阅读说明：本技术 一种批量齿轮齿高检测设备 (High check out test set of batch gear tooth ) 是由 李双中 于 2021-01-15 设计创作，主要内容包括：本发明公开的一种批量齿轮齿高检测设备,本发明包括机体外壳,所述机体外壳内设有动力腔,所述动力腔内滑动设有动力块,所述动力块左端与所述动力腔左侧内壁之间设有动力弹簧,所述动力块右端固定设有动力杆,所述动力杆后端固定设有驱动杆,所述驱动杆上固定设有驱动齿条,所述机体外壳内设有驱动腔,本发明通过设置批量齿轮检测设备,能够使单个的齿轮掉落到固定块上,当齿轮到达一定数量时,使固定块转动,从而对批量齿轮进行一起检测,同时使下个固定块上再次存储有齿轮,当齿轮检测完成后固定块转动到下方,从而使齿轮掉落,效率高,具有较高的一体化程度。(The invention discloses a batch gear tooth height detection device, which comprises a machine body shell, wherein a power cavity is arranged in the machine body shell, a power block is arranged in the power cavity in a sliding manner, a power spring is arranged between the left end of the power block and the inner wall of the left side of the power cavity, a power rod is fixedly arranged at the right end of the power block, a driving rod is fixedly arranged at the rear end of the power rod, a driving rack is fixedly arranged on the driving rod, the invention can drop single gear onto the fixed block by arranging batch gear detection equipment, when the gears reach a certain number, the fixed block is rotated, thereby detecting the batch gears together, simultaneously storing the gears on the next fixed block again, after the gear is detected, the fixed block rotates to the lower side, so that the gear falls, the efficiency is high, and the gear detection device has high integration degree.)

1. The utility model provides a high check out test set of batch gear tooth, includes engine body shell, its characterized in that: a power cavity is arranged in the machine body shell, a power block is arranged in the power cavity in a sliding mode, a power spring is arranged between the left end of the power block and the inner wall of the left side of the power cavity, a power rod is fixedly arranged at the right end of the power block, a driving rod is fixedly arranged at the rear end of the power rod, a driving rack is fixedly arranged on the driving rod, a driving cavity is arranged in the machine body shell, a driving motor is fixedly arranged on the inner wall of the driving cavity, a driving motor rotating shaft is rotatably arranged at the upper end of the driving motor, a first connecting gear is fixedly arranged on the driving motor rotating shaft, a three-quarter gear is fixedly arranged on the driving motor rotating shaft, the three-quarter gear is arranged at the lower end of the first connecting gear, the three-quarter gear can be meshed with the driving rack, the three-quarter gear is a gear without teeth, and when one end, the driving rack can move leftwards, the upper inner wall and the lower inner wall of the driving cavity are rotatably provided with connecting rotating shafts, the connecting rotating shafts are arranged at the right ends of the rotating shafts of the driving motors, the rotating shafts of the driving motors are fixedly provided with second connecting gears, the rotating shafts of the driving motors are fixedly provided with bevel gears, the bevel gears are arranged at the lower ends of the second connecting gears, a connecting chain is arranged between the second connecting gears and the first connecting gears, the inner wall at the rear side of the driving cavity is rotatably provided with a transmission rotating shaft, the transmission rotating shaft is fixedly provided with a transmission worm wheel, the transmission rotating shaft is fixedly provided with a transmission gear, the transmission gear is arranged at the front end of the transmission worm wheel, the inner wall of the driving cavity is rotatably provided with a transmission worm gear, the transmission worm is fixedly provided with a large bevel gear, the large worm wheel is meshed with the bevel gears, and, thereby make the transmission pivot can rotate, it is equipped with the long pivot of transmission to rotate on the drive chamber rear side inner wall, the long pivot of transmission is in the transmission pivot right-hand member, the fixed transmission gear wheel that is equipped with in the long pivot of transmission, the transmission gear wheel can with transmission gear engagement, thereby make the transmission gear wheel can rotate, the fixed quarter gear that is equipped with in the long pivot of transmission, the quarter gear is in transmission gear wheel front end.

2. The batch gear tooth height detection apparatus according to claim 1, wherein: drive chamber right side front end inner wall is gone up to rotate and is equipped with the trigger pivot, the fixed friction gear that is equipped with in the trigger pivot, friction gear with be equipped with frictional force between the drive intracavity wall, thereby make the trigger pivot can keep not rotating under the condition that does not have external force, the fixed trigger block that is equipped with in trigger pivot rear end, the fixed short pivot that triggers that is equipped with in trigger block rear end, the fixed trigger gear that is equipped with in the short pivot that triggers, trigger gear can with the quarter gear effect, the gear of quarter gear for having the quarter tooth, thereby make when the quarter gear rotates the round, can make the trigger gear rotates the quarter.

3. The batch gear tooth height detection apparatus according to claim 1, wherein: an unfolding hydraulic pump is fixedly arranged in the trigger block, four identical and uniformly distributed unfolding cavities are arranged in the trigger block, an unfolding rod is arranged in the unfolding cavity in a sliding manner, four identical and uniformly distributed unfolding fixed blocks are fixedly arranged outside the trigger block, two identical unfolding sliding cavities are arranged in the unfolding fixed blocks, unfolding sliding blocks are arranged in the unfolding sliding cavities in a sliding manner, the two unfolding sliding blocks are fixedly connected through a connecting rod, so that the two unfolding sliding blocks can move together, unfolding plates are arranged on the left side and the right side of the unfolding fixed blocks, unfolding connecting rods are hinged between the unfolding plates and the unfolding sliding blocks, elastic ropes are arranged between the unfolding plates and the unfolding fixed blocks, so that the unfolding plates can move in the unfolding fixed blocks under the condition of no external force, and the unfolding sliding blocks move upwards, the unfolding plates can be far away from each other, a control valve is fixedly arranged in the trigger block and connected with the unfolding hydraulic pumps through pipelines, so that hydraulic oil in the unfolding hydraulic pumps can enter different unfolding cavities, and different unfolding plates can be controlled to be unfolded and closed.

4. The batch gear tooth height detection apparatus according to claim 1, wherein: the engine body shell is internally provided with a pushing cavity at the upper end of the left side, a pushing block is arranged in the pushing cavity in a sliding mode, a pushing rope is arranged between the left end of the pushing block and the inner wall of the left side of the pushing cavity, a pushing rod is fixedly arranged at the right end of the pushing block, a limiting sliding cavity is arranged in the pushing block, a limiting block is arranged in the limiting sliding cavity in a sliding mode, a limiting spring is arranged between the upper end of the limiting block and the inner wall of the upper side of the limiting sliding cavity, the limiting block can be in contact with the power block, so that the limiting block can move rightwards, a fixing block is fixedly arranged on the inner wall of the engine body shell, the fixing block can act on the limiting block, and the limiting block can move upwards, so that the power block is not clamped, and.

5. The batch gear tooth height detection apparatus according to claim 1, wherein: a storage box is fixedly arranged at the upper end in the machine body shell, openings are arranged on the left side and the right side of the lower end of the storage box, the push rod can extend into the left opening to enable the gear in the storage box to fall onto the unfolding fixing block through the right opening, a detection sliding cavity is arranged at the left side in the machine body shell, a detection sliding block is arranged in the detection sliding cavity in a sliding manner, a detection disc is fixedly arranged at the right end of the detection sliding block, a detection hydraulic pump is arranged in the machine body shell, the detection hydraulic pump is connected with the detection sliding cavity through a pipeline, eight detection cavities which are identical in I and are uniformly distributed are arranged in the detection disc, a detection rod is arranged in the detection cavity in a sliding manner, an induction block is fixedly arranged on the inner wall of the detection cavity, a detection spring is arranged between the induction block and the detection rod, the detection rod can be in contact with the highest position of the gear, so that whether the gear is intact or not can be detected through the induction block.

Technical Field

The invention relates to the related field of gears, in particular to a batch gear tooth height detection device.

Background

As is well known, gear detection is always an essential item in the field of gear production and application, the gear detection is a key link for ensuring the performance and quality of a gear finished product, the gear detection is not only an important basis for acceptance of the gear finished product, but also technical guarantee for quality control of the gear in the machining and manufacturing process, but the existing detection is single detection and low in efficiency.

Disclosure of Invention

In order to solve the problems, the present example designs a batch gear tooth height detection device, which includes a machine body housing, a power cavity is arranged in the machine body housing, a power block is slidably arranged in the power cavity, a power spring is arranged between the left end of the power block and the left inner wall of the power cavity, a power rod is fixedly arranged at the right end of the power block, a driving rod is fixedly arranged at the rear end of the power rod, a driving rack is fixedly arranged on the driving rod, a driving cavity is arranged in the machine body housing, a driving motor is fixedly arranged on the inner wall of the driving cavity, a driving motor rotating shaft is rotatably arranged at the upper end of the driving motor, a first connecting gear is fixedly arranged on the driving motor rotating shaft, a three-quarter gear is fixedly arranged on the driving motor rotating shaft, the three-quarter gear is arranged at the lower end of the first connecting gear, and can be engaged with the driving rack, the three-quarter gear is a gear without one-quarter tooth, when one end of the three-quarter gear without teeth is contacted with the driving rack, the driving rack can move leftwards, the upper inner wall and the lower inner wall of the driving cavity are rotatably provided with connecting rotating shafts, the connecting rotating shafts are arranged at the right end of the rotating shaft of the driving motor, a second connecting gear is fixedly arranged on the rotating shaft of the driving motor, a small helical gear is fixedly arranged on the rotating shaft of the driving motor, the small helical gear is arranged at the lower end of the second connecting gear, a connecting chain is arranged between the second connecting gear and the first connecting gear, a transmission rotating shaft is rotatably arranged on the inner wall at the rear side of the driving cavity, a transmission worm wheel is fixedly arranged on the transmission rotating shaft, a transmission gear is fixedly arranged on the transmission rotating shaft, the transmission gear is arranged at the front end of the transmission worm wheel, and a transmission worm is, the fixed big helical gear that is equipped with on the transmission worm, big helical gear with the meshing of bevel pinion, the transmission worm with the meshing of transmission worm wheel, thereby make the transmission pivot can rotate, it is equipped with the long pivot of transmission to rotate on the drive chamber rear side inner wall, the long pivot of transmission is in transmission pivot right-hand member, the fixed transmission gear wheel that is equipped with in the long pivot of transmission, the transmission gear wheel can with the transmission gear meshing, thereby make the transmission gear wheel can rotate, the fixed quarter gear that is equipped with in the long pivot of transmission, the quarter gear is in transmission gear wheel front end.

Preferably, it is equipped with the trigger pivot to rotate on the front end inner wall of drive chamber right side, the fixed friction gear that is equipped with in the trigger pivot, friction gear with be equipped with frictional force between the drive intracavity wall, thereby make the trigger pivot can keep not rotating under the condition that does not have external force, the fixed trigger block that is equipped with in trigger pivot rear end, the fixed short pivot that triggers that is equipped with in trigger block rear end, the fixed trigger gear that is equipped with in the short pivot of triggering, trigger gear can with the quarter gear effect, the quarter gear is for having the gear of quarter tooth, thereby makes when the quarter gear rotates the round, can make trigger gear rotates the quarter.

Preferably, an unfolding hydraulic pump is fixedly arranged in the trigger block, four identical and uniformly distributed unfolding cavities are arranged in the trigger block, an unfolding rod is arranged in the unfolding cavities in a sliding manner, four identical and uniformly distributed unfolding fixed blocks are fixedly arranged outside the trigger block, two identical unfolding sliding cavities are arranged in the unfolding fixed blocks, unfolding sliding blocks are arranged in the unfolding sliding cavities in a sliding manner, the two unfolding sliding blocks are fixedly connected through connecting rods, so that the two unfolding sliding blocks can move together, unfolding plates are arranged on the left side and the right side of the unfolding fixed blocks, unfolding connecting rods are hinged between the unfolding plates and the unfolding sliding blocks, elastic ropes are arranged between the unfolding plates and the unfolding fixed blocks, the unfolding plates can be arranged in the unfolding fixed blocks under the condition of no external force, and the unfolding sliding blocks move upwards, the unfolding plates can be far away from each other, a control valve is fixedly arranged in the trigger block and connected with the unfolding hydraulic pumps through pipelines, so that hydraulic oil in the unfolding hydraulic pumps can enter different unfolding cavities, and different unfolding plates can be controlled to be unfolded and closed.

Preferably, the upper end of the left side in the engine body shell is provided with a pushing cavity, the pushing cavity is internally provided with a pushing block in a sliding mode, the left end of the pushing block is provided with a pushing rope between the inner walls of the left side of the pushing cavity, the right end of the pushing block is fixedly provided with a pushing rod, the pushing block is internally provided with a limiting sliding cavity, the limiting sliding cavity is internally provided with a limiting block in a sliding mode, the upper end of the limiting block is provided with a limiting spring between the inner walls of the upper side of the limiting sliding cavity, the limiting block can be in contact with the power block, so that the limiting block can move rightwards, the inner wall of the engine body shell is fixedly provided with a fixing block, the fixing block can act on the limiting block, and the limiting block can move upwards, so that the power block is not clamped with the.

Preferably, a storage box is fixedly arranged at the upper end in the machine body shell, openings are arranged on the left side and the right side of the lower end of the storage box, the push rod can extend into the left opening to enable the gear in the storage box to fall onto the unfolding fixed block through the opening on the right side, a detection sliding cavity is arranged on the left side in the machine body shell, a detection sliding block is arranged in the detection sliding cavity in a sliding manner, a detection disc is fixedly arranged at the right end of the detection sliding block, a detection hydraulic pump is arranged in the machine body shell and is connected with the detection sliding cavity through a pipeline, eight detection cavities which are identical in structure I and uniformly distributed are arranged in the detection disc, a detection rod is arranged in the detection cavity in a sliding manner, an induction block is fixedly arranged on the inner wall of the detection cavity, a detection spring is arranged between the induction block, therefore, whether the gear is intact or not can be detected through the induction block.

The invention has the beneficial effects that: according to the invention, by arranging the batch gear detection equipment, the single gear can fall on the fixed block, when the gears reach a certain number, the fixed block is rotated, so that batch gears are detected together, meanwhile, the next fixed block stores the gear again, and after the gear detection is finished, the fixed block rotates to the lower part, so that the gear falls off, the efficiency is high, and the integration degree is higher.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

The invention is further illustrated with reference to the following figures and examples.

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

FIG. 2 is a schematic view of the structure A-A of FIG. 1;

FIG. 3 is a schematic diagram of B-B of FIG. 1;

FIG. 4 is a schematic diagram of the structure of C-C in FIG. 1;

fig. 5 is an enlarged schematic view of D in fig. 1.

Detailed Description

The invention will now be described in detail with reference to fig. 1-5, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The invention relates to a batch gear tooth height detection device, which comprises a machine body shell 10, wherein a power cavity 24 is arranged in the machine body shell 10, a power block 22 is arranged in the power cavity 24 in a sliding manner, a power spring 23 is arranged between the left end of the power block 22 and the inner wall of the left side of the power cavity 24, a power rod 21 is fixedly arranged at the right end of the power block 22, a driving rod 37 is fixedly arranged at the rear end of the power rod 21, a driving rack 38 is fixedly arranged on the driving rod 37, a driving cavity 36 is arranged in the machine body shell 10, a driving motor 35 is fixedly arranged on the inner wall of the driving cavity 36, a driving motor rotating shaft 41 is rotatably arranged at the upper end of the driving motor 35, a first connecting gear 40 is fixedly arranged on the driving motor rotating shaft 41, a three-quarter gear 39 is fixedly arranged on the driving motor rotating shaft 41, and the three-quarter, the three-quarter gear 39 can be engaged with the driving rack 38, the three-quarter gear 39 is a gear with one quarter having no teeth, when one end of the three-quarter gear 39 having no teeth is contacted with the driving rack 38, the driving rack 38 can be moved leftwards, the upper and lower inner walls of the driving cavity 36 are rotatably provided with a connecting rotating shaft 45, the connecting rotating shaft 45 is arranged at the right end of the rotating shaft 41 of the driving motor, the rotating shaft 41 of the driving motor is fixedly provided with a second connecting gear 44, the rotating shaft 41 of the driving motor is fixedly provided with a small bevel gear 43, the small bevel gear 43 is arranged at the lower end of the second connecting gear 44, a connecting chain 42 is arranged between the second connecting gear 44 and the first connecting gear 40, the inner wall at the rear side of the driving cavity 36 is rotatably provided with a transmitting rotating shaft 47, the transmitting worm gear 48 is fixedly arranged on the transmitting rotating shaft 47, a transmission gear 50 is fixedly arranged on the transmission rotating shaft 47, the transmission gear 50 is arranged at the front end of the transmission worm gear 48, a transmission worm 49 is rotatably arranged on the inner wall of the driving cavity 36, a large helical gear 46 is fixedly arranged on the transmission worm 49, the large helical gear 46 is engaged with the small helical gear 43, the transfer worm 49 is engaged with the transfer worm wheel 48, thereby enabling the transmission rotary shaft 47 to rotate, a transmission long rotary shaft 52 is rotatably provided on the rear inner wall of the driving chamber 36, the transmission long rotating shaft 52 is arranged at the right end of the transmission rotating shaft 47, a transmission large gear 51 is fixedly arranged on the transmission long rotating shaft 52, the transmission large gear 51 can be meshed with the transmission gear 50, so that the transmission gearwheel 51 can rotate, a quarter gear 58 is fixedly arranged on the transmission long rotating shaft 52, and the quarter gear 58 is arranged at the front end of the transmission gearwheel 51.

Advantageously, a triggering rotating shaft 53 is rotatably arranged on the inner wall of the front end of the right side of the driving cavity 36, a friction gear 60 is fixedly arranged on the triggering rotating shaft 53, a friction force is arranged between the friction gear 60 and the inner wall of the driving cavity 36, so that the triggering rotating shaft 53 can be kept to be not rotated under the condition of no external force, a triggering block 54 is fixedly arranged at the rear end of the triggering rotating shaft 53, a triggering short rotating shaft 56 is fixedly arranged at the rear end of the triggering block 54, a triggering gear 57 is fixedly arranged on the triggering short rotating shaft 56, the triggering gear 57 can act with the quarter gear 58, and the quarter gear 58 is a gear with quarter teeth, so that the triggering gear 57 can be rotated by a quarter when the quarter gear 58 is rotated by one circle.

Beneficially, an unfolding hydraulic pump 75 is fixedly arranged in the trigger block 54, four identical and uniformly distributed unfolding cavities 61 are arranged in the trigger block 54, unfolding rods 62 are slidably arranged in the unfolding cavities 61, four identical and uniformly distributed unfolding fixed blocks 63 are fixedly arranged outside the trigger block 54, two identical unfolding sliding cavities 67 are arranged in the unfolding fixed blocks 63, unfolding sliders 66 are slidably arranged in the unfolding sliding cavities 67, the two unfolding sliders 66 are fixedly connected through connecting rods, so that the two unfolding sliders 66 can move together, unfolding plates 64 are arranged on the left and right sides of the unfolding fixed blocks 63, unfolding connecting rods 65 are hinged between the unfolding plates 64 and the unfolding sliders 66, elastic ropes are arranged between the unfolding plates 64 and the unfolding fixed blocks 63, so that the unfolding plates 64 can be located in the unfolding fixed blocks 63 under the condition of no external force, the unfolding sliding block 66 moves upwards to enable the unfolding plates 64 to be far away from each other, a control valve is fixedly arranged in the trigger block 54, and the control valve is connected with the unfolding hydraulic pump 75 through a pipeline, so that hydraulic oil in the unfolding hydraulic pump 75 can enter different unfolding cavities 61, and the unfolding and closing of different unfolding plates 64 can be controlled.

Advantageously, a pushing cavity 25 is arranged at the upper end of the left side in the machine body shell 10, a pushing block 27 is arranged in the pushing cavity 25 in a sliding way, a pushing rope 26 is arranged between the left end of the pushing block 27 and the inner wall of the left side of the pushing cavity 25, a push rod 31 is fixedly arranged at the right end of the push block 27, a limited sliding cavity 30 is arranged in the push block 27, a limiting block 28 is arranged in the limiting sliding cavity 30 in a sliding mode, a limiting spring 29 is arranged between the upper end of the limiting block 28 and the inner wall of the upper side of the limiting sliding cavity 30, the limiting block 28 can be in contact with the power block 22, so that the limiting block 28 can move rightwards, a fixed block 32 is fixedly arranged on the inner wall of the machine body shell 10, the fixed block 32 can act with the limiting block 28, so that the limiting block 28 can move upwards, the power block 22 does not clamp the limiting block 28, and the pushing block 27 can move leftwards.

Beneficially, a storage box 33 is fixedly arranged at the upper end in the machine body shell 10, an opening is arranged on the left side and the right side of the lower end of the storage box 33, the push rod 31 can extend into the left side opening to enable the gear in the storage box 33 to fall onto the unfolding fixing block 63 through the opening on the right side, a detection sliding cavity 12 is arranged on the left side in the machine body shell 10, a detection sliding block 11 is slidably arranged in the detection sliding cavity 12, a detection disc 15 is fixedly arranged at the right end of the detection sliding block 11, a detection hydraulic pump 14 is arranged in the machine body shell 10, the detection hydraulic pump 14 is connected with the detection sliding cavity 12 through a pipeline, eight detection cavities 16 which are identical in I and uniformly distributed are arranged in the detection disc 15, a detection rod 17 is slidably arranged in the detection cavity 16, an induction block 18 is fixedly arranged on the inner wall of the detection cavity 16, and, the detection rod 17 can be in contact with the highest position of the gear, so that whether the gear is intact or not can be detected through the sensing block 18.

The use steps herein are described in detail below with reference to fig. 1-5:

in the initial state, the pushing rope 26 is in a normal state, the pushing block 27 is at the left end of the pushing cavity 25, the power spring 23 is in a normal state, the power block 22 is at the left end of the power cavity 24, the limiting spring 29 is in a normal state, the detection sliding block 11 is at the leftmost end of the detection sliding cavity 12, the detection spring 19 is in a normal state, the unfolding sliding block 66 is at the lowermost end of the unfolding sliding cavity 67, and the unfolding plate 64 is in the unfolding fixing block 63.

In operation, the pinion is moved into the storage compartment 33 by the conveyor belt, the driving motor 35 is activated to rotate the driving motor shaft 41, thereby rotating the first connecting gear 40, thereby rotating the three-quarter pinion 39, thereby moving the driving rack 38 to the right, thereby moving the driving rod 37 to the right, thereby moving the power rod 21 to the right, thereby moving the power block 22 to the right, thereby moving the restricting block 28 to the right, thereby moving the pushing block 27 to the right, thereby moving the pushing rod 31 to the right, thereby allowing the pushing rod 31 to contact the pinion in the storage compartment 33, thereby allowing the pinion to fall onto the deployment fixing block 63, while the first connecting gear 40 rotates the second connecting gear 44 via the connecting chain 42, thereby rotating the connecting shaft 45, thereby rotating the small helical gear 43, thereby rotating the large helical gear 46, the large helical gear 46 being larger than the small helical gear 43, so that four revolutions of the small helical gear 43 will make one revolution of the large helical gear 46 and thus the transfer worm gear 48, and thus the transfer rotating shaft 47, and thus the transfer gear 50, and thus the transfer large gear 51, and thus the quarter gear 58, will rotate, and when the quarter gear 58 rotates to have a toothed end meshing with the trigger gear 57, the trigger gear 57 will rotate, and thus the trigger short rotating shaft 56 will rotate, and thus the trigger block 54 will rotate, and thus the deployment fixed block 63 will rotate, and at this time three revolutions of the quarter gear 39 will make one revolution of the transfer large gear 51, and thus the trigger gear 57 will make one quarter revolution, and thus the trigger block 54 will make one quarter revolution.

Meanwhile, when the four gears fall on the expansion fixing block 63, the expansion hydraulic pump 75 is started, so that hydraulic oil in the expansion hydraulic pump 75 enters the control valve, and the hydraulic oil enters the expansion cavity 61 at the upper end, so that the expansion rod 62 is lifted, and the expansion slider 66 is lifted, so that the expansion plate 64 is expanded through the expansion connecting rod 65, and the expansion plate 64 can fix the gears, so that the gears cannot fall on the expansion fixing block 63.

When the fixed block 63 is rotated by one quarter, the detection hydraulic pump 14 is started, so that hydraulic oil in the detection hydraulic pump 14 enters the detection sliding cavity 12, the detection sliding block 11 is moved rightwards, the detection disc 15 can act on a gear on the fixed block 63, the detection rod 17 can be in contact with the gear, the detection rod 17 can contract, the sensing block 18 is stressed, the height of each tooth of the gear can be detected, and the integrity of the gear can be judged.

When the sensing is completed, the sensing hydraulic pump 14 is reversely operated to return the sensing disc 15 to the original position, and when the unfolding fixing block 63 continues to rotate by one quarter, the unfolding plate 64 of the lower end is contracted to drop the gear on the unfolding fixing block 63 of the lower end, thereby allowing the gear to drop to the outside of the body housing 10.

The invention has the beneficial effects that: according to the invention, by arranging the batch gear detection equipment, the single gear can fall on the fixed block, when the gears reach a certain number, the fixed block is rotated, so that batch gears are detected together, meanwhile, the next fixed block stores the gear again, and after the gear detection is finished, the fixed block rotates to the lower part, so that the gear falls off, the efficiency is high, and the integration degree is higher.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.