CN108449576B

CN108449576B - Computer image collector

Info

Publication number: CN108449576B
Application number: CN201810240457.8A
Authority: CN
Inventors: 张腾飞; 康会娟
Original assignee: Pingdingshan University
Current assignee: Pingdingshan University
Priority date: 2018-03-22
Filing date: 2018-03-22
Publication date: 2020-05-08
Anticipated expiration: 2038-03-22
Also published as: CN108449576A

Abstract

The invention discloses a computer image collector. This collector includes: a computer and an image collector. According to the invention, the auxiliary acquisition device is arranged, so that when a sample plate image is selectively acquired, the height of the telescopic support frame is adjusted, and the size, shape and position of the hole in the splicing baffle plate with the hole are spliced by the magnet blocks with different sizes and shapes; simultaneously, adjust the position of image acquisition module through flexible bracing piece and rotating electrical machines and realize the selective collection of model image in order to see through the hole in the foraminiferous concatenation baffle, the data volume of gathering reduces, make data acquisition and transmission efficiency higher, and carry out the inward flange discernment to the data of gathering, carry out the frame number according to hole parameter classification, transmit to the computer after the integration packing compression coding, because the data of gathering is for the data of selected region and carried out above-mentioned processing to the data of gathering promptly, make the collection convenient, be difficult for makeing mistakes, transmission efficiency is high, the quality of image acquisition has been guaranteed.

Description

Computer image collector

Technical Field

The invention relates to the field of image acquisition, in particular to a computer image acquisition device.

Background

With the great development of global electronic informatization, a large number of digital images are flooded in daily life and study and scientific research, so that image acquisition is inevitably and more widely applied to various fields such as scientific research, aerospace, traffic, medical treatment, industry, agriculture, daily life and the like. With the push of the increasing demand of image acquisition in various industries around the world, the image acquisition technology will become one of the important tools in the popular and popular fields of scientific research. Therefore, the research on the image acquisition system is of great scientific and practical significance.

At present, computers are deep in work and life of people, and image acquisition by using the computers is a normal state, however, in the process of acquiring some sample plate images, because the shapes, sizes and positions of images to be acquired in a period of time can be different, if all the images are acquired in the whole period of time, the acquired data volume is large and complicated, a large amount of acquired data needs to be screened and processed in the later period to obtain required data, the operation is complex, and errors are easy to occur.

Disclosure of Invention

The embodiment of the invention provides a computer image collector, which is used for solving the problems in the prior art.

The embodiment of the invention provides a computer image collector, which comprises: a computer and an image collector;

the computer is used for processing, storing and displaying the video image data collected by the image collector;

the image collector comprises: the device comprises a control module, an image acquisition module, an auxiliary acquisition device, a data processing module, an acquisition display and a data transmission module, wherein the control module is respectively connected with the image acquisition module, the data processing module, the acquisition display and the data transmission module;

the image acquisition module is arranged on the supporting platform sequentially through a rotating motor and a telescopic supporting rod, wherein the bottom of the telescopic supporting rod is fixed on the supporting platform, the top of the telescopic supporting rod is connected with a fixed shaft of the rotating motor, and a rotating shaft of the rotating motor is connected with the image acquisition module;

the auxiliary collecting device comprises: the telescopic support frame and the split joint baffle with the holes are arranged; the splicing baffle with the holes is arranged above the telescopic support frame; foraminiferous concatenation baffle includes: the size and the shape of a hole of the splicing baffle plate with the hole, which is formed by enclosing the magnet bone ring and the magnet blocks, are determined according to the size and the shape of the collection area;

the data processing module comprises: the system comprises a data identification unit, a data numbering unit, a data integration unit, a timing unit and an early warning unit;

the data identification unit is used for identifying the inner edge of the spliced baffle with holes and storing the data collected in the holes of the spliced baffle with holes;

the data numbering unit is used for respectively carrying out frame numbering on the data collected in the hole of the spliced baffle plate according to the parameters of the hole of the spliced baffle plate; wherein, the parameter in foraminiferous concatenation baffle hole includes: one or more of size, shape, location;

the data integration unit is used for integrating and packaging the data in the parameter state of the same spliced baffle hole with the hole according to the frame number;

the timing unit is used for timing the parameter invariant state data acquisition process of the spliced baffle hole with the hole;

the early warning unit is used for sending a primary early warning signal when the timing time of zero acquired data is greater than the first, second and third times of preset time; when data acquisition is carried out in the same parameter state of the spliced baffle hole with the hole and the times that the timing time for acquiring the data is zero is more than three times of the preset time, a secondary early warning signal is sent out;

the acquisition display is used for displaying the waveform in the data acquisition process in real time and displaying the times that the timing time when the acquired data is zero is greater than the preset time;

the data transmission module includes: the device comprises a compression coding unit, a wireless communication unit and an interface unit;

the compression coding unit is used for respectively carrying out compression coding processing on the data which are integrated and packaged in different parameter states of the spliced baffle holes with the holes;

the wireless communication unit is used for communicating with the computer or external electric equipment;

the interface unit is an interface circuit integrated board which comprises a network interface, a PCI interface, a USB interface and a serial interface.

Further, the computer and the image collector are connected through a communication module.

Further, the communication module includes a wired communication module and/or a wireless communication module.

Further, the control module adopts an MSP430 series single chip microcomputer.

Preferably, the control module is connected with a control panel.

Preferably, the control module is connected with an expansion memory.

Furthermore, the image acquisition module adopts a high-definition camera.

Further, the magnet bone ring includes: a circular magnet bone ring and a square magnet bone ring.

In the embodiment of the invention, the computer image collector is provided, and compared with the prior art, the computer image collector has the following beneficial effects:

according to the invention, the auxiliary acquisition device is arranged, so that when a sample plate image is selectively acquired, the height of the telescopic support frame is adjusted, and the size, shape and position of the hole in the splicing baffle plate with the hole are spliced by the magnet blocks with different sizes and shapes; simultaneously, adjust the position of image acquisition module through flexible bracing piece and rotating electrical machines and realize the selective collection of model image in order to see through the hole in the foraminiferous concatenation baffle, the data volume of gathering reduces, make data acquisition and transmission efficiency higher, and carry out the inward flange discernment to the data of gathering, carry out the frame number according to hole parameter classification, transmit to the computer after the integration packing compression coding, because the data of gathering is for the data of selected region and carried out above-mentioned processing to the data of gathering promptly, make the collection convenient, be difficult for makeing mistakes, transmission efficiency is high, the quality of image acquisition has been guaranteed.

The invention effectively ensures the effectiveness of the data acquisition process by timing, early warning monitoring and display monitoring the image acquisition process; the early warning monitoring is divided into two stages of early warning to remind the warning state in the acquisition process; and the visual display of monitoring is displayed, so that the observation is convenient. The invention is convenient to communicate with the computer and/or other electric equipment by arranging the wireless communication unit, thereby realizing the Internet of things system. The invention integrates the network interface, the PCI interface, the USB interface, the serial interface and the like on one interface circuit integrated board, thereby being convenient to use.

Drawings

Fig. 1 is a schematic block diagram of a computer image collector according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a position of an image capturing module according to an embodiment of the present invention;

fig. 3 is a schematic structural view of a split baffle with holes according to an embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Fig. 1 is a schematic block diagram of a computer image collector according to an embodiment of the present invention; fig. 2 is a schematic structural diagram of a position of an image capturing module according to an embodiment of the present invention. As shown in fig. 1 and 2, the collector includes: a computer 1 and an image collector 2.

Specifically, the computer 1 is used for processing, storing and displaying the video image data collected by the image collector 2. Wherein, computer 1 includes: the compressed encoded data is decoded, and analysis chart processing or the like is applied to the decoded data.

Further, the computer 1 and the image collector 2 are connected through a communication module 3. The communication module 3 includes a wired communication module and/or a wireless communication module.

Specifically, the image acquirer 2 includes: the device comprises a control module 21, an image acquisition module 22, an auxiliary acquisition device 23, a data processing module 24, an acquisition display 25 and a data transmission module 26, wherein the control module 21 is respectively connected with the image acquisition module 22, the data processing module 24, the acquisition display 25 and the data transmission module 26.

Further, referring to fig. 2 to 3, the relationship of the hardware structure related to the image collector 2 is as follows:

the image acquisition module 22 is sequentially arranged on the supporting platform 4 through the rotating motor 6 and the telescopic supporting rod 5, wherein the bottom of the telescopic supporting rod 5 is fixed on the supporting platform 4, the top of the telescopic supporting rod 5 is connected with a fixed shaft of the rotating motor 6, and a rotating shaft of the rotating motor 6 is connected with the image acquisition module 22; the auxiliary collecting device 23 includes: a telescopic support 231 and a split joint baffle 232 with holes; the perforated splicing baffle 232 is arranged above the telescopic support frame 231; foraminiferous concatenation baffle 232 includes: the size and shape of the hole of the split baffle 232 surrounded by the magnet bone ring 2321 and the plurality of magnet blocks 2322 are determined according to the size and shape of the collecting area.

Wherein the control module 21 adopts an MSP430 series single chip microcomputer; the image acquisition module 22 employs a high definition camera.

Wherein, magnet bone ring 2321 includes: a circular magnet bone ring and a square magnet bone ring.

Further, the functions of the modules involved in the image collector 2 are described as follows:

the data processing module 24 includes: a data identification unit 241, a data numbering unit 242, a data integration unit 243, a timing unit 244 and an early warning unit 245; the data identification unit 241 is used for identifying the inner edge of the perforated splicing baffle 232 and storing data collected in the holes of the perforated splicing baffle 232; the data numbering unit 242 is used for respectively carrying out frame numbering on the data collected in the holes of the splicing baffle 232 with holes according to the parameters of the holes of the splicing baffle 232 with holes; wherein, the parameter in foraminiferous concatenation baffle 232 hole includes: one or more of size, shape, location; the data integration unit 243 is used for integrating and packaging the data in the parameter state of the same spliced baffle 232 hole with the hole according to the frame number; the timing unit 244 is used for timing the acquisition process of the parameter invariant state data of the holes of the spliced baffle plate 232 with the holes; the early warning unit 245 is configured to send a first-stage early warning signal when the timing time when the acquired data is zero is greater than the preset time for the first time, the second time and the third time; when data acquisition is carried out in the same parameter state of the spliced baffle with holes 232, and the times that the timing time for acquiring data is zero is more than the preset time is more than three times, a secondary early warning signal is sent.

It should be noted that the data numbering unit 242 is configured to perform frame numbering on data collected in the holes of the splicing baffle 232 according to the parameters of the holes of the splicing baffle 232. For example: when the size, the shape and the position of the hole of the splicing baffle 232 with the hole are not changed, the frame numbering is carried out according to the mark of the same type, and when one parameter of the size, the shape and the position of the hole of the splicing baffle 232 with the hole is changed, the frame numbering is carried out according to the mark of the other type.

And the acquisition display 25 is used for displaying the waveform in the data acquisition process in real time and displaying the times that the timing time when the acquired data is zero is greater than the preset time.

The data transmission module 26 includes: a compression encoding unit 261, a wireless communication unit 262, and an interface unit 263; the compression coding unit 261 is used for respectively performing compression coding processing on the data which are integrated and packaged under the parameter states of the different spliced baffles 232 with holes; a wireless communication unit 262 for communicating with the computer 1 or an external electric device; the interface unit 263 is an interface circuit integrated board including a network interface, a PCI interface, a USB interface, and a serial interface.

In addition, the control module 21 of the present invention is also connected with a control panel 27 and an expansion memory 28.

In conclusion, the auxiliary collecting device is arranged, so that when the sample plate image is selectively collected, the height of the telescopic support frame is adjusted, and the size, the shape and the position of the hole in the splicing baffle plate with the hole are spliced by the magnet blocks with different sizes and shapes; simultaneously, adjust the position of image acquisition module through flexible bracing piece and rotating electrical machines and realize the selective collection of model image in order to see through the hole in the foraminiferous concatenation baffle, the data volume of gathering reduces, make data acquisition and transmission efficiency higher, and carry out the inward flange discernment to the data of gathering, carry out the frame number according to hole parameter classification, transmit to the computer after the integration packing compression coding, because the data of gathering is for the data of selected region and carried out above-mentioned processing to the data of gathering promptly, make the collection convenient, be difficult for makeing mistakes, transmission efficiency is high, the quality of image acquisition has been guaranteed.

The above disclosure is only a few specific embodiments of the present invention, and those skilled in the art can make various modifications and variations of the present invention without departing from the spirit and scope of the present invention, and it is intended that the present invention encompass these modifications and variations as well as others within the scope of the appended claims and their equivalents.

Claims

1. A computer image collector, comprising: a computer (1) and an image collector (2);

the computer (1) is used for processing, storing and displaying the video image data collected by the image collector (2);

the image collector (2) comprises: the device comprises a control module (21), an image acquisition module (22), an auxiliary acquisition device (23), a data processing module (24), an acquisition display (25) and a data transmission module (26), wherein the control module (21) is respectively connected with the image acquisition module (22), the data processing module (24), the acquisition display (25) and the data transmission module (26);

the image acquisition module (22) is sequentially arranged on the supporting platform (4) through a rotating motor (6) and a telescopic supporting rod (5), wherein the bottom of the telescopic supporting rod (5) is fixed on the supporting platform (4), the top of the telescopic supporting rod (5) is connected with a fixed shaft of the rotating motor (6), and a rotating shaft of the rotating motor (6) is connected with the image acquisition module (22);

the auxiliary acquisition device (23) comprises: a telescopic support frame (231) and a split joint baffle (232) with a hole; the splicing baffle plate (232) with the holes is arranged above the telescopic support frame (231); foraminiferous concatenation baffle (232) include: the magnet bone ring (2321) and a plurality of magnet blocks (2322) spliced inside and outside the magnet bone ring (2321), wherein the size and the shape of the hole of the spliced baffle plate (232) with the hole, which is formed by the magnet bone ring (2321) and the magnet blocks (2322), are determined according to the size and the shape of the collecting area; the size, the shape and the position of a hole in the splicing baffle plate (232) with the hole are spliced by adjusting the height of the telescopic support frame (231) and the magnet blocks with different sizes and shapes; meanwhile, the position of the image acquisition module is adjusted through the telescopic supporting rod (5) and the rotating motor (6) so as to realize selective acquisition of the sample plate image through holes in the perforated splicing baffle (232);

the data processing module (24) comprises: the system comprises a data identification unit (241), a data numbering unit (242), a data integration unit (243), a timing unit (244) and an early warning unit (245);

the data identification unit (241) is used for identifying the inner edge of the splicing baffle plate with holes (232) and storing the data collected in the holes of the splicing baffle plate with holes (232);

the data numbering unit (242) is used for respectively carrying out frame numbering on the data collected in the holes of the splicing baffle plate with holes (232) according to the parameters of the holes of the splicing baffle plate with holes (232); wherein the parameters of the holes of the split baffle with holes (232) comprise: one or more of size, shape, location;

the data integration unit (243) is used for integrating and packaging the data under the parameter state of the holes of the same splicing baffle plate with holes (232) according to the frame number;

the timing unit (244) is used for timing the acquisition process of the parameter invariable state data of the holes of the spliced baffle plate with holes (232);

the early warning unit (245) is used for sending a first-stage early warning signal when the timing time of zero acquired data is greater than the preset time and occurs for the first time, the second time and the third time; when data acquisition is carried out in the same parameter state of the holes of the spliced baffle plate (232) with the holes and the times that the timing time for acquiring the data is zero is more than three times than the preset time, a secondary early warning signal is sent out;

the acquisition display (25) is used for displaying the waveform in the data acquisition process in real time and displaying the times that the timing time when the acquired data is zero is greater than the preset time;

the data transmission module (26) comprises: a compression encoding unit (261), a wireless communication unit (262) and an interface unit (263);

the compression coding unit (261) is used for respectively performing compression coding processing on the data which are integrated and packed under the parameter states of different holes of the splicing baffle plate with holes (232);

the wireless communication unit (262) is used for communicating with the computer (1) or other external electric equipment;

the interface unit (263) is an interface circuit integrated board which comprises a network interface, a PCI interface, a USB interface and a serial interface.

2. Computer image collector as claimed in claim 1, characterized in that the computer (1) and the image collector (2) are connected by means of a communication module (3).

3. A computer image collector as claimed in claim 2, characterised in that the communication module (3) comprises a wired communication module and/or a wireless communication module.

4. The computer image collector as claimed in claim 1, wherein the control module (21) employs an MSP430 series single chip microcomputer.

5. A computer image collector as claimed in claim 1, characterised in that the control module (21) is connected to a control panel (27).

6. A computer image collector as claimed in claim 1, characterised in that the control module (21) is connected to an expansion memory (28).

7. The computer image collector as claimed in claim 1, wherein the image collection module (22) employs a high definition camera.

8. The computer image collector of claim 1, wherein the magnet bone ring (2321) comprises: a circular magnet bone ring and a square magnet bone ring.