CN217775684U - Combined tool for processing brake caliper - Google Patents

Abstract

The utility model relates to a braking pincers technical field provides a gang tool is used in braking pincers processing, include: a shank having opposing machining and shank ends; the oil storage groove cutter is formed at the machining end and used for machining an oil storage groove of the brake caliper; the sealing groove cutter is formed at the machining end and used for machining a sealing groove of the brake caliper; the oil storage tank cutter and the sealing groove cutter are sequentially arranged along the direction of the processing end pointing to the handle end; the distance between the oil storage tank cutter and the sealing groove cutter along the axial direction of the cutter handle is matched with the distance between the oil storage tank and the sealing groove along the axial direction of the brake caliper. The utility model discloses a gang tool is used in braking pincers processing, the integration has oil storage tank cutter and seal groove cutter, not only can improve the machining efficiency of braking pincers, improves product production efficiency, can reduce the cutter cost moreover, and energy saving consumes, satisfies and falls this energy-conserving production demand.

Description

Combined tool for processing brake caliper

Technical Field

The utility model belongs to the technical field of braking pincers technique and specifically relates to a gang tool is used in braking pincers processing.

Background

The brake caliper is an important part of an automobile, and the processing efficiency and the cost of the brake caliper have important influence on the automobile manufacturing industry.

The processing process of the brake caliper comprises milling of slotted holes such as an oil storage groove and a sealing groove in the caliper body. At present, different machining tools are required to be used for machining aiming at an oil storage tank and a sealing groove, machining efficiency is delayed, tool cost is increased, and the production requirement for reducing cost and saving energy cannot be met.

It is to be noted that the information disclosed in the above background section is only for enhancement of understanding of the background of the present invention and therefore may include information that does not constitute prior art known to a person of ordinary skill in the art.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides a gang tool is used in braking pincers processing, the integration has oil storage tank cutter and seal groove cutter, not only can improve the machining efficiency of braking pincers, improves product production efficiency, can reduce the cutter cost moreover, and energy saving consumes, satisfies and falls this energy-conserving production demand.

According to the utility model discloses an aspect provides a gang tool is used in processing of brake caliper, include: a shank having opposing machining and shank ends; the oil storage groove cutter is formed at the machining end and used for machining an oil storage groove of the brake caliper; the sealing groove cutter is formed at the machining end and used for machining a sealing groove of the brake caliper; the oil storage tank cutter and the sealing groove cutter are sequentially arranged along the direction of the processing end pointing to the handle end; the distance between the oil storage groove cutter and the seal groove cutter along the axial direction of the tool handle is matched with the distance between the oil storage groove and the seal groove along the axial direction of the brake caliper.

According to the combined cutter for machining the brake caliper, the oil storage groove cutter and the sealing groove cutter are formed at the machining end of the cutter handle at the same time, so that the oil storage groove machining function and the sealing groove machining function are integrated, and the oil storage groove machining and the sealing groove machining of the brake caliper can be realized by one cutter; the oil storage groove cutter and the sealing groove cutter are sequentially arranged along the direction of the processing end of the cutter handle pointing to the handle end so as to be matched with the oil storage groove position and the sealing groove position of the brake caliper; and the axial distance along the handle of a knife between the oil storage tank cutter and the seal groove cutter is adapted to the axial distance along the brake caliper between the oil storage tank and the seal groove, so that the oil storage tank and the seal groove of the brake caliper can be accurately and efficiently machined by the combined cutter integrated with the oil storage tank cutter and the seal groove cutter.

In some embodiments, the processing end is provided with a first cutter containing groove for embedding the oil storage groove cutter and a second cutter containing groove for embedding the sealing groove cutter; the oil storage tank cutter is detachably embedded in the first cutter containing groove, and the sealing groove cutter is detachably embedded in the second cutter containing groove.

The combined cutter for processing the brake caliper is used for stably embedding the oil storage groove cutter and the sealing groove cutter in the processing end of the cutter handle through the first cutter containing groove and the second cutter containing groove; and the oil storage tank cutter and the first cutter containing groove and the sealing groove cutter and the second cutter containing groove are detachable, so that the oil storage tank cutter and the sealing groove cutter which are matched with each other can be conveniently replaced according to brake caliper products with different model sizes.

In some embodiments, the combined tool for caliper machining further includes: the dustproof groove cutter is formed at the machining end and used for machining a dustproof groove of the brake caliper; the oil storage tank cutter, the sealing groove cutter and the dust-proof tank cutter are sequentially arranged along the direction of pointing the processing end to the handle end; the distance between the dust-proof groove cutter and the seal groove cutter along the axial direction of the tool handle is matched with the distance between the dust-proof groove and the seal groove along the axial direction of the brake caliper.

According to the combined cutter for machining the brake caliper, the oil storage groove machining function, the sealing groove machining function and the dust-proof groove machining function are integrated into a whole through the dust-proof groove cutter further formed at the machining end of the cutter handle, and the oil storage groove machining, the sealing groove machining and the dust-proof groove machining of the brake caliper can be realized through one cutter; the oil storage groove cutter, the sealing groove cutter and the dust-proof groove cutter are sequentially arranged along the direction of the processing end of the cutter handle pointing to the handle end so as to be matched with the oil storage groove position, the sealing groove position and the dust-proof groove position of the brake caliper; and the distance between the dust-proof groove cutter and the sealing groove cutter along the axial direction of the cutter handle is matched with the distance between the dust-proof groove and the sealing groove along the axial direction of the brake caliper, so that the combined cutter integrated with the oil storage groove cutter, the sealing groove cutter and the dust-proof groove cutter can accurately and efficiently realize the oil storage groove processing, the sealing groove processing and the dust-proof groove processing of the brake caliper.

In some embodiments, the processing end is provided with a third tool containing groove for embedding the dustproof groove tool; and the dustproof groove cutter is detachably embedded in the third cutter containing groove.

The combined cutter for processing the brake caliper is used for stably embedding the dustproof groove cutter at the processing end of the cutter handle through the third cutter containing groove; and the dustproof groove cutter and the third tool containing groove can be detached, so that the adaptive dustproof groove cutter can be conveniently replaced according to brake caliper products of different models and sizes.

In some embodiments, the seal groove cutter protrudes from the oil storage groove cutter in a radial direction of the tool shank, and the dust prevention groove cutter protrudes from the seal groove cutter.

According to the combined cutter for machining the brake caliper, the oil storage groove cutter, the sealing groove cutter and the dust-proof groove cutter protrude out in sequence along the radial direction of the cutter handle, and the oil storage groove, the sealing groove and the dust-proof groove are matched with the structural characteristics that the oil storage groove, the sealing groove and the dust-proof groove are sequentially extended outwards along the radial direction of the brake caliper, so that the oil storage groove, the sealing groove and the dust-proof groove are accurately machined on the brake caliper through the combined cutter integrated with the oil storage groove cutter, the sealing groove cutter and the dust-proof groove cutter.

In some embodiments, the oil pocket cutter, the seal pocket cutter, and the dust pocket cutter are milling cutter blades.

The combined cutter for processing the brake caliper adopts the milling cutter blade to form an oil storage groove cutter, a sealing groove cutter and a dust-proof groove cutter so as to mill the brake caliper.

In some embodiments, the handle includes a body portion and the handle end that are removably connected; the processing end is formed at the body part.

According to the combined tool for machining the brake caliper, the tool shank is detachably connected with the shank end through the body part, so that the body part with different machining ends can be replaced as required in different brake caliper product machining scenes, and the combined tool is suitable for machining brake caliper products of various models and sizes.

In some embodiments, the body portion has an embedded end opposite the machined end; the end surface of the embedded end is provided with an embedded part which extends axially, and the handle end is provided with an embedded groove for the embedded end and the embedded part to extend into; the embedded end and the embedding part are embedded and fixed in the embedding groove.

The combined cutter for processing the brake caliper is fixedly embedded in the embedding groove of the handle end through the embedding end and the embedding part of the body part, so that the body part is stably connected with the handle end; the embedding part is formed on the end face of the embedding end and extends along the axial direction, so that enough assembling and combining parts are ensured in the axial direction between the body part and the handle end, and the stable connection between the body part and the handle end is ensured.

Compared with the prior art, the utility model beneficial effect include at least:

the utility model discloses a gang tool for brake caliper processing collects oil storage groove cutter and seal groove cutter in an organic whole to can further integrate the dustproof groove cutter, realize the processing to the various slotted holes of brake caliper through a cutter promptly, not only can improve the machining efficiency of brake caliper, improve product production efficiency, shorten product processing time, but also can reduce the cutter cost, reduce the cutter quantity, energy saving consumption satisfies the production demand of reducing cost and energy saving;

furthermore, the utility model discloses a gang tool is used in braking pincers processing, the position looks adaptation of the setting of its oil storage tank cutter, seal groove cutter and dust-proof groove cutter and the oil storage tank of braking pincers, seal groove and dust-proof groove to can carry out oil storage tank processing, seal groove processing and dust-proof groove processing to braking pincers through gang tool accurately, satisfy product processing high quality requirement, ensure the processingquality of braking pincers.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the invention as claimed.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the invention and together with the description, serve to explain the principles of the invention. It is obvious that the drawings in the following description are only some embodiments of the invention, and that for a person skilled in the art, other drawings can be derived from them without inventive effort.

FIG. 1 shows a schematic construction of a brake caliper;

fig. 2 is a schematic structural view of a combined tool for processing a brake caliper according to an embodiment of the present invention;

FIG. 3 is a schematic structural diagram illustrating the combined tool for processing the brake caliper extending into the brake caliper according to the embodiment of the present invention;

fig. 4 shows a schematic structural diagram of the combined tool for machining a brake caliper according to the embodiment of the present invention.

The main reference numbers:

10. brake caliper

12. Oil storage tank

13. Sealing groove

14. Dustproof groove

20. Knife handle

200. Body part

21. Machining end

210. Embedded end

220. Inlaid portion

22. Handle end

30. Oil storage tank cutter

40. Seal groove cutter

50. Dustproof groove cutter

Detailed Description

Example embodiments will now be described more fully with reference to the accompanying drawings. Example embodiments may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the concept of example embodiments to those skilled in the art. The same reference numerals in the drawings denote the same or similar structures, and thus, a repetitive description thereof will be omitted.

The use of "first," "second," and similar terms in the detailed description is not intended to imply any order, quantity, or importance, but rather is used to distinguish one element from another. It should be noted that features of the embodiments and different embodiments of the present invention may be combined with each other without conflict.

Fig. 1 shows the structure of a brake caliper, in particular the caliper body structure of a brake caliper; referring to fig. 1, in a cylinder hole 11 of a brake caliper 10, a groove hole structure such as an oil storage groove 12, a seal groove 13, and a dust-proof groove 14 is formed, and by using the combined tool for brake caliper processing according to an embodiment of the present invention, it is possible to process the groove holes such as the oil storage groove 12, the seal groove 13, and the dust-proof groove 14 of the brake caliper 10 by one tool.

Fig. 2 shows a structure of a combined tool for brake caliper machining according to an embodiment of the present invention, and fig. 3 shows a structure in which the combined tool for brake caliper machining protrudes into a brake caliper; referring to fig. 1 to 3, a combined tool C for processing a brake caliper according to an embodiment of the present invention includes:

a shank 20 having opposite a machining end 21 and a shank end 22;

a reservoir cutter 30 formed at the machining end 21 for machining the reservoir 12 of the caliper 10;

a seal groove cutter 40 formed at the machining end 21 for machining the seal groove 13 of the brake caliper 10;

the reservoir cutter 30 and the seal groove cutter 40 point in the direction "z" of the shank end 22 along the machining end 21 ₁ ' successively setting;

the axial direction 'z' between the oil storage groove cutter 30 and the sealing groove cutter 40 along the cutter handle 20 ₁ "distance H ₁ Adapted between the oil reservoir 12 and the seal groove 13 in the axial direction "z" of the brake caliper 10 ₂ "distance H ₂ 。

In the combined tool C for brake caliper machining, the oil storage groove tool 30 and the seal groove tool 40 are formed at the machining end 21 of the holder 20 at the same time, and the combined tool C for brake caliper machining is used as a tool for machining a brake caliperThe machining function of the oil storage groove and the machining function of the sealing groove are integrated, and the machining of the oil storage groove 12 and the machining of the sealing groove 13 of the brake caliper 10 can be realized by one cutter; the reservoir cutter 30 and seal groove cutter 40 point in the direction "z" of the shank 20 from the machining end 21 to the shank end 22 ₁ ' are provided one after the other to adapt the position of the oil reservoir 12 and the position of the seal groove 13 of the caliper 10; and the space between the oil storage groove cutter 30 and the sealing groove cutter 40 along the axial direction 'z' of the cutter handle 20 ₁ "distance H ₁ Between the oil reservoir 12 and the seal groove 13 in the axial direction "z" of the brake caliper 10 ₂ "distance H ₂ Distance H ₁ In particular equal to the distance H ₂ Accordingly, the machining of the oil reservoir 12 of the brake caliper 10 and the machining of the seal groove 13 can be accurately and efficiently performed by the combination tool C for machining a brake caliper, which is integrated with the oil reservoir tool 30 and the seal groove tool 40.

In one embodiment, the machining end 21 is provided with a first pocket (not specifically shown in the drawings) for fitting the oil reservoir cutter 30 and a second pocket (not specifically shown in the drawings) for fitting the seal groove cutter 40; the oil reservoir cutter 30 is detachably fitted in the first pocket, and the seal groove cutter 40 is detachably fitted in the second pocket.

The oil storage groove cutter 30 and the sealing groove cutter 40 are stably embedded in the processing end 21 of the cutter handle 20 through the first cutter containing groove and the second cutter containing groove; and the oil storage groove cutter 30 and the first tool containing groove and the sealing groove cutter 40 and the second tool containing groove can be detached, so that the oil storage groove cutter 30 and the sealing groove cutter 40 which are matched with each other can be replaced according to brake caliper products of different model sizes.

In one embodiment, the combined tool for caliper machining C further includes: a dust groove cutter 50 formed at the machining end 21 for machining the dust groove 14 of the brake caliper 10; in the direction "z" in which the working end 21 points towards the shank end 22 ₁ ', the oil storage tank cutter 30, the sealing groove cutter 40 and the dust-proof tank cutter 50 are arranged in sequence; the axial direction 'z' of the tool shank 20 between the dust groove tool 50 and the seal groove tool 40 ₁ "distance H ₃ Between the adaptive dust-proof groove 14 and the sealing groove 13 along the axial direction "z" of the brake caliper 10 ₂ "distance H ₄ 。

The machining of the oil storage groove 12, the machining of the sealing groove 13 and the machining of the dust-proof groove 14 of the brake caliper 10 can be realized by one tool through the dust-proof groove tool 50 further formed at the machining end 21 of the tool shank 20, which integrates the machining functions of the oil storage groove, the sealing groove and the dust-proof groove; the reservoir cutter 30, seal groove cutter 40 and dust pocket cutter 50 are oriented in the direction "z" along the working end 21 of the shank 20 toward the shank end 22 ₁ ' are provided in order to fit the position of the oil reservoir 12, the position of the seal groove 13 and the position of the dust-proof groove 14 of the caliper 10; and the axial direction 'z' between the dust groove cutter 50 and the sealing groove cutter 40 along the cutter handle 20 ₁ "distance H ₃ The axial direction 'z' of the brake caliper 10 between the adaptive dust-proof groove 14 and the sealing groove 13 ₂ "distance H ₄ Distance H ₃ In particular equal to the distance H ₄ Accordingly, the machining of the oil reservoir 12, the machining of the seal groove 13, and the machining of the dust proof groove 14 of the caliper 10 can be accurately and efficiently performed by the combined tool C for caliper machining, which is integrated with the oil reservoir tool 30, the seal groove tool 40, and the dust proof groove tool 50.

In one embodiment, the machining end 21 is provided with a third tool loading slot (not specifically shown in the figures) for embedding the dust slot tool 50; the dust-proof pocket cutter 50 is detachably fitted in the third pocket.

Through the third tool loading groove, the dustproof groove tool 50 is stably embedded in the processing end 21 of the tool handle 20; and the dustproof groove cutter 50 and the third tool containing groove can be detached, so that the adaptive dustproof groove cutter 50 can be conveniently replaced according to brake caliper products of different models and sizes.

In one embodiment, in the radial direction "y" of the shank 20 ₁ ", the seal groove cutter 40 protrudes from the oil storage groove cutter 30, and the dust-proof groove cutter 50 protrudes from the seal groove cutter 40.

The oil sump cutter 30, the seal groove cutter 40 and the dust groove cutter 50 are located along the radial direction "y" of the shank 20 ₁ "projecting in sequence, able to adapt to the oil reservoir 12, the seal groove 13 and the dust groove 14 in the radial direction" y "of the brake caliper 10 ₂ The sequential outward expansion of the structural characteristics is realized by integrating an oil storage tank cutter 30, a sealing tank cutter 40 and a dustproof tankThe combined tool C for caliper machining of the tool 50 accurately machines the oil reservoir 12, the seal groove 13, and the dust seal groove 14 in the caliper 10.

In one embodiment, the reservoir cutter 30, the seal slot cutter 40, and the dust slot cutter 50 are milling cutter blades. The oil storage groove cutter 30, the seal groove cutter 40, and the dust-proof groove cutter 50 are formed using milling cutter blades, which can facilitate milling of the brake caliper 10.

In each of the above embodiments, the tool shank 20 includes the body portion 200 and the shank end 22 that are detachably connected; the processed end 21 is formed at the body portion 200.

The handle 20 is detachably connected with the handle end 22 through the body part 200, so that the body part 200 with different processing ends 21 can be replaced as required in different processing scenes of brake caliper products, and the brake caliper can be processed in various models and sizes.

In one embodiment, the body portion 200 has an embedded end 210 opposite the machined end 21; the end surface of the insert end 210 is formed with an axial extension (i.e., along the axial direction "z" of the shank 20) ₁ ") an insert portion 220, the shank end 22 being formed with an insert slot into which the insert end 210 and the insert portion 220 extend; insert end 210 and insert 220 are embedded in the insert groove.

The embedding end 210 and the embedding part 220 of the body part 200 are embedded in the embedding groove of the handle end 22, so that the body part 200 is stably connected with the handle end 22; the embedding end 210 and the corresponding part of the embedding groove can be in interference fit or threaded fit, and the embedding part 220 and the corresponding part of the embedding groove can be fixedly matched in a pin or thimble manner; and the insert 220 is formed on the end surface of the insert end 210 along the axial direction "z" of the shank 20 ₁ "extended" to ensure axial "z between the body portion 200 and the shank end 22 ₁ Sufficient fitting engagement portions are provided to ensure a stable connection between the body portion 200 and the grip end 22.

Fig. 4 shows a structure in which a combined tool for machining a caliper machines a caliper; next, the machining operation of the combined tool C for caliper machining will be described with reference to fig. 1 to 4.

Firstly, cutter preparation work: unloading original independent cutter equipment such as an oil storage tank machining cutter, a sealing groove machining cutter and the like from a tool magazine system; compiling a tool number for the combined tool C for processing the brake caliper, and recording the tool number into a tool magazine system; measuring data such as tool length tool compensation of the combined tool C for processing the brake caliper by using tool setting gauge equipment, recording the data into a tool magazine system, and inputting the tool compensation data into machine tool equipment; and correspondingly adjusting the numerical control machining program according to the combined tool C for machining the brake caliper and the brake caliper product to be machined.

Secondly, processing preparation work: referring to fig. 1, 2 and 3, the machine tool equipment is started, and the combined tool C for processing the brake caliper is controlled to extend from the center position of the cylinder hole 11 of the brake caliper 10 until the oil storage tank tool 30, the seal groove tool 40 and the dust prevention tank tool 50 reach the positions of the oil storage tank 12, the seal groove 13 and the dust prevention tank 14 to be processed.

Finally, as shown in fig. 1, 2 and 4, the combined tool C for brake caliper machining is controlled by the machine tool to perform circular interpolation in the clockwise direction "R", and the oil storage tank 12, the seal tank 13 and the dust-proof tank 14 are formed by milling with the oil storage tank tool 30, the seal tank tool 40 and the dust-proof tank tool 50, respectively, thereby completing the machining of the brake caliper 10.

To sum up, the utility model discloses a gang tool C is used in braking pincers processing possesses following beneficial effect:

the oil storage groove cutter 30, the sealing groove cutter 40 and the dust-proof groove cutter 50 are integrated, and the machining of various slotted holes of the brake caliper 10 can be realized by one cutter, so that the machining efficiency of the brake caliper 10 can be improved, the production efficiency of products can be improved, the machining time of the products can be shortened, the cutter cost can be reduced, the number of cutters can be reduced, the energy consumption can be saved, and the production requirements for reducing cost and saving energy can be met;

the arrangement of the oil storage groove cutter 30, the sealing groove cutter 40 and the dust-proof groove cutter 50 is matched with the positions of the oil storage groove 12, the sealing groove 13 and the dust-proof groove 14 of the brake caliper 10, so that the brake caliper 10 can be accurately processed by the combined cutter C for processing the brake caliper, namely, the oil storage groove 12, the sealing groove 13 and the dust-proof groove 14, the high-quality requirement of product processing is met, and the processing quality of the brake caliper 10 is ensured;

the tool changing time of equipment is saved, the milling time is reduced, the production time of each product is shortened, and the production takt is obviously improved;

the related spare parts of the cutter are saved, the cost of cutter grinding cost is saved, and the cutter management is facilitated.

The foregoing is a more detailed description of the present invention, taken in conjunction with the specific preferred embodiments thereof, and it is not intended that the invention be limited to the specific embodiments shown and described. To the utility model belongs to the technical field of ordinary technical personnel, do not deviate from the utility model discloses under the prerequisite of design, can also make a plurality of simple deductions or replacement, all should regard as belonging to the utility model discloses a protection scope.

Claims (8)

1. A combination tool for brake caliper machining, comprising:

a shank having opposing machining and shank ends;

the oil storage groove cutter is formed at the machining end and used for machining an oil storage groove of the brake caliper;

the sealing groove cutter is formed at the machining end and used for machining a sealing groove of the brake caliper;

the oil storage tank cutter and the sealing groove cutter are sequentially arranged along the direction of the processing end pointing to the handle end;

the distance between the oil storage tank cutter and the sealing groove cutter along the axial direction of the cutter handle is matched with the distance between the oil storage tank and the sealing groove along the axial direction of the brake caliper.

2. The combination tool for brake caliper processing according to claim 1, wherein the processing end is provided with a first pocket for fitting the oil reservoir tool and a second pocket for fitting the seal groove tool;

the oil storage tank cutter is detachably embedded in the first cutter containing groove, and the sealing groove cutter is detachably embedded in the second cutter containing groove.

3. The compound tool for brake caliper processing according to claim 1, further comprising:

the dustproof groove cutter is formed at the machining end and used for machining the dustproof groove of the brake caliper;

the oil storage tank cutter, the sealing groove cutter and the dust-proof tank cutter are sequentially arranged along the direction of pointing the processing end to the handle end;

the distance between the dust-proof groove cutter and the sealing groove cutter along the axial direction of the cutter handle is matched with the distance between the dust-proof groove and the sealing groove along the axial direction of the brake caliper.

4. The combined tool for brake caliper processing according to claim 3, wherein the processing end is provided with a third tool loading slot for embedding the dust slot tool;

the dustproof groove cutter is detachably embedded in the third cutter containing groove.

5. The combination tool for brake caliper processing according to claim 3, wherein the seal groove tool protrudes from the oil reservoir tool and the dust-proof groove tool protrudes from the seal groove tool in a radial direction of the shank.

6. The combination tool for brake caliper processing according to claim 3, wherein said oil reservoir tool, said seal groove tool and said dust-proof groove tool are milling cutter blades.

7. The combination tool for brake caliper processing according to any one of claims 1 to 6, wherein said shank includes a body portion and said shank end which are detachably connected;

the processing end is formed at the body part.

8. The combination tool for brake caliper machining according to claim 7, wherein said body portion has an embedded end opposite said machined end;

the end surface of the embedded end is provided with an embedded part which extends axially, and the handle end is provided with an embedded groove for the embedded end and the embedded part to extend into;

the embedded end and the embedding part are embedded and fixed in the embedding groove.

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