CN218781763U - Flatness detection device for machining - Google Patents

Abstract

The utility model discloses a flatness detection device for machining, which comprises two marking devices which are uniformly distributed in the front and back and are used for transferring plates and detecting and marking uneven positions, wherein a turnover device used for turning over the plates is arranged between the marking devices, and one side of the marking devices is provided with a separation device used for separately transferring the detected plates according to whether the plates are flat or not; the marking device comprises a first support, a plurality of first rotating shafts are evenly arranged in the middle of the first support, a first motor is installed at one end of each first rotating shaft, and the first motor is connected with the first support through bolts. The flatness detection device for machining provided by the utility model is added with a device for marking the uneven position of the plate during detection, thereby facilitating the subsequent trimming of the plate; a mechanism for overturning the plate is added, so that two sides of the plate can be detected simultaneously; the arrangement that whether the detected plates are conveyed in a flat and separated mode or not is increased, and subsequent processing is convenient.

Description

Flatness detection device for machining

Technical Field

The utility model belongs to the machining field especially relates to a roughness detection device for machining.

Background

In the machining process, the flatness of the surface of the plate needs to be detected for machining, so that the subsequent machining use is met, the precision of mechanical equipment is improved, and the flatness detection is an important link in the machining process.

However, in the prior art, the flatness detection device for processing plates: 1. the device for marking the uneven position of the plate during detection is not available, so that the plate is inconvenient to subsequently finish; 2. the two sides of the plate cannot be detected simultaneously without a mechanism for overturning the plate; 3. the detected plates are not conveyed flatly or separately, and subsequent processing is inconvenient.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a roughness detection device for machining to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

a flatness detection device for machining comprises two marking devices which are uniformly distributed in the front and back and used for transferring a plate and detecting and marking uneven positions, wherein a turnover device used for turning over the plate is arranged between the marking devices, and a separating device used for separating and transferring the detected plate according to flatness or not is arranged on one side of each marking device; the marking device comprises a first support, a plurality of first rotating shafts are uniformly arranged in the middle of the first support, a first motor is mounted at one end of each first rotating shaft, the first motor is connected with a first support bolt, a scanner is arranged below each first rotating shaft, a lead screw is arranged on one side of the scanner, a light bar is arranged above each lead screw, a sliding seat is arranged between each lead screw and each light bar, an air cylinder is mounted on one side of each sliding seat, a marking pen is arranged below each air cylinder, a second motor is mounted at one end of each lead screw, and the second motor is connected with the first support bolt; the separating device comprises a third support, a plurality of second rotating shafts are distributed in the middle of the third support at equal intervals, the second rotating shafts are divided into an upper group and a lower group, the second rotating shafts are located at the top of the third support, a partition plate is arranged on one side of each second rotating shaft, a fifth motor is arranged on one side of each partition plate, and the fifth motor is connected with the third support through bolts.

Further: turning device includes the second support, the symmetry is rotated in the middle of the second support and is provided with two back shafts, back shaft one end is provided with the third motor, the third motor with second support bolted connection, it is provided with the swivel mount to slide on the back shaft, the symmetry is rotated in the middle of the swivel mount and is provided with four transmission shafts, be provided with two conveyer belts between the transmission shaft, the conveyer belt is in the symmetry sets up in the middle of the swivel mount, the fourth motor is installed to transmission shaft one end, the fourth motor with swivel mount bolted connection.

Further: the first support is made of Q235 steel materials, and the first rotating shaft is connected with the first support bearing.

Further, the method comprises the following steps: the lead screw is connected with the first bracket bearing.

Further, the method comprises the following steps: the swivel mount adopts Q235 steel material, the swivel mount is circular.

Further: the partition plate is connected with the fifth motor through a flat key.

Compared with the prior art, the beneficial effects of the utility model are that:

1. a device for marking the uneven position of the plate during detection is added, so that the plate can be conveniently trimmed subsequently;

2. a mechanism for overturning the plate is added, so that two sides of the plate can be detected simultaneously;

3. the arrangement that whether the detected plates are conveyed in a flat and separated mode or not is increased, and subsequent processing is convenient.

Drawings

Fig. 1 is a schematic structural view of a flatness detecting apparatus for machining according to the present invention;

fig. 2 is a schematic structural view of a marking device of the flatness detecting device for machining according to the present invention;

fig. 3 is a schematic structural view of a turning device of the flatness detecting device for machining according to the present invention;

fig. 4 is a schematic structural view of a separating device of the flatness detecting device for machining according to the present invention;

fig. 5 is a side sectional view of the separating device of the flatness detecting apparatus for machining according to the present invention.

In the reference symbols: 1. a marking device; 101. a first bracket; 102. a first rotating shaft; 103. a marking pen; 104. a first motor; 105. a scanner; 106. a lead screw; 107. a feed bar; 108. a second motor; 109. A sliding seat; 110. a cylinder; 2. a turning device; 201. a second bracket; 202. a support shaft; 203. a third motor; 204. a rotating frame; 205. a drive shaft; 206. a conveyor belt; 207. a fourth motor; 3. a partitioning means; 301. a third support; 302. a second rotating shaft; 303. a partition plate; 304. and a fifth motor.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

Referring to fig. 1 to 5, a flatness detecting apparatus for machining includes two marking devices 1 uniformly distributed in front and rear for transferring a plate and detecting and marking unevenness, a turnover device 2 for turning over the plate is disposed between the marking devices 1, and a separating device 3 for separating and transferring the detected plate according to flatness is disposed at one side of the marking devices 1.

In this embodiment: the marking device 1 comprises a first support 101, a plurality of first rotating shafts 102 are uniformly arranged in the middle of the first support 101, a first motor 104 is mounted at one end of each first rotating shaft 102, the first motor 104 is connected with the first support 101 through a bolt, a scanner 105 is arranged below the first rotating shaft 102, a lead screw 106 is arranged on one side of the scanner 105, a light bar 107 is arranged above the lead screw 106, a sliding seat 109 is arranged between the lead screw 106 and the light bar 107, an air cylinder 110 is mounted on one side of the sliding seat 109, a marking pen 103 is arranged below the air cylinder 110, a second motor 108 is mounted at one end of the lead screw 106, the second motor 108 is connected with the first support 101 through a bolt, the first support 101 is made of Q235 steel, the first rotating shaft 102 is connected with the first support 101 through a bearing, the lead screw 106 is connected with the first support 101 through a bearing, a to-be-detected plate is placed on the first rotating shaft 102 at one end of the marking device 1, which is far away from a turnover device 2, the first rotating shaft 104 supports the first motor 104 to drive the first rotating shaft 102 to drive the plate to uniformly translate at the uniform speed, the position of the sliding seat 106, the sliding seat 108 drives the sliding seat to move along the marking seat 109, the position 109, the marking pen 109, and does not move on the marking cylinder 109 after the scanning of the scanning by the scanner 105, and the marking pen is not to move on the marking cylinder 109;

in this embodiment: the turnover device 2 comprises a second support 201, two support shafts 202 are symmetrically and rotatably arranged in the middle of the second support 201, a third motor 203 is arranged at one end of each support shaft 202, the third motor 203 is in bolted connection with the second support 201, a rotating frame 204 is rotatably arranged on each support shaft 202, four transmission shafts 205 are symmetrically and rotatably arranged in the middle of each rotating frame 204, two conveyor belts 206 are arranged between the transmission shafts 205, the conveyor belts 206 are symmetrically arranged in the middle of each rotating frame 204 up and down, a fourth motor 207 is arranged at one end of each transmission shaft 205, the fourth motor 207 is in bolted connection with each rotating frame 204, each rotating frame 204 is made of Q235 steel materials, each rotating frame 204 is circular, each rotating frame 204 supports the fourth motor 207 to drive the transmission shafts 205 to rotate to drive the conveyor belts 206 to move, a plate enters between the two conveyor belts 206, the second support 201 supports the third motor 203 to drive the support shafts 202 to rotate to drive the rotating frames 204 to rotate by one hundred eighty degrees, the plate between the two conveyor belts 206 is turned over, and the plate is sent out by the conveyor belts 206 after being turned over;

in this embodiment: the separating device 3 comprises a third support 301, a plurality of second rotating shafts 302 are equidistantly distributed in the middle of the third support 301, the second rotating shafts 302 are divided into an upper group and a lower group, a separating plate 303 is arranged on one side of the second rotating shaft 302 positioned at the top of the third support 301, a fifth motor 304 is arranged on one side of the separating plate 303, the fifth motor 304 is in bolt connection with the third support 301, the separating plate 303 is in flat key connection with the fifth motor 304, after the two-side detection is finished, the third support 301 supports the fifth motor 304 to drive the separating plate 303 to rotate so as to control the moving direction of the plate material, when the separating plate 303 is lifted, the plate material is moved out from the second rotating shaft 302 at the bottom of the third support 301, and when the separating plate 303 falls, the plate material is moved out from the second rotating shaft 302 at the top of the third support 301;

the working principle is as follows: the plate to be detected is placed on a first rotating shaft 102 at one end of a marking device 1 far away from a turnover device 2, a first support 101 supports a first motor 104 to drive the first rotating shaft 102 to rotate to drive the plate to translate at a uniform speed, after the scanner 105 scans the plate, the first support 101 supports a second motor 108 to drive a screw 106 to rotate to drive a sliding seat 109 to move along a light bar 107, after the sliding seat 109 moves above an uneven position of the plate, the sliding seat 109 supports a cylinder 110 to support the sliding seat 109 to eject a marking pen 103 to mark the uneven position on the plate, then a rotating frame 204 supports a fourth motor 207 to drive a transmission shaft 205 to rotate to drive a transmission belt 206 to move, the plate enters between the two transmission belts 206, a second support 201 supports a third motor 203 to drive a support shaft 202 to rotate to drive the rotating frame 204 to rotate by one hundred eighty degrees, the plate between the two transmission belts 206 is turned over, after the turning over, the transmission belts 206 send the plate out to complete detection of the other side according to the above steps, after the detection of the two sides is completed, a third support 301 supports a fifth motor 304 to drive a partition 303 to drive a partition plate 303 to rotate to control the moving direction of the plate, when the partition plate 303 is lifted, the second support 301 is moved out of the partition plate 302, and the second rotating shaft 302, and the partition plate 302 is moved out from the top of the second rotating shaft 302 when the partition plate 302, when the partition plate 303, and the partition plate 303 falls out of the partition plate 302, when the partition plate 303 is lifted partition plate 303.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a roughness detection device for machining which characterized in that: the plate turnover device comprises two marking devices (1) which are uniformly distributed at the front and the back and are used for transferring a plate and detecting and marking uneven positions, wherein a turnover device (2) used for turning over the plate is arranged between the marking devices (1), and a separating device (3) used for flatly separating and transferring the detected plate is arranged on one side of each marking device (1);

the marking device (1) comprises a first support (101), a plurality of first rotating shafts (102) are uniformly arranged in the middle of the first support (101), a first motor (104) is installed at one end of each first rotating shaft (102), the first motor (104) is connected with the first support (101) through bolts, a scanner (105) is arranged above each first rotating shaft (102), a lead screw (106) is arranged on one side of the scanner (105), a light bar (107) is arranged below each lead screw (106), a sliding seat (109) is arranged between each lead screw (106) and each light bar (107), an air cylinder (110) is installed on one side of each sliding seat (109), a marking pen (103) is arranged below each air cylinder (110), a second motor (108) is installed at one end of each lead screw (106), and the second motor (108) is connected with the first support (101) through bolts;

separator (3) include third support (301), third support (301) middle equidistance distributes and has a plurality of second pivot (302), second pivot (302) divide into about two sets ofly, are located third support (301) top second pivot (302) one side is provided with baffle (303), baffle (303) one side is provided with fifth motor (304), fifth motor (304) with third support (301) bolted connection.

2. The flatness detecting apparatus for machining according to claim 1, wherein: turning device (2) include second support (201), symmetry rotation is provided with two back shafts (202) in the middle of second support (201), back shaft (202) one end is provided with third motor (203), third motor (203) with second support (201) bolted connection, it is provided with swivel mount (204) to slide on back shaft (202), symmetry rotation is provided with four transmission shafts (205) in the middle of swivel mount (204), be provided with two conveyer belts (206) between transmission shaft (205), conveyer belt (206) are in the middle of swivel mount (204) longitudinal symmetry sets up, fourth motor (207) are installed to transmission shaft (205) one end, fourth motor (207) with swivel mount (204) bolted connection.

3. The flatness detecting apparatus for machining according to claim 1, wherein: the first support (101) is made of Q235 steel materials, and the first rotating shaft (102) is in bearing connection with the first support (101).

4. The flatness detecting apparatus for machining according to claim 1, wherein: the lead screw (106) is in bearing connection with the first bracket (101).

5. The flatness detecting apparatus for machining according to claim 2, wherein: the rotating frame (204) is made of Q235 steel materials, and the rotating frame (204) is circular.

6. The flatness detecting device for machining according to claim 1, wherein: the partition plate (303) is in flat key connection with the fifth motor (304).

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