CN221283257U - Poultry carcass appearance character image acquisition device - Google Patents

Abstract

The utility model belongs to the technical field of poultry carcass measuring devices. An image acquisition device for the appearance of poultry carcasses, comprising: a base; the lifting adjusting assembly is arranged on the base; the support assembly is arranged on the lifting adjusting assembly in a sliding manner and is used for placing and supporting poultry carcasses; the light source assembly is arranged on the lifting adjusting assembly in a sliding manner and is used for illuminating poultry carcasses; and the image acquisition assembly is arranged on the lifting adjusting assembly in a sliding manner and is used for acquiring images of poultry carcasses. The utility model is used for solving the technical problem that the prior poultry carcasses have large pore characteristic recognition errors due to low definition of manual photographed images.

Description

Poultry carcass appearance character image acquisition device

Technical Field

The utility model belongs to the technical field of poultry measuring devices, and particularly relates to a poultry carcass appearance character image acquisition device.

Background

The Chinese patent specification of publication No. CN116228734A and publication No. 2023, 6 and 6 discloses a method, a device and equipment for identifying characteristics of pores of poultry, wherein the device comprises an image acquisition module, the image acquisition module is obtained by directly photographing through a mobile phone manually, the obtained image has low definition, and the pores are identified with large errors due to factors such as illumination intensity, photographing distance and different camera pixels, so that data among different groups cannot be compared.

Disclosure of utility model

The utility model aims to provide a poultry carcass appearance character image acquisition device which is used for solving the technical problem that the prior poultry carcass adopts manual photographing images with low definition, so that the characteristic recognition error of pores is large.

In order to solve the technical problems, the utility model adopts the following technical scheme that the poultry carcass appearance character image acquisition device comprises:

a base;

The lifting adjusting assembly is arranged on the base;

The support assembly is arranged on the lifting adjusting assembly and is used for placing and supporting poultry carcasses;

The light source assembly is arranged on the lifting adjusting assembly and used for illuminating poultry carcasses;

And the image acquisition assembly is arranged on the lifting adjusting assembly and is used for acquiring images of poultry carcasses.

According to the utility model, the poultry carcasses are placed and supported by the support assembly, the light source assembly is used for compacting the poultry carcasses and providing sufficient illumination for the poultry carcasses, the brightness is ensured, the image acquisition assembly is used for acquiring the poultry carcasses, the definition of the image is improved, and the accuracy of subsequent pore feature identification is ensured.

In order to solve the technical problem that the device cannot be used due to the difference of different types of poultry body types, the utility model adopts the following technical scheme that the lifting adjusting assembly comprises:

The guide rail mounting rack is arranged on the base;

the guide rail is vertically arranged on the guide rail mounting frame;

The guide rail is respectively provided with a first sliding block and a second sliding block in a sliding way, the first sliding block is vertically provided with an adjusting plate, and the adjusting plate is respectively provided with the supporting component and the image acquisition component; the second sliding block is provided with the light source component.

According to the utility model, two sliding blocks are arranged on one guide rail, one sliding block is provided with the supporting component and the graph acquisition component, the other sliding block is provided with the light source component, the two sliding blocks can slide on the guide rail, the distance between the two sliding blocks is adjusted, and then the height difference between the light source component and the supporting component is adjusted, so that poultry with different types and sizes can be placed on the supporting component to acquire the graph.

In order to solve the technical problem how to realize the image acquisition assembly, the utility model adopts the following technical scheme that the image acquisition assembly comprises: the first connecting arm is transversely arranged on the adjusting plate;

An industrial camera is disposed at the first connection arm end via a mounting plate.

According to the utility model, the industrial camera is mounted on the first sliding block through the first connecting arm and the adjusting plate, so that the industrial camera is positioned right above the supporting component for supporting the poultry carcasses, and photographing of the poultry carcasses is facilitated.

In order to solve the technical problem how to realize the light source assembly, the utility model adopts the following technical scheme that the light source assembly is positioned between the supporting assembly and the graph acquisition assembly, and the distance between the light source assembly and the supporting assembly and the distance between the light source assembly and the graph acquisition assembly are adjustable; the light source assembly includes:

The light source fixing piece comprises a second connecting arm and an annular fixing plate, and the annular fixing plate is connected with the second sliding block through the second connecting arm;

the annular light source is arranged at the bottom of the annular fixing plate.

The annular light source is adopted, and compared with a straight light source or a square light source, the annular light source can provide 360-degree omnibearing illumination for poultry carcasses, and meanwhile, the hollow part of the annular light source also provides avoidance space for photographing of an industrial camera.

In order to solve the technical problem how to realize the support assembly, the utility model adopts the following technical scheme that the support assembly comprises a support plate, wherein the support plate is transversely arranged on the adjusting plate, a through hole is arranged on the support plate, and the through hole is positioned under the annular light source. Through holes are arranged on the supporting plate, so that weight is reduced, and poultry carcasses are placed conveniently.

In order to solve the technical problems that how the first sliding block and the second sliding block are realized and cannot be fixed on the guide rail, the utility model adopts the following technical scheme that the first sliding block and the second sliding block are correspondingly provided with a dovetail groove and a dovetail-shaped guide rail structure which are matched with each other on the guide rail;

The first sliding block and the second sliding block are respectively provided with a locking component used for locking after the first sliding block and the second sliding block slide to the appointed position.

In order to solve the technical problem how to realize the locking assembly, the utility model adopts the following technical scheme that the locking assembly comprises a first locking assembly and comprises:

the first sliding block is provided with a first half locking pin hole;

the second sliding block is provided with a second half locking pin hole;

The guide rail is provided with a half locking pin hole III from top to bottom, and the half locking pin hole III is matched with the half locking pin hole I or the half locking pin hole II to form a locking pin hole;

The locking pin is arranged on the first sliding block or the second sliding block, and the locking pin is arranged in the locking pin holes at different positions to realize the locking after the first sliding block or the second sliding block moves to the preset position.

According to the utility model, a complete locking pin hole is designed into a split structure, one half of the locking pin hole is designed on the first (second) slide block, and the other half of the locking pin hole is designed on the guide rail, and the locking pin is inserted into the locking pin hole by using a locking pin arranged on one side of the first (second) slide block, so that the first (second) slide block cannot slide on the guide rail, and the locking of the first (second) slide block is realized; the locking pin is removed out of the locking pin hole, the first sliding block(s) can slide on the guide rail, and the locking state of the first sliding block(s) is released.

In order to further solve the technical problem of improving the locking effect of the first (second) sliding block, the utility model adopts the following technical scheme that the locking assembly further comprises a second locking assembly, and the locking assembly comprises:

the first sliding block and the second sliding block on one side of the dovetail groove are provided with vertical long grooves, two sides of each vertical long groove are respectively provided with a mounting part and a wedge-shaped locking part, the mounting parts are transversely provided with locking screws, the locking screws are close to or far away from the wedge-shaped locking parts, so that the wedge-shaped locking parts are tightly attached to or separated from the guide rails, and the locking and non-locking states of the first sliding block or the second sliding block are switched;

and the locking spanner is arranged on the locking screw and used for rotating the locking screw.

The utility model designs a vertical long groove on one side of a first sliding block (a second sliding block), the other side of the sliding block is divided into a mounting part and a wedge-shaped locking part, the mounting part is used for mounting a locking screw for moving, and the wedge-shaped locking part is used for locking the sliding block; the locking screw moves forwards, the wedge-shaped locking part is tightly attached to the guide rail, the first sliding block(s) cannot slide on the guide rail, and the locking of the first sliding block(s) is realized by utilizing friction force; the locking screw retreats, the wedge-shaped locking part is far away from the guide rail, and the first sliding block(s) can slide on the guide rail.

In order to solve the technical problem of dust prevention of the lifting adjusting component, the utility model adopts the following technical scheme that a hood is arranged on a base and used for packaging the lifting adjusting component in the hood, and a lifting adjusting component through hole is arranged on a front sealing plate of the hood. The lifting adjusting component is packaged in the lifting adjusting component by the hood, so that the dust-proof effect is good.

In order to solve the technical problem that the precision of the whole device is damaged by hard contact between the base and the workbench, the utility model adopts the following technical scheme that damping pieces are respectively arranged at four corners of the base, so that the damping is effectively realized, and the graph acquisition device is ensured.

In order to solve the technical problem that the image acquisition data needs to be manually transmitted to a processor for processing inconvenience, the utility model adopts the following technical scheme that the poultry carcass appearance image acquisition device further comprises a processor assembly which is arranged on the support mounting frame assembly, and the processor assembly is connected with the image acquisition assembly and is used for receiving the image information acquired by the image acquisition assembly and processing the data. The processor component is directly connected with the image acquisition component, so that the picture can be directly acquired, the manual photo transmission process is omitted, and the use is convenient.

In order to solve the technical problem how to realize the support mounting frame assembly, the utility model adopts the following technical scheme that the support mounting frame assembly comprises:

The upright rod is arranged on the base, and a first mounting seat is arranged at the upper end of the upright rod;

The second installation seat is connected with the first installation seat through the first rotating shaft;

The support frame is connected with the second installation seat through a second rotating shaft, the second rotating shaft is vertically arranged between the first rotating shaft, and the support frame is connected with the data processing assembly.

The utility model realizes the rotation of two dimensions of the processor component by using the two vertically arranged rotating shafts, is convenient for the staff to adjust the position of the processor component according to the self requirement, and is convenient to use.

Drawings

Fig. 1 is a schematic diagram of the overall structure of an image acquisition device for the appearance of poultry carcasses;

Fig. 2 is a top view (front sealing plate, top sealing plate are omitted) of the poultry carcass appearance character image acquisition device of the utility model;

Figure 3 is a schematic structural view of the poultry carcass appearance character image acquisition device (hide processor assembly, support mounting frame assembly) of the present utility model;

Figure 4 is a schematic diagram of the structure of the image acquisition device for the appearance of poultry carcasses according to the utility model (hidden processor assembly, support mount assembly, annular light source);

Fig. 5 is a schematic structural view of the poultry carcass appearance characteristic image acquisition device of the utility model;

FIG. 6 is an enlarged view of a portion of the rail, first slider of the lift adjustment assembly of the present utility model;

FIG. 7 is an exploded view of the guide rail, first and second sliders of the lift adjustment assembly of the present utility model;

FIG. 8 is a schematic view of the first and second sliders of the lift adjustment assembly of the present utility model;

in the figure:

10 poultry carcass appearance character image acquisition device;

A 100 base; 110 a housing; a left sealing plate 111, a right sealing plate 112, a rear sealing plate 113, a front sealing plate 114 and a top sealing plate 115; 120 damping members;

200 lifting adjusting components; 210 a guide rail mounting rack; 211 first upright post, 212 second upright post and 213 transverse support; 220 guide rails; 221 dovetail rail, 222 Fang Daogui; 230 a first slider; 231 dovetail slots; 232 square grooves; 240 a second slider; 250 adjusting plates;

300 a support assembly; 301 support plate, 302 through hole;

400 light source assembly; 410 a light source fixture; 411 a second connecting arm; 412 an annular fixing plate; an annular light source 420;

500 image acquisition components; 501 a first connection arm, 502 an industrial camera;

600 a processor assembly;

700 a support mount assembly; 720 vertical rods, 730 first installation seats, 740 second installation seats, 750 support frames, 761 first rotating shafts and 762 second rotating shafts;

800 locking assembly; 810 locking pins; 821 half-locking pin hole one; 822 half locking pin hole two; 830 vertical elongated slots; 831 mounting portion; 832 wedge-shaped locking portions; 833 locking pin mounting holes; 834 locking screw mounting holes; 840 locking screws; 841 lock the wrench.

Detailed Description

The utility model is further elucidated below in connection with the drawings and the detailed description.

As shown in fig. 1-8, the poultry carcass appearance character image acquisition device 10 comprises a base 100, a lifting adjusting assembly 200, a supporting assembly 300, a light source assembly 400 and an image acquisition assembly 500.

The base 100 is provided with a housing 110 for enclosing the elevation adjustment assembly 200 in the housing 110. The housing 110 includes a left seal plate 111, a right seal plate 112, a rear seal plate 113, a front seal plate 114, and a top seal plate 115. The front seal plate 114 is provided with a lift adjustment assembly passage hole.

In one embodiment, shock absorbing members 120 are respectively installed at the bottoms of four corners of the base 100.

The elevation adjustment assembly 200 is provided on the base 100. The elevation adjustment assembly 200 includes a rail mount 210, a rail 220, a first slider 230, and a second slider 240.

The rail mounting frame 210 is disposed on the base 100 and includes a first upright 211, a second upright 212, and a cross brace 213. The first and second columns 211 and 212 are mounted on the base 100. The cross braces 213 are respectively mounted on the first upright post 211 and the second upright post 212 at both ends.

The guide rail 220 is vertically disposed on the guide rail mounting frame 210. Specifically, the rail 220 is vertically installed at the middle of the wale 213. The rail 220 includes dovetail rails 221, fang Daogui, 222. Dovetail rail 221 is mounted to cross brace 213 via bolts. Dovetail rail 221 is positioned in front seal plate 114 in a lift adjustment assembly passage hole. The square rail 222 is mounted on the dovetail rail 221 via bolts.

The first slider 230 is provided with a dovetail groove 231, and the dovetail groove 230 is matched with the dovetail guide rail 221. The inner side of the dovetail groove 231 is provided with a square groove 232, and the square groove 232 is matched with the square guide rail 222.

The first slider 230 is slidably disposed on the guide rail 220, and the adjusting plate 250 is mounted on the first slider 230. The adjusting plate 250 is vertically disposed. The adjusting plate 250 is centrally perforated for mounting the light source assembly 400.

The first slider 230 is provided with a locking assembly 800 for locking after the first slider 230 is moved to a designated position.

Specifically, in one embodiment, the first slider 230 includes a first locking assembly including a locking pin 810, and a locking pin hole mounted on one side thereof.

The first slider 230 is provided with a half-locking pin hole 821 from top to bottom. The square guide rail 222 is provided with a half locking pin hole III from top to bottom, and the half locking pin hole III is matched with the half locking pin hole I821 to form a locking pin hole.

A locking pin mounting hole 833 is formed at one side of the first slider 230, and the locking pin 810 is mounted on the locking pin mounting hole 833. Locking after the first slider 230 is moved to a predetermined position is achieved by the locking pin 810 being disposed in locking pin holes of different height positions.

In one embodiment, a second locking assembly is mounted on the other side of the first slider 230, and the second locking assembly and the first locking assembly are respectively located on two sides of the first slider 230. The second locking assembly includes a locking screw 840.

The first sliding block 230 at one side of the dovetail groove 231 is provided with a vertical long groove 830, the outer side of the vertical long groove 830 is respectively provided with a mounting part 831 and a wedge-shaped locking part 832, the mounting part 831 is provided with a locking screw mounting hole 834, the locking screw mounting hole 834 is transversely arranged, and a locking screw 840 is arranged in the locking screw mounting hole 834. The locking screw 840 terminates in a wedge lock 832.

The locking screw 840 is close to or far from the wedge-shaped locking part 832, so that the wedge-shaped locking part 832 is tightly attached to the square guide rail 222, the locking of the first sliding block 230 is realized, and the first sliding block 230 cannot move up and down; the wedge-shaped locking portion 832 is separated from the square guide rail 222 by the locking screw 840 approaching or separating from the wedge-shaped locking portion 832, and the first slider 230 is separated from the locked state and moves up and down.

In one embodiment, a locking wrench 841 is mounted on the locking screw 840 outside the first slider 230 to provide a force arm for rotation of the locking screw 840, thereby facilitating rotation of the locking screw.

The structure of the second slider 240 is the same as that of the first slider 230, and reference is made to the first slider for specific structure. The second slider 240 is provided with a dovetail groove, which is matched with the dovetail rail 221. The inner side of the dovetail groove is provided with a square groove which is matched with the square guide rail 222. The second slider 240 is slidably disposed on the guide rail 220.

The second slider 240 is provided with a locking assembly 800 for locking after the second slider is moved to a designated position. Specifically, in one embodiment, a first locking assembly including a locking pin 810, a locking pin hole is mounted on one side of the second slider 240.

The second slider 240 is provided with a second half locking pin hole 822 from top to bottom. The square rail 222 is provided with a third half locking pin hole (not shown) from top to bottom, and the third half locking pin hole is matched with the second half locking pin hole 822 to form a locking pin hole.

A locking pin mounting hole 833 is formed at one side of the second slider 240, and a locking pin 810 is mounted in the locking pin mounting hole 833. Locking after the second slider 240 is moved to a predetermined position is achieved by the locking pin 810 being disposed in locking pin holes of different height positions.

In one embodiment, a second locking assembly is mounted on the other side of the second slider 240. The second locking assembly includes a locking screw 840.

A vertical long groove is arranged on the second slide block 240 at one side of the dovetail groove 231, and a mounting part 831 and a wedge-shaped locking part 832 are respectively formed at the outer side of the vertical long groove. The mounting portion 831 is provided with a locking screw mounting hole 834, the locking screw mounting hole 834 is provided laterally, and a locking screw 840 is mounted in the locking screw mounting hole 834. The locking screw 840 terminates in a wedge lock 832.

The second slider 240 is locked by the locking screw 840 approaching or moving away from the wedge-shaped locking portion so that the wedge-shaped locking portion is tightly attached to the square guide rail 222, and the second slider 240 cannot move up and down; the wedge locking portion 832 is separated from the square guide 222 by the locking screw 840 approaching or separating from the wedge locking portion, and the second slider 240 is separated from the locking state and moves up and down.

In one embodiment, a locking wrench 841 is mounted on the locking screw 840 outside the second slider 240 to provide a force arm for rotation of the locking screw 840, facilitating rotation of the locking screw.

A support assembly 300 is mounted on the lower part of the adjustment plate 250, arranged laterally for placing and supporting poultry carcasses. Specifically, the support assembly 300 includes a support plate 301, and a through hole 302 is provided in the support plate 301 directly under the ring-shaped light source.

An image acquisition assembly 500 is mounted on top of the adjustment plate 250 for image acquisition of the poultry carcasses. The distance between the image acquisition assembly 500 and the support assembly 300 is fixed and not adjustable. Specifically, the image acquisition assembly 500 includes a first connecting arm 501, an industrial camera 502. The first connecting arm 501 is disposed laterally on the adjustment plate 250; an industrial camera 502 is provided at the end of the first connecting arm 501 via a mounting plate 503.

The light source assembly 400 is mounted on the second slider 240 for illumination of the poultry carcasses. The distance between the light source assembly 400 and the support assembly 300, and the distance between the light source assembly 400 and the image acquisition assembly 500 are adjustable. Specifically, the light source assembly 400 includes a light source fixture 410, an annular light source 420. The light source fixing member 410 includes a second connection arm 411, and an annular fixing plate 412, and the annular fixing plate 412 is connected to the adjustment plate 250 via the second connection arm 411. An annular light source 420 is mounted at the bottom of the annular fixing plate 412. Preferably, annular light source 420 is a low angle annular diffuse light source.

In one embodiment, the poultry carcass appearance trait image acquisition device further comprises a processor assembly 600 for receiving image information acquired by the image acquisition assembly and performing data processing.

The processor assembly 600 is disposed on a support mount assembly 700. Specifically, the support mount assembly 700 includes a base plate 710, a pole 720, a first mount 730, a second mount 740, and a support 750.

The base plate 710 is provided with a vertical rod 720. The upper end of the upright 720 is provided with a first mounting seat 730. The second mount 740 is connected to the first mount 730 via a first shaft 761. The supporting frame 750 is connected to the second mounting base 740 via a second rotating shaft 762, and the second rotating shaft 752 is vertically disposed between the first rotating shaft 751, and the processor assembly 600 is mounted on the supporting frame 750.

The using method of the poultry carcass appearance character image acquisition device comprises the following steps: firstly, the light source assembly is moved upwards, carcasses of chickens, ducks or geese are placed on the supporting assembly, the light source assembly is moved downwards to be attached to the epidermis of the poultry and is electrified, the image acquisition assembly photographs the carcasses of the poultry, and the photographs are transmitted to the processor assembly for image processing.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that the foregoing embodiments may be modified or equivalents may be substituted for elements thereof, and that any modifications, equivalents, improvements or changes that fall within the spirit and principles of the present invention are intended to be within the scope of the present invention, and that those not specifically described in the present specification are within the skill of the art.

Claims (10)

1. The utility model provides a poultry carcass appearance trait image acquisition device which characterized in that includes:

a base;

The lifting adjusting assembly is arranged on the base;

The support assembly is arranged on the lifting adjusting assembly in a sliding manner and is used for placing and supporting poultry carcasses;

The light source assembly is arranged on the lifting adjusting assembly in a sliding manner and is used for illuminating poultry carcasses;

and the image acquisition assembly is arranged on the lifting adjusting assembly in a sliding manner and is used for acquiring images of poultry carcasses.

2. The poultry carcass appearance trait image acquisition device of claim 1, wherein the elevation adjustment assembly comprises:

The guide rail mounting rack is arranged on the base;

the guide rail is vertically arranged on the guide rail mounting frame;

The guide rail is respectively provided with a first sliding block and a second sliding block in a sliding way, the first sliding block is vertically provided with an adjusting plate, and the adjusting plate is respectively provided with the supporting component and the image acquisition component; the second sliding block is provided with the light source component.

3. The poultry carcass appearance trait image acquisition device of claim 2, wherein the image acquisition assembly comprises: the first connecting arm is transversely arranged on the adjusting plate;

An industrial camera is disposed at the first connection arm end via a mounting plate.

4. The poultry carcass appearance trait image acquisition device of claim 2, wherein the light source assembly is positioned between the support assembly and the image acquisition assembly, and wherein a distance between the light source assembly and the support assembly, the image acquisition assembly is adjustable; the light source assembly includes:

The light source fixing piece comprises a second connecting arm and an annular fixing plate, and the annular fixing plate is connected with the second sliding block through the second connecting arm;

the annular light source is arranged at the bottom of the annular fixing plate.

5. The poultry carcass appearance trait image acquisition device of claim 4, wherein the support assembly comprises a support plate, the support plate is transversely arranged on the adjusting plate, a through hole is arranged in the support plate, and the through hole is positioned right below the annular light source.

6. The poultry carcass appearance trait image acquisition device according to claim 2, wherein the first sliding block and the second sliding block are correspondingly provided with a dovetail groove and a dovetail-shaped guide rail structure which are matched with each other on the guide rail;

The first sliding block and the second sliding block are respectively provided with a locking component used for locking after the first sliding block and the second sliding block slide to the appointed position.

7. The poultry carcass appearance trait image acquisition device of claim 6, wherein the locking assembly comprises a first locking assembly comprising:

the first sliding block is provided with a first half locking pin hole;

the second sliding block is provided with a second half locking pin hole;

The guide rail is provided with a half locking pin hole III from top to bottom, and the half locking pin hole III is matched with the half locking pin hole I or the half locking pin hole II to form a locking pin hole;

The locking pin is arranged on the first sliding block or the second sliding block, and the locking pin is arranged in the locking pin holes at different positions to realize the locking after the first sliding block or the second sliding block moves to the preset position.

8. The poultry carcass appearance trait image acquisition device of claim 7, wherein the locking assembly further comprises a second locking assembly comprising:

the first sliding block and the second sliding block on one side of the dovetail groove are provided with vertical long grooves, two sides of each vertical long groove are respectively provided with a mounting part and a wedge-shaped locking part, the mounting parts are transversely provided with locking screws, the locking screws are close to or far away from the wedge-shaped locking parts, so that the wedge-shaped locking parts are tightly attached to or separated from the guide rails, and the locking and non-locking states of the first sliding block or the second sliding block are switched;

and the locking spanner is arranged on the locking screw and used for rotating the locking screw.

9. The poultry carcass appearance trait image acquisition device of claim 1, wherein a hood is arranged on the base and is used for packaging the lifting adjusting component in the hood, and a lifting adjusting component through hole is arranged on a front sealing plate of the hood;

Damping parts are respectively arranged at four corners of the base.

10. The poultry carcass appearance trait image acquisition device of claim 1, further comprising a processor assembly disposed on the support mounting assembly, the processor assembly being coupled to the image acquisition assembly, the processor assembly being configured to receive and process image information acquired by the image acquisition assembly: the support mount assembly includes:

The upright rod is arranged on the base, and a first mounting seat is arranged at the upper part of the upright rod;

The second installation seat is connected with the first installation seat through the first rotating shaft;

the support frame is connected with the second installation seat through a second rotating shaft, the second rotating shaft is vertically arranged between the second rotating shaft and the first rotating shaft, and the data processing assembly is arranged on the support frame.