CN115655046A - Aperture measuring device of precision gear - Google Patents

Abstract

The invention provides an aperture measuring device of a precision gear, relates to the technical field of gear measurement, and solves the problems that the aperture measurement and the detection are completed simultaneously, and the gear is manually screened and measured; the supporting bottom plate is provided with two discharging holes, the discharging holes are of a cylindrical structure, and two mounting sleeves are arranged above the supporting bottom plate; the first push cylinders are arranged above the supporting bottom plate. Carry out the circle through the measuring stick to the aperture of gear and beat and measure, it is concrete, drive measuring stick circumferential rotation through driving motor and measure to accelerated the efficiency that gear aperture circle beats and detects, when the circle is beated and is surpassed the specified scope, the vibration detector will be quoted a number and is passed to the second and promote the cylinder, make the second on right side promote the cylinder and promote the extrusion frame, the rubber piece presss from both sides tight unqualified gear, accomplishes the transportation and the screening of unqualified gear.

Description

Aperture measuring device of precision gear

Technical Field

The invention belongs to the technical field of gear measurement, and particularly relates to a device for measuring the aperture of a precision gear.

Background

The transmission motion is carried out through the continuous meshing of the gear, simultaneously, power is provided for mechanical elements through the gear, the requirement for precise fit gear is high when precise machinery moves, therefore, a precise gear needs to be used, the aperture needs to be detected through a measuring device after the precise gear is produced, the phenomenon that the aperture is unqualified exists after the gear is produced, wherein the diameter and the round jump degree of the gear aperture are included, the measurement of the diameter and the round jump degree need to be separately measured, the aperture needs to be further detected by the aid of the detecting device after the aperture is measured, the detection step of the gear is increased, the gear detection and measurement cost is increased, the gear needs to be manually screened after the aperture of the gear is measured, meanwhile, the gear needs to be manually rotated to be measured when the aperture of the gear is measured, the labor force is increased, and the efficiency of the gear measurement is reduced.

Disclosure of Invention

In order to solve the technical problems, the invention provides a device for measuring the aperture of a precision gear, which is used for solving the problems that after the aperture measurement is finished, the detection needs to be further carried out by a detection device, and the gear needs to be manually screened and measured.

The invention is used for the purpose and the effect of an aperture measuring device of a precision gear, and is achieved by the following specific technical means:

an aperture measuring device of a precision gear comprises a supporting bottom plate;

the supporting bottom plate is provided with two discharging holes, the discharging holes are of a cylindrical structure, and two mounting sleeves are arranged above the supporting bottom plate;

the device comprises a support base plate, a first push cylinder, a second push cylinder and a third push cylinder, wherein the number of the first push cylinders is two, and the first push cylinders are arranged above the support base plate;

the connecting shell is provided with a sealing cover above; the gear clamping mechanisms are arranged on the connecting shell, and the number of the gear clamping mechanisms is two;

the end part of the positioning rod is provided with an external thread, the inner side of the connecting shell is provided with a threaded connecting sleeve, and the end part of the positioning rod is arranged on the inner side of the threaded connecting sleeve;

the circular runout measuring assembly is arranged at the outer side position of the positioning plate; the device comprises an aperture detection column, a detection device and a control device, wherein an external thread is arranged above the aperture detection column;

and the two third pushing cylinders are respectively arranged above the circular run-out measuring assembly and the aperture detection column.

Further, a sliding block is installed in the catch bar outside of first promotion cylinder, and the sliding block is T shape structure, connects the casing and has seted up two opposite direction's sliding tray, and the sliding tray is T shape structure, and the sliding block of catch bar is installed in the sliding tray of connecting the casing.

Furthermore, gear clamping mechanism comprises second push cylinder, extrusion frame and swinging arms jointly, and an extrusion frame is installed to the push rod outside of second push cylinder, and the extrusion frame is U font structure, and the inboard of connecting the casing has the reference column, and a mounting hole has been seted up to the swinging arms, and the swinging arms passes through the mounting hole and installs the outside at the reference column, and the outside of swinging arms has a friction sloping block, and the friction sloping block is the triangle-shaped structure, and the friction sloping block contacts with the inboard of extrusion frame.

Furthermore, an installation groove is formed in the end portion of the swing rod, and a rubber block is installed in the installation groove.

Further, the installation frame is installed to the outside of connecting the casing, and the installation frame is U font structure, and the second promotes the cylinder and installs the installation frame inboard at connecting the casing.

Furthermore, a supporting spring is sleeved on the outer side of the positioning rod, a waist round hole is formed in the oscillating rod, and the positioning rod is inserted into the waist round hole of the oscillating rod.

Furthermore, the circle runout measuring component comprises a driving motor, a driving frame, an adjusting bolt, a connecting block, a meter panel and a measuring rod, wherein a sliding groove is formed in a positioning plate of the supporting bottom plate, the sliding groove is of a T-shaped structure, a sliding plate is arranged on the inner side of the sliding groove, the sliding plate is provided with a mounting hole, the driving motor is arranged in the mounting hole of the sliding plate, a clamping bolt is arranged on the mounting plate, the driving frame is arranged at the bottom of a driving shaft of the driving motor, the central position of the driving motor is aligned with the central position of a gear, the adjusting bolt is rotatably connected with the driving frame and arranged above the driving frame, the driving frame is provided with a positioning groove of the T-shaped structure, the bottom of the connecting block is provided with a mounting block of the T-shaped structure, the mounting block is arranged in a positioning groove of the driving frame, a threaded connection seat is arranged above the connecting block, the adjusting bolt is inserted into the inner side of the threaded connection seat, the meter panel is arranged at the bottom of the connecting block, and the measuring rod is arranged at the bottom of the meter panel.

Furthermore, a threaded hole is opened to the panel board, and a screw thread reference column is installed to the threaded hole, and a shock detector is installed to the bottom of screw thread reference column, and there is an installation face screw thread reference column bottom, and a shock spring is installed to the shock detector, and the second promotes cylinder and shock detector electric connection.

Furthermore, two detection balls are installed at the bottom of the aperture detection column, two electrical connection sheets are arranged on the inner side of the aperture detection column, the electrical connection sheets are made of elastic materials and are in contact with the detection balls, and the electrical connection sheets are electrically connected with the left second push cylinder.

Compared with the prior art, the invention has the following beneficial effects:

1, carry out the circle through the aperture of measuring stick to the gear and beat and measure, it is concrete, drive measuring stick circumferential rotation through driving motor and measure, thereby the efficiency that gear aperture circle beats the detection has been accelerated, be provided with shock detector and vibrations spring on the panel board, when the circle is beated and is surpassed the scope of regulation, pointer in the panel board can strike vibrations spring, shock detector receives vibrations this moment, shock detector will quote the number and pass to the second and promote the cylinder, make the second on right side promote the cylinder and promote the extrusion frame, the rubber piece will be unqualified gear tight, accomplish the transportation and the screening of unqualified gear.

2, carry out diameter measurement through the aperture of aperture detection post to the gear, it is concrete, the aperture detection post is provided with detection ball and electric connection piece, promote cylinder electric connection with electric connection piece and second, when the aperture size of gear surpassed appointed scope, it can extrude electric connection piece to detect the ball, make two electric connection pieces contact, the second promotes the cylinder circular telegram this moment and promotes the extrusion frame, the block rubber presss from both sides tight unqualified gear, accomplish the transportation and the screening of unqualified gear.

3, press from both sides tightly unqualified gear through gear clamping mechanism, it is concrete, with the shock detection ware, electric connection piece and second promotion cylinder electric connection, promote the cylinder through the second and drive the extrusion frame and remove, extrude the swinging arms through the extrusion frame, make the inside swing of swinging arms, the swinging arms is provided with the tight piece of clamp of rubber material, press from both sides tight the gear of unqualified through pressing from both sides tight piece, it filters to drive unqualified gear shift through connecting the casing to the front side removal, the problem that the gear needs manual screening has been solved.

Drawings

Fig. 1 is a schematic view of the assembled shaft side structure of the main body of the present invention.

Fig. 2 is a schematic diagram of the left-view axial structure of fig. 1 according to the present invention.

FIG. 3 is a schematic view of the seal cover of the present invention with the rear axle side removed.

Fig. 4 is a schematic view of the axial side structure of the coupling housing and the seal cover of the present invention.

FIG. 5 is a schematic view of a cross-sectional axial side structure of the aperture detecting column of the present invention.

FIG. 6 is a schematic side view of a split shaft of the circular run-out measurement assembly of the present invention.

Fig. 7 is a schematic diagram of the left-view axial structure of fig. 6 according to the present invention.

Fig. 8 is an enlarged schematic view of fig. 2 at a.

Fig. 9 is an enlarged view of the structure of fig. 3B according to the present invention.

Fig. 10 is an enlarged view of the structure of fig. 5C according to the present invention.

Fig. 11 is an enlarged view of fig. 6D according to the present invention.

In the drawings, the corresponding relationship between the component names and the reference numbers is as follows:

1. a support base plate; 2. a first push cylinder; 3. connecting the shell; 301. a sealing cover; 4. a gear clamping mechanism; 401. a second push cylinder; 402. an extrusion frame; 403. a swing lever; 5. positioning a rod; 6. a circular run-out measuring assembly; 601. a drive motor; 602. a driving frame; 603. adjusting the bolt; 604. connecting blocks; 605. a dashboard; 60501. a threaded locating post; 60502. a vibration detector; 606. a measuring rod; 7. a pore size detection column; 701. detecting the rolling balls; 702. an electrical connection sheet; 8. and a third pushing cylinder.

Detailed Description

Embodiments of the present invention will be described in further detail with reference to the drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless explicitly stated or limited otherwise, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The embodiment is as follows:

as shown in figures 1 to 11:

the invention provides a device for measuring the aperture of a precision gear, which comprises a supporting bottom plate 1;

the supporting base plate 1 is provided with two discharging holes, the discharging holes are of a cylindrical structure, unqualified gears are discharged outwards through the discharging holes, and two mounting sleeves are arranged above the supporting base plate 1 and used for being connected with the first pushing cylinder 2;

the connecting device comprises a first pushing cylinder 2, the number of the first pushing cylinder 2 is two, the first pushing cylinder 2 is arranged above a supporting base plate 1, a sliding block is arranged on the outer side of a pushing rod of the first pushing cylinder 2, the sliding block is of a T-shaped structure, two sliding grooves in opposite directions are formed in a connecting shell 3, the sliding groove is of a T-shaped structure, the sliding block of the pushing rod is arranged in the sliding groove of the connecting shell 3, the first pushing cylinder 2 and the connecting shell 3 are connected through the sliding block, the connecting shell 3 is pushed to move through the first pushing cylinder 2, and the two first pushing cylinders 2 do not interfere with each other when pushing the connecting shell 3 through the sliding grooves formed in the connecting shell 3;

the connecting shell 3 is provided with a sealing cover 301 above the connecting shell 3, the upper part of the connecting shell 3 is sealed through the sealing cover 301, the outer side of the connecting shell 3 is provided with an installation frame, the installation frame is of a U-shaped structure, the second pushing cylinder 401 is installed on the inner side of the installation frame of the connecting shell 3, and the installation frame locks the position of the second pushing cylinder 401;

the gear clamping mechanisms 4 are arranged on the connecting shell 3, the gear clamping mechanisms 4 are divided into two groups, each gear clamping mechanism 4 consists of a second pushing cylinder 401, an extrusion frame 402 and a swinging rod 403, the extrusion frame 402 is arranged on the outer side of a pushing rod of each second pushing cylinder 401, the extrusion frame 402 is of a U-shaped structure, the second pushing cylinder 401 drives the extrusion frame 402 to move, a positioning column is arranged on the inner side of the connecting shell 3, an installation hole is formed in each swinging rod 403, each swinging rod 403 is arranged on the outer side of the corresponding positioning column through the installation hole, each swinging rod 403 swings around the center of the corresponding positioning column, a friction inclined block is arranged on the outer side of each swinging rod 403, each friction inclined block is of a triangular structure and is in contact with the inner side of the corresponding extrusion frame 402, each extrusion frame 402 can extrude the friction inclined blocks when moving, each swinging rod 403 swings inwards around the corresponding positioning column, an installation groove is formed in the end of each swinging rod 403, a rubber block is arranged in each installation groove, and when each swinging rod 403 swings, each rubber block can drive the corresponding unqualified gear to clamp a gear to move forwards when the connecting shell 3 moves forwards;

the end part of the positioning rod 5 is provided with an external thread, the inner side of the connecting shell 3 is provided with a threaded connecting sleeve, the end part of the positioning rod 5 is arranged on the inner side of the threaded connecting sleeve, the outer side of the positioning rod 5 is sleeved with a supporting spring, the supporting spring elastically supports the oscillating rod 403 outwards so as to enable the oscillating rod 403 to automatically reset, the oscillating rod 403 is provided with a waist round hole, the positioning rod 5 is inserted into the waist round hole of the oscillating rod 403, and the positioning rod 5 positions the oscillating position of the oscillating rod 403;

the circular runout measuring component 6 is characterized in that a positioning plate is arranged above the supporting bottom plate 1, the circular runout measuring component 6 is arranged at the outer side position of the positioning plate, the circular runout measuring component 6 is composed of a driving motor 601, a driving frame 602, an adjusting bolt 603, a connecting block 604, an instrument panel 605 and a measuring rod 606, the positioning plate of the supporting bottom plate 1 is provided with a sliding groove which is of a T-shaped structure, the inner side of the sliding groove is provided with a sliding plate, the sliding plate slides up and down in the sliding groove, the sliding plate is provided with a mounting hole, the driving motor 601 is arranged in the mounting hole of the sliding plate, the mounting hole is used for positioning the driving motor 601, the mounting plate is provided with a clamping bolt which clamps the driving motor 601, the driving frame 602 is arranged at the bottom of a driving shaft of the driving motor 601, the driving motor 601 drives the driving frame 602 to rotate circularly, the central position of the driving motor 601 is aligned with the central position of the gear, an adjusting bolt 603 which is rotatably connected is installed above the driving frame 602, the driving frame 602 is provided with a positioning groove with a T-shaped structure, the bottom of the connecting block 604 is provided with an installation block with a T-shaped structure, the installation block is installed in the positioning groove of the driving frame 602, the positioning groove of the driving frame 602 positions the connecting block 604, the installation block of the connecting block 604 slides in the installation groove of the driving frame 602, a threaded connection seat is arranged above the connecting block 604, and the adjusting bolt 603 is inserted in the inner side of the threaded connection seat, so that the connecting block 604 can be driven to move when the adjusting bolt 603 is rotated, an instrument panel 605 is installed at the bottom of the connecting block 604, a measuring rod 606 is installed at the bottom of the instrument panel 605, the instrument panel 605 and the measuring rod 606 can be driven to move when the connecting block 604 moves, so that the measuring rod 606 can be adjusted according to the inner diameter of the gear, and the measuring rod 606 can be driven to rotate circularly when the driving frame 602 rotates, the measuring rod 606 is enabled to quickly detect the inner diameter circle runout size of the gear, a threaded hole is formed in the instrument panel 605, a threaded positioning column 60501 is installed in the threaded hole, a vibration detector 60502 is installed at the bottom of the threaded positioning column 60501, an installation surface is arranged at the bottom of the threaded positioning column 60501 and is positioned in the installation position of the vibration detector 60502, a vibration spring is installed on the vibration detector 60502, when the circle runout exceeds a specified range, a pointer in the instrument panel 605 can impact the vibration spring, the vibration detector 60502 is vibrated at the moment, the second pushing cylinder 401 is electrically connected with the vibration detector 60502, a reference number is transmitted to the second pushing cylinder 401 through the vibration detector 60502, the second pushing cylinder 401 on the right side pushes the extrusion frame 402, a rubber block clamps unqualified gears, and transportation and screening of unqualified gears are completed;

the detection device comprises an aperture detection column 7, wherein an external thread is arranged above the aperture detection column 7, two detection balls 701 are arranged at the bottom of the aperture detection column 7, the aperture of a gear is measured through the detection balls 701, two electrical connection pieces 702 are arranged on the inner side of the aperture detection column 7, the electrical connection pieces 702 are made of elastic materials, the electrical connection pieces 702 are in contact with the detection balls 701, when the aperture size of the gear exceeds a specified range, the detection balls 701 can extrude the electrical connection pieces 702 to enable the two electrical connection pieces 702 to be in contact, the electrical connection pieces 702 are electrically connected with a left second pushing cylinder 401, the second pushing cylinder 401 is electrified to push an extrusion frame 402 at the moment, rubber blocks clamp unqualified gears, and transportation and screening of unqualified gears are completed;

third push cylinder 8, third push cylinder 8 are total two, and two third push cylinders 8 are installed respectively in the top of circle runout measuring subassembly 6 and aperture detection post 7.

The specific use mode and function of the embodiment are as follows:

when the device is used, the connecting shell 3 is firstly installed above the supporting base plate 1, the second pushing cylinder 401 is installed in the installing frame of the connecting shell 3, the position locking of the second pushing cylinder 401 is completed, the extruding frame 402 is connected with the pushing rod of the second pushing cylinder 401, the swinging rod 403 is installed on the outer side of the positioning column through the installing hole, the positioning column positions the swinging rod 403, the swinging rod 403 swings around the center position of the positioning column, the installation of the rubber block is completed, the gear is clamped through the rubber block, the positioning rod 5 is installed on the inner side of the connecting shell 3 through the external thread, the installation of the supporting spring is completed, the positioning of the swinging rod 403 is completed, the supporting spring elastically supports the swinging rod outwards, the sealing cover 301 is installed above the connecting shell 3, the sealing on the upper side of the connecting shell 3 is completed, the aperture detection column 7 is installed at the bottom of the third pushing cylinder 8, the circular runout measurement assembly 6 is installed above the supporting base plate 1 through the driving motor 601, the measurement position of the measurement rod 606 is adjusted according to the aperture of the gear, the adjustment bolt 603 is rotated when the position of the adjustment bolt 606, the adjustment bolt 603 is adjusted, the sliding block is installed on the sliding block 2 of the sliding block of the connecting shell, and the sliding block 2 which is installed in the sliding block which is connected with the first pushing cylinder 3, and the sliding block 3, the sliding block which is installed in the sliding cylinder 3, and the sliding block which is connected with the sliding block 2 which is installed in the sliding cylinder 3;

the connecting shell 3 is pushed to move through the first pushing cylinder 2, the connecting shell 3 drives the gear to move when moving, when the gear moves to the bottom of the aperture detection column 7, the third pushing cylinder 8 pushes the aperture detection column 7 downwards, the aperture of the gear is measured through the detection ball 701, when the aperture size of the gear exceeds a specified range, the detection ball 701 can extrude the electrical connection sheets 702 to enable the two electrical connection sheets 702 to be in contact, at the moment, the second pushing cylinder 401 is electrified to push the driving frame 602, the extrusion frame 402 can extrude the friction inclined block when moving, the oscillating rod 403 can swing inwards around the positioning column, the oscillating rod 403 can drive the rubber block to swing when swinging, the rubber block clamps unqualified gears, when the connecting shell 3 moves outwards, the gear can be driven to move, when the connecting shell 3 moves outwards, the second pushing cylinder 401 is controlled to pull the extrusion frame 402, at the moment, the oscillating rod 403 moves outwards under the support of the spring, and transportation and screening of unqualified gears are completed;

when the gear moves to the bottom of measuring stick 606, third promotion cylinder 8 promotes measuring stick 606 downwards, driving motor 601 drives driving frame 602 and rotates this moment, driving frame 602 drives measuring stick 606 and rotates, carry out the circle run-out measurement through measuring stick 606 to the aperture of gear, when the circle run-out surpassed the specified scope, pointer in panel board 605 can strike vibrations spring, vibrations detector 60502 receives vibrations this moment, vibrations detector 60502 passes the quotation number to second promotion cylinder 401, make the second promotion cylinder 401 on right side promote the extrusion frame 402 and promote, the rubber block presss from both sides unqualified gear, accomplish the transportation and the screening of unqualified gear.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (9)

1. The utility model provides an aperture measuring device of accurate gear which characterized in that: comprising a support floor (1);

the supporting bottom plate (1) is provided with two discharge holes, the discharge holes are of a cylindrical structure, and two mounting sleeves are arranged above the supporting bottom plate (1);

the device comprises a support base plate (1), a first push cylinder (2), a second push cylinder (2) and a third push cylinder (2), wherein the number of the first push cylinders (2) is two, and the first push cylinders (2) are arranged above the support base plate (1);

the connecting shell (3), a sealing cover (301) is arranged above the connecting shell (3);

the gear clamping mechanisms (4) are arranged on the connecting shell (3), the gear clamping mechanisms (4) are divided into two groups, and each gear clamping mechanism (4) consists of a second pushing cylinder (401), an extrusion frame (402) and a swinging rod (403);

the end part of the positioning rod (5) is provided with an external thread, the inner side of the connecting shell (3) is provided with a threaded connecting sleeve, and the end part of the positioning rod (5) is arranged on the inner side of the threaded connecting sleeve;

the circle run-out measuring device comprises a circle run-out measuring component (6), wherein a positioning plate is arranged above the supporting bottom plate (1), the circle run-out measuring component (6) is installed at the outer side position of the positioning plate, and the circle run-out measuring component (6) is composed of a driving motor (601), a driving frame (602), an adjusting bolt (603), a connecting block (604), an instrument panel (605) and a measuring rod (606); the pore diameter detection column (7), wherein an external thread is arranged above the pore diameter detection column (7);

and the third pushing cylinders (8) are provided with two third pushing cylinders (8), and the two third pushing cylinders (8) are respectively arranged above the circular runout measuring assembly (6) and the aperture detection column (7).

2. The aperture measuring device of a precision gear according to claim 1, wherein: a sliding block is installed in the catch bar outside of first promotion cylinder (2), and the sliding block is T shape structure, connects casing (3) and has seted up two opposite direction's sliding tray, and the sliding tray is T shape structure, and the sliding block of catch bar is installed in the sliding tray of connecting casing (3).

3. The aperture measuring apparatus of a precision gear according to claim 1, wherein: an extrusion frame (402) is installed on the outer side of a pushing rod of the second pushing cylinder (401), the extrusion frame (402) is of a U-shaped structure, a positioning column is arranged on the inner side of the connecting shell (3), an installation hole is formed in the swinging rod (403), the swinging rod (403) is installed on the outer side of the positioning column through the installation hole, a friction inclined block is arranged on the outer side of the swinging rod (403), the friction inclined block is of a triangular structure, and the friction inclined block is in contact with the inner side of the extrusion frame (402).

4. The aperture measuring device of a precision gear according to claim 1, wherein: an installation groove is formed in the end portion of the swing rod (403), and a rubber block is installed in the installation groove.

5. The aperture measuring apparatus of a precision gear according to claim 1, wherein: the installation frame is installed to the outside of connecting shell (3), and the installation frame is U font structure, and second push cylinder (401) are installed and are connected the installation frame of shell (3) inboard.

6. The aperture measuring apparatus of a precision gear according to claim 1, wherein: a supporting spring is sleeved on the outer side of the positioning rod (5), a waist round hole is formed in the oscillating rod (403), and the positioning rod (5) is inserted into the waist round hole of the oscillating rod (403).

7. The aperture measuring apparatus of a precision gear according to claim 1, wherein: the positioning plate of the supporting bottom plate (1) is provided with a sliding groove, the sliding groove is of a T-shaped structure, a sliding plate is installed on the inner side of the sliding groove, the sliding plate is provided with a mounting hole, a driving motor (601) is installed in the mounting hole of the sliding plate, a clamping bolt is installed on the mounting plate, a driving frame (602) is installed at the bottom of a driving shaft of the driving motor (601), the central position of the driving motor (601) is aligned with the central position of a gear, an adjusting bolt (603) in rotary connection is installed above the driving frame (602), the driving frame (602) is provided with a positioning groove of the T-shaped structure, an installation block of the T-shaped structure is arranged at the bottom of a connecting block (604), the installation block is installed in the positioning groove of the driving frame (602), a threaded connecting seat is arranged above the connecting block (604), the adjusting bolt (603) is inserted into the inner side of the threaded connecting seat, an instrument panel (605) is installed at the bottom of the connecting block (604), and a measuring rod (606) is installed at the bottom of the instrument panel (605).

8. The aperture measuring apparatus of a precision gear according to claim 1, wherein: a screw hole has been seted up in panel board (605), installs a screw thread reference column (60501) in the screw hole, and a vibrations detector (60502) is installed to the bottom of screw thread reference column (60501), and there is an installation face screw thread reference column (60501) bottom, and a vibrations spring is installed in vibrations detector (60502), and the second promotes cylinder (401) and vibrations detector (60502) electric connection.

9. The aperture measuring device of a precision gear according to claim 1, wherein: the aperture detects the bottom of post (7) and installs two and detect ball (701), and the inboard that the aperture detected post (7) has two electrical connection pieces (702), and electrical connection piece (702) are the elasticity material, and electrical connection piece (702) contact with detecting ball (701), and electrical connection piece (702) and left second push cylinder (401) electric connection.

Images