CN116787328B - Excavator guide wheel processing and measuring device - Google Patents

Abstract

The invention provides a processing and measuring device for an excavator guide wheel, which relates to the technical field of thickness measurement and comprises an installation supporting part; the installation support part is provided with a mobile measurement device; the mobile measuring device is connected with a leveling detection piece in a sliding manner; the thickness display piece is arranged on the leveling detection piece; the thickness display piece is connected with the mobile measuring device in a sliding way; the mounting support part is fixedly connected with a pressurizing test piece; the mounting support part is fixedly connected with a measurement driving device; the flatness detection piece can realize assisting in carrying out thickness detection work and simultaneously realize assisting in carrying out comprehensive flatness detection work, and the whole grinding machining precision is higher. The problem that the processing and measuring device of the existing excavator guide wheel cannot realize the purpose of assisting in continuously measuring the leveling thickness of a detection plane in the polishing process of the guide wheel and affecting the processing precision of the guide wheel is solved.

Description

Excavator guide wheel processing and measuring device

Technical Field

The invention relates to the technical field of thickness measurement, in particular to a processing and measuring device for an excavator guide wheel.

Background

The guide wheel is used for a crawler transmission structure, such as a special vehicle like an excavator, thickness measurement work is involved in actual guide wheel polishing work, an outer ring in the guide wheel plays a role in limiting a crawler, and a good excavator guide wheel machining and measuring device is particularly important; however, with respect to the existing excavator guide wheel machining and measuring device, the problem that the machining precision of the guide wheel is affected, the grinding is removed by the aid of the auxiliary guide wheel in the grinding process and the continuous measurement of the plane leveling thickness of the guide wheel cannot be achieved, meanwhile, the measuring function is single, the grinding is not removed by the aid of the auxiliary quick control separation, the whole machining precision is affected easily, the operation simulation work of the guide wheel cannot be achieved, and the grinding machining precision is low is solved.

Disclosure of Invention

In view of the above, the invention provides a processing and measuring device for an excavator guide wheel, which has a leveling detection piece, can realize auxiliary thickness detection work and can realize auxiliary comprehensive leveling detection work, and has higher overall grinding and machining precision.

The invention provides a purpose and an effect of an excavator guide wheel processing and measuring device, which particularly comprises an installation supporting part; the installation support part is provided with a mobile measurement device; the mobile measuring device is connected with a leveling detection piece in a sliding manner; the thickness display piece is arranged on the leveling detection piece; the thickness display piece is connected with the mobile measuring device in a sliding way; the mounting support part is fixedly connected with a pressurizing test piece; the mounting support part is fixedly connected with a measurement driving device; the measuring driving device is connected with a measuring supporting device in a sliding way; two thickness control pieces are fixedly connected to the measurement supporting device; the thickness control pieces are respectively magnetically connected with the measuring driving device; the mounting support includes: the device comprises an installation support plate, support installation foot plates, a controller main body and a driving screw rod, wherein the installation support plate is fixedly connected with two support installation foot plates, and a row of through holes are respectively formed in the two support installation foot plates; the controller main body is fixedly connected to the mounting support plate; and the installation support plate is rotationally connected with a driving screw rod.

Further, the pressurization test piece includes: the pressurizing driving hydraulic cylinder is fixedly connected to the mounting support plate; and a driving plate is fixedly connected to an output shaft of the pressurizing driving hydraulic cylinder.

Further, the mounting support portion includes: the diameter depth driving motor is fixedly connected to the side surface of the mounting support plate; and the output shaft of the diameter depth driving motor is fixedly connected with a driving screw rod.

Further, the thickness control member includes: the control mounting plate is fixedly connected to the bottom of the support mounting plate; the control mounting plate is fixedly connected with a control magnet; the control magnet is connected with the electromagnet through a ferromagnetic attraction.

Further, the flatness detecting part includes: the sliding device comprises a smooth sliding column and a thickness sliding plate, wherein the smooth sliding column is connected to a sliding attaching frame in a sliding manner; the end part of the flat sliding column is attached to the pressure sensor main body; the pressure sensor main body is electrically connected with the controller main body; and a thickness sliding plate is fixedly connected to the smooth sliding column.

Further, the thickness display member includes: the thickness display sliding rod is of an L-shaped structure; a row of scales are arranged on the thickness display sliding rod; the thickness display sliding rod is sleeved with an attaching tension spring; the attaching tension spring is connected between the bottom of the thickness display sliding rod and the thickness sliding plate; the thickness display sliding rod is connected to the sliding attaching frame in a sliding manner; and the thickness display sliding rod is fixedly connected with a measuring protrusion.

Further, the measurement supporting device includes: the measuring and mounting device comprises a measuring and mounting cylinder, a supporting and mounting plate, a positioning bolt, a limiting disc and a guiding wheel main body, wherein the measuring and mounting cylinder is connected to a sliding mounting column in a sliding manner; the measuring installation cylinder is fixedly connected with a supporting installation plate; the support mounting plate is in threaded connection with a positioning bolt; a limiting disc is fixedly connected to the positioning bolt; the guide wheel main body passes through the positioning bolt; the limiting disc is attached to the guiding wheel main body.

Further, the measurement driving device further includes: the sliding mounting column is fixedly connected to the driving mounting frame; the sliding mounting column is sleeved with a connecting tension spring; one end of the connecting tension spring is connected to the driving installation frame.

Further, the movement measuring device includes: the device comprises a movable mounting block, a sliding attaching frame, a tension spring, a detection mounting plate and a pressure sensor main body, wherein the movable mounting block is connected with the sliding attaching frame in a sliding manner; the movable mounting block is connected to the mounting support plate in a sliding manner; the movable mounting block is connected with a driving screw rod in a threaded manner; two tension springs are fixedly connected to the sliding attaching frame; the other ends of the two tension springs are fixedly connected to the movable mounting block; the sliding attaching frame is fixedly connected with a detection mounting plate; and the bottom of the detection mounting plate is fixedly connected with a pressure sensor main body.

Further, the measurement driving device includes: the measuring driving motor is fixedly connected to the bottom of the mounting support plate; the output shaft of the measuring driving motor is fixedly connected with a driving installation frame; two electromagnets are fixedly connected to the driving installation frame; the two electromagnets are electrically connected with the controller main body.

The beneficial effects are that: 1. through adopting the level and smooth detection spare cooperation thickness display spare that sets up, the function is more comprehensive, can effectually guarantee overall structure processingquality of polishing, can guarantee overall structure practicality, the level and smooth detection spare that adopts the setting can cooperate and remove measuring device, realize comprehensive roughness detection work, effectually avoid the different detection error's that lead to appearing problem that lead to of different position thickness, guarantee thickness detection quality, through adopting the thickness display spare that sets up, can realize supplementary efficient thickness centre gripping detection work, guarantee thickness detection accuracy, traditional thickness detection position singleness, the problem of comprehensiveness is poor, can realize real-time roughness detection work simultaneously, through adopting the removal of the drive of footpath dark driving motor to install the piece and remove, realize supplementary removal regulation detection footpath degree of depth, through extension spring pulling slip laminating frame downwardly moving, laminate the guide wheel through the level and smooth post extrusion pressure sensor main part this moment, when unsmooth roughness error takes place, realize supplementary detection work, through adopting the thickness display spare that sets up, can join in marriage under the extension spring pulling, realize supplementary display thickness work.

2. Through the thickness control piece that adopts the setting, can realize the measurement strutting arrangement that the cooperation set up and realize assisting to carry out more accurate thickness control work, the effectual excessive that avoids polishing, can realize canceling the work of polishing fast after the surfacing smoothness, the effectual whole processingquality of assurance, can realize the quick supplementary work that moves down of control when thickness reaches the standard value, can realize installing the guide wheel main part fast through adopting positioning bolt and limiting disc, polish at guide wheel main part surface and level and when the laminating frame slides completely and remove the installation piece unable move down, thickness reaches the default time, the pressure sensor main part can sense this moment, control electromagnet is removed magnetism through the controller main part control electromagnet, at this moment under the pulling of connecting extension spring, measure the installation section of thick bamboo and move down, cause guide wheel main part and grinding to lead the separation, realize supplementary control work.

3. Through adopting pressurization test piece cooperation to level and smooth detection spare, can realize efficient supplementary simulation work, can be used for promoting the guide wheel main part, supplementary realization dynamic balance detects, compressive strength when the guide wheel main part bears the lateral force, and the structure is simpler, and its resistance change ability can be through the simultaneous detection of leveling the slip post when the guide wheel main part bears the lateral force simultaneously, and the deformation takes place for the guide wheel main part promptly, then its roughness must change.

Drawings

In order to more clearly illustrate the technical solution of the embodiments of the present invention, the drawings of the embodiments will be briefly described below.

The drawings described below are only for illustration of some embodiments of the invention and are not intended to limit the invention.

In the drawings:

FIG. 1 is a schematic view of the overall structure of the measuring apparatus of the present invention;

FIG. 2 is a schematic view of the bottom structure of the measuring device of the present invention;

FIG. 3 is a schematic view of the rear side structure of the measuring apparatus of the present invention;

FIG. 4 is a cross-sectional view of the internal structure of the measuring apparatus of the present invention;

FIG. 5 is a schematic view of the structure of the compression test piece of the present invention;

FIG. 6 is a schematic diagram of a mobile measurement device according to the present invention;

FIG. 7 is a cross-sectional view of the internal structure of the thickness display member of the present invention;

FIG. 8 is a schematic view of the measurement driving device of the present invention;

Fig. 9 is a schematic view of the thickness control member of the present invention.

List of reference numerals

1. Mounting a supporting part; 101. mounting a supporting plate; 102. supporting and mounting foot plates; 103. a controller main body; 104. driving a screw rod; 105. a radial depth driving motor; 2. a mobile measurement device; 201. moving the mounting block; 202. a sliding attaching frame; 203. a tension spring; 204. detecting a mounting plate; 205. a pressure sensor body; 3. leveling the detecting piece; 301. leveling the sliding column; 302. a thickness sliding plate; 4. a thickness display member; 401. thickness display slide bar; 402. attaching a tension spring; 403. measuring the protrusion; 5. pressurizing the test piece; 501. a pressurizing driving hydraulic cylinder; 502. a driving plate; 6. a measurement driving device; 601. measuring a driving motor; 602. a driving mounting frame; 6021. an electromagnet; 603. a sliding mounting column; 604. connecting a tension spring; 7. a measurement support device; 701. measuring an installation cylinder; 702. a support mounting plate; 703. positioning bolts; 704. a limiting disc; 705. a guide wheel body; 8. a thickness control member; 801. a control mounting plate; 802. and controlling the magnet.

Detailed Description

In order to make the objects, aspects and advantages of the technical solution of the present invention more clear, the technical solution of the embodiment of the present invention will be clearly and completely described below with reference to the accompanying drawings of the specific embodiment of the present invention. Unless otherwise indicated, terms used herein have the meaning common in the art. Like reference numerals in the drawings denote like parts.

Examples: please refer to fig. 1 to 9:

The invention provides a processing and measuring device for an excavator guide wheel, which comprises an installation support part 1; the movable measuring device 2 is arranged on the mounting support part 1; the mobile measuring device 2 is connected with a leveling detecting piece 3 in a sliding way; the leveling detecting piece 3 is provided with a thickness display piece 4; the thickness display piece 4 is connected with the mobile measuring device 2 in a sliding way; the mounting support part 1 is fixedly connected with a pressurizing test piece 5; the mounting support part 1 is fixedly connected with a measurement driving device 6; the measuring driving device 6 is connected with a measuring supporting device 7 in a sliding way; two thickness control pieces 8 are fixedly connected to the measurement supporting device 7; the thickness control pieces 8 are respectively magnetically connected with the measuring driving device 6; the mounting support 1 includes: the controller comprises a mounting support plate 101, a support mounting foot plate 102, a controller main body 103 and a driving screw rod 104, wherein the mounting support plate 101 is fixedly connected with two support mounting foot plates 102, and the two support mounting foot plates 102 are respectively provided with a row of through holes; the controller main body 103 is fixedly connected to the mounting support plate 101; a driving screw 104 is rotatably connected to the mounting support plate 101.

Wherein, the installation support portion 1 includes: a diameter depth driving motor 105, wherein the diameter depth driving motor 105 is fixedly connected to the side surface of the mounting support plate 101; the output shaft of the diameter depth driving motor 105 is fixedly connected with a driving screw rod 104; the movement measuring device 2 includes: the device comprises a movable mounting block 201, a sliding attaching frame 202, a tension spring 203, a detection mounting plate 204 and a pressure sensor main body 205, wherein the sliding attaching frame 202 is connected to the movable mounting block 201 in a sliding manner; the movable mounting block 201 is slidably connected to the mounting support plate 101; the movable mounting block 201 is connected with a driving screw rod 104 in a threaded manner; two tension springs 203 are fixedly connected to the sliding attaching frame 202; the other ends of the two tension springs 203 are fixedly connected to the movable mounting block 201; a detection mounting plate 204 is fixedly connected to the sliding lamination frame 202; the bottom of the detection mounting plate 204 is fixedly connected with a pressure sensor main body 205; the flatness detecting piece 3 includes: a flat sliding column 301 and a thickness sliding plate 302, wherein the flat sliding column 301 is connected to the sliding attaching frame 202 in a sliding manner; the end of the flat sliding column 301 is attached to the pressure sensor main body 205; the pressure sensor body 205 is electrically connected to the controller body 103; a thickness sliding plate 302 is fixedly connected to the flat sliding column 301; the thickness display member 4 includes: the thickness display sliding rod 401, the attaching tension spring 402 and the measuring protrusion 403, and the thickness display sliding rod 401 is of an L-shaped structure; a row of scales are arranged on the thickness display sliding rod 401; the thickness display sliding rod 401 is sleeved with a fitting tension spring 402; the laminating tension spring 402 is connected between the bottom of the thickness display sliding rod 401 and the thickness sliding plate 302; the thickness display sliding rod 401 is slidably connected to the sliding attaching frame 202; the thickness display sliding rod 401 is fixedly connected with the measurement protrusion 403, through adopting the leveling detection piece 3 cooperation thickness display piece 4 that sets up, the function is more comprehensive, can effectually guarantee overall structure polishing processingquality, can guarantee overall structure practicality, adopt the leveling detection piece 3 that sets up can cooperate and remove measuring device 2, realize comprehensive roughness detection work, effectually avoid the problem that different position thickness differences lead to the detection error that appears, guarantee thickness detection quality, through adopting the thickness display piece 4 that sets up, can realize assisting in carrying out efficient thickness centre gripping detection work, guarantee thickness detection accuracy, the problem that traditional thickness detection position is single, comprehensively poor is solved, can realize real-time roughness detection work simultaneously, through adopting the removal of diameter depth driving motor 105 drive to remove the installation piece 201, realize assisting in removing and adjusting the detection diameter degree, through extension spring 203 pulling slip laminating frame 202 downwardly moving, through leveling slide post 301 laminating wheel, when the unsmooth roughness error takes place, pressure sensor main part 205 parameter change, realize assisting in detecting work, through adopting the thickness display piece that sets up, can realize assisting in carrying out the pulling down of extension spring 402.

Wherein the pressurizing test piece 5 includes: a pressurization driving hydraulic cylinder 501 and a driving plate 502, the pressurization driving hydraulic cylinder 501 being fixedly connected to the mounting support plate 101; the output shaft of the pressurization driving hydraulic cylinder 501 is fixedly connected with the driving plate 502, the pressurization testing piece 5 is matched with the leveling detection piece 3, efficient auxiliary simulation work can be realized, the pressurization driving hydraulic cylinder can be used for pushing the guiding wheel main body 705 to assist in realizing dynamic balance detection, the structure is simpler when the guiding wheel main body 705 bears the compressive strength of the lateral force, the resistance change capability of the guiding wheel main body 705 can be detected through the leveling sliding column 301 at the same time when the guiding wheel main body 705 bears the lateral force, namely, the guiding wheel main body 705 deforms, and then the flatness of the guiding wheel main body 705 is inevitably changed.

Wherein the measurement driving device 6 comprises: the measuring driving motor 601, the driving installation frame 602 and the electromagnet 6021 are fixedly connected to the bottom of the installation supporting plate 101; a driving installation frame 602 is fixedly connected to the output shaft of the measurement driving motor 601; two electromagnets 6021 are fixedly connected to the driving mounting frame 602; two electromagnets 6021 electrically connected to the controller main body 103; the measurement driving device 6 further includes: a sliding mounting column 603 and a connecting tension spring 604, wherein the sliding mounting column 603 is fixedly connected to the driving mounting frame 602; the sliding mounting column 603 is sleeved with a connecting tension spring 604; one end of a connecting tension spring 604 is connected to the driving installation frame 602; the measurement support device 7 includes: the measuring device comprises a measuring mounting cylinder 701, a supporting mounting plate 702, a positioning bolt 703, a limiting plate 704 and a guiding wheel main body 705, wherein the measuring mounting cylinder 701 is connected to a sliding mounting column 603 in a sliding manner; a support mounting plate 702 is fixedly connected to the measurement mounting cylinder 701; the support mounting plate 702 is in threaded connection with a positioning bolt 703; a limiting disc 704 is fixedly connected to the positioning bolt 703; the guide wheel body 705 passes through the positioning bolt 703; the limiting plate 704 is attached to the guide wheel main body 705; the thickness control member 8 includes: a control mounting plate 801 and a control magnet 802, wherein the control mounting plate 801 is fixedly connected to the bottom of the support mounting plate 702; a control magnet 802 is fixedly connected to the control mounting plate 801; the control magnet 802 magnetically attracts the connecting electromagnet 6021, through adopting the thickness control piece 8 that sets up, can realize that the measurement strutting arrangement 7 that the cooperation set up realizes assisting to carry out more accurate thickness control work, effectually avoid polishing excessive, can realize canceling polishing work fast after the surface is level and smooth, the effectual whole processingquality of assurance, can realize the quick supplementary work that moves down of control when thickness reaches the standard value, can realize quick installation guide wheel main part 705 through adopting positioning bolt 703, limiting disc 704, polish on the surface of guide wheel main part 705 and slide completely and can't move down to the removal installation piece 201 when the laminating frame 202 slides completely, when the thickness reaches the default, the pressure sensor main part 205 can sense this moment, control electromagnet 6021 is removed magnetically through controller main part 103, at this moment under the pulling of connecting tension spring 604, the measurement installation section of thick bamboo 701 moves down, cause guide wheel main part 705 and grinding guide to separate, realize supplementary control work.

Specific use and action of the embodiment: according to the invention, firstly, a positioning bolt 703 and a limiting disc 704 are adopted to realize quick threaded rotation limiting and fixed installation of a guide wheel main body 705, a radial depth driving motor 105 is adopted to drive a movable installation block 201 to move, auxiliary movement adjustment and detection radial depth is realized, a sliding attaching frame 202 is pulled to move downwards through a tension spring 203, a guide wheel is attached to a flat sliding column 301, at the moment, the flat sliding column 301 extrudes a pressure sensor main body 205, when a concave-convex flatness error occurs, parameters of the pressure sensor main body 205 change, auxiliary detection work is realized, the auxiliary display thickness work is realized by adopting a thickness display piece 4 to be matched with the tension spring 402 to pull, the auxiliary display thickness work is realized, a pressurizing driving hydraulic cylinder 501 is adopted to drive a driving plate 502 to move and can extrude the guide wheel main body 705 to detect deformation quality, namely deformation of the guide wheel main body 705, the flatness of the guide wheel main body is inevitably changed, when the guide wheel main body 705 is polished, and when the thickness of the sliding attaching frame 202 is completely slid to a movable installation block 201 to move downwards, at the moment, the pressure sensor main body 205 can control an electromagnet 6021 to magnetically absorb a control magnet 802 to change, when the connecting drum is pulled to be attached to a connecting with the tension spring 402, the electromagnet is controlled to move downwards, the electromagnet is required to be magnetically, and the auxiliary detection work is realized.

The foregoing is merely exemplary embodiments of the present invention and is not intended to limit the scope of the invention, which is defined by the appended claims.

Claims (7)

1. The processing and measuring device for the guide wheel of the excavator is characterized by comprising an installation supporting part (1); the movable measuring device (2) is arranged on the mounting support part (1); the mobile measuring device (2) is connected with a leveling detection piece (3) in a sliding manner; a thickness display piece (4) is arranged on the leveling detection piece (3); the thickness display piece (4) is connected with the mobile measuring device (2) in a sliding way; the mounting support part (1) is fixedly connected with a pressurizing test piece (5); a measuring driving device (6) is fixedly connected to the mounting support part (1); the measuring driving device (6) is connected with a measuring supporting device (7) in a sliding manner; two thickness control pieces (8) are fixedly connected to the measurement supporting device (7); the thickness control pieces (8) are respectively connected with the measuring driving device (6) in a magnetic attraction manner; the mounting support (1) comprises: the controller comprises an installation support plate (101), support installation foot plates (102), a controller main body (103) and a driving screw rod (104), wherein the installation support plate (101) is fixedly connected with two support installation foot plates (102), and a row of through holes are respectively formed in the two support installation foot plates (102); the controller main body (103) is fixedly connected to the mounting support plate (101); the installation support plate (101) is rotatably connected with a driving screw rod (104), and the measurement driving device (6) comprises: the measuring driving motor (601), the driving installation frame (602) and the electromagnet (6021), wherein the measuring driving motor (601) is fixedly connected to the bottom of the installation supporting plate (101); the output shaft of the measuring driving motor (601) is fixedly connected with a driving installation frame (602); two electromagnets (6021) are fixedly connected to the driving installation frame (602); the two electromagnets (6021) are electrically connected with the controller main body (103), and the measurement driving device (6) further comprises: the device comprises a sliding mounting column (603) and a connecting tension spring (604), wherein the sliding mounting column (603) is fixedly connected to a driving mounting frame (602); the sliding mounting column (603) is sleeved with a connecting tension spring (604); one end of the connecting tension spring (604) is connected to the driving installation frame (602), and the measuring and supporting device (7) comprises: the measuring device comprises a measuring mounting cylinder (701), a supporting mounting plate (702), a positioning bolt (703), a limiting plate (704) and a guiding wheel main body (705), wherein the measuring mounting cylinder (701) is connected to a sliding mounting column (603) in a sliding manner; a support mounting plate (702) is fixedly connected to the measurement mounting cylinder (701); the support mounting plate (702) is in threaded connection with a positioning bolt (703); a limiting disc (704) is fixedly connected to the positioning bolt (703); the guide wheel body (705) passes through a positioning bolt (703); the limiting disc (704) is attached to the guiding wheel main body (705).

2. The excavator guide wheel machining measurement device of claim 1, wherein: the mounting support (1) comprises: the diameter depth driving motor (105), wherein the diameter depth driving motor (105) is fixedly connected to the side surface of the mounting support plate (101); and a driving screw rod (104) is fixedly connected to an output shaft of the diameter depth driving motor (105).

3. The excavator guide wheel machining measurement device of claim 1, wherein: the movement measuring device (2) comprises: the device comprises a movable mounting block (201), a sliding attaching frame (202), a tension spring (203), a detection mounting plate (204) and a pressure sensor main body (205), wherein the sliding attaching frame (202) is connected to the movable mounting block (201) in a sliding manner; the movable mounting block (201) is connected to the mounting support plate (101) in a sliding manner; a driving screw rod (104) is connected to the movable mounting block (201) in a threaded manner; two tension springs (203) are fixedly connected to the sliding attaching frame (202); the other ends of the two tension springs (203) are fixedly connected to the movable mounting block (201); a detection mounting plate (204) is fixedly connected to the sliding attaching frame (202); the bottom of the detection mounting plate (204) is fixedly connected with a pressure sensor main body (205).

4. The excavator guide wheel machining measurement device according to claim 3, wherein: the flatness detection part (3) includes: a flat sliding column (301) and a thickness sliding plate (302), wherein the flat sliding column (301) is connected to the sliding attaching frame (202) in a sliding manner; the end part of the flat sliding column (301) is attached to the pressure sensor main body (205); the pressure sensor main body (205) is electrically connected with the controller main body (103); and a thickness sliding plate (302) is fixedly connected to the flat sliding column (301).

5. The excavator guide wheel machining measurement device of claim 4, wherein: the thickness display (4) comprises: the thickness display sliding rod (401), the attaching tension spring (402) and the measuring protrusion (403), wherein the thickness display sliding rod (401) is of an L-shaped structure; a row of scales are arranged on the thickness display sliding rod (401); the thickness display sliding rod (401) is sleeved with a fitting tension spring (402); the attaching tension spring (402) is connected between the bottom of the thickness display sliding rod (401) and the thickness sliding plate (302); the thickness display sliding rod (401) is connected to the sliding attaching frame (202) in a sliding manner; and a measuring protrusion (403) is fixedly connected to the thickness display sliding rod (401).

6. The excavator guide wheel machining measurement device of claim 1, wherein: the pressurizing test piece (5) includes: a pressurizing driving hydraulic cylinder (501) and a driving plate (502), wherein the pressurizing driving hydraulic cylinder (501) is fixedly connected to the mounting support plate (101); and a driving plate (502) is fixedly connected to an output shaft of the pressurizing driving hydraulic cylinder (501).

7. The excavator guide wheel machining measurement device of claim 1, wherein: the thickness control element (8) comprises: the control device comprises a control mounting plate (801) and a control magnet (802), wherein the control mounting plate (801) is fixedly connected to the bottom of a support mounting plate (702); a control magnet (802) is fixedly connected to the control mounting plate (801); the control magnet (802) is magnetically connected with the electromagnet (6021).