CN216299040U - Electrode calibration positioning device - Google Patents

Abstract

The utility model provides an electrode calibration positioning device which comprises a bottom plate, a guide hand-pulling block assembly, two pushing and grabbing assemblies and an EROWA electrode holder fixing assembly, wherein the guide hand-pulling block assembly, the two pushing and grabbing assemblies and the EROWA electrode holder fixing assembly are arranged on the bottom plate; the guiding hand-pulling block assembly drives the two pushing and grabbing assemblies to calibrate and position the electrode to be calibrated, which is placed on the fixed EROWA electrode holder, through the connecting rod. The utility model can solve the problems of inaccurate electrode position and low efficiency in manual placement so as to realize calibration and positioning.

Description

Electrode calibration positioning device

Technical Field

The utility model relates to the technical field of calibration jigs, in particular to an electrode calibration positioning device.

Background

In electrode calibration, an electrode blank must be placed at the center of an EROWA electrode holder, and the electrode blank is manually placed at the center of the EROWA electrode holder at present, so that the problems of inaccurate placement position, low efficiency and the like exist.

In order to solve the above problems, the present invention provides an electrode calibration positioning device.

SUMMERY OF THE UTILITY MODEL

In view of the above problems, the present invention provides an electrode calibrating and positioning device to solve the problems of inaccurate electrode positioning and low efficiency.

The utility model provides an electrode calibration positioning device, which comprises a bottom plate, a guide hand-pulling block component arranged on the bottom plate, two pushing and grabbing components and an EROWA electrode holder fixing component, wherein,

the EROWA electrode holder fixing assembly is used for fixing an EROWA electrode holder, the two pushing and grabbing assemblies are symmetrically arranged relative to the EROWA electrode holder fixing assembly, and the guiding hand-pulling block assembly is movably connected with the two pushing and grabbing assemblies through two connecting rods respectively;

the guiding hand-pulling block assembly drives the two pushing and grabbing assemblies to calibrate and position the electrode to be calibrated, which is placed on the fixed EROWA electrode holder, through the connecting rod.

In addition, the preferred structure is that the guiding hand-pulling block component comprises a hand-pulling block guide rail fixing seat, a hand-pulling block guide rail fixed on the hand-pulling block guide rail fixing seat, a hand-pulling block pushing block moving along the hand-pulling block guide rail, and a handle arranged on the hand-pulling block pushing block, wherein,

the two connecting rods are movably arranged on the hand-pulling push block, and the hand-pulling push block drives the two pushing and grabbing components to move through the two connecting rods under the action of the handle.

In addition, the preferred structure is that a push block groove is arranged on the hand block push block, and the two connecting rods are movably arranged in the push block groove through a hand block rotating shaft.

In addition, the preferable structure is that a hand block sliding bearing is arranged between the hand block guide rail and the hand block pushing block, and the hand block pushing block moves along the hand block guide rail through the hand block sliding bearing.

In addition, the preferred structure is that the pushing and grabbing assembly comprises a pushing and grabbing guide rail fixing seat, a pushing and grabbing guide rail fixed on the pushing and grabbing guide rail fixing seat, and a pushing and grabbing guide block moving along the pushing and grabbing guide rail, wherein,

the push-grab guide block is provided with a guide block groove, one end of the connecting rod is movably arranged in the guide block groove through a push-grab rotating shaft, and the other end of the connecting rod is movably arranged in the push block groove through a hand-pull block rotating shaft. In addition, the preferred structure is that the EROWA electrode holder fixing assembly includes a base, four fixing blocks disposed on the base, wherein,

a positioning column and a positioning hole for positioning the EROWA electrode holder are arranged on the base;

and three fixed blocks in the four fixed blocks are respectively connected with the guiding hand-pulling block component and the two pushing and grabbing components.

In addition, it is preferable that a push-grab sliding bearing is provided between the push-grab guide rail and the push-grab guide block, and the push-grab guide block moves along the push-grab guide rail through the push-grab sliding bearing.

Further, it is preferable that a push-grab push block is provided on the push-grab guide block, wherein,

the pushing block is used for clamping the electrode to be calibrated.

In addition, the preferred structure is that the pushing and grabbing push block moves along the pushing and grabbing guide rail under the driving of the pushing and grabbing guide block, and calibrates and positions the electrode to be calibrated, which is placed on the EROWA electrode holder.

According to the technical scheme, the two pushing and grabbing components are symmetrically arranged relative to the EROWA electrode holder fixing component, and the guiding hand-pulling block component is movably connected with the two pushing and grabbing components through the two connecting rods respectively; the guiding hand-pulling block component drives the two pushing and grabbing components through the connecting rod to calibrate the electrode to be calibrated placed on the fixed EROWA electrode holder, so that the problems of inaccurate position, low efficiency and the like of manually placing an electrode blank at present are solved.

To the accomplishment of the foregoing and related ends, one or more aspects of the utility model comprise the features hereinafter fully described. The following description and the annexed drawings set forth in detail certain illustrative aspects of the utility model. These aspects are indicative, however, of but a few of the various ways in which the principles of the utility model may be employed. Further, the present invention is intended to include all such aspects and their equivalents.

Drawings

Other objects and results of the present invention will become more apparent and more readily appreciated as the same becomes better understood by reference to the following description and appended claims, taken in conjunction with the accompanying drawings.

In the drawings:

FIG. 1 is a schematic structural diagram of an electrode alignment positioning apparatus according to an embodiment of the present invention;

FIG. 2 is a schematic structural view of a guiding hand block assembly according to an embodiment of the utility model;

fig. 3 is a schematic structural view of a push-grab assembly according to an embodiment of the present invention.

Wherein the reference numerals include: 1. the electrode calibration device comprises a first pushing and grabbing component, 2, a second pushing and grabbing component, 3, an EROWA electrode holder fixing component, 4, a guiding hand-pulling block component, 5, an electrode to be calibrated, 6, an EROWA electrode holder, 7, a bottom plate, 11, a first pushing and grabbing guide rail fixing seat, 12, a first pushing and grabbing rotating shaft, 13, a first pushing and grabbing guide block, 14, a first pushing and grabbing pushing block, 15, a first pushing and grabbing guide rail, 16, a first pushing and grabbing sliding bearing, 48, a first connecting rod, 47, a second connecting rod, 41, a hand-pulling block guide rail fixing seat, 42, a hand-pulling block rotating shaft, 43, a handle, 44, a hand-pulling block pushing block, 45, a hand-pulling block guide rail, 46, a hand-pulling block sliding bearing, 31, a first fixing block, 32, a second fixing block, 33 and a third fixing block.

The same reference numbers in all figures indicate similar or corresponding features or functions.

Detailed Description

In the following description, for purposes of explanation, numerous specific details are set forth in order to provide a thorough understanding of one or more embodiments. It may be evident, however, that such embodiment(s) may be practiced without these specific details.

Aiming at the problems of inaccurate position, low efficiency and the like of the prior art that the electrode blank is manually placed, the utility model provides an electrode calibrating and positioning device.

Specific embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

In order to illustrate the structure of the electrode calibration and positioning device provided by the present invention, fig. 1 to 3 schematically indicate the structure of the electrode calibration and positioning device from different angles, respectively. In particular, FIG. 1 illustrates an electrode alignment fixture configuration according to an embodiment of the present invention; FIG. 2 illustrates a guided hand block assembly configuration according to an embodiment of the present invention; figure 3 illustrates a push grab assembly configuration according to an embodiment of the present invention.

As shown in fig. 1 to 3, the electrode calibration positioning device provided by the present invention includes a bottom plate 7, a guiding hand-pulling block assembly 4 disposed on the bottom plate 7, two pushing and grabbing assemblies (a first pushing and grabbing assembly 1 and a second pushing and grabbing assembly 2), and an EROWA electrode holder fixing assembly 3.

Wherein, EROWA electrode holder fixed subassembly 3 is used for fixed EROWA electrode holder 6, and two push away grab the subassembly (first push away grab subassembly 1 and second push away grab subassembly 2) and set up about EROWA electrode holder fixed subassembly 3 symmetry, and direction hand power block subassembly 4 pushes away respectively with two through two connecting rods (first connecting rod 48, second connecting rod 47) and grabs the subassembly (first push away grab subassembly 1 and second push away grab subassembly 2) swing joint, promptly: the guiding hand-pulling block component 4 is movably connected with the first pushing and grabbing component 1 through a first connecting rod 48 and movably connected with the second pushing and grabbing component 2 through a second connecting rod 47. That is to say, the guiding hand-pulling block assembly 4 drives the two pushing and grabbing assemblies through the two connecting rods to calibrate and position the electrode to be calibrated, which is placed on the fixed EROWA electrode holder 6.

In the embodiment shown in fig. 2, the guiding hand-pulling block assembly 4 includes a hand-pulling block guide rail fixing seat 41, a hand-pulling block guide rail 45 fixed on the hand-pulling block guide rail fixing seat 41, a hand-pulling block pushing block 44 moving along the hand-pulling block guide rail 45, and a handle 43 arranged on the hand-pulling block pushing block 44, wherein the two connecting rods (the first connecting rod 48 and the second connecting rod 47) are movably arranged on the hand-pulling block 44, and the hand-pulling block pushing block 44 is driven by the two connecting rods (the first connecting rod 48 and the second connecting rod 47) under the action of the handle 43 to move the two pushing and grabbing assemblies (the first pushing and grabbing assembly 1 and the second pushing and grabbing assembly 2).

The hand block push block 44 is provided with a push block groove, and the two connecting rods (the first connecting rod 48 and the second connecting rod 47) are movably arranged in the push block groove through the hand block rotating shaft 42. A hand block sliding bearing 46 is arranged between the hand block guide rail 45 and the hand block pushing block 44, and the hand block pushing block 44 moves along the hand block guide rail 45 through the hand block sliding bearing 46.

In a specific embodiment of the present invention, the constructor applies a force to the pull block pushing block 44 by acting on the handle 43, so that the pull block pushing block 44 moves along the pull block guiding rail 45 and drives the first push-catch assembly 1 and the second push-catch assembly 2 to move.

In the embodiment shown in fig. 1, the EROWA electrode holder fixing assembly 3 includes a base, and four fixing blocks (a first fixing block 31, a second fixing block 32, a third fixing block 33, and a fourth fixing block) disposed on the base, wherein three fixing blocks of the four fixing blocks are respectively connected to the guiding hand-pulling block assembly and the two pushing and grabbing assemblies; namely: the first fixed block 31 is connected with the first pushing and grabbing component 1, the second fixed block 32 is connected with the second pushing and grabbing component 2, and the third fixed block 33 is connected with the guiding hand-pulling block component. The base is provided with a positioning column and a positioning hole which are used for positioning the EROWA electrode holder 6, and the EROWA electrode holder 6 is fixedly provided with an electrode 5 to be calibrated.

When the electrode 5 to be calibrated placed on the EROWA electrode holder 6 is calibrated, the guiding hand-pulling block assembly 4 drives the first pushing and grabbing assembly 1 and the second pushing and grabbing assembly 2 to simultaneously calibrate and position the electrode 5 to be calibrated, so that the electrode 5 to be calibrated is located at the center of the EROWA electrode holder 6 to complete the calibration and positioning of the electrode 5 to be calibrated.

In the implementation example of the present invention, the two pushing and grabbing assemblies (the first pushing and grabbing assembly 1 and the second pushing and grabbing assembly 2) have the same structure, are symmetrically disposed on two sides of the EROWA electrode holder fixing assembly 3, and perform calibration and positioning on the electrode 5 to be calibrated simultaneously under the action of the guiding hand block assembly 4.

Since the two pushing and grabbing assemblies have the same structure, the first pushing and grabbing assembly 1 is taken as an example to explain the specific structure of the pushing and grabbing assembly. As shown in fig. 3, the first pushing and grabbing assembly comprises a first pushing and grabbing guide rail fixing seat 11, a first pushing and grabbing guide rail 15 fixed on the first pushing and grabbing guide rail fixing seat 11, and a first pushing and grabbing guide block 13 moving along the first pushing and grabbing guide rail 15, wherein a guide block groove is formed in the first pushing and grabbing guide block 13, one end of the first connecting rod 48 is movably arranged in the guide block groove through a first pushing and grabbing rotating shaft 12, and the other end of the first connecting rod 48 is movably arranged in the pushing block groove through a hand-pulling block rotating shaft 42.

Wherein, a first push-grab sliding bearing 16 is arranged between the first push-grab guide rail 15 and the first push-grab guide block 13, and the first push-grab guide block 13 moves along the first push-grab guide rail 15 through the first push-grab sliding bearing 16. A first push-grab push block 14 is arranged on the first push-grab guide block 13, wherein the first push-grab push block 14 is used for clamping the electrode 5 to be calibrated. The first push-grab pushing block 14 moves along the first push-grab guide rail 15 under the driving of the first push-grab guide block 13, and calibrates and positions the electrode to be calibrated, which is placed on the EROWA electrode holder 6.

According to the electrode calibration positioning device provided by the utility model, the two pushing and grabbing components are symmetrically arranged relative to the EROWA electrode holder fixing component, and the guiding hand-pulling block component is movably connected with the two pushing and grabbing components through the two connecting rods respectively; the guiding hand-pulling block component drives the two pushing and grabbing components to calibrate and position the electrode to be calibrated, which is placed on the fixed EROWA electrode holder, through the connecting rod, so that the problems of inaccurate position, low efficiency and the like of manually placing an electrode blank at present are solved.

The electrode alignment positioning device proposed according to the present invention is described above by way of example with reference to the accompanying drawings. However, it will be appreciated by those skilled in the art that various modifications may be made to the electrode alignment and positioning apparatus of the present invention described above without departing from the spirit and scope of the utility model. Therefore, the scope of the present invention should be determined by the contents of the appended claims.

Claims (9)

1. An electrode calibration positioning device is characterized by comprising a bottom plate, a guide hand-pulling block component arranged on the bottom plate, two pushing and grabbing components and an EROWA electrode holder fixing component, wherein,

the EROWA electrode holder fixing assembly is used for fixing an EROWA electrode holder, the two pushing and grabbing assemblies are symmetrically arranged relative to the EROWA electrode holder fixing assembly, and the guiding hand-pulling block assembly is movably connected with the two pushing and grabbing assemblies through two connecting rods respectively;

the guiding hand-pulling block assembly drives the two pushing and grabbing assemblies to calibrate and position the electrode to be calibrated, which is placed on the fixed EROWA electrode holder, through the connecting rod.

2. The electrode alignment positioning apparatus of claim 1,

the guiding hand-pulling block component comprises a hand-pulling block guide rail fixing seat, a hand-pulling block guide rail fixed on the hand-pulling block guide rail fixing seat, a hand-pulling block pushing block moving along the hand-pulling block guide rail, and a handle arranged on the hand-pulling block pushing block, wherein,

the two connecting rods are movably arranged on the hand-pulling push block, and the hand-pulling push block drives the two pushing and grabbing components to move through the two connecting rods under the action of the handle.

3. The electrode alignment positioning apparatus of claim 2,

the hand pulling block pushing block is provided with a pushing block groove, and the two connecting rods are movably arranged in the pushing block groove through a hand pulling block rotating shaft.

4. The electrode alignment positioning apparatus of claim 2,

a hand block sliding bearing is arranged between the hand block guide rail and the hand block push block, and the hand block push block moves along the hand block guide rail through the hand block sliding bearing.

5. The electrode alignment positioning apparatus of claim 3,

the pushing and grabbing component comprises a pushing and grabbing guide rail fixing seat, a pushing and grabbing guide rail fixed on the pushing and grabbing guide rail fixing seat, and a pushing and grabbing guide block moving along the pushing and grabbing guide rail, wherein,

the push-grab guide block is provided with a guide block groove, one end of the connecting rod is movably arranged in the guide block groove through a push-grab rotating shaft, and the other end of the connecting rod is movably arranged in the push block groove through a hand-pull block rotating shaft.

6. The electrode alignment positioning apparatus of claim 5,

the push-grab guide rail and the push-grab guide block are provided with a push-grab sliding bearing therebetween, and the push-grab guide block moves along the push-grab guide rail through the push-grab sliding bearing.

7. The electrode alignment positioning apparatus of claim 5,

the pushing and grabbing guide block is provided with a pushing and grabbing push block, wherein,

the pushing block is used for clamping the electrode to be calibrated.

8. The electrode alignment positioning apparatus of claim 7,

the pushing and grabbing push block moves along the pushing and grabbing guide rail under the driving of the pushing and grabbing guide block, and calibrates and positions the electrode to be calibrated placed on the EROWA electrode holder.

9. The electrode alignment positioning apparatus of claim 1,

the EROWA electrode holder fixing component comprises a base and four fixing blocks arranged on the base, wherein,

a positioning column and a positioning hole for positioning the EROWA electrode holder are arranged on the base;

and three fixed blocks in the four fixed blocks are respectively connected with the guiding hand-pulling block component and the two pushing and grabbing components.

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