CN216736295U - Yaw appearance feed mechanism - Google Patents

Abstract

The utility model relates to a deflection instrument feeding mechanism which comprises a workbench and a deflection instrument, wherein the workbench comprises a frame body and an operating platform; the workbench is also provided with a lifting mechanism, the lifting mechanism is provided with a translation mechanism, the translation mechanism comprises a translation track and a sliding platform, any one of two sides of the initial position of the sliding platform on the translation track is provided with an ejection mechanism, the other side of the initial position of the sliding platform on the translation track is provided with an ejection mechanism, and the detection position of the sliding platform on the translation track is positioned in the middle of the yaw instrument; after the stator core sleeve and the stator core rod are disassembled and fed, the assembly is completed through the jacking mechanism, the stator core rod is adjusted to be in place to the detection position of the deflection instrument through the lifting mechanism and the translation mechanism, the coaxiality measurement is completed, and after the measurement is completed, the stator product is separated through the jacking mechanism and then disassembled.

Description

Pendulum appearance feed mechanism

Technical Field

The utility model relates to the field of measurement of a deflection instrument, in particular to a feeding mechanism of the deflection instrument.

Background

Coaxiality, known as the degree of coaxiality, represents the condition in which the measured axis of the part remains collinear with respect to the reference axis; the coaxiality tolerance is the allowed variation of the measured actual axis relative to the reference axis; the deflection instrument, which can be called as an eccentric checker, is mainly used for measuring the radial run-out error of the shaft parts, the deflection instrument positions the shaft parts by using two centers, rotates the measured parts, and a measuring head directly measures the radial run-out error of the parts in the radial direction of the measured parts; simple structure, convenient operation, fast assembly and disassembly of the tested parts by the hand handle of the center seat, high measuring efficiency

When a stator product is used for coaxiality measurement, as in an output shaft coaxiality deflection instrument in the prior art, the stator product comprises a top plate, an underframe, a prompter, a main frame, an auxiliary frame and a sliding block, the main frame, the auxiliary frame and the sliding block can move in position by arranging a sliding rail on the top plate through the combined application of accessories, the two ends of the main frame are flexibly fixed, a ferrule carrying a fastening bolt is sleeved on a lifting frame, the height of the deflection device is conveniently adjusted, the matching performance is improved, the prompter is combined in the underframe and matched with a level gauge connected with a variable frequency controller, and the prompter can be matched with an alarm to alarm under the condition that the underframe is inclined so as to ensure the testing precision; generally, when the coaxiality is measured, a stator product needs to be manually supported and erected on a deflection instrument, and the deflection instrument is generally arranged on a workbench; when the stator product is measured, the weight of a stator core rod of the stator product is 9.61kg, the weight of a stator core sleeve is 6.09kg, the total weight reaches 15.7kg, the whole weight is large, and the stator product is easy to fall off and drop due to overweight in the process of installing and taking down a deflection instrument, so that safety accidents and product damage are caused; therefore, a great potential safety hazard exists in the operation process, especially when the female staff operates.

SUMMERY OF THE UTILITY MODEL

The utility model provides a feeding mechanism of a yaw meter, which is used for overcoming the defects in the prior art and enabling a stator product to be stable and positioned efficiently.

In order to solve the technical problems, the technical scheme of the utility model is as follows:

a feeding mechanism of a deflection pendulum instrument is used for feeding a stator product, wherein the stator product comprises a stator core sleeve and a stator core rod and comprises a workbench and the deflection pendulum instrument, the workbench comprises a frame body and an operating platform, the deflection pendulum instrument is installed on the operating platform, and the operating platform is installed on the frame body; the automatic detection device is characterized in that the workbench is further provided with an elevating mechanism, the elevating mechanism is provided with a translation mechanism, the translation mechanism comprises a translation track and a sliding platform, an ejection mechanism is arranged on either side of two sides of the initial position of the sliding platform on the translation track, an ejection mechanism is arranged on the other side of the initial position of the sliding platform on the translation track, and the detection position of the sliding platform on the translation track is positioned in the middle of the yaw instrument.

Preferably, the lifting mechanism comprises a lifting structure, a mounting seat, a lifting support plate and a lifting guide pillar, the lifting guide pillar is mounted on the lifting support plate, the lifting support plate is mounted on the lifting structure through the mounting seat, and the translation mechanism is mounted on the lifting guide pillar.

Preferably, the lifting structure comprises an operating panel, a shell, a transmission gear and a spiral guide rod, the shell is mounted on the frame body, the transmission gear and the spiral guide rod are mounted inside the shell, a transmission shaft is arranged on the operating panel, the transmission shaft penetrates through the shell to be connected with the transmission gear, the transmission gear is in transmission connection with the spiral guide rod, the spiral guide rod is rotatably connected with the shell, and the mounting seat is in spiral fit connection with the spiral guide rod.

Preferably, there is first slide rail shell both sides, and mount pad both sides have first slider and the first slide rail of shell both sides sliding fit connection.

Preferably, four lifting guide columns are arranged and are respectively arranged at four corners of the lifting supporting plate, and the lifting guide columns penetrate through the operating platform and extend out of the operating platform.

Preferably, the translation mechanism is installed on a lifting guide pillar of the lifting mechanism, a translation track of the translation mechanism comprises a base plate and a second slide rail, the base plate is installed on the lifting guide pillar, the second slide rail is installed on the base plate, the front end and the rear end of the second slide rail are both provided with a limiting baffle, and a second slide block is arranged on the bottom surface of the sliding platform and is connected with the second slide rail in a sliding fit manner.

Preferably, the sliding platform is provided with a V-shaped bracket, an L-shaped baffle and a first operating handle, the first operating handle is arranged at one end of the sliding platform, which is positioned at the operating side of the workbench, the V-shaped bracket is arranged at the other end of the sliding platform, and the L-shaped baffle is positioned between the first operating handle and the V-shaped bracket.

Preferably, the ejection mechanism is arranged on the left side of the sliding platform and the ejection mechanism is arranged on the right side of the sliding platform when viewed from the operation side to the workbench; the ejection mechanism comprises a first box body, an ejection push rod and a second operating handle, a notch is formed in the upper surface of the first box body, one end of the ejection push rod is arranged in the first box body, the other end of the ejection push rod extends out of the notch to the upper side of the first box body, and the second operating handle penetrates through the first box body and is connected with the ejection push rod.

Preferably, the jacking mechanism comprises a second box body, a mandrel bracket, a jacking push rod and a third operating handle, a notch is formed in the upper surface of the second box body, the mandrel bracket is installed on two sides of the notch above the second box body, one end of the jacking push rod is arranged in the second box body, the other end of the jacking push rod extends out of the notch to the upper side of the second box body, and the third operating handle penetrates through the second box body and is connected with the jacking push rod.

Preferably, the upper ends of the ejection push rod and the ejection push rod are respectively provided with a push block, and the central axis of the push block is superposed with the central axis of the stator core rod.

Compared with the prior art, the technical scheme of the utility model has the beneficial effects that: the utility model relates to a deflection instrument feeding mechanism which comprises a workbench and a deflection instrument, wherein the workbench comprises a frame body and an operating platform; the workbench is also provided with a lifting mechanism, the lifting mechanism is provided with a translation mechanism, the translation mechanism comprises a translation track and a sliding platform, any one of two sides of the initial position of the sliding platform on the translation track is provided with an ejection mechanism, the other side of the initial position of the sliding platform on the translation track is provided with an ejection mechanism, and the detection position of the sliding platform on the translation track is positioned in the middle of the yaw instrument; after the stator core sleeve and the stator core rod are disassembled and fed, the assembly is completed through the jacking mechanism, the stator core rod is adjusted to be in place to the detection position of the deflection instrument through the lifting mechanism and the translation mechanism, the coaxiality measurement is completed, after the measurement is completed, the stator product is separated through the jacking mechanism and then taken down, the problems that the working strength is high, the safety risk is high and the like when the coaxiality of the deflection instrument is measured on large-weight parts such as stator products are effectively solved, and the device is convenient to operate, safe, reliable, convenient and efficient.

Drawings

Fig. 1 is a schematic structural view of a feeding mechanism of a yaw meter in embodiment 1.

Fig. 2 is a schematic structural view of a feeding mechanism of the yaw rate measuring device in embodiment 2.

Fig. 3 is a schematic structural view of a feeding mechanism of a yaw meter in embodiment 3.

Wherein: 1. a work table; 101. a frame body; 102. an operating platform; 2. a yaw meter; 3. a lifting mechanism; 4. a translation mechanism; 5. an ejection mechanism; 6. and (4) a jacking mechanism.

Detailed Description

The drawings are for illustrative purposes only and are not to be construed as limiting the patent;

for the purpose of better illustrating the embodiments, certain features of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

The technical solution of the present invention is further described below with reference to the accompanying drawings and examples.

Example 1

As shown in fig. 1, the present embodiment provides a feeding mechanism for a yaw meter, which is used for feeding a stator product, where the stator product includes a stator core sleeve and a stator core rod, and includes a workbench 1 and a yaw meter 2, the workbench 1 includes a frame body 101 and an operating platform 102, the yaw meter 2 is installed on the operating platform 102, and the operating platform 102 is installed on the frame body 101; still including elevating system 3 on the workstation 1, install translation mechanism 4 on elevating system 3, translation mechanism 4 includes translation track and sliding platform, and sliding platform has ejection mechanism 5 on arbitrary side of initial position both sides on the translation track, and the opposite side has the top to go into mechanism 6, and the detection position of sliding platform on the translation track is located the centre of yaw appearance 2.

The lifting mechanism 3 comprises a lifting structure, a mounting seat, a lifting support plate and a lifting guide pillar, the lifting guide pillar is mounted on the lifting support plate, the lifting support plate is mounted on the lifting structure through the mounting seat, and the translation mechanism is mounted on the lifting guide pillar.

The lifting mechanism 3 comprises an operation panel, a shell, a transmission gear and a spiral guide rod, the shell is installed on the frame body 101, the transmission gear and the spiral guide rod are arranged inside the shell, a transmission shaft is arranged on the operation panel, the transmission shaft penetrates through the shell to be connected with the transmission gear, the transmission gear is in transmission connection with the spiral guide rod, the spiral guide rod is in rotatable connection with the shell, and the installation seat is in spiral fit connection with the spiral guide rod.

There is first slide rail the shell both sides, and the mount pad both sides have first slider to be connected with the first slide rail sliding fit of shell both sides.

Four lifting guide columns are arranged and are respectively arranged at four corners of the lifting supporting plate, and the lifting guide columns penetrate through the operating platform 102 and extend out of the operating platform 102.

The protection base is installed with the joint portion of operation platform 102 to the lift guide pillar, and the connection position of protection base and lift guide pillar adopts flexible gum cover, is provided with the rubber cushion on the protection base, lies in between protection base and the sliding platform, and the striking is to the protection base when avoiding translation mechanism 4 to descend.

The part of the lifting guide post penetrating through the operating platform 102 is provided with a gap, the potential hazard of clamping stagnation exists, a protective base is arranged at the joint part, and the protective base and the lifting guide post are connected by adopting a flexible rubber sleeve, so that dust and residues can be prevented from falling into the gap, and the lifting mechanism 3 is clamped stagnation and difficult to move.

The translation mechanism 4 is arranged on a lifting guide pillar of the lifting mechanism 3, a translation track of the translation mechanism 4 comprises a base plate and a second slide rail, the base plate is arranged on the lifting guide pillar, the second slide rail is arranged on the base plate, and the front end and the rear end of the second slide rail are respectively provided with a limiting baffle; and a second sliding block is arranged on the bottom surface of the sliding platform and is connected with a second sliding rail in a sliding fit manner.

The second slide rail comprises two parallel slide rails, the bottom surface of the sliding platform is provided with two slide blocks corresponding to the second slide rail, the positioning accuracy of the sliding platform can be improved through the combination of the two parallel slide blocks and the slide rails, and the deviation in the moving process is avoided.

V type bracket, L type baffle and first operating handle are installed to sliding platform top, and first operating handle is located the one end of 1 operation side of workstation at sliding platform, and V type bracket is at sliding platform's the other end, and L type baffle is located the centre of first operating handle and V type bracket.

The ejection mechanism 5 is arranged on the right side of the sliding platform, and the ejection mechanism 6 is arranged on the left side of the sliding platform; the ejection mechanism 5 comprises a first box body, an ejection push rod and a second operating handle, a notch is formed in the upper surface of the first box body, one end of the ejection push rod is arranged in the first box body, the other end of the ejection push rod extends out of the notch to the upper side of the first box body, and the second operating handle penetrates through the first box body and is connected with the ejection push rod.

The jacking mechanism 6 comprises a second box body, a mandrel bracket, a jacking push rod and a third operating handle, a notch is formed in the upper surface of the second box body, the mandrel bracket is installed on two sides of the notch above the second box body, one end of the jacking push rod is arranged in the second box body, the other end of the jacking push rod stretches out of the notch to the upper side of the second box body, and the third operating handle penetrates through the second box body and is connected with the jacking push rod.

A transmission structure is arranged between the operating handle and the push rod, and the second operating handle or the third operating handle rotates to move linearly through the transmission structure and then pushes the push rod to be ejected or pushed back and forth along the notch on the first box body or the second box body.

The upper ends of the ejection push rod and the ejection push rod are respectively provided with a push block, and the central axis of the push block is superposed with the central axis of the stator core rod.

When the stator core sleeve is at the initial position on the V-shaped bracket of the sliding platform, the central axis of the stator core sleeve and the central axis of the matching part of the stator core rod are superposed.

In the specific implementation process of the embodiment, an operator firstly takes the stator core rod out of the stator core sleeve, places the stator core rod on the core rod bracket of the jacking mechanism 6, then carries the stator core sleeve to the V-shaped bracket on the sliding platform, operates the jacking push rod to push the stator core rod into the stator core sleeve by rotating the third operating handle, and drives the jacking push rod to return to the original position under the action of the spring force; the stator product is lifted to a measuring height by operating an operating panel of the lifting mechanism 3, then the sliding platform is pushed by the first operating handle, a sliding platform sliding block slides on the second sliding rail, the stator product is pushed to a measuring position of the deflection instrument 2, the stator product is measured by the deflection instrument 2, after the measurement is completed, the first handle is operated to pull the sliding platform, the stator product is translated back, the lifting mechanism 3 is operated by the operating panel to descend, the sliding platform returns to an initial position, the second operating handle is rotated to push the stator core rod out of the stator core sleeve, the stator core rod returns to a core rod bracket of the jacking mechanism 6, the stator core rod and the stator core sleeve are taken down, the second operating handle returns to the original position under the action of spring force, and drives the jacking push rod to return to the original position, so that the measurement is completed.

Besides, the lifting mechanism 3, the translation mechanism 4, the ejection mechanism 5 and the insertion mechanism 6 in the embodiment can be realized by a hydraulic component and/or an electric control component.

Example 2

As shown in fig. 2, the present embodiment provides a yaw meter feeding mechanism that realizes translation through a sliding wheel; the device is different from the deflection instrument feeding mechanism in the embodiment 1, the translation mechanism 4 comprises track grooves and a pulley block, the two track grooves are perpendicular to the direction of the measuring central line of the deflection instrument 2 and are parallelly arranged above four lifting guide pillars of the lifting mechanism 3, the pulley block is arranged in the track grooves through bearings, the bottom surface of the sliding platform is arranged above the pulley block, and the sliding platform is limited through the track grooves.

A first operating handle of the sliding platform is located at one end of the sliding platform, which is located on the operating side of the workbench 1, and the sliding platform is moved in a translation mode by pushing and pulling the first operating handle.

The deflection instrument 2 is positioned among the four lifting guide columns, so that the translation mechanism 4 can move to the detection position of the deflection instrument 2.

In the specific implementation process of the embodiment, an operator firstly takes the stator core rod out of the stator core sleeve, places the stator core rod on the core rod bracket of the jacking mechanism 6, then carries the stator core sleeve to the V-shaped bracket on the sliding platform, operates the jacking push rod to push the stator core rod into the stator core sleeve by rotating the third operating handle, and drives the jacking push rod to return to the original position under the action of the spring force; the stator product is pushed to the measuring position of the deflection instrument 2 under the transmission action of the pulley block by operating the operating panel of the lifting mechanism 3, the stator product is measured by the deflection instrument 2, after the measurement is completed, the first handle is operated to pull the sliding platform, the stator product is translated back under the action of the pulley block, the lifting mechanism 3 is operated by the operating panel to descend, the sliding platform returns to the initial position, the second operating handle is rotated to push the stator core rod out of the stator core sleeve, the stator core rod returns to the core rod bracket of the jacking mechanism 6, the stator core rod and the stator core sleeve are taken down, and the second operating handle returns to the original position under the action of the spring force to drive the jacking push rod to return to the original position, so that the measurement is completed.

Example 3

As shown in fig. 3, the present embodiment provides a feeding mechanism of a yaw meter, which is driven by hydraulic pressure to lift; different from the lifting mechanism 3 of the feeding mechanism of the yaw meter in the embodiment 1, the lifting mechanism 3 comprises a hydraulic oil cylinder and a lifting support plate, and the lifting support plate is installed above the telescopic end of the hydraulic oil cylinder.

The second sliding rail is arranged above the lifting supporting plate, and the front end and the rear end of the second sliding rail are provided with limiting baffles; the bottom surface of the sliding platform is provided with a second sliding block which is connected with a second sliding rail in a sliding fit manner.

V type bracket, L type baffle and first operating handle are installed to the sliding platform top, and first operating handle is located the one end of 1 operation side of workstation at sliding platform, and V type bracket is at sliding platform's the other end, and L type baffle is located the centre of first operating handle and V type bracket.

The lifting support plate is embedded in the operation platform 102 in an initial state, and a guard fence is arranged on the lifting support plate at the operation side of the operation platform 102.

In the specific implementation process of the embodiment, an operator firstly takes the stator core rod out of the stator core sleeve, places the stator core rod on the core rod bracket of the jacking mechanism 6, then carries the stator core sleeve to the V-shaped bracket on the sliding platform, operates the jacking push rod to push the stator core rod into the stator core sleeve by rotating the third operating handle, and drives the jacking push rod to return to the original position under the action of the spring force; starting a hydraulic oil cylinder, lifting the telescopic end of the oil cylinder under the action of hydraulic thrust, lifting a sliding platform to a measuring height, then pushing the sliding platform through a first operating handle, pushing a stator product into a measuring position of a deflection instrument 2 through a sliding platform slider under the transmission action of a pulley block, measuring the stator product through the deflection instrument 2, operating a first handle to pull the sliding platform after the measurement is finished, translating the stator product back under the action of the pulley block, lowering the sliding platform through operating the hydraulic oil cylinder to enable the sliding platform to return to an initial position, rotating a second operating handle to push a stator core rod out of a stator core sleeve, enabling the stator core rod to return to a core rod bracket of a jacking mechanism 6, taking down the stator core rod and the stator core sleeve, restoring the second operating handle to an original position under the action of spring force to drive a jacking push rod to restore to the original position, the measurement is completed.

The same or similar reference numerals correspond to the same or similar parts;

the terms describing positional relationships in the drawings are for illustrative purposes only and are not to be construed as limiting the patent;

it should be understood that the above-described embodiments of the present invention are merely examples for clearly illustrating the present invention, and are not intended to limit the embodiments of the present invention. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.

Claims (10)

1. A feeding mechanism of a deflection instrument is used for feeding stator products, the stator products comprise stator core sleeves and stator core rods and is characterized by comprising a workbench (1) and the deflection instrument (2), the workbench (1) comprises a frame body (101) and an operating platform (102), the deflection instrument (2) is installed on the operating platform (102), and the operating platform (102) is installed on the frame body (101); still be equipped with elevating system (3) on workstation (1), install translation mechanism (4) on elevating system (3), translation mechanism (4) are including translation track and sliding platform, and sliding platform has ejection mechanism (5) on arbitrary side of initial position both sides on the translation track, and the opposite side has the top to go into mechanism (6), and the detection position of sliding platform on the translation track is located the centre of yaw appearance (2).

2. A yaw meter feeding mechanism according to claim 1, characterized in that the lifting mechanism (3) comprises a lifting structure, a mounting seat, a lifting pallet and a lifting guide post, the lifting guide post is mounted on the lifting pallet, the lifting pallet is mounted on the lifting structure through the mounting seat, and the translation mechanism is mounted on the lifting guide post.

3. The yaw instrument feeding mechanism according to claim 2, wherein the lifting structure comprises an operating panel, a casing, a transmission gear and a spiral guide rod, the casing is mounted on the frame body (101), the transmission gear and the spiral guide rod are arranged inside the casing, a transmission shaft is arranged on the operating panel, the transmission shaft penetrates through the casing to be connected with the transmission gear, the transmission gear is in transmission connection with the spiral guide rod, the spiral guide rod is in rotatable connection with the casing, and the mounting base is in spiral fit connection with the spiral guide rod.

4. The yaw meter feeding mechanism according to claim 3, wherein first sliding rails are arranged on two sides of the housing, and first sliding blocks are arranged on two sides of the mounting base and are in sliding fit connection with the first sliding rails on two sides of the housing.

5. A yaw rate charging mechanism according to claim 3, characterized in that four lifting guide posts are provided, which are respectively mounted at four corners of the lifting support plate, and the lifting guide posts extend through the operation platform (102) to above the operation platform (102).

6. A yaw meter feeding mechanism according to claim 5, characterized in that the translation mechanism (4) is mounted on a lifting guide post of the lifting mechanism (3), a translation track of the translation mechanism (4) comprises a base plate and a second slide rail, the base plate is mounted on the lifting guide post, the second slide rail is mounted on the base plate, the front end and the rear end of the second slide rail are both provided with a limiting baffle, and a second sliding block is arranged on the bottom surface of the sliding platform and is connected with the second slide rail in a sliding fit manner.

7. A yaw meter feeding mechanism according to claim 6, characterized in that a V-shaped bracket, an L-shaped baffle and a first operating handle are mounted above the sliding platform, the first operating handle is arranged at one end of the sliding platform, which is located at the operating side of the workbench (1), the V-shaped bracket is arranged at the other end of the sliding platform, and the L-shaped baffle is located between the first operating handle and the V-shaped bracket.

8. A yaw-meter feeding mechanism according to claim 1, characterized in that the ejection mechanism (5) is on the left side of the sliding platform and the ejection mechanism (6) is on the right side of the sliding platform, seen from the operating side towards the work table; the ejection mechanism (5) comprises a first box body, an ejection push rod and a second operating handle, a notch is formed in the upper surface of the first box body, one end of the ejection push rod is arranged in the first box body, the other end of the ejection push rod extends out of the notch to the upper side of the first box body, and the second operating handle penetrates through the first box body and is connected with the ejection push rod.

9. The yaw meter feeding mechanism is characterized in that the jacking mechanism (6) comprises a second box body, a mandrel bracket, a jacking push rod and a third operating handle, wherein a notch is formed in the upper surface of the second box body, the mandrel bracket is installed on two sides of the notch above the second box body, one end of the jacking push rod is arranged in the second box body, the other end of the jacking push rod extends out of the notch to the position above the second box body, and the third operating handle penetrates through the second box body and is connected with the jacking push rod.

10. The yaw meter feeding mechanism according to claim 9, wherein push blocks are arranged at the upper ends of the ejection push rod and the ejection push rod, and the central axes of the push blocks are coincident with the central axis of the stator core rod.

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