CN218432101U - Gear detection packaging equipment - Google Patents

Abstract

The utility model discloses a gear detection equipment for packing, include: the device comprises an installation machine table, a feeding mechanism and a distributing mechanism, wherein the installation machine table is provided with the feeding mechanism, the distributing mechanism is arranged on the installation machine table, a slide way mechanism is arranged between the distributing mechanism and the feeding mechanism, an inlet of the slide way mechanism is communicated with a feeding port, and an outlet of the slide way mechanism is communicated with a feeding port of the distributing mechanism; the first camera is arranged above the material distribution mechanism, and a lens of the first camera faces downwards to the material distribution mechanism so that the first camera can shoot the gear to be measured from above the gear to be measured; the second camera is arranged on the side face of the material distribution mechanism, and a lens of the second camera faces the material distribution mechanism from the side face so that the second camera can shoot the gear to be measured from the side face; and the number of the blowing mechanisms is at least two, and the two blowing mechanisms are respectively used for blowing the qualified gear to be tested and the unqualified gear to be tested from the material distribution mechanism. The utility model discloses can promote the qualification rate that the gear detected.

Description

Gear detection packaging equipment

Technical Field

The utility model relates to a gear check out test set technical field especially relates to a gear detects equipment for packing.

Background

The gear in the water meter indicating mechanism is generally an injection molding part, so that the brand, the parameter setting and the operation workers of the injection molding machine have great influence on the quality of the gear; therefore, the gear after injection molding processing has the phenomena of tooth number, addendum circle and reference circle diameter, gear height, concentricity of a gear shaft, whether the gear has flash, burr and the like; if the parameter of gear is not conform to the standard, there is great resistance in the gear drive after the assembly, leads to water gauge production qualification rate to reduce, and current gear check out test set generally adopts the mode that the camera was shot to the gear, but among the prior art the camera can only be towards an angle shooting gear, and it can not accomplish and detect all parameters of gear.

SUMMERY OF THE UTILITY MODEL

The utility model provides a gear detects equipment for packing, its qualification rate that can promote the gear and detect.

In order to solve the technical problem, the utility model provides a gear detects equipment for packing, gear detects equipment for packing includes gear check out test set at least, gear check out test set includes:

the mounting machine table is provided with a feeding mechanism, and the feeding mechanism is at least provided with a feeding port;

the material distribution mechanism is arranged on the installation machine table, a slide way mechanism is arranged between the material distribution mechanism and the feeding mechanism, an inlet of the slide way mechanism is communicated with the feeding port, and an outlet of the slide way mechanism is communicated with a feeding port of the material distribution mechanism;

the first camera is arranged above the material distribution mechanism, and a lens of the first camera faces downwards to the material distribution mechanism so that the first camera can shoot the gear to be measured from above the gear to be measured;

the second camera is arranged on the side surface of the material distribution mechanism, and a lens of the second camera faces the material distribution mechanism from the side surface so that the second camera can shoot the gear to be measured from the side surface;

and the number of the blowing mechanisms is at least two, and the two blowing mechanisms are respectively used for blowing the qualified gear to be tested and the unqualified gear to be tested from the material distribution mechanism.

Preferably, the material distribution mechanism includes a rotating panel and an installation panel, the installation panel is provided with an installation hole, the rotating panel is rotatably disposed in the installation hole, a plurality of accommodating openings are uniformly disposed at the edge of the rotating panel, the installation panel is provided with a first opening extending to the edge of the rotating panel, and the first opening is a material inlet of the material distribution mechanism.

Preferably, the mounting panel is provided with a second opening and a third opening extending to an edge of the rotating panel, and the two blowing mechanisms are respectively provided at positions corresponding to the second opening and the third opening.

Preferably, as to the above technical solution, a fourth opening extending to an edge of the rotating panel is provided on the mounting panel, the second camera is provided at a position corresponding to the fourth opening, and a lens of the second camera faces the fourth opening from a side surface.

Preferably, the blowing mechanism includes a vertical support and a horizontal support, the horizontal support is mounted on the top of the vertical support, the horizontal support extends toward the material separating mechanism, a hollow space is formed inside the vertical support, a blowing inlet communicated with the hollow space is formed in one side, facing the material separating mechanism, of the vertical support, a blowing nozzle obliquely downward facing the blowing inlet is formed in the horizontal support, a feeding channel is formed in the mounting machine, and the hollow space is communicated with the feeding channel.

Preferably, the slide mechanism includes a feeding part and a pressing part, the feeding part and the pressing part are arranged obliquely downward, a chute extending obliquely downward is arranged on the feeding part, two ends of the chute are respectively communicated with a feeding port of the feeding mechanism and a feeding port of the distributing mechanism, and the pressing part is arranged along the chute and located above the chute.

As above-mentioned technical scheme's preferred, first camera is installed on first grillage, be provided with first horizontal grillage and first vertical grillage on the installation board, be provided with the sideslip slide rail on the first horizontal grillage, first vertical grillage movable mounting be in on the sideslip slide rail, be provided with on the first vertical grillage and vertically move the slide rail, first grillage movable mounting be in on the vertical slide rail that moves.

As the optimization of the technical scheme, the second camera is installed on the second plate frame, a second transverse plate frame and a second vertical plate frame are arranged on the installation machine table, a transverse sliding rail is arranged on the second transverse plate frame, the second vertical plate frame is movably installed on the transverse sliding rail, a vertical sliding rail is arranged on the second vertical plate frame, and the second plate frame is movably installed on the vertical sliding rail.

Preferably, the feeding mechanism is a vibrating feeding disc.

Preferably, the gear detecting and packaging device further comprises a gear packaging device and a conveying belt, and the conveying belt is arranged between the gear packaging device and the gear detecting device.

The utility model provides a gear detection equipment for packing, it is including the installation board, feed mechanism, first camera, second camera and blowing mechanism, be provided with feed mechanism on the installation board, be provided with slide mechanism between feed mechanism and the feed mechanism, when carrying out the gear detection, place the gear that awaits measuring at feed mechanism, then the feed opening through feed mechanism enters into slide mechanism's entry, then the pan feeding mouth through slide mechanism enters into feed mechanism, the gear that awaits measuring enters into feed mechanism through feed mechanism's pan feeding mouth, later can shoot the detection to the gear that awaits measuring that gets into feed mechanism through first camera and second camera, because first camera sets up in feed mechanism's top, the camera lens of first camera faces down feed mechanism, consequently the gear that awaits measuring is shot from the top of the gear that awaits measuring, because the second camera sets up in feed mechanism's side, the camera lens edgewise of second camera faces towards feed mechanism, consequently, the second camera can shoot the gear that awaits measuring from the side, after shooting through first camera and second camera and detect, two camera mechanisms are respectively with qualified gear that awaits measuring gear and unqualified and all-round processing gear to the first camera that it can also pass through the detection of the qualified detection of the improvement of the qualified rate of the qualified detection of the qualified to the first camera that the qualified detection of the qualified that can go on the first camera and the all-round of the water gauge that the first camera that awaits detection, consequently, thereby the qualified detection of the qualified efficiency that can go on the qualified by the improvement of the qualified detection.

The above description is only an overview of the technical solutions of the present invention, and in order to make the technical means of the present invention more clearly understood, the present invention may be implemented according to the content of the description, and in order to make the above and other objects, features, and advantages of the present invention more obvious and understandable, the following detailed description of the present invention is given.

Drawings

FIG. 1 is a schematic perspective view of a gear inspecting and packaging apparatus according to the present embodiment;

FIG. 2 is a perspective view of the gear detecting apparatus according to the present embodiment;

FIG. 3 is a plan view showing the gear detecting apparatus in the present embodiment;

FIG. 4 is a schematic view showing the mounting structure of the loading mechanism in the present embodiment;

fig. 5 is a schematic view showing the installation positions of the first camera and the second camera in the present embodiment;

fig. 6 shows a schematic perspective structure of the distributing mechanism in the embodiment;

fig. 7 shows a front view of the feed mechanism in the present embodiment;

FIG. 8 shows a top view of the feed mechanism in this embodiment;

fig. 9 is a schematic perspective view showing a blowing mechanism in the present embodiment;

fig. 10 is a schematic perspective view illustrating a gear to be tested according to the present embodiment;

fig. 11 is a schematic plan view showing the structure of the gear to be measured in the present embodiment;

in the figure: 1. a gear detection device; 2. a gear packing apparatus; 3. a conveyor belt; 5. a gear to be tested; 11. installing a machine table; 12. a feeding mechanism; 13. a slideway mechanism; 14. a material distributing mechanism; 15. a first camera; 16. a material distribution mechanism; 17. a second camera; 18. a feed channel; 19. a display; 20. an operation screen; 121. a feeding port; 131. a feeding part; 132. a material pressing part; 133. a chute; 134. feeding an inclined plate; 135. feeding an inclined plate; 136. a support bar; 141. a stepping motor; 142. a speed reducer; 143. mounting a plate; 144. a connecting rod; 145. a material distributing bracket; 146. a rod body; 147. installing a panel; 148. rotating the panel; 149. a coupling; 1410. a shaft sleeve; 1411. a rotating shaft; 1471. a first opening; 1472. a second opening; 1473. a third opening; 1474. a fourth opening; 1475. mounting holes; 1481. an accommodation opening; 151. a first plate frame; 152. a first vertical plate frame; 153. a first transverse plate frame; 161. a vertical support; 162. a blowing nozzle; 163. a blowing inlet; 164. a transverse bracket; 165. a waist-shaped hole; 171. a second plate rack; 172. a second vertical plate rack; 173. a second transverse plate frame.

Detailed Description

To make the objects, features and advantages of the present invention more obvious and understandable, the embodiments of the present invention are described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and obviously, 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 the skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1 to 11, the embodiment of the utility model provides a gear detects equipment for packing, gear detect equipment for packing include gear check out test set 1 at least, and gear check out test set 1 includes:

the installation machine platform 11 is provided with a feeding mechanism 12, and the feeding mechanism 12 is at least provided with a feeding port 121;

the material distributing mechanism 14 is arranged on the mounting machine table 11, a slide way mechanism 13 is arranged between the material distributing mechanism 14 and the feeding mechanism 12, an inlet of the slide way mechanism 13 is communicated with the feeding port 121, and an outlet of the slide way mechanism 13 is communicated with a feeding port of the material distributing mechanism 14;

the first camera 15 is arranged above the material distribution mechanism 14, and a lens of the first camera 15 faces downwards to the material distribution mechanism 14 so that the first camera 15 can shoot the gear 5 to be measured from above the gear 5 to be measured;

the second camera 17, the second camera 17 is arranged on the side of the material separating mechanism 14, the lens of the second camera 17 faces the material separating mechanism 14 from the side so that the second camera 17 can shoot the gear 5 to be measured from the side;

and the number of the blowing mechanisms 16 is at least two, and the two blowing mechanisms 16 are respectively used for blowing the qualified gear 5 to be tested and the unqualified gear 5 to be tested from the material separating mechanism 14.

The embodiment provides a gear detecting and packaging device, which comprises an installation board 11, a distributing mechanism 14, a first camera 15, a second camera 17 and a blowing mechanism 16, wherein a feeding mechanism 12 is arranged on the installation board 11, a slide mechanism 13 is arranged between the feeding mechanism 12 and the distributing mechanism 14, when gear detection is performed, a gear 5 to be detected is placed on the feeding mechanism 12, then the gear 5 to be detected enters an inlet of the slide mechanism 13 through a feeding port 121 of the feeding mechanism 12, then the gear 5 to be detected enters a feeding port of the distributing mechanism 14 through an outlet of the slide mechanism 13, the gear 5 to be detected enters the distributing mechanism 14 through the feeding port of the distributing mechanism 14, then the gear 5 to be detected entering the distributing mechanism 14 can be photographed and detected through the first camera 15 and the second camera 17, because the first camera 15 is arranged on the side of the distributing mechanism 14, a lens of the first camera 15 faces downwards to the distributing mechanism 14, therefore, the first camera 15 photographs the gear 5 to be detected from the top of the gear 5 to be detected, because the second camera 17 is arranged on the side of the distributing mechanism 14, therefore, the gear 5 to be detected can also photograph and the qualified rate of the gear 5 to be detected can be detected through the second camera 17 and the all-dimensional detection of the water meter, therefore, the water meter can not be detected by the second camera 17, the water meter detection device can detect the quality of the water meter 5 to be detected by the water meter.

In a further implementation manner of this embodiment, the material separating mechanism 14 includes a rotating panel 148 and a mounting panel 147, the mounting panel 147 is provided with a mounting hole 1475, the rotating panel 148 is rotatably disposed in the mounting hole 1475, a plurality of receiving openings 1481 are uniformly disposed at the edge of the rotating panel 148, the mounting panel 147 is provided with a first opening 1471 extending to the edge of the rotating panel 148, and the first opening 1471 is a material inlet of the material separating mechanism 14.

In the present embodiment, the edge of the rotating panel 148 is provided with an accommodating opening 1481, in the case that the rotating panel 148 rotates, when the accommodating opening 1481 is aligned with the first opening 1471, the gear 5 to be tested enters into the accommodating opening 1481, it makes each accommodating opening 1481 provided with the gear 5 to be tested by the rotation of the rotating panel 148, since the outer side of the rotating panel 148 is the mounting panel 147, the gear 5 to be tested is held in the accommodating opening 1481, the material distribution operation is stable, and it can also prevent the gear 5 to be tested from being detached from the accommodating opening 1481, specifically, the bottom of the accommodating opening 1481 in the present embodiment is arc-shaped, the rotating panel 148 in the present embodiment is a circular plate, and the mounting panel 147 is a square plate, and the rotating panel 148 is disposed at the middle position of the mounting panel 147.

In a further possible embodiment of the present embodiment, the mounting panel 147 is provided with a second opening 1472 and a third opening 1473 extending to the edge of the rotating panel 148, and the two blowing mechanisms 16 are provided at positions corresponding to the second opening 1472 and the third opening 1473, respectively.

The second opening 1472 and the third opening 1473 in the present embodiment may facilitate the disengagement of the gear under test 5 from the receiving opening 1481.

In a further possible implementation of this embodiment, the mounting panel 147 is provided with a fourth opening 1474 extending to the edge of the rotating panel 148, the second camera 17 is provided at a position corresponding to the fourth opening 1474, and the lens of the second camera 17 faces the fourth opening 1474 from the side.

The fourth opening 1474 in this embodiment is provided, when the gear 5 to be measured reaches the position of the fourth opening 1474, the second camera 17 can shoot the gear 5 to be measured entirely from the side, which can prevent the mounting panel 147 from blocking the gear 5 to be measured.

Specifically, the feed mechanism 14 in this embodiment includes a feed bracket 145, the mounting panel 147 is connected to the feed bracket 145 through a rod 146, a shaft sleeve 1410 is disposed at the center of the feed bracket 145, a rotating shaft 1411 is disposed at the center of the rotating panel 148, the rotating shaft 1411 is rotatably mounted in the rotating shaft 1411, the rod 146 extends upward, the feed bracket 145 is provided with a connecting rod 144 extending downward, the lower end of the connecting rod 144 is provided with the mounting plate 143, the mounting plate 143 is provided with a stepping motor 141 having a speed reducer 142, and an output shaft of the stepping motor 141 is connected to the rotating shaft 1411 through a coupling 149.

In a further implementation manner of this embodiment, the blowing mechanism 16 includes a vertical support 161 and a horizontal support 164, the horizontal support 164 is installed on the top of the vertical support 161, the horizontal support 164 extends toward the material separating mechanism 14, a hollow space is provided inside the vertical support 161, a blowing inlet 163 communicated with the hollow space is provided on one side of the vertical support 161 facing the material separating mechanism 14, a blowing nozzle 162 obliquely downward facing the blowing inlet 163 is provided on the horizontal support 164, a feeding channel 18 is provided on the installation machine 11, and the hollow space is communicated with the feeding channel 18.

The vertical support 161 in the present embodiment has a hollow space inside, and the gear under test 5 is blown from the blowing inlet 163 to the hollow space at the blowing mechanism 16 and then enters the feeding passage 18, which can ensure that each gear under test 5 can be accurately blown into the hollow space.

In this embodiment, the transverse bracket 164 is provided with a waist-shaped hole 165, a fastener is arranged in the waist-shaped hole 165, and the transverse bracket 164 is fixed on the vertical bracket 161 through the fastener, so that the position adjustment between the transverse bracket 164 and the vertical bracket 161 can be conveniently realized through the waist-shaped hole 165.

Specifically, the qualified gear 5 to be tested in the present embodiment passes through the feeding passage 18 and is then conveyed to the next equipment, and the unqualified gear 5 to be tested enters the recycling basket.

In a further implementation manner of this embodiment, the chute mechanism 13 includes a feeding part 131 and a pressing part 132, the feeding part 131 and the pressing part 132 are disposed obliquely downward, a chute 133 extending obliquely downward is disposed on the feeding part 131, two ends of the chute 133 are respectively communicated with the feeding port 121 of the feeding mechanism 12 and the feeding port of the material dividing mechanism 14, the pressing part 132 is disposed along the chute 133, and the pressing part 132 is located above the chute 133.

In this embodiment, the gear 5 to be tested slides into the feeding port of the material separating mechanism 14 through the chute 133 disposed in an inclined manner, and in addition, the material pressing member 132 is pressed above the chute 133 to prevent the gear 5 to be tested from being separated from the chute 133.

The feeding part 131 in this embodiment is installed on the feeding inclined plate 134, the feeding inclined plate 134 is fixed on the supporting part 135, the supporting part 135 is installed on the supporting rod 136, and the lower end of the supporting rod 136 is fixed on the installation machine 11.

In a further implementation manner of this embodiment, the first camera 15 is installed on the first plate frame 151, the installation board 11 is provided with a first transverse plate frame 153 and a first vertical plate frame 152, the first transverse plate frame 153 is provided with a lateral slide rail, the first vertical plate frame 152 is movably installed on the lateral slide rail, the first vertical plate frame 152 is provided with a vertical slide rail, and the first plate frame 151 is movably installed on the vertical slide rail.

In a further implementation manner of this embodiment, the second camera 17 is installed on the second plate frame 171, the installation board 11 is provided with a second transverse plate frame 173 and a second vertical plate frame 172, the second transverse plate frame 173 is provided with a transverse slide rail, the second vertical plate frame 172 is movably installed on the transverse slide rail, the second vertical plate frame 172 is provided with a vertical slide rail, and the second plate frame 171 is movably installed on the vertical slide rail.

The first camera 15 and the second camera 17 in this embodiment can facilitate the adjustment, which mainly can perform the vertical direction adjustment of the first camera 15 and the second camera 17, and can facilitate the distance adjustment between the first camera 15 and the second camera 17 and the feed mechanism 14.

In addition, the first plate frame 151, the first transverse plate frame 153, and the first vertical plate frame 152 in this embodiment are movably connected to each other through a dovetail groove, and the second plate frame 171, the second transverse plate frame 173, and the second vertical plate frame 172 are movably connected to each other through a dovetail groove.

In a further possible implementation of this embodiment, the feeding mechanism 12 is a vibrating feeding tray.

In a further implementation manner of the present embodiment, the gear detecting and packaging device further includes a gear packaging device 2 and a conveying belt 3, and the conveying belt 3 is disposed between the gear packaging device 2 and the gear detecting device 1.

The installation machine 11 in this embodiment is further provided with an operation screen 20 and a display 19.

Specifically, the working process of the gear detection packaging equipment of the embodiment is as follows: pouring the injection molded gear 5 to be tested into the feeding mechanism 12, enabling the gear 5 to be tested to enter the chute 133 through the vibration of the feeding mechanism 12, enabling only the lower gear shaft of the gear 5 to be tested to pass through the chute 133, and ensuring that the gear 5 to be tested entering the material distribution mechanism 14 is in the same direction, wherein the diameter of the lower gear shaft is smaller than that of the upper gear shaft;

the gear 5 to be tested continuously enters the accommodating opening 1481 of the rotating panel 148, and after the gear 5 to be tested rotates to a set position, the first camera 15 longitudinally photographs the gear 5 to be tested;

the gear 5 to be tested is photographed, parameters of the gear 5 to be tested are a small gear tooth number Z2, a large gear tooth number Z1, a large reference circle diameter df1, a large gear top circle diameter d1, a small reference circle diameter df2 and a small gear top circle diameter d2, and the gear 5 to be tested is analyzed to be an unqualified member through visual detection;

the second camera 17 shoots parameters of the gear 5 to be tested, such as the height h1 and the height h2 of the gear, the overall height h3 of the gear, the diameter D1 of the lower shaft of the gear, the diameter D2 of the upper shaft of the gear and the concentricity of the upper shaft and the lower shaft of the gear, and visually detects and analyzes which gears are unqualified parts;

the qualified size parameters of the gear 5 to be detected are set in the operation screen 20, the qualified product is set in the set parameter range through visual analysis, the unqualified product is set outside the parameters, and the display 19 can check the detection quantity and the qualified rate of the product;

after the photographing of the gear 5 to be detected is finished, the gear 5 to be detected rotates to the first blowing mechanism 16 through the material distribution mechanism 14, and the gear 5 to be detected which is qualified in CCD visual detection and analysis is blown and transferred onto the conveying belt 3;

the unqualified gear to be tested 5 rotates to a second blowing mechanism 16 and is blown into the unqualified gear recovery frame;

qualified gear 5 that awaits measuring transports gear packaging equipment 2 through conveyer belt 3 on, packs qualified gear 5 that awaits measuring through gear packaging equipment 2.

In the description of the present specification, reference to the description of "one embodiment," "some embodiments," "an example," "a specific example," or "some examples" or the like means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or to implicitly indicate the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. The utility model provides a gear detects equipment for packing, characterized in that, gear detects equipment for packing includes gear detecting equipment at least, gear detecting equipment includes:

the device comprises an installation machine table, a feeding mechanism and a control device, wherein the installation machine table is provided with the feeding mechanism which is at least provided with a feeding port;

the material distribution mechanism is arranged on the mounting machine table, a slide way mechanism is arranged between the material distribution mechanism and the feeding mechanism, the inlet of the slide way mechanism is communicated with the feeding port, and the outlet of the slide way mechanism is communicated with the feeding port of the material distribution mechanism;

the first camera is arranged above the material distribution mechanism, and a lens of the first camera faces downwards to the material distribution mechanism so that the first camera can shoot the gear to be measured from the upper part of the gear to be measured;

the second camera is arranged on the side surface of the material distribution mechanism, and a lens of the second camera faces the material distribution mechanism from the side surface so that the second camera can shoot the gear to be measured from the side surface;

and the number of the blowing mechanisms is at least two, and the two blowing mechanisms are respectively used for blowing the qualified gear to be tested and the unqualified gear to be tested from the material distribution mechanism.

2. The gear detecting and packaging device according to claim 1, wherein the material separating mechanism comprises a rotating panel and a mounting panel, the mounting panel is provided with a mounting hole, the rotating panel is rotatably disposed in the mounting hole, a plurality of accommodating openings are uniformly disposed at an edge of the rotating panel, the mounting panel is provided with a first opening extending to the edge of the rotating panel, and the first opening is a feeding port of the material separating mechanism.

3. The gear inspecting and packaging apparatus according to claim 2, wherein a second opening and a third opening extending to a rim of the rotating panel are provided on the mounting panel, and two of the blowing mechanisms are provided at positions corresponding to the second opening and the third opening, respectively.

4. The gear detecting and packaging device according to claim 2 or 3, wherein a fourth opening extending to the edge of the rotating panel is provided on the mounting panel, the second camera is provided at a position corresponding to the fourth opening, and a lens of the second camera faces the fourth opening from the side.

5. The gear detecting and packaging device according to claim 1, wherein the blowing mechanism includes a vertical bracket and a lateral bracket, the lateral bracket is mounted on the top of the vertical bracket, the lateral bracket extends towards the material separating mechanism, the vertical bracket has a hollow space inside, a blowing inlet communicated with the hollow space is provided on one side of the vertical bracket facing the material separating mechanism, a blowing nozzle obliquely facing downwards towards the blowing inlet is provided on the lateral bracket, a feeding channel is provided on the mounting machine table, and the hollow space is communicated with the feeding channel.

6. The gear detecting and packaging device according to claim 1, wherein the slide mechanism includes a feeding part and a pressing part, the feeding part and the pressing part are obliquely arranged downward, a chute extending obliquely downward is arranged on the feeding part, two ends of the chute are respectively communicated with a feeding port of the feeding mechanism and a feeding port of the material dividing mechanism, the pressing part is arranged along the chute, and the pressing part is located above the chute.

7. The gear detecting and packaging device according to claim 1, wherein the first camera is mounted on a first plate frame, a first transverse plate frame and a first vertical plate frame are arranged on the mounting machine table, a transverse sliding rail is arranged on the first transverse plate frame, the first vertical plate frame is movably mounted on the transverse sliding rail, a vertical sliding rail is arranged on the first vertical plate frame, and the first plate frame is movably mounted on the vertical sliding rail.

8. The gear detecting and packaging device according to claim 7, wherein the second camera is mounted on a second plate frame, a second transverse plate frame and a second vertical plate frame are arranged on the mounting machine table, transverse sliding rails are arranged on the second transverse plate frame, the second vertical plate frame is movably mounted on the transverse sliding rails, vertical sliding rails are arranged on the second vertical plate frame, and the second plate frame is movably mounted on the vertical sliding rails.

9. The gear detecting and packaging device of claim 1, wherein the feeding mechanism is a vibrating feeding tray.

10. The gear detecting and packaging device according to claim 1, further comprising a gear packing device and a conveying belt, wherein the conveying belt is arranged between the gear packing device and the gear detecting device.

Images