CN210637708U - Multi-angle appearance detection carrier and quick loading external member - Google Patents

Abstract

The utility model discloses a multi-angle outward appearance detects carrier, including universal ball subassembly and with the carrier assembly, the carrier assembly includes the bottom plate, panel and movably setting up the frame between the two, be equipped with the net system in the frame, the column is arranged to the array on the net system, the net system is including the first connecting rod and the second connecting rod that set up with great ease, the post includes first section and second section, first section has the second through-hole and the third through-hole of side direction, the end that the second section links to each other with first section has first sphere, the second through-hole is mutually perpendicular with the depth direction of third through-hole, first connecting rod passes whole row of second through-hole, the second connecting rod passes whole row of third through-hole, panel surface has the groove, the inslot surface is the sphere, the tank bottom has first through-hole, first section passes first through-hole, the internal surface contact in first sphere and groove. The utility model discloses the turned angle who detects the carrier has been enlarged. The utility model also discloses a quick loading external member has improved the efficiency that the product loaded and unloaded.

Description

Multi-angle appearance detection carrier and quick loading external member

Technical Field

The utility model relates to a product appearance detection field, in particular to quick outward appearance of multi-angle detects carrier.

Background

Visual inspection of the appearance of products such as mobile phone camera components and the like is an important link in product production. The visual inspection of the product is usually a visual inspection of a human under certain lighting conditions. The product is loaded on the jig, the direction of the product is changed, so that the surfaces to be detected of the product can obtain the best illumination, and the surfaces to be detected can be completely and clearly exposed in the visual field of people. The existing jig comprises a bearing part for bearing a product and a universal part connected with the bearing part. The direction of the bearing part is changed through the rotation of the universal part, so that the direction of a product on the bearing part is changed, for example, a multi-angle inspection jig disclosed in chinese patent CN 208418048U. Although the existing jig utilizes the universal component to enlarge the direction adjusting range of the bearing component, the direction adjustment of the universal ball is still limited. For some products with irregular shapes, even if the universal component is adjusted to the maximum angle, certain surfaces to be detected of the products cannot be irradiated by light rays, and the surfaces to be detected cannot be clearly and completely exposed in the visual field of people.

In addition, current outward appearance detects mostly the manual work and detects alone to every product, and detection efficiency is low, and artifical demand is in large quantity, and staff's operation intensity of labour is high, and the touching formula detects and easily causes harmfully to the outward appearance.

SUMMERY OF THE UTILITY MODEL

In view of the above-mentioned drawbacks of the prior art, according to one aspect of the present invention, there is provided a multi-angle appearance inspection carrier, comprising a universal ball assembly and a bearing assembly connected to the universal ball assembly, wherein the bearing assembly comprises a bottom plate, a face plate and a frame movably disposed between the bottom plate and the face plate, a net set is fixedly disposed in the frame, the net set is provided with columns arranged in an array, the net set comprises a first connecting rod and a second connecting rod disposed vertically and horizontally, the column comprises a first section and a second section, the first section has a lateral second through hole and a third through hole, the end of the second section connected to the first section has a first spherical surface, the depth directions of the second through hole and the third through hole are perpendicular to each other, the first connecting rod passes through the second through hole of the column, the second connecting rod passes through the third through hole of the column, the surface of the face plate has a groove, the inner surface of the groove is a spherical surface, the bottom, the first section passes through the first through hole, and the first spherical surface is in contact with the inner surface of the groove.

In some embodiments, the second and third vias are kidney-shaped vias.

In some embodiments, four fourth through holes penetrating through the panel are formed in the panel, four first holes corresponding to the fourth through holes are formed in the frame, and the fourth through holes and the first holes are configured such that after the frame moves a set distance along the length direction of the first link and the length direction of the second link, the corresponding fourth through holes and the first holes can be aligned.

In some embodiments, the frame is rectangular or square in shape, and a handle is provided on each side of the frame.

In some embodiments, the frame is provided with a stop member around its periphery.

In some embodiments, the location where the first segment is connected to the second segment has a neck that converges toward the central axis.

In some embodiments, the top end of the second section is provided with a limiting table, and the limiting table is provided with a guide post.

In some embodiments, the universal ball assembly includes a ball seat, a ball cover, a universal ball and a gasket, the universal ball is disposed in a space formed by the ball seat and the ball cover, and the gasket is disposed on a spherical surface of the ball seat.

The utility model has the advantages that: the inclination angle of the product is increased, the surface of the product obtains a better illumination effect, and the detection personnel obtain a larger visual field.

According to the utility model discloses a another aspect provides a quick loading external member, including multi-angle outward appearance detection carrier and material turning plate, the fifth through-hole has been arranged to the array on the material turning plate, and the interval of arranging of fifth through-hole is the same with the interval of arranging of post, and the radial dimension of fifth through-hole is greater than the radial dimension of second section, and the edge of fifth through-hole is equipped with the spacing groove.

The utility model has the advantages that: the product is loaded by utilizing the contra-turning, the manual demand is reduced, the efficiency is greatly improved, the cost is saved, and the influence of the appearance misjudgment risk and the contact on the product appearance in the detection process is reduced.

Drawings

Fig. 1 is a structural diagram of a multi-angle rapid appearance inspection vehicle provided by the present disclosure;

FIG. 2 is a block diagram of a gimbal ball assembly provided by the present disclosure;

FIG. 3 is a cross-sectional view of a gimbal ball assembly provided by the present disclosure;

FIG. 4 is a schematic structural diagram of a multi-angle rapid appearance inspection carrier according to the present disclosure after a panel is hidden;

FIG. 5 is a schematic structural view of a panel of the present disclosure;

FIG. 6 is a schematic view of the panel of FIG. 5 taken along section EE;

FIG. 7 is a schematic structural view of a column of the present disclosure;

FIG. 8 is a partial schematic view of an operating state of the multi-angle rapid appearance inspection vehicle of the present disclosure;

FIG. 9 is a partial schematic view of another operating state of the multi-angle rapid appearance inspection vehicle of the present disclosure;

fig. 10 is a schematic structural view of a material turning plate according to an embodiment of the present invention;

FIG. 11 is a schematic view of the structure of the tray;

fig. 12 is a schematic view of the structure of the turnover plate when the turnover plate is covered on the tray.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Fig. 1 is a structural diagram of a multi-angle rapid appearance inspection carrier provided by the present disclosure. FIG. 2 is a block diagram of a gimbal ball assembly provided by the present disclosure. FIG. 3 is a cross-sectional view of a gimbal ball assembly provided by the present disclosure.

Referring to fig. 1, the multi-angle rapid appearance inspection vehicle of the present disclosure includes a universal ball assembly 1 and a bearing assembly 2. The bearing component 2 is connected with the universal ball component 1, and the direction of the bearing component 2 is changed through the rotation of the universal ball.

Referring to fig. 2 and 3, the universal ball assembly 1 includes a ball seat 101, a ball cover 102, a universal ball 103 and a gasket 104, wherein the universal ball 103 is disposed in a space formed by the ball seat 101 and the ball cover 102, and the gasket 104 is disposed on a spherical surface of the ball seat 101. The spacer 104 is made of a polymer material having elasticity, such as silicon rubber, and the spacer 104 is used to increase the rotation resistance of the universal ball 103. Referring to fig. 4, a tee 101 is mounted on a base 106. When external force is applied to rotate the universal ball 103 to a certain angle, the universal ball 103 can stop at the certain angle under the action of friction force of the gasket 104 after the external force is removed. The ball seat 101 and the ball cover 102 are connected by a bolt, and the deformation of the spacer 104 can be changed by adjusting the screwing depth of the bolt, so as to change the rotation resistance of the universal ball 103, for example, the deformation of the spacer 104 can be increased by increasing the screwing depth of the bolt, so as to increase the rotation resistance of the universal ball 103. The universal ball 103 is connected to a connecting rod 105, and the connecting rod 105 is connected to the carrier assembly 2.

Fig. 4 is a schematic structural diagram of the multi-angle rapid appearance inspection carrier of the present disclosure after hiding the panel 202. Referring to fig. 1 and 4, the carrier assembly 2 includes a bottom plate 201 on a lower layer, a top plate 202 on an upper layer, a frame 203 movably disposed between the bottom plate 201 and the top plate 202, a mesh group 204 disposed in the frame 203, and a plurality of columns 205 arranged in an array and mounted on the mesh group 204.

In some embodiments, the connecting rod 105 is attached to the bottom center of the bottom plate 201. Supporting columns 206 are arranged at four corners of the bottom plate 201, and the other ends of the supporting columns 206 are fixed with the panel 202.

Fig. 5 is a schematic structural diagram of the panel 202 of the present disclosure. Fig. 6 is a schematic view of the panel 202 of fig. 5 taken along section EE. Referring to fig. 5 and 6, the surface of the panel 202 is provided with a plurality of slots 207 arranged in an array, the inner surface of the slot 207 is spherical, and the bottom of the slot 207 is provided with a first through hole 208.

Referring to fig. 4, the net group 204 includes a first link 209 and a second link 210 arranged in a horizontal and vertical direction. Specifically, the mesh group 204 includes a plurality of parallel, equally spaced first links 209 and a plurality of parallel, equally spaced second links 210, wherein the first links 209 are perpendicular to the second links 210. In some embodiments, the frame 203 is a rectangular or square frame. Both ends of the first link 209 are connected to two opposite sides of the frame 203, respectively, and both ends of the second link 210 are connected to the other two opposite sides of the frame 203, respectively.

Fig. 7 is a schematic structural view of a column 204 of the present disclosure. Referring to fig. 7, the column 205 includes a first section 211 and a second section 212, the first section 211 has a second through hole 213 and a third through hole 214 in the lateral direction, and the depth directions of the second through hole 213 and the third through hole 214 are perpendicular to each other. The plurality of columns 206 are arranged in an array, each first link 209 passes through a second through hole 213 of the entire column 205, and each second link 210 passes through a third through hole 214 of the entire column 205. In some embodiments, the second and third through holes 213, 214 are kidney-shaped holes. In certain embodiments, the first section 211 and the second section 212 bodies are cylindrical. The first link 209 and the second link 210 leave a suitable space for movement between the two through holes. In some embodiments, the end of the second section 212 connected to the first section 211 is provided with a first spherical surface 215, the first section 211 passes through the first through hole 208, and the first spherical surface 215 is engaged with the inner surface of the groove 207. The panel 202 provides support for the posts 205, suspending the frame 203 by the net sets 204. The first spherical surface 215 cooperates with the groove 215 to form a gimbal structure with which the column 205 can be tilted as a base point. A neck 223 that narrows toward the central axis is provided at a position where the first section 211 and the second section 212 intersect, and prevents the outer edge of the first through hole 208 from interfering with the column 205 when the column 205 is tilted. The top end of the second section 212 is provided with a limit table 216, and the limit table 216 is provided with a guide post 217. The product is sleeved on the guide column 217 and matched with the limiting table 216, and the limiting table 216 is non-circular to prevent the product from rotating.

Referring to fig. 4 and 5, in some embodiments, four fourth through holes 218 penetrating through the panel 202 are formed in the panel 202, four first holes 219 corresponding to the fourth through holes 218 are formed in the frame 203, and the fourth through holes 218 and the first holes 219 are configured such that the corresponding fourth through holes 218 and the first holes 219 can be aligned after the frame 203 moves a set distance along the length direction of the first link 209 and the length direction of the second link 210. Specifically, the frame 203 has four sides each provided with a first hole 219, the panel 202 has four sides each provided with a fourth hole 218, and the first holes 219 are located on the inner side of the carrier module 2 with respect to the fourth holes 218. Due to the limitation of the first link 209 and the second link 210, the frame 203 can only move along the length direction of the first link 209 and the second link 210 in the plane perpendicular to the plane determined by the column 205, that is, the frame 203 can move along four directions. When the frame 203 is moved in a direction along the length of the first link 209 to a set distance and the first hole 219 is aligned with the fourth hole 218, the frame 203 may be fixed in this position by inserting the pin 220 shown in fig. 1 through the first hole 219 and the fourth hole 218. Similarly, when the frame 203 is moved along the length direction of the first link 209 to another direction by a predetermined distance, the first holes 219 and the corresponding fourth through holes 218 are aligned, and the pins 220 can be inserted through the first holes 219 and the fourth through holes 218, thereby fixing the frame 203 at the position. Similarly, when the frame 203 is moved in the length direction of the second link 210, the frame 203 is fixed using the same principle. The set distance may be determined according to the angle at which the column 205 is to be tilted, for example, if the tilt angle of the column 205 is required to be larger, a larger set distance may be appropriately selected.

In some embodiments, referring to fig. 1, a handle 221 is fixed to the frame 203. In some embodiments, the frame 203 is provided with 4 handles 221, which are respectively fixed on four sides of the frame 203. When the handles 221 are respectively pulled, the frame 203 can be moved toward four directions determined by the first link 209 and the second link 210, respectively.

In some embodiments, referring to fig. 1, a limiting member 222 is disposed around the frame 203. The limiting member 222 prevents the frame 203 from sliding off the bearing assembly 2 when the angle is changed. Specifically, the position limiting component 222 is a position limiting pin, the position limiting pin is fixed on the panel 202 and extends towards the lower part of the panel 202, and each side of the frame 203 corresponds to at least two position limiting pins.

The working principle of the multi-angle rapid appearance inspection vehicle of the present disclosure is illustrated below. Fig. 8 schematically shows a partial schematic view of an operating state of the carrying fixture 2. Fig. 9 schematically shows a partial schematic view of another operating state of the carrying fixture 2. Referring to fig. 8, the product 5 to be detected is placed on the top end of the column 205, and the universal ball is rotated to incline the bearing assembly at a proper angle for the detection personnel to observe. Referring to fig. 9, in the state shown in fig. 8, an external force is applied to move the frame 203 along the length direction of the first link 209, for example, by pulling the handle 221 in some embodiments, so that the second link 210 translates along the length direction of the first link 209, the second link 210 pushes the first segment 211 of the column 205, the second segment 212 of the column 205 tilts with the first spherical surface 215 as a base point, the surface to be detected of the product 5 is fully exposed to the light, and the inspector obtains a larger viewing angle.

Fig. 10 schematically shows a structural schematic diagram of the material turning plate 3 of the present invention. According to the utility model discloses a still disclose a quick outward appearance of multi-angle and detect external member, it includes quick outward appearance detection carrier of multi-angle and material turning plate 3. Referring to fig. 10, the material turning plate 3 is provided with fifth through holes 301 arranged in an array, and the arrangement interval of the fifth through holes 301 is the same as that of the pillars 205. The radial dimension of the fifth through hole 301 is slightly larger than the radial dimension of the second section 212 of the post 205, such that the fifth through hole 301 can be sleeved outside the second section 212. The four corners of one side of the material turning plate 3 are provided with support legs 303. A limiting groove 302 is arranged at the edge of the fifth through hole 301 on the surface, and the shape of the limiting groove 302 is the same as that of the end part of the product. Fig. 11 schematically shows a structural view of the tray 4. During production, the transport and storage of the products is completed in the tray 4. To load the products from the tray 4 to the carrier at one time, please refer to fig. 12, first cover the material turning plate 3 on the tray 4 with the products arranged in the array, the support legs 303 support on the tray 4, the end of the product falls into the limiting groove 302, so that the product is limited between the tray 4 and the material turning plate 3. And then the tray 4 and the material turning plate 3 are turned over integrally, the fifth through hole 301 of the material turning plate 4 is aligned with the column 205, the column 205 is inserted into the fifth through hole 301, the product positioning is realized through the cooperation of the fifth through hole 301 and the column 205, and in the process, the product in the tray 4 is sleeved on the guide column 217 and the limiting table 216 at the top end of the column 205. The tray 4 is removed, the material-overturning plate 3 remains on the carrier, and the product is loaded onto the column 205, completing the loading of the product. After the detection is finished, in order to load the product to the tray 4 from the carrier at one time, the tray 4 is covered on the top end of the column 205, the product on the top end of the column 205 falls into the material hole of the tray 4, then the material turning plate 3 covers the tray 4, the material turning plate 3 and the tray 4 are taken down from the carrier integrally, and the unloading is finished. The utility model provides a quick outward appearance of multi-angle detects external member utilizes to turn over and loads the product, reduces artifical demand, increases substantially efficiency, practices thrift the cost, reduces the influence of contact to product appearance in outward appearance misjudgement risk and the testing process.

What has been described above are only some embodiments of the invention. For those skilled in the art, without departing from the inventive concept, several modifications and improvements can be made, which are within the scope of the invention.

Claims (9)

1. The multi-angle appearance detection carrier is characterized by comprising a universal ball component (1) and a bearing component (2) connected with the universal ball component (1), wherein the bearing component (2) comprises a bottom plate (201), a panel (202) and a frame (203) movably arranged between the bottom plate (201) and the panel (202), a net group (204) is fixedly arranged in the frame (203), columns (205) arranged in an array are arranged on the net group (204), the net group (204) comprises a first connecting rod (209) and a second connecting rod (210) which are vertically and horizontally arranged, the columns (205) comprise a first section (211) and a second section (212), the first section (211) is provided with lateral second through holes (213) and third through holes (214), the end of the second section (212) connected with the first section (211) is provided with a first spherical surface (215), and the depth directions of the second through holes (213) and the third through holes (214) are perpendicular to each other, the first connecting rod (209) penetrates through the second through hole (213) of the column (205), the second connecting rod (210) penetrates through the third through hole (214) of the column (205), the surface of the panel (202) is provided with a groove (207), the inner surface of the groove (207) is in a spherical surface shape, the bottom of the groove (207) is provided with a first through hole (208), the first section (211) penetrates through the first through hole (208), and the first spherical surface (215) is in contact with the inner surface of the groove (207).

2. The multi-angle appearance inspection vehicle of claim 1, wherein the second through hole (213) and the third through hole (214) are kidney-shaped holes.

3. The multi-angle appearance inspection vehicle according to claim 1, wherein four fourth through holes (218) penetrating through the panel (202) are formed in the panel (202), four first holes (219) respectively corresponding to the fourth through holes (218) are formed in the frame (203), and the fourth through holes (218) and the first holes (219) are configured such that when the frame (203) moves a set distance along the length direction of the first link (209) and the length direction of the second link (210), the corresponding fourth through holes (218) and the first holes (219) can be aligned.

4. The multi-angle appearance inspection vehicle of claim 1, wherein the frame (203) is rectangular or square, and each side of the frame (203) is provided with a handle (221).

5. The multi-angle appearance inspection vehicle of claim 1, wherein a limiting component (222) is disposed around the frame (203).

6. The vehicle of claim 1, wherein the first segment (211) is connected to the second segment (212) at a position having a neck (223) that is constricted toward the central axis.

7. The multi-angle appearance inspection vehicle of claim 1, wherein a limiting table (216) is disposed at a top end of the second section (212), and a guide post (217) is disposed on the limiting table (216).

8. The multi-angle appearance inspection vehicle of claim 1, wherein the universal ball assembly (1) comprises a ball seat (101), a ball cover (102), a universal ball (103) and a gasket (104), the universal ball (103) is disposed in a space formed by the ball seat (101) and the ball cover (102) in a matching manner, and the gasket (104) is disposed on the spherical surface of the ball seat (101).

9. Quick loading kit, characterized by, that includes the multi-angle appearance inspection carrier of any one of claims 1 to 8, further includes material turning plate (3), fifth through holes (301) are arranged on material turning plate (3) in an array, the arrangement interval of fifth through holes (301) is the same as the arrangement interval of columns (205), the radial dimension of fifth through holes (301) is greater than the radial dimension of second section (212), and the edge of fifth through holes (301) is provided with spacing groove (302).

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