CN219996353U - Paperboard printing color detection device - Google Patents

Abstract

The utility model provides a paperboard printing color detection device, which relates to the technical field of paperboard printing, and comprises a base feeding component and an instantaneous detection component, wherein the instantaneous detection component assembled by bolts is arranged above the outer end of the base feeding component, the instantaneous detection component is provided with a precise detection mechanism which is sleeved and installed, the instantaneous detection component comprises an end frame, a top beam, a cross beam groove, a hanging bracket, a fixed detector and a control panel, and the top beam is connected above the outer end of the base feeding component through an end frame bolt; the utility model mainly utilizes the driving motor to output power to drive the second gear set to output and drive the detection product on the real-time tracking conveyor belt of the middle sliding block through the middle screw rod group, and enables the adjusting detector to be positioned at a proper distance on the top side of the detection product in the vertical direction in real time through the telescopic rotation adjustment of the pneumatic lifting rod, the electric rotating seat and the rotating arm, so that the accuracy of detecting the product by equipment is improved through the optimal detection position.

Description

Paperboard printing color detection device

Technical Field

The utility model relates to the technical field of paperboard printing, in particular to a paperboard printing color detection device.

Background

It is difficult to control the long-term quality stability of printed matter in the printing process, and the quality requirement of the current customer on the printing color is very high, for example, certain customer requirements are that the color of each sample sheet is not more than 3 compared with that of the sample sheet of the label, and the color difference between the sample sheet and the color difference is not more than 3, and the quality is regarded as a defective product if the color difference is larger than the standard.

When the conventional color detection device is used, after a corresponding color detector is used for shooting a printed matter, relevant detection data are obtained through data analysis and comparison to achieve a detection effect, for example, application number CN202111118401.3 discloses an intelligent color detection device for paperboard printing, the intelligent color detection device comprises a conveying rack, a plurality of conveying rollers for conveying paperboards are arranged at the upper end of the conveying rack, a color detection mechanism for detecting colors of the paperboards is arranged at the upper side of the conveying rack, and the color detection mechanism comprises a darkroom shell; however, in the above-mentioned technique, since the second CCD camera is perpendicular to the track surface, when the paper is not in the vertical plane, there is a certain oblique angle, and thus inaccurate detection is caused, and therefore, the present utility model proposes a device for detecting cardboard printing color to solve the problems in the prior art.

Disclosure of Invention

According to the paperboard printing color detection device, after the second gear set is driven to output and transmit by utilizing the output power of the driving motor, the middle screw rod group is used for driving the detection products on the real-time tracking conveyor belt of the middle sliding block, and the adjusting detector can be positioned at a proper distance from the top side of the vertical direction of the detection products in real time through the telescopic rotation adjustment of the pneumatic lifting rod, the electric rotating seat and the rotating arm, so that the accuracy of detecting the products by equipment is improved through the optimal detection position.

In order to achieve the purpose of the utility model, the utility model is realized by the following technical scheme: the paperboard printing color detection device comprises a base feeding part and an instantaneous detection component, wherein the instantaneous detection component assembled by bolts is arranged above the outer end of the base feeding part, and a precise detection mechanism which is sleeved and installed is arranged on the instantaneous detection component;

the instantaneous detection assembly comprises an end frame, a top beam, a beam groove, a hanging bracket, a fixed detector and a control panel, wherein the top beam is connected with the upper part of the outer end of the base feeding component through an end frame bolt, the top side of the end frame is provided with the top beam, the inner end of the top beam is provided with the beam groove, the hanging bracket for installing the fixed detector is arranged below the beam groove, and one end of the top beam is provided with the control panel.

As a preferred embodiment of the present utility model, the fixed detectors are symmetrically distributed in four groups by a central axis of the hanger, and the fixed detectors are vertically distributed.

As a preferred embodiment of the utility model, the base feeding component comprises a bottom connecting seat, a counter frame, a bedplate, a driving roller rod and a conveying belt, wherein the counter frame is arranged above the inner end of the bottom connecting seat, the bedplate is arranged on the top side of the counter frame, the driving roller rod is arranged on the inner side of the bedplate, and the conveying belt is wound and connected with the driving roller rod.

As a preferred implementation mode of the utility model, the fine detection mechanism comprises an end motor, a first gear set, a side screw rod set, a side sliding block, a side hanging frame, a hinge rod, a pneumatic telescopic rod, a light supplementing lamp, a driving motor, a second gear set, a middle screw rod set, a middle sliding block, a pneumatic lifting rod, an electric rotating seat, a rotating arm and an adjustment detector, wherein the end motor is arranged at two ends of the top beam, the output end of the end motor penetrates through the top beam to be connected with the first gear set, the output end of the first gear set penetrates through the beam groove to be connected with the side screw rod set, the side screw rod set is connected with the side sliding block in a sliding mode, the side hanging frame is arranged below the side sliding block, the side hanging frame is connected with the pneumatic telescopic rod in a hinged mode through the hinge rod, and the light supplementing lamp is arranged at one end of the hinge rod.

As a preferred implementation mode of the utility model, a driving motor is arranged on the top side of the top beam, the output end of the driving motor is connected with a second gear set, the output end of the second gear set is provided with a middle screw rod group, and the middle screw rod group is in threaded connection with a middle sliding block.

As a preferable implementation mode of the utility model, a pneumatic lifting rod is arranged below the middle sliding block, an electric rotating seat is arranged below the pneumatic lifting rod, and the output end of the electric rotating seat is connected with a rotating arm for installing and adjusting the detector.

The beneficial effects of the utility model are as follows:

the utility model mainly utilizes the driving motor to output power to drive the second gear set to output and drive the detection product on the real-time tracking conveyor belt of the middle sliding block through the middle screw rod group, and enables the adjusting detector to be positioned at a proper distance on the top side of the detection product in the vertical direction in real time through the telescopic rotation adjustment of the pneumatic lifting rod, the electric rotating seat and the rotating arm, so that the accuracy of detecting the product by equipment is improved through the optimal detection position.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic bottom perspective view of the present utility model;

FIG. 3 is a schematic view of the bottom structure of the fine inspection mechanism of the present utility model;

FIG. 4 is a schematic view of a side slider and side hanger according to the present utility model;

fig. 5 is a schematic diagram of a three-dimensional structure of a middle slider and a pneumatic lifting rod of the present utility model.

Wherein: 1. a base feed member; 101. a base is connected with the base; 102. a butt-frame; 103. a platen; 104. a drive roller lever; 105. a conveyor belt; 2. a transient detection component; 201. an end frame; 202. a top beam; 203. a cross beam slot; 204. a hanging bracket; 205. a stationary detector; 206. a control panel; 3. a fine detection mechanism; 301. an end motor; 302. a first gear set; 303. a side screw rod group; 304. a side slider; 305. a side hanging frame; 306. a hinge rod; 307. a pneumatic telescopic rod; 308. a light supplementing lamp; 309. a driving motor; 3010. a second gear set; 3011. a middle screw rod group; 3012. a middle sliding block; 3013. a pneumatic lifting rod; 3014. an electric rotating seat; 3015. a rotating arm; 3016. the detector is adjusted.

Detailed Description

The present utility model will be further described in detail with reference to the following examples, which are only for the purpose of illustrating the utility model and are not to be construed as limiting the scope of the utility model.

According to fig. 1-5, the embodiment provides a paperboard printing color detection device, which comprises a base feeding part 1 and an instantaneous detection component 2, wherein the instantaneous detection component 2 assembled by bolts is arranged above the outer end of the base feeding part 1, and a precise detection mechanism 3 which is sleeved and installed is arranged on the instantaneous detection component 2;

the instantaneous detection assembly 2 comprises an end frame 201, a top beam 202, a beam groove 203, a hanging bracket 204, a fixed detector 205 and a control panel 206, wherein the top beam 202 is connected above the outer end of the base feeding component 1 through bolts of the end frame 201, the top side of the end frame 201 is provided with the top beam 202, the inner end of the top beam 202 is provided with the beam groove 203, the hanging bracket 204 for installing the fixed detector 205 is arranged below the beam groove 203, and one end of the top beam 202 is provided with the control panel 206.

The fixed detectors 205 are symmetrically distributed in four groups along the central axis of the hanger 204, and the fixed detectors 205 are vertically distributed.

In this embodiment, when the conveyor belt 105 outputs products, the hanger 204 is matched with the fixed detector 205, so that instantaneous shooting can be achieved to achieve an analysis effect during product conveying, and detected data is displayed through the control panel 206 at one end of the top beam 202, so that a user can conveniently analyze and adjust.

The base feeding part 1 comprises a base connecting seat 101, a counter frame 102, a bedplate 103, a driving roller rod 104 and a conveying belt 105, the counter frame 102 is arranged above the inner end of the base connecting seat 101, the bedplate 103 is arranged on the top side of the counter frame 102, the driving roller rod 104 is arranged on the inner side of the bedplate 103, and the conveying belt 105 is wound on the driving roller rod 104.

In this embodiment, after the apparatus is placed at a processing location through the base 101 and the opposite frame 102, the output end on the platen 103 is started to output power to drive the driving roller lever 104 on the top side mounting platen 103 of the opposite frame 102, so that the driving roller lever 104 drives the conveying belt 105 to run, and a user places a product to be detected on the conveying belt 105 for conveying.

The fine detection mechanism 3 comprises an end motor 301, a first gear set 302, a side screw rod set 303, a side sliding block 304, a side hanging frame 305, a hinge rod 306, a pneumatic telescopic rod 307, a light supplementing lamp 308, a driving motor 309, a second gear set 3010, a middle screw rod set 3011, a middle sliding block 3012, a pneumatic lifting rod 3013, an electric rotating seat 3014, a rotating arm 3015 and an adjusting detector 3016, wherein the end motor 301 is arranged at two ends of the top beam 202, the output end of the end motor 301 penetrates through the top beam 202 to be connected with the first gear set 302, the output end of the first gear set 302 penetrates through a transverse beam groove 203 to be connected with the side screw rod set 303, the side screw rod set 303 is slidably connected with the side sliding block 304, the side hanging frame 305 is arranged below the side sliding block 304, the side hanging frame 305 is hinged with the pneumatic telescopic rod 307 through the hinge rod 306, and the light supplementing lamp 308 is arranged at one end of the hinge rod 306.

In this embodiment, when accurate detection is required, the start-up end motor 301 transmits power to drive the output end to operate, so that the end motor 301 transmits power to drive the first gear set 302 to operate, the side screw set 303 is driven to output and drive through the meshing transmission of the first gear set 302, the side screw set 303 drives the side slider 304 to track a product in real time, and after the hinge rod 306 and the pneumatic telescopic rod 307 are driven through the hinge, the light supplementing lamp 308 at one end of the hinge rod 306 generates illumination to irradiate the tracked product.

The top side of the top beam 202 is provided with a driving motor 309, and the output end of the driving motor 309 is connected with a second gear set 3010, the output end of the second gear set 3010 is provided with a middle screw rod set 3011, and the middle screw rod set 3011 is in threaded connection with a middle slide block 3012.

In this embodiment, the driving motor 309 is started to output power to drive the output end to operate, the driving motor 309 outputs power to drive the second gear set 3010 to perform meshing transmission, the middle screw rod set 3011 is driven to perform output transmission through the meshing transmission of the second gear set 3010, and the middle slider 3012 is driven to track the product in real time through the output transmission of the middle screw rod set 3011.

The pneumatic lifting rod 3013 is arranged below the middle slide block 3012, the electric rotating seat 3014 is arranged below the pneumatic lifting rod 3013, and the output end of the electric rotating seat 3014 is connected with a rotating arm 3015 for installing the adjusting detector 3016.

In this embodiment, the pneumatic lifting rod 3013 is started to output power to drive the output end to perform telescopic operation, the electric rotating seat 3014 is driven to run to a real-time height after the telescopic operation of the pneumatic lifting rod 3013, the electric rotating seat 3014 outputs power to drive the real-time tracking product of the rotating arm 3015 connected with the output end, and the real-time tracking product of the detector 3016 is regulated through the rotating arm 3015, so that the product is close to the maximum extent, the effect of shooting detection is achieved, and the effect of accurate detection is achieved.

The working principle of the paperboard printing color detection device is as follows: firstly, after the equipment is placed at a processing place through the bottom connecting seat 101 and the opposite frame 102, the output end on the top side mounting platen 103 of the opposite frame 102 is started to output power to drive the driving roller rod 104 to operate, so that the driving roller rod 104 drives the conveying belt 105 to operate, a user places a product to be detected on the conveying belt 105 to transmit, when the conveying belt 105 outputs the product, the hanging bracket 204 is matched with the fixed detector 205 to achieve the instant shooting effect during product conveying so as to achieve the analysis effect, the detected data is displayed through the control panel 206 at one end of the top beam 202 to facilitate the analysis and adjustment of the user, when the accurate detection is required, the starting end motor 301 is used for conveying power to drive the output end to operate, the end motor 301 is used for conveying power to drive the first gear set 302 to operate, the side screw rod group 303 is driven to carry out output transmission through the meshing transmission of the first gear group 302, the side screw rod group 303 is used for driving the side sliding block 304 to track products in real time, after the hinge transmission of the hinge rod 306 and the pneumatic telescopic rod 307 is carried out, the light supplementing lamp 308 at one end of the hinge rod 306 is used for generating illumination to irradiate the tracked products, then the driving motor 309 is started to output power to drive the output end to operate, the driving motor 309 is used for outputting power to drive the second gear group 3010 to carry out meshing transmission, the middle screw rod group 3011 is driven to carry out output transmission through the meshing transmission of the second gear group 3010, the middle sliding block 3012 is driven to track products in real time through the output transmission of the middle screw rod group 3011, then the pneumatic lifting rod 3013 is started to output power to drive the output end to carry out telescopic operation, the electric rotating seat 3014 is driven to operate to a real-time height after the telescopic operation of the pneumatic lifting rod 3013, the rotary arm 3015 connected with the output end is driven by the output power of the electric rotary seat 3014 to track the product in real time, and the rotary arm 3015 and the adjustment detector 3016 track the product in real time so as to be close to the product to the greatest extent, so that the effect of close to shooting detection is achieved, and the effect of accurate detection is achieved.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (6)

1. Paperboard printing color detection device comprising a base feeding part (1) and a transient detection assembly (2), characterized in that: an instantaneous detection assembly (2) assembled by bolts is arranged above the outer end of the base feeding component (1), and a precise detection mechanism (3) which is sleeved and installed is arranged on the instantaneous detection assembly (2);

the instantaneous detection assembly (2) comprises an end frame (201), a top beam (202), a beam groove (203), a hanging bracket (204), a fixed detector (205) and a control panel (206), wherein the top beam (202) is connected to the upper portion of the outer end of the base feeding component (1) through bolts of the end frame (201), the top side of the end frame (201) is provided with the top beam (202), the inner end of the top beam (202) is provided with the beam groove (203), the hanging bracket (204) for installing the fixed detector (205) is arranged below the beam groove (203), and one end of the top beam (202) is provided with the control panel (206).

2. The paperboard printing color detection device of claim 1 wherein: the fixed detectors (205) are symmetrically distributed in four groups by the central axis of the hanging bracket (204), and the fixed detectors (205) are vertically distributed.

3. The paperboard printing color detection device of claim 1 wherein: the base feeding component (1) comprises a base connecting seat (101), a counter frame (102), a bedplate (103), a driving roller rod (104) and a conveying belt (105), the counter frame (102) is arranged above the inner end of the base connecting seat (101), the bedplate (103) is arranged on the top side of the counter frame (102), the driving roller rod (104) is arranged on the inner side of the bedplate (103), and the conveying belt (105) is wound on the driving roller rod (104).

4. The paperboard printing color detection device of claim 1 wherein: the precise inspection mechanism (3) comprises an end motor (301), a first gear set (302), a side screw rod group (303), a side sliding block (304), a side hanging frame (305), a hinge rod (306), a pneumatic telescopic rod (307), a light supplementing lamp (308), a driving motor (309), a second gear set (3010), a middle screw rod group (3011), a middle sliding block (3012), a pneumatic lifting rod (3013), an electric rotating seat (3014), a rotating arm (3015) and an adjusting detector (3016), the end motor (301) is arranged at two ends of the top beam (202), an output end of the end motor (301) penetrates through the top beam (202) to be connected with the first gear set (302), an output end of the first gear set (302) penetrates through the beam groove (203) to be connected with the side screw rod group (303), the side screw rod group (303) is connected with the side sliding block (304) in a sliding mode, the side hanging frame (305) is arranged below the side sliding block (304), and one end of the side hanging frame (305) is connected with the pneumatic telescopic rod (307) through the hinge rod (306) to be connected with the light supplementing lamp (308).

5. The device of claim 4, wherein: the top side of back timber (202) is provided with driving motor (309), just driving motor (309) output is connected with second gear train (3010), the output of second gear train (3010) is provided with middle part lead screw group (3011), just middle part lead screw group (3011) threaded connection has middle part slider (3012).

6. The device of claim 4, wherein: the intelligent elevator is characterized in that a pneumatic lifting rod (3013) is arranged below the middle sliding block (3012), an electric rotating seat (3014) is arranged below the pneumatic lifting rod (3013), and the output end of the electric rotating seat (3014) is connected with a rotating arm (3015) for installing and adjusting a detector (3016).