CN219987384U - Part batch processing calibrating device - Google Patents

Abstract

The utility model provides a device for calibrating batch processing of parts, which relates to the technical field of part processing and comprises a machine body; the device comprises a machine body, a plurality of calibration units, a plurality of clamping blocks and a supporting plate, wherein the machine body is provided with the plurality of calibration units, each calibration unit comprises a cylinder body, the clamping blocks and the supporting plate, the supporting plate is arranged in the cylinder body, the clamping blocks are arranged in each cylinder body and are positioned on the upper surface of the supporting plate, and the clamping blocks are used for moving along the radial direction of the cylinder body so as to clamp or loosen a workpiece; and the pushing mechanism is in driving connection with the supporting plate in each calibration unit so as to enable the supporting plate to axially move along the cylinder body. According to the utility model, a plurality of workpieces can be clamped at one time, batch calibration of the sizes of the workpieces is completed, the efficiency of measurement and calibration is improved, the pushing mechanism can drive the supporting plate to move up and down on the cylinder body, the workpieces can be ejected upwards, the efficient stripping effect is completed, the next batch calibration is facilitated, and the calibration efficiency is further improved.

Description

Part batch processing calibrating device

Technical Field

The utility model relates to the technical field of part machining, in particular to a part batch machining calibration device.

Background

In the field of mechanical manufacturing, the annular part occupies a large proportion, the shape and position errors of the annular part have important influence on the service performance of products, and the calibration of the dimensional parameters of the annular part is very important in actual production.

Before calibration, the annular part is required to be positioned, but the conventional device for calibrating the annular part cannot position the annular part in batches at one time, and the annular part is poor in stripping efficiency after calibration, so that the overall calibration efficiency is affected.

Disclosure of Invention

In order to solve the problems, the utility model provides a device for calibrating batch processing of parts, which comprises a machine body; the device comprises a machine body, a plurality of calibration units, a plurality of clamping blocks and a supporting plate, wherein the machine body is provided with the plurality of calibration units, each calibration unit comprises a cylinder body, the clamping blocks and the supporting plate, the supporting plate is arranged in the cylinder body, the clamping blocks are arranged in each cylinder body and are positioned on the upper surface of the supporting plate, and the clamping blocks are used for moving along the radial direction of the cylinder body so as to clamp or loosen a workpiece; and the pushing mechanism is in driving connection with the supporting plate in each calibration unit so as to enable the supporting plate to axially move along the cylinder body.

Optionally, the inner wall of barrel is equipped with a plurality of recesses, the grip block orientation a side of barrel inner wall is equipped with a plurality of recesses, the recess on the barrel with fixedly connected spring between the recess on the grip block.

Optionally, a positioning shaft can be arranged on the inner wall of the cylinder and the clamping block, and two ends of the spring are respectively sleeved on the positioning shaft.

Optionally, the device further comprises a pushing mechanism, the pushing mechanism comprises a driving device, a lifting plate and a push rod, the driving device is arranged in the machine body, the driving device is in driving connection with the lifting plate so that the lifting plate moves vertically, one end of the push rod is fixedly connected to the lifting plate, and the other end of the push rod vertically upwards penetrates through the machine body and extends to be fixedly connected with the support plate in the barrel.

Optionally, the pushing mechanism further comprises a supporting rod, the supporting rod is vertically fixed on two sides of the machine body, and the supporting rod is slidably arranged on the lifting plate.

Optionally, the driving device comprises a cylinder, and an output end of the cylinder is used for being fixedly connected with the lifting plate.

Compared with the prior art, the utility model has the following beneficial effects:

through a plurality of calibration units that set up on the organism, and a plurality of grip blocks in every calibration unit follow barrel radial movement can be with placing the work piece clamp at layer board upper surface to can once only press from both sides tightly a plurality of work pieces, accomplish the batch calibration work of work piece size, improve the efficiency of measuring the calibration, and pushing mechanism can drive the layer board and reciprocate at the barrel, can be with the work piece ejecting up, accomplish high-efficient knockout effect, the calibration work of the next batch of being convenient for has further improved calibration efficiency.

Drawings

FIG. 1 is a schematic diagram of an embodiment of the present utility model;

FIG. 2 is a top view of a calibration unit according to an embodiment of the present utility model;

FIG. 3 is a front view of an embodiment of the present utility model;

fig. 4 is a top view of an embodiment of the present utility model.

Reference numerals illustrate:

1. a calibration unit; 11. a cylinder; 12. a clamping block; 13. a supporting plate; 14. a spring; 2. a body; 3. a pushing mechanism; 31. a driving device; 32. a lifting plate; 33. a push rod; 34. a support rod; 100. a workpiece.

Detailed Description

In order that the above objects, features and advantages of the utility model will be readily understood, a more particular description of the utility model will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be directly connected or indirectly connected through an intermediate medium, and can be communication between 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. In the present specification, "plurality" means two or more.

In the description of the present specification, the descriptions of the terms "embodiment," "one embodiment," and the like mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or embodiment is included in at least one embodiment or illustrated embodiment of the present utility model. In this specification, schematic representations of the above terms do not necessarily refer to the same examples or implementations. Furthermore, the particular features, structures, materials, or characteristics may be combined in any suitable manner in any one or more embodiments or implementations.

Referring to fig. 1 to 4, an embodiment of the present utility model provides a calibration device for batch processing of parts (hereinafter referred to as calibration device), including: a machine body 2; the device comprises a plurality of calibration units 1, wherein the calibration units 1 are arranged on a machine body 2, each calibration unit 1 comprises a cylinder 11, clamping blocks 12 and a supporting plate 13, the supporting plates 13 are arranged in the cylinders 11, the clamping blocks 12 are arranged in each cylinder 11 and are positioned on the upper surfaces of the supporting plates 13, and the clamping blocks 12 are used for moving along the radial direction of the cylinders 11 so as to clamp or loosen a workpiece 100; the pushing mechanism 3 is in driving connection with the supporting plate 13 in each calibration unit 1, so that the supporting plate 13 moves along the axial direction of the cylinder 11.

Specifically, the alignment device is limited to aligning the annular workpiece 100, such as a bearing, a bearing outer ring, a bearing inner ring, a flange, and the like, abutting the circumferential surface of the annular workpiece 100 by the plurality of clamping blocks 12, abutting the annular workpiece 100 to a state coaxial with the cylinder 11,

in this embodiment, through a plurality of calibration units 1 that set up on organism 2, and a plurality of grip blocks 12 in every calibration unit 1 radially remove along barrel 11, can press from both sides the work piece 100 that places at layer board 13 upper surface tightly, thereby can once only press from both sides a plurality of work pieces 100, accomplish the batch calibration work of work piece 100 size, the efficiency of measurement calibration has been improved, and pushing mechanism 3 can drive layer board 13 and reciprocate at barrel 11, can be with work piece 100 ejecting upwards, accomplish the high-efficient and take off the material effect, the calibration work of next batch of being convenient for, further calibration efficiency has been improved.

Optionally, the inner wall of the cylinder 11 is provided with a plurality of grooves, a side surface of the clamping block 12 facing the inner wall of the cylinder 11 is provided with a plurality of grooves, and a spring 14 is fixedly connected between the grooves on the cylinder 11 and the grooves on the clamping block 12.

Specifically, the grooves are formed in the inner wall of the cylinder 11, and the grooves are arranged at equal angles around the center of the cylinder 11, and one end of the spring 14 can be fixed in the grooves by welding, screws, and the like.

In this embodiment, the two end portions of the spring 14 are embedded into the grooves, so that a certain limiting effect is performed on the end portions of the spring 14, the spring 14 is always kept in a vertical state when being pressed, and uneven stress of the clamping block 12 caused by the pressed bending of the positioning shaft is avoided.

In another embodiment, positioning shafts can be arranged on the inner wall of the cylinder 11 and the clamping blocks 12, two ends of the spring 14 are respectively sleeved on the positioning shafts, so that the spring 14 can always keep a vertical state when being pressed, and uneven stress of the clamping blocks 12 caused by the pressed bending of the positioning shafts is avoided.

Optionally, the device further comprises a pushing mechanism 3, the pushing mechanism 3 comprises a driving device 31, a lifting plate 32 and a push rod 33, the driving device 31 is arranged in the machine body 2, the driving device 31 is in driving connection with the lifting plate 32, so that the lifting plate 32 moves vertically, one end of the push rod 33 is fixedly connected to the lifting plate 32, and the other end of the push rod 33 vertically upwards penetrates through the machine body 2 and extends into the barrel 11 to be fixedly connected with the supporting plate 13.

Specifically, the ejector rods 33 are provided in a plurality and are in one-to-one correspondence with each cylinder 11, and the upper surface of the machine body 2 is provided with perforations through which the ejector rods 33 penetrate, so that the ejector rods 33 can extend into the cylinders 11 through the perforations.

Optionally, the pushing mechanism 3 further includes a supporting rod 34, the supporting rod 34 is vertically fixed on two sides of the machine body 2, and the supporting rod 34 is slidably disposed on the lifting plate 32.

Specifically, through holes are formed in two sides of the lifting plate 32, the supporting rods 34 penetrate through the through holes in a sliding manner, and the lifting plate 32 is subjected to limit guiding through the supporting rods 34, so that the lifting plate 32 can maintain a horizontal posture when being lifted or lowered.

Optionally, the driving device 31 comprises a cylinder, the output end of which is used for fixedly connecting the lifting plate 32.

Specifically, the cylinder may be fixed to the inner bottom surface of the body 2 by a fastener, and the output end of the cylinder is connected to the elevation plate 32 upward, and the elevation plate 32 may be adjusted in height by activating the cylinder.

Although the present disclosure is described above, the scope of protection of the present disclosure is not limited thereto. Various changes and modifications may be made by one skilled in the art without departing from the spirit and scope of the disclosure, and these changes and modifications will fall within the scope of the utility model.

Claims (6)

1. A calibration device for batch processing of parts, comprising:

a machine body (2);

the device comprises a machine body (2), a plurality of calibration units (1), wherein each calibration unit (1) comprises a cylinder (11), clamping blocks (12) and a supporting plate (13), the supporting plates (13) are arranged in the cylinders (11), the clamping blocks (12) are arranged in each cylinder (11) and are positioned on the upper surfaces of the supporting plates (13), and the clamping blocks (12) are used for moving radially along the cylinders (11) to clamp or loosen workpieces (100);

and the pushing mechanism (3) is in driving connection with the supporting plate (13) in each calibration unit (1) so as to enable the supporting plate (13) to axially move along the cylinder (11).

2. The part batch processing calibration device according to claim 1, wherein a plurality of grooves are formed in the inner wall of the cylinder (11), a plurality of grooves are formed in a side surface, facing the inner wall of the cylinder (11), of the clamping block (12), and springs (14) are fixedly connected between the grooves in the cylinder (11) and the grooves in the clamping block (12).

3. The device for calibrating batch processing of parts according to claim 2, wherein positioning shafts can be arranged on the inner wall of the cylinder (11) and the clamping blocks (12), and two ends of the spring (14) are respectively sleeved on the positioning shafts.

4. The parts batch processing calibration device according to claim 3, further comprising a pushing mechanism (3), wherein the pushing mechanism (3) comprises a driving device (31), a lifting plate (32) and a push rod (33), the driving device (31) is arranged in the machine body (2), the driving device (31) is in driving connection with the lifting plate (32) so that the lifting plate (32) moves vertically, one end of the push rod (33) is fixedly connected to the lifting plate (32), and the other end of the push rod (33) vertically upwards penetrates through the machine body (2) and extends into the barrel (11) to be fixedly connected with the supporting plate (13).

5. The device for calibrating batch processing of parts according to claim 4, wherein the pushing mechanism (3) further comprises supporting rods (34), the supporting rods (34) are vertically fixed on two sides of the machine body (2), and the supporting rods (34) are slidably arranged on the lifting plate (32).

6. The parts batch process calibration device according to claim 5, wherein the driving means (31) comprises a cylinder, the output end of which is adapted to be fixedly connected to the lifting plate (32).