CN119413433A - A processing equipment error detection device - Google Patents

Abstract

The invention discloses processing equipment error detection equipment which comprises a base component and a sticking mechanism, wherein an angle rotating component assembled by bolts is arranged above one end of the base component, a positioning component assembled by bolts is arranged on the side of the output end of the angle rotating component, and a sliding adjusting component assembled by bolts is arranged above the other end of the base component. The device mainly utilizes the pneumatic telescopic rod to output power to drive the output end to operate, so that the effective angles of the pneumatic telescopic rod, the swinging strip and the inner ball swing, the inner ball with a spherical structure can achieve the effect of effective detection on the inside of a product, and the device is matched with the upper hinging rod, the end head strip and the outer measuring ball on two sides of the upper outer ring base to achieve the effect of joint detection on the outside of the product in the operation process after the hinge transmission output, so that the device can achieve the efficient and adaptive detection effect on the products with various structures.

Description

Processing equipment error detection equipment

Technical Field

The invention relates to the technical field of mechanical product detection, in particular to processing equipment error detection equipment.

Background

The ‌ mechanical error detection method mainly comprises a ‌ direct measurement method ‌, wherein the actual value of the measured object is obtained by directly measuring the measured object, the method is simple and easy to implement, but the precision is influenced by a measuring tool and an operator, the ‌ comparison measurement method is used for calculating the value of the measured object by comparing the difference between the measured object and a known standard, the method needs the known standard with higher precision, but needs the standard as a reference, the ‌ indirect measurement method is used for obtaining the measured object through measuring other parameters related to the measured object and calculating, the method needs to establish a mathematical model or formula, the difficulty and the error of the direct measurement can be reduced, the importance of ‌ error analysis is reduced, ‌ optimizes mechanical system design ‌, the defects in the system design can be found by analyzing the mechanical system error, the ‌ improvement of production efficiency and the product quality ‌ are provided for the control of the production process and the product quality assurance, the error analysis is helpful for improving the production efficiency and the product quality ‌ improvement of the measurement precision ‌, the error can be found out by error, and the measurement error can be correspondingly improved.

When the conventional processing equipment error detection equipment is used, as in the application number CN202110565103.2, an error detection device for machining equipment is provided, belongs to the technical field of error detection devices, and aims to solve the problem that when the conventional detection device needs to detect the rear side size of a part, workers need to measure by bypassing the rear side of the detection device, and the practicability of the detection device is greatly reduced. The lower end pedal of the pulling rod is downwards stepped through the foot part, the upper end of the pulling rod drives the limit post on the sliding block to downwards move, so that the sliding block drives the plug-in post to downwards move, and then the rotating plate rotates for one hundred eighty degrees, so that a worker does not need to measure the rear side of a part around the rear side of the detection device at the moment, the practicability of the detection device is greatly improved, however, in the technology, the structure of the folded measuring strip is inconvenient for effectively measuring a product with a complex structure, and therefore, the error detection device of the processing equipment is provided for solving the problem.

Disclosure of Invention

In view of the above problems, the invention provides an error detection device for processing equipment, which mainly utilizes the output power of a pneumatic telescopic rod to drive an output end to operate by utilizing the outer side of the inner end of a duct barrel, so that the effective angle swing of the pneumatic telescopic rod, a swinging strip and an inner ball can enable the inner ball with a spherical structure to achieve the effect of effective detection on the inside of a product, and is matched with an upper hinging rod, an end strip and an outer measuring ball on two sides of an upper outer ring base to achieve the effect of joint detection on the outside of the product in the operation process after the hinge transmission output, so that the detection effect of high-efficiency adaptability can be carried out on the products with various structures.

In order to achieve the above purpose, the present invention provides the following technical solutions:

the utility model provides a processing equipment error detection equipment, includes base subassembly and subsides survey mechanism, the one end top of base subassembly is provided with the angle rotating part of bolt assembly, just the output avris of angle rotating part is provided with the locating component of bolt assembly, the other end top of base subassembly is provided with the slip regulation subassembly of bolt assembly, just the top of slip regulation subassembly is provided with subsides survey mechanism.

As a further technical scheme, the base assembly comprises a cushion block, a cabinet body, a control panel and a long bedplate, wherein the cabinet body is arranged on the top side of the cushion block, the control panel is arranged on the front side of the cabinet body, and the long bedplate is arranged on the top side of the cabinet body.

As a further technical scheme, angle rotating part includes first bolt base plate, duct frame, bolt cover dish, rotatory main shaft, rim, spacing wheel, annular cabin, angle gear, top base, top cylinder, brake rack, removal rack, lead screw group, cell shell, first quick-witted case, change gear train and first motor, first bolt base plate bolted connection is in one end top of long platen, the top of first bolt base plate is provided with the duct frame, just the interior avris of duct frame is provided with the bolt cover dish of bolt assembly, the interior avris of bolt cover dish is provided with rotatory main shaft, just the outside side of rotatory main shaft is provided with annular cabin, one side of annular cabin is provided with spacing wheel, just the one end of spacing wheel is provided with the rim, the top side of duct frame is provided with top base, just the one end inboard of top base is provided with top cylinder, the output of top cylinder is provided with brake rack.

As a further technical scheme, the outer end of the rotary main shaft is provided with an angle gear, a movable rack is arranged below the angle gear, the movable rack is in threaded connection with a screw rod group, the outer side of the screw rod group is provided with a groove shell, two ends of the groove shell are provided with a first machine case, and a speed change gear set connected with the output end of a first motor is arranged inside the first machine case.

As a further technical scheme, locating component includes side lever, expansion arm, side articulated base, pneumatic telescopic strip, book shape strip, centre gripping base, carousel, damping axle bed, angle strip and location cutting, side lever threaded connection is in the avris of duct frame, the one end of side lever is provided with hinge connection's expansion arm, just one side of expansion arm has pneumatic telescopic strip output through side articulated base hinged connection, the one end of expansion arm is provided with a book shape strip, just the one end of a book shape strip is provided with the centre gripping base, the carousel sets up the inner of rotatory main shaft.

As a further technical scheme, the outside side of rotating main shaft is provided with damping axle bed, just damping axle bed's one end is provided with the angle strip, the one end inboard of angle strip is provided with the location cutting of cup joint installation.

As a further technical scheme, slip regulation subassembly includes second bolt base plate, slide rail strip, second machine case, first gear train, second gear train, drive belt group, second motor, threaded rod and slide base, second bolt base plate bolted connection is in the other end top of long platen, the top of second bolt base plate is provided with the slide rail strip, just the one end of slide rail strip is provided with the second machine case, the inside of second machine case is provided with first gear train, second gear train, the outer end of second machine case is provided with the drive belt group of connecting the second motor output, the output of second machine case is provided with the threaded rod, just threaded rod threaded connection has slide base.

As a further technical scheme, paste and survey mechanism includes hydro-cylinder base, hydraulic cylinder, gear cabin, driving gear, driven gear, rotatory base plate, holding ring seat, duct section of thick bamboo, pneumatic telescopic rod, swing strip, inboard ball, outer loop base, go up articulated rod, end strip and outer survey ball, the hydro-cylinder base sets up the top side of sliding base, the inboard side of hydro-cylinder base is provided with hydraulic cylinder, just hydraulic cylinder's output is provided with the gear cabin of installation driving gear and driven gear, driven gear's output is provided with rotatory base plate, just rotatory base plate's outside side is provided with the holding ring seat.

As a further technical scheme, the middle part outside of rotatory base plate is provided with the duct section of thick bamboo, just the inner of duct section of thick bamboo is provided with pneumatic telescopic rod, pneumatic telescopic rod's inner is provided with the swing strip, just the inner of swing strip is provided with the inboard ball, the outside side of duct section of thick bamboo is provided with the outer loop base of cup jointing installation, just the avris of outer loop base is provided with articulated lever, the one end of last articulated lever is provided with the end strip, just the one end of end strip is provided with outer survey ball.

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

The device mainly utilizes the pneumatic telescopic rod to output power to drive the output end to operate, so that the effective angles of the pneumatic telescopic rod, the swinging strip and the inner ball swing, the inner ball with a spherical structure can achieve the effect of effective detection on the inside of a product, and the device is matched with the upper hinging rod, the end head strip and the outer measuring ball on two sides of the upper outer ring base to achieve the effect of joint detection on the outside of the product in the operation process after the hinge transmission output, so that the device can achieve the efficient and adaptive detection effect on the products with various structures.

Drawings

FIG. 1 is a schematic diagram of a processing tool error detection apparatus;

FIG. 2 is a schematic side view of the present invention;

FIG. 3 is a schematic view of the structure of the angle rotating member of the present invention;

FIG. 4 is a schematic diagram of a first housing and a gear set of the present invention;

FIG. 5 is a schematic view of a positioning assembly according to the present invention;

FIG. 6 is a schematic view of a sliding adjustment assembly according to the present invention;

FIG. 7 is a schematic diagram of a mounting mechanism according to the present invention;

FIG. 8 is a schematic diagram of the structure of the cylinder base and the hydraulic cylinder according to the present invention;

fig. 9 is a schematic diagram of the gear compartment and the driving gear according to the present invention.

1, A base assembly; 101, cushion blocks; 102, a cabinet body; 103, control panel, 104, long bedplate, 2, angle rotating part, 201, first bolt baseplate, 202, duct frame, 203, bolt sleeve disk, 204, rotating main shaft, 205, wheel bar, 206, limit wheel, 207, annular cabin, 208, angle gear, 209, top base, 2010, top cylinder, 2011, brake rack, 2012, moving rack, 2013, lead screw group, 2014, groove shell, 2015, first machine case, 2016, speed change gear set, 2017, first motor, 3, positioning component, 301, side rod, 302, expanding and contracting arm, 303, side hinged base, 304, pneumatic telescopic bar, 305, folding bar, 306, clamping base, 307, turntable, 308, damping shaft seat, 309, angle bar, 3010, positioning insert bar, 4, sliding adjusting component, 401, second bolt baseplate, 402, sliding bar, 403, second machine case, 404, first gear set, 405, second gear set, 406, transmission band set, transmission, second motor, 408, 409, sliding base, 5, measuring mechanism, side rod, 501, side rod, 5010, 5011, 5010, 5011, 5010, rotating outer ring base.

Detailed Description

In the description of the present invention, it should be understood that the terms "center", "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first", "a second", etc. may explicitly or implicitly include one or more such feature. In the description of the present invention, unless otherwise indicated, the meaning of "a plurality" is two or more.

In the description of the present invention, unless explicitly stated or limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected, mechanically connected, electrically connected, directly connected, indirectly connected via an intervening medium, or in communication between two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art in a specific case.

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-9, in an embodiment of the invention, an error detection device for processing equipment includes a base assembly 1 and a bonding mechanism 5, an angle rotating component 2 assembled by bolts is disposed above one end of the base assembly 1, a positioning component 3 assembled by bolts is disposed at an edge side of an output end of the angle rotating component 2, a sliding adjusting component 4 assembled by bolts is disposed above the other end of the base assembly 1, and the bonding mechanism 5 is disposed at a top end of the sliding adjusting component 4.

The base assembly 1 comprises a cushion block 101, a cabinet body 102, a control panel 103 and a long bedplate 104, wherein the cabinet body 102 is arranged on the top side of the cushion block 101, the control panel 103 is arranged on the front side of the cabinet body 102, and the long bedplate 104 is arranged on the top side of the cabinet body 102.

In the embodiment of the invention, when in use, the equipment is placed at a processing place by using the cushion blocks 101 and the cabinet body 102, and each required component is effectively assembled and spliced by the long bedplate 104, so that the control panel 103 is effectively arranged.

The angle rotating member 2 includes a first bolt base plate 201, a duct frame 202, a bolt sleeve disk 203, a rotating main shaft 204, a wheel bar 205, a limit wheel 206, an annular cabin 207, an angle gear 208, a top base 209, a top cylinder 2010, a brake rack 2011, a moving rack 2012, a screw group 2013, a tank case 2014, a first chassis 2015, a speed change gear set 2016 and a first motor 2017, the first bolt base plate 201 is in bolted connection above one end of the long platen 104, the duct frame 202 is provided above the first bolt base plate 201, the inner side of the duct frame 202 is provided with the bolt sleeve disk 203 in bolt assembly, the inner side of the bolt sleeve disk 203 is provided with the rotating main shaft 204, the outer side of the rotating main shaft 204 is provided with the annular cabin 207, one side of the annular cabin 207 is provided with the limit wheel 206, one end of the limit wheel 206 is provided with the wheel bar 205, the top base 209 is provided with the top cylinder 209 is provided with the inner side of the top base 209, and the output end of the top cylinder 2010 is provided with the brake rack 2010.

In the embodiment of the invention, when the angle gear 208 rotates, the wheel bar 205 and the limiting wheel 206 can drive the rotating main shaft 204 to rotate, and when the rotating main shaft 204 rotates to a proper angle, the top cylinder 2010 on the top base 209 outputs power to drive the output end to operate, so that the top cylinder 2010 outputs power to position the brake rack 2011 on the angle gear 208 to achieve a fixed effect.

The outer end of the rotary main shaft 204 is provided with an angle gear 208, a movable rack 2012 is arranged below the angle gear 208, the movable rack 2012 is in threaded connection with a screw rod set 2013, a groove shell 2014 is arranged on the outer side of the screw rod set 2013, first chassis 2015 is arranged at two ends of the groove shell 2014, and a speed change gear set 2016 connected with the output end of a first motor 2017 is arranged inside the first chassis 2015.

In the embodiment of the invention, when the measurement angle of the product needs to be adjusted, the top cylinder 2010 output power on the top base 209 is used to drive the output end to operate, so that the top cylinder 2010 output power drives the brake rack 2011 to leave the angle gear 208, and the first motor 2017 output power drives the output end to operate, so that the speed change gear set 2016 in the first chassis 2015 operates, so that the output of the screw rod set 2013 operates, and the output of the speed change gear set 2016 operates to drive the movable rack 2012 to adjust, and the angle gear 208 rotates.

The positioning assembly 3 comprises a side rod 301, an expanding and contracting arm 302, a side hinge base 303, a pneumatic telescopic bar 304, a folding bar 305, a clamping base 306, a rotary table 307, a damping shaft seat 308, an angle bar 309 and a positioning inserting bar 3010, wherein the side rod 301 is in threaded connection with the side of the duct frame 202, one end of the side rod 301 is provided with the expanding and contracting arm 302 in hinged connection, one side of the expanding and contracting arm 302 is hinged with the output end of the pneumatic telescopic bar 304 through the side hinge base 303, one end of the expanding and contracting arm 302 is provided with the folding bar 305, one end of the folding bar 305 is provided with the clamping base 306, and the rotary table 307 is arranged at the inner end of the rotating main shaft 204.

In the embodiment of the invention, when the outer bonding is required, the pneumatic telescopic bar 304 is used for outputting power to drive the output end to operate, so that the expansion and contraction arm 302 and the side hinge base 303 have the effect of hinge adjustment, and the clamping base 306 at one end of the folded bar 305 is in spherical bonding with the side of the product.

The outer side of the rotating main shaft 204 is provided with a damping shaft seat 308, one end of the damping shaft seat 308 is provided with an angle bar 309, and the inner side of one end of the angle bar 309 is provided with a positioning inserting strip 3010 which is sleeved and installed.

In the embodiment of the invention, when product positioning is required, the groove-shaped structure of the turntable 307 is used for plugging and mounting, so that when the damping shaft seat 308 is used for angle adjustment, the angle bar 309 is used for adjusting, and the positioning cutting 3010 at one end of the angle bar 309 is plugged and connected to achieve the effect of positioning one end.

The sliding adjustment assembly 4 comprises a second bolt base plate 401, a sliding rail 402, a second machine case 403, a first gear set 404, a second gear set 405, a driving belt set 406, a second motor 407, a threaded rod 408 and a sliding base 409, wherein the second bolt base plate 401 is connected above the other end of the long bedplate 104 through a bolt, the sliding rail 402 is arranged at the top end of the second bolt base plate 401, the second machine case 403 is arranged at one end of the sliding rail 402, the first gear set 404 and the second gear set 405 are arranged in the second machine case 403, the driving belt set 406 connected with the output end of the second motor 407 is arranged at the outer end of the second machine case 403, the threaded rod 408 is arranged at the output end of the second machine case 403, and the sliding base 409 is connected with the threaded rod 408 through threads.

In the embodiment of the invention, when measurement is needed, the second motor 407 is used to output power to drive the driving belt group 406 to rotate so as to drive the first gear group 404 and the second gear group 405 in the second case 403 to output, and then the threaded rod 408 is matched with the upper slide rail 402 so as to drive the sliding base 409 to drive the adhesion mechanism 5 to operate to a proper position.

The sticking mechanism 5 comprises an oil cylinder base 501, a hydraulic oil cylinder 502, a gear cabin 503, a driving gear 504, a driven gear 505, a rotary base plate 506, a positioning ring seat 507, a duct barrel 508, a pneumatic telescopic rod 509, a swinging strip 5010, an inner ball 5011, an outer ring base 5012, an upper hinge rod 5013, a head strip 5014 and an outer measuring ball 5015, wherein the oil cylinder base 501 is arranged on the top side of a sliding base 409, the hydraulic oil cylinder 502 is arranged on the inner side of the oil cylinder base 501, the output end of the hydraulic oil cylinder 502 is provided with the gear cabin 503 for installing the driving gear 504 and the driven gear 505, the output end of the driven gear 505 is provided with the rotary base plate 506, and the positioning ring seat 507 is arranged on the outer side of the rotary base plate 506.

In the embodiment of the invention, when the adhesion mechanism 5 is operated to a proper position, the hydraulic cylinder 502 on the cylinder base 501 outputs power to drive the output end to operate according to the requirement, so that the driving gear 504 in the gear compartment 503 can drive the driven gear 505 to enable the rotary base 506 to adjust the product to a proper angle position after outputting and operating.

The middle part outside of rotatory base plate 506 is provided with duct section of thick bamboo 508, and the inner of duct section of thick bamboo 508 is provided with pneumatic telescopic rod 509, and the inner of pneumatic telescopic rod 509 is provided with swinging strip 5010, and the inner of swinging strip 5010 is provided with inboard ball 5011, and the outside side of duct section of thick bamboo 508 is provided with the outer loop base 5012 of cup joint installation, and the avris of outer loop base 5012 is provided with articulated pole 5013, and the one end of last articulated pole 5013 is provided with end strip 5014, and the one end of end strip 5014 is provided with outer survey ball 5015.

In the embodiment of the invention, when the measurement is needed, the pneumatic telescopic rod 509 is used for outputting and running, so that the swinging strip 5010 is matched with the upper inner ball 5011 to achieve the effect of effectively testing the inside of the product, and the outer ball 5015 at one end of the end strip 5014 is matched with the output end of the upper hinge rod 5013 for running, so that the effect of detecting the contact performance of the outside of the product can be achieved.

The working principle of the invention is that when in use, the cushion block 101 and the cabinet body 102 are used for placing equipment at a processing place, all required components are effectively assembled and spliced through the long bedplate 104, the control panel 103 is effectively arranged, when product positioning is required, the groove-shaped structure of the turntable 307 is used for splicing and mounting, when the damping shaft seat 308 is used for angle adjustment, the angle bar 309 is used for adjusting, the positioning cutting 3010 at one end of the angle bar 309 is spliced to achieve the effect of one end positioning, when outside bonding is required, the pneumatic telescopic bar 304 is used for outputting power to drive the output end to operate, the expansion and contraction arm 302 and the side hinged base 303 are used for performing the effect of hinge adjustment, the clamping base 306 at one end of the folded bar 305 is enabled to be in spherical joint with the side of a product, when the measuring angle adjustment of the product is required, the top cylinder 2010 output power on the top base 209 is used for driving the output end to operate, the top cylinder to drive the output power to leave the angle gear, the first motor 2017 outputs the power to drive the positioning cutting 3010 to splice one end to achieve the effect of one end positioning, when the first motor 2017 outputs the output power to drive the output end to the positioning cutting tool, when the first motor 20155 rotates the first motor 20155 drives the output end to rotate, the first motor 20153 rotates the gear ring, the first motor 20152 rotates the first motor to drive the gear ring to rotate the top cylinder to rotate, the gear ring 201208 rotates the top ring is enabled to rotate, and the gear ring set 2010 rotates the top ring is driven to rotate, and the top ring is enabled to rotate the top ring is positioned to rotate, and the top ring is arranged, when the top ring is arranged, and the top is arranged, when measured, when the measuring is required is measured, and is subjected to be positioned, and is subjected to be. When measurement is needed, the second motor 407 is used for outputting power to drive the transmission belt group 406 to rotate so as to enable the first gear group 404 and the second gear group 405 in the second chassis 403 to perform transmission operation output, then the threaded rod 408 is matched with the upper slide rail bar 402 so as to drive the sliding base 409 to enable the adhesion measurement mechanism 5 to operate to a proper position, when the adhesion measurement mechanism 5 is operated to the proper position, the hydraulic cylinder 502 on the cylinder base 501 is enabled to output power to drive the output end to operate according to the requirement, the driving gear 504 in the gear cabin 503 can drive the driven gear 505 after output operation so as to enable the rotary substrate 506 to adjust a product to a proper angle position, when measurement is needed, the pneumatic telescopic rod 509 is used for outputting operation so that the swinging rod 5010 is matched with the inner ball 5011 to achieve an effect of effective test on the interior of the product, and the outer ball 5015 of one end of the end bar 4 is matched with the output end of the upper hinge rod 5013 to operate so as to achieve an effect of contact detection on the exterior of the product.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (9)

1. The error detection device for the processing equipment comprises a base component (1) and a sticking mechanism (5) and is characterized in that an angle rotating component (2) assembled by bolts is arranged above one end of the base component (1), a positioning component (3) assembled by bolts is arranged on the side of the output end of the angle rotating component (2), a sliding adjusting component (4) assembled by bolts is arranged above the other end of the base component (1), and the top end of the sliding adjusting component (4) is provided with the sticking mechanism (5).

2. The processing equipment error detection equipment according to claim 1, wherein the base component (1) comprises a cushion block (101), a cabinet body (102), a control panel (103) and a long bedplate (104), the cabinet body (102) is arranged on the top side of the cushion block (101), the control panel (103) is arranged on the front side of the cabinet body (102), and the long bedplate (104) is arranged on the top side of the cabinet body (102).

3. The processing equipment error detection device according to claim 2, wherein the angle rotating component (2) comprises a first bolt base plate (201), a duct frame (202), a bolt sleeve disc (203), a rotating main shaft (204), a wheel bar (205), a limiting wheel (206), an annular cabin (207), an angle gear (208), a top base (209), a top cylinder (2010), a brake rack (2011), a movable rack (2012), a screw rod group (2013), a groove shell (2014), a first chassis (2015), a speed changing gear group (2016) and a first motor (2017), the first bolt base plate (201) is connected above one end of the long bedplate (104) through bolts, the duct frame (202) is arranged above the first bolt base plate (201), the bolt sleeve disc (203) assembled through bolts is arranged on the inner side of the duct frame (202), the rotating main shaft (204) is arranged on the inner side of the bolt sleeve disc (203), the annular cabin (207) is arranged on the outer side of the rotating main shaft (204), the limiting wheel (206) is arranged on one end of the duct frame (209), and a top cylinder (2010) is arranged on the inner side of one end of the top base (209), and a brake rack (2011) is arranged at the output end of the top cylinder (2010).

4. The processing equipment error detection equipment according to claim 3, wherein an angle gear (208) is arranged at the outer end of the rotating main shaft (204), a movable rack (2012) is arranged below the angle gear (208), a screw rod group (2013) is connected to the movable rack (2012) in a threaded mode, a groove shell (2014) is arranged at the outer side of the screw rod group (2013), a first chassis (2015) is arranged at two ends of the groove shell (2014), and a speed change gear set (2016) connected to the output end of the first motor (2017) is arranged inside the first chassis (2015).

5. The processing equipment error detection equipment according to claim 3, wherein the positioning assembly (3) comprises a side rod (301), an expanding and contracting arm (302), a side hinge base (303), a pneumatic telescopic strip (304), a folded strip (305), a clamping base (306), a rotary table (307), a damping shaft seat (308), an angle strip (309) and a positioning inserting strip (3010), the side rod (301) is in threaded connection with the side of the duct frame (202), one end of the side rod (301) is provided with an expanding and contracting arm (302) in hinged connection, one side of the expanding and contracting arm (302) is in hinged connection with an output end of the pneumatic telescopic strip (304) through the side hinge base (303), one end of the expanding and contracting arm (302) is provided with a folded strip (305), one end of the folded strip (305) is provided with the clamping base (306), and the rotary table (307) is arranged at the inner end of the rotary spindle (204).

6. The error detecting apparatus for machining equipment according to claim 7, wherein a damping shaft seat (308) is arranged on the outer side of the rotary main shaft (204), an angle bar (309) is arranged at one end of the damping shaft seat (308), and a positioning insert (3010) which is sleeved and mounted is arranged on the inner side of one end of the angle bar (309).

7. The processing equipment error detection equipment according to claim 2, wherein the sliding adjustment assembly (4) comprises a second bolt base plate (401), a sliding rail (402), a second machine case (403), a first gear set (404), a second gear set (405), a driving belt group (406), a second motor (407), a threaded rod (408) and a sliding base (409), the second bolt base plate (401) is connected above the other end of the long platen (104) through a bolt, the sliding rail (402) is arranged at the top end of the second bolt base plate (401), the second machine case (403) is arranged at one end of the sliding rail (402), the first gear set (404) and the second gear set (405) are arranged in the second machine case (403), the driving belt group (406) connected with the output end of the second motor (407) is arranged at the outer end of the second machine case (403), the threaded rod (408) is arranged at the output end of the second machine case (403), and the sliding base (409) is connected through threads.

8. The device for detecting errors of processing equipment according to claim 7, wherein the attaching and detecting mechanism (5) comprises an oil cylinder base (501), a hydraulic oil cylinder (502), a gear cabin (503), a driving gear (504), a driven gear (505), a rotary base plate (506), a positioning ring seat (507), a duct barrel (508), a pneumatic telescopic rod (509), a swinging rod (5010), an inner ball (5011), an outer ring base (5012), an upper hinging rod (5013), an end rod (5014) and an outer measuring ball (5015), the oil cylinder base (501) is arranged on the top side of the sliding base (409), the hydraulic oil cylinder (502) is arranged on the inner side of the oil cylinder base (501), the gear cabin (503) for installing the driving gear (504) and the driven gear (505) is arranged at the output end of the hydraulic oil cylinder (502), the rotary base plate (506) is arranged at the output end of the driven gear (505), and the positioning ring seat (507) is arranged on the outer side of the rotary base plate (506).

9. The processing equipment error detection equipment according to claim 8, wherein a duct barrel (508) is arranged on the outer side of the middle of the rotary base plate (506), a pneumatic telescopic rod (509) is arranged at the inner end of the duct barrel (508), a swinging rod (5010) is arranged at the inner end of the pneumatic telescopic rod (509), an inner ball (5011) is arranged at the inner end of the swinging rod (5010), an outer ring base (5012) which is in sleeved connection is arranged on the outer side of the duct barrel (508), an upper hinging rod (5013) is arranged on the side of the outer ring base (5012), an end bar (5014) is arranged at one end of the upper hinging rod (5013), and an outer measuring ball (5015) is arranged at one end of the end bar (5014).