin and first positioning hole, another second location hole is matched by connecting pin and third location hole It closes.As more specifical, first positioning mechanism and the second positioning mechanism at least have 2.As more specifical, this One positioning mechanism and the second positioning mechanism distinguish 3, and circumference array is distributed.

As more specifical design, in another specific embodiment, it is additionally provided on the pedestal and is installed for pedestal The groove 9 of positioning.And the pedestal is bolted on bottom surface.Shank of bolt is fixed on top surface, and the otic placode on pedestal, It is fastened and is positioned by nut again.

In design principle based on above-mentioned specific embodiment, in another specific embodiment, workpiece 1 to be added, transition Mould 2 and pedestal 3 pass through multiple groups bolt fixing assembling.As more specifical, as shown in figure 5, the bottom of the workpiece to be added It is provided with first through hole, the second through-hole corresponding with first through hole is provided on transition mould, is provided with threaded hole on pedestal, is led to It crosses and matches fastening with threaded hole after first through hole and the second through-hole.Certainly, as specific design, the top of the bolt with Pressing plate is additionally provided between workpiece to be added.The multiple groups bolt circle array distribution.Specifically, the bolt is 3 groups.

As more specifical, first positioning mechanism, the second positioning mechanism and bolt are located in same radius.Benefit Quickly assembly and fastening effect are realized with which.

It further include at least 3 groups of use in another specific embodiment in design principle based on above-mentioned specific embodiment In the cushion block 8 of adjustment base gradient, the thickness of every group of cushion block is incremented by step by step, the bevel direction of the bevel direction and pedestal that are formed Unanimously.As shown, the cushion block holds increase thickness gradually from front end backward.More and specifically, the cushion block 8 is gradient pad Block.In the fit on of cushion block, mounting groove can be set on the bottom surface and bottom surface of pedestal, after cushion block places, pacify by pedestal It is put on plot and carries out fastening assembly.And in the design, mainly use 3 groups of cushion blocks.Spaced set between every group, Also spaced set between every group of cushion block is arranged between every group by the way of parallel.As more specifical, the pedestal Lower section is additionally provided with reinforcing rib 10.The reinforcing rib is made of bullion material.The reinforcing rib simultaneously forms frame structure.

In conclusion the current wheel hub oblique surface machining that a kind of tooling for wheel hub oblique surface machining of the utility model solves Difficult problem, by the carry out inclined design to tooling base, and using transition mould as the direct component for assembling wheel hub, Can effectively improve the versatility of entire tooling, the design method can also make wheel hub have after mounting it is more stable Clamping effect.

The above is only the preferred embodiment of the utility model only, is not intended to limit the utility model, all at this Made any modifications, equivalent replacements, and improvements etc., should be included in the utility model within the spirit and principle of utility model Protection scope within.

Claims (10)

1. a kind of tooling for wheel hub oblique surface machining, it is characterised in that: including the transition mould for assembling workpiece to be added (1) (2), and for the pedestal (3) as support, the top surface which is used to assemble excessive mould is inclined-plane, this is to be processed Part (1) is by transition mould (2) fixing assembling on pedestal (3).

2. a kind of tooling for wheel hub oblique surface machining as described in claim 1, it is characterised in that: the transition mould (2) is Round plate body, the plate face which is used to assemble workpiece to be added are provided with the first positioning annular convex platform (4).

3. a kind of tooling for wheel hub oblique surface machining as claimed in claim 2, it is characterised in that: the transition mould (2) with The plate face of pedestal assembly is provided with the second positioning annular convex platform (5) used for positioning, is provided with and second boss on the pedestal The positioning annular groove (6) matched.

4. a kind of tooling for wheel hub oblique surface machining as claimed in claim 2, it is characterised in that: the first positioning convex annular Platform (4) is located at the inside of workpiece to be added, and matches with workpiece inside bottom surface to be added.

5. a kind of tooling for wheel hub oblique surface machining as described in claim 1, it is characterised in that: the workpiece to be added and transition It is additionally provided with multiple groups between mould and is conducive to the first positioning mechanism of assembly so that workpiece to be added is not in phase on transition mould To circumferential displacement.

6. a kind of tooling for wheel hub oblique surface machining as claimed in claim 5, it is characterised in that: the transition mould and pedestal Between be provided with multiple groups be conducive to assembly the second positioning mechanism so that transition mould be not on pedestal relative circumferential displacement.

7. a kind of tooling for wheel hub oblique surface machining as claimed in claim 6, it is characterised in that: first positioning mechanism It is connecting pin (7) with the second positioning mechanism, the first positioning mechanism is assemblied between workpiece to be added and transition mould, the second positioning Mechanism is assemblied between transition mould and pedestal.

8. a kind of tooling for wheel hub oblique surface machining as claimed in claim 6, it is characterised in that: first positioning mechanism and Second positioning mechanism at least has 2.

9. a kind of tooling for wheel hub oblique surface machining as described in claim 1, it is characterised in that: workpiece (1) to be added, transition Mould (2) and pedestal (3) pass through multiple groups bolt fixing assembling.

10. a kind of tooling for wheel hub oblique surface machining as described in claim 1, it is characterised in that: further include at least 3 groups of use In the cushion block (8) of adjustment base gradient, the thickness of every group of cushion block is incremented by step by step, the inclined-plane side of the bevel direction and pedestal that are formed To consistent.