阅读说明：本技术 一种造价辅助算量便携感应笔及其图纸快速识别方法 (Portable sensing pen for cost-assisted calculation and drawing rapid identification method thereof ) 是由 赵博 韩丽娜 孙宁 于 2020-04-23 设计创作，主要内容包括：本发明公开了一种造价辅助算量便携感应笔,包括笔尖、中部笔筒和端部笔筒,笔尖上固定安装有FMC白膜物镜,中部笔筒内封装有物象接收识别装置,FMC白膜物镜与物象接收识别装置电连接,端部笔筒与中部笔筒一体成型,端部笔筒的侧面上分别嵌装有功能触控面板,端部笔筒的内部封装有供电电源和无线通信装置,功能触控面板、供电电源和无线通信装置均与物象接收识别装置电连接。该感应笔通过端部笔筒上的功能触控面板进行设置或操作,通过笔尖上设置的FMC白膜物镜获取图纸上的物象信息,并通过物象接收识别装置对获取到的物象进行接收处理,最后通过无线通信装置将数据上传至外部的终端设备,完成图纸识别工作,整个装置结构简单小巧,便携性强,方便操作。(The invention discloses a portable sensing pen with the manufacturing cost auxiliary calculation function, which comprises a pen point, a middle pen container and an end pen container, wherein an FMC white film objective lens is fixedly installed on the pen point, an object receiving and recognizing device is packaged in the middle pen container, the FMC white film objective lens is electrically connected with the object receiving and recognizing device, the end pen container and the middle pen container are integrally formed, a functional touch panel is respectively embedded on the side surface of the end pen container, a power supply source and a wireless communication device are packaged in the end pen container, and the functional touch panel, the power supply source and the wireless communication device are electrically connected with the object receiving and recognizing device. This response pen sets up or operates through the function touch panel on the tip pen container, acquires the object image information on the drawing through the FMC white film objective that sets up on the nib to receive recognition device through the object image and receive the processing to the object image who acquires, upload to outside terminal equipment through wireless communication device with data at last, accomplish drawing recognition work, whole device simple structure is small and exquisite, and the portability is strong, convenient operation.)

1. The utility model provides a portable response pen of supplementary computation of cost, its characterized in that, includes nib (1), middle part pen container (2) and tip pen container (3), fixed mounting has FMC white membrane objective (101) on nib (1), the encapsulation has the object image to receive recognition device in middle part pen container (2), FMC white membrane objective (101) with the object image is received recognition device electricity and is connected, tip pen container (3) with middle part pen container (2) integrated into one piece, inlay respectively on the side of tip pen container (3) and be equipped with function touch panel (301), the inside encapsulation of tip pen container (3) has power supply (302) and wireless communication device (303), function touch panel (301), power supply (302) and wireless communication device (303) all with the object image is received recognition device electricity and is connected.

2. A cost-aid computation-amount portable sensing pen as claimed in claim 1, wherein said object image receiving and recognizing means comprises:

an image intensifier (201), wherein one end of the image intensifier (201) is electrically connected with the FMC white film objective lens (101);

the other end of the image intensifier (201) is electrically connected with the CCD image sensor (203);

an object image data memory (204), wherein the object image data memory (204) is electrically connected with the CCD image sensor (203); and

the microprocessor (205), the microprocessor (205) is connected with CCD image sensor (203) and object image data memory (204) electricity respectively, microprocessor (205) still with function touch panel (301), power supply (302) and wireless communication device (303) electricity are connected.

3. A cost-aid portable inductive pen according to claim 1, wherein said power supply (302) is a polymer lithium-ion power storage plate, said polymer lithium-ion power storage plate being vertically disposed.

4. The portable inductive pen for auxiliary cost calculation according to claim 1, wherein the end pen container (3) is hexagonal prism shaped, and functional touch panels are respectively embedded on six side surfaces of the end pen container (3).

5. The portable manufacturing cost-aid computation sensor pen according to claim 4, wherein the functional touch panel (301) comprises an identification touch panel, a sensing touch panel, a measurement touch panel, a calculation touch panel, an upload touch panel and a setup touch panel.

6. A portable sensing pen for cost-aid calculation according to claim 1, wherein a manual control panel (304) is further provided on the top surface of the end pen container (3), and the manual control panel (304) is electrically connected to the object image receiving and recognizing device.

7. The portable sensing pen for auxiliary calculation of construction cost according to claim 6, wherein the manual control panel (304) comprises a plurality of control buttons (3041) and a charging socket (3042), the plurality of control buttons (3041) are electrically connected with the object image receiving and identifying device, and the charging socket (3042) is used for charging the power supply (302).

8. The portable sensing pen for auxiliary price computation according to claim 1, wherein the wireless communication device (303) is a bluetooth chip, one end of the bluetooth chip is electrically connected with the object image receiving and identifying device, and the other end of the bluetooth chip is in communication connection with an external terminal device.

9. A drawing rapid identification method using a portable sensing pen according to any one of claims 1 to 8, comprising:

setting relevant parameters of province, proportion or graphic representation matched with the paper edition design drawing through a functional touch panel;

acquiring related drawing size, parameter or line data, and temporarily storing the acquired drawing data;

performing data identification or object image calculation on the drawing according to the acquired drawing data and the preset province, proportion or graphic related parameters matched with the drawing to obtain a drawing identification result;

and uploading the obtained drawing identification result to external terminal equipment.

Technical Field

The invention relates to the technical field of drawing identification and engineering cost, in particular to a portable sensing pen for cost-assisted calculation and a drawing quick identification method thereof.

Background

At present, in the engineering cost field, a metering person is required to identify a construction design drawing in the earlier stage, the process of drawing identification is generally completed by the aid of computer software, for example, calculation amount measuring software applied to a PC (personal computer) end is used, the process workload of identifying the construction design drawing by the aid of the software is large, the working efficiency is low, the metering period is long, the construction drawing can be completed only by relying on an electronic version design construction drawing, the auxiliary software is used, the metering person has high technical requirements, and the identification process is time-consuming and labor-consuming.

Therefore, how to provide a device which is convenient and efficient, can quickly identify drawings and assist cost calculation is a problem which needs to be solved urgently by technical personnel in the field.

Disclosure of Invention

In view of the above, the invention provides a portable sensing pen for cost-assisted computation, which can quickly and efficiently complete data identification on drawings, and solves the problems that the conventional drawing-assisted identification software has high requirements on the professional performance of a metering staff and wastes time and labor in operation.

In order to achieve the purpose, the invention adopts the following technical scheme:

on one hand, the invention provides a portable sensing pen with the cost-assisted calculation function, which comprises a pen point, a middle pen container and an end pen container, wherein an FMC white film objective lens is fixedly installed on the pen point, an object receiving and recognizing device is packaged in the middle pen container, the FMC white film objective lens is electrically connected with the object receiving and recognizing device, the end pen container and the middle pen container are integrally formed, functional touch panels are respectively embedded on the side surfaces of the end pen container, a power supply and a wireless communication device are packaged in the end pen container, and the functional touch panels, the power supply and the wireless communication device are electrically connected with the object receiving and recognizing device.

The invention has the beneficial effects that: this response pen can set up or operate through the function touch panel on the tip pen container, acquires the object image information on the drawing through the FMC white film objective that sets up on the nib to receive recognition device through the object image and receive the processing to the object image that acquires, can upload data to outside terminal equipment through wireless communication device at last, accomplish the identification process of drawing, whole device is simple structure not only small and exquisite, and the portability is strong, and convenient operation, and the practicality is stronger.

Further, the object image receiving and identifying device comprises:

the image intensifier, one end of the image intensifier is electrically connected with the FMC white film objective lens;

the other end of the image intensifier is electrically connected with the CCD image sensor;

the object image data memory is electrically connected with the CCD image sensor; and

and the microprocessor is respectively and electrically connected with the CCD image sensor and the object image data memory, and is also electrically connected with the functional touch panel, the power supply and the wireless communication device.

Further, the power supply is a polymer lithium ion energy storage plate, and the polymer lithium ion energy storage plate is vertically arranged. The device abandons the existing dry battery or small-sized storage battery, adopts the polymer lithium ion battery storage board with lighter and thinner structure and small occupied space, and can ensure that the volume of the whole end pen container is smaller and the portability is stronger.

Furthermore, the end pen container is hexagonal prism-shaped, and functional touch panels are respectively embedded on six side surfaces of the end pen container.

Further, the functional touch panel includes an identification touch panel, an induction touch panel, a measurement touch panel, a calculation touch panel, an upload touch panel, and a setup touch panel.

Each side surface of the hexagonal prism-shaped end pen container is provided with the touch panel with different functions, a user can select the touch panel with corresponding functions to operate according to the requirement of the user on drawing data, and on the premise that the touch operation function can be normally completed, the actual space of the touch panel is reduced to the maximum extent, so that the end pen container is smaller.

Furthermore, a manual control panel is further arranged on the top surface of the end pen container and electrically connected with the object image receiving and recognizing device.

Furthermore, manual control panel includes a plurality of control button and charging socket, and is a plurality of control button with identification means electricity is received to the object image is connected, charging socket is used for power supply charges.

The manual control panel can be used with the touch panels with a plurality of different functions in a matched mode, so that a user can conveniently and reasonably select an operation mode according to actual needs, and drawing identification work can be efficiently completed.

Furthermore, the wireless communication device is a bluetooth chip, one end of the bluetooth chip is electrically connected with the object image receiving and identifying device, and the other end of the bluetooth chip is in communication connection with an external terminal device.

On the other hand, the invention also discloses a method for quickly identifying the drawing by using the portable induction pen, which comprises the following steps:

setting relevant parameters of province, proportion or graphic representation matched with the paper edition design drawing through a functional touch panel;

acquiring related drawing size, parameter or line data, and temporarily storing the acquired drawing data;

performing data identification or object image calculation on the drawing according to the acquired drawing data and the preset province, proportion or graphic related parameters matched with the drawing to obtain a drawing identification result;

and uploading the obtained drawing identification result to external terminal equipment.

According to the technical scheme, compared with the prior art, the method for quickly identifying the drawing is characterized in that the industry standard data related to the drawing is stored in the touch pen in advance, the related standard data is set according to the drawing to be identified before identification, the drawing data is obtained through the pen point, then the drawing data is identified and calculated according to the set related standard data, the identification result is obtained, and the result is uploaded, so that the operation of the whole process is simpler, more convenient and more efficient.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

FIG. 1 is a schematic diagram of an overall structure of a portable inductive pen for assisting in calculating a manufacturing cost according to the present invention;

FIG. 2 is a schematic diagram of an internal cross-section of a portable inductive pen according to an embodiment of the present invention;

FIG. 3 is a schematic drawing showing a dimensional indication of a nib portion in accordance with an embodiment of the present invention;

FIG. 4 is a schematic drawing showing a dimensional indication of a middle barrel portion in an embodiment of the present invention;

FIG. 5 is a schematic diagram illustrating dimensions of a functional touch panel according to an embodiment of the present invention;

FIG. 6 is a schematic structural diagram of a manual control panel according to an embodiment of the present invention;

fig. 7 is a schematic flow chart of a drawing quick identification method provided by the 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.

On one hand, referring to fig. 1 and fig. 2, the embodiment of the invention discloses a portable sensing pen with a cost-assisted calculation function, which comprises a pen point 1, a middle pen barrel 2 and an end pen barrel 3, wherein an FMC white film objective lens 101 is fixedly installed on the pen point 1, an object receiving and recognizing device is packaged in the middle pen barrel 2, the FMC white film objective lens 101 is electrically connected with the object receiving and recognizing device, the end pen barrel 3 and the middle pen barrel 2 are integrally formed, a functional touch panel 301 is respectively embedded on the side surface of the end pen barrel 3, a power supply 302 and a wireless communication device 303 are packaged in the end pen barrel 3, and the functional touch panel 301, the power supply 302 and the wireless communication device 303 are electrically connected with the object receiving and recognizing device.

In one embodiment, referring to fig. 2, the object image receiving and identifying device comprises:

an image intensifier 201, wherein one end of the image intensifier 201 is electrically connected with the FMC white film objective 101;

the other end of the image intensifier 201 is electrically connected with the CCD image sensor 203;

an object image data memory 204, wherein the object image data memory 204 is electrically connected with the CCD image sensor 203; and

the microprocessor 205, the microprocessor 205 are electrically connected with the CCD image sensor 203 and the object image data memory 204 respectively, and the microprocessor 205 is also electrically connected with the functional touch panel 301, the power supply 302 and the wireless communication device 303.

In this embodiment, in order to ensure that the object image signal collected by the CCD image sensor 203 is more reliable, an object lens 202 is further disposed between the image intensifier 201 and the CCD image sensor 203, the cone-shaped object image beam output from the image intensifier 201 is converged into the object lens 202, and the object lens 202 is connected to the CCD image sensor 203 through a high-definition CCD object image fiber, so as to realize conversion from the object image signal to the electrical signal. The signal output from the CCD image sensor 203 is output to the object data memory 204 and the microprocessor 205 via the object transmission analysis channel and the object video channel.

Specifically, in this embodiment, the microprocessor 205 may use an embedded processor with model number of L QFP100 and an operation processing chip with model number of E5-2690V3, and the image enhancer 201 may use a single color MT9V034C12SCTM pattern image enhancement chip, but of course, other devices capable of implementing the above functions may also be applied to this embodiment, and the model may be appropriately selected according to actual needs.

In the embodiment, the induction pen is completely written in the national construction engineering quantity list pricing specification GB50500-2013 in the setting function, and can be respectively written in corresponding regional rules of provinces and cities according to the difference of different provinces and cities; relevant national and regional regulation specifications are written into a CPU central analyzer; and the related legends are implanted by combining the unified design standard for civil buildings GB 50352 and 2019 and the related design standards of the related national design standards for municipal administration, roads, greening and landscapes, so that the calculation of the corresponding legends in the later period is more convenient and faster. The resulting data is represented using the functionality of the underlying spreadsheet calculations and associated parameters. Specifically, the data may be stored in an internal memory of the microprocessor, or the data may be stored in an external memory connected to the microprocessor.

In a particular embodiment, the power supply 302 is a polymer lithium ion power storage plate, which is vertically arranged. The width of the polymer lithium ion energy storage plate is approximately the maximum width of the end pen container.

In this embodiment, referring to fig. 3, 4 and 5, the maximum width of the whole stylus is about 50mm, the length of the whole stylus is about 250mm, the pen point is a circular section with a section width of 5mm, the middle pen barrel is cylindrical with a width of about 20mm, and the end pen barrel is about 100 mm. The whole touch control pen is relatively small in size and is more suitable for being carried about.

In a specific embodiment, referring to fig. 1 and 5, the end barrel 3 is hexagonal prism-shaped, and the functional touch panel 301 is embedded on six sides of the end barrel 3, respectively, and the size of the functional touch panel in this embodiment is 60mm × 20 mm.

In one embodiment, the functional touch panel 301 includes an identification touch panel, a sensing touch panel, a measurement touch panel, a calculation touch panel, an upload touch panel, and a setup touch panel.

In this embodiment, each side surface of the hexagonal prism-shaped end pen container is provided with a touch panel with different functions, so that a user can select the touch panel with corresponding functions to operate according to the requirement of the user on drawing data, and the actual space of the touch panel is reduced to the greatest extent on the premise of ensuring that the touch operation function can be normally completed, so that the end pen container is smaller and more exquisite.

In a specific embodiment, referring to fig. 1 and 6, a manual control panel 304 is further provided on the top surface of the end barrel 3, and the manual control panel 304 is electrically connected to the object receiving and recognizing device.

In a specific embodiment, referring to fig. 6, the manual control panel 304 includes a plurality of control buttons 3041 and a charging socket 3042, the plurality of control buttons 3041 are electrically connected to the object receiving and identifying device, and the charging socket 3042 is used for charging the power supply 302.

In the present embodiment, the manual control panel disposed at the end of the touch pen retains the commonly used functional keys such as charging, direction, switch, etc., and the direction key can work simultaneously with the touch control panel and display the manual control result on the touch control panel. The dual-control function can be selected to be used or not in the touch panel.

In a specific embodiment, the wireless communication device 303 is a bluetooth chip, one end of the bluetooth chip is electrically connected to the object image receiving and identifying device, and the other end of the bluetooth chip is communicatively connected to an external terminal device. The bluetooth chip adopts hidden mode to install in the inside of tip pen container 3, and the specific model of bluetooth chip can rationally be selected according to actual need.

In this embodiment, the pen container outer wall of whole touch-control pen adopts the PU material, when taking and holding the use, feels more comfortable.

The following description is made of a method for using the portable sensing pen provided in this embodiment:

1. starting up, and finishing the self-checking of the touch pen;

2. setting on the touch panel with various functions such as measurement, identification, calculation, storage, uploading and setting;

3. firstly, setting relevant parameters related to provinces, proportions or diagrams, which are consistent with paper design drawings, on a touch panel by combining with a construction drawing which is required to be calculated or identified by induction by a user;

4. a user enters the measurement/identification panel to start to acquire the relevant drawing size, parameters or data according to the requirement; and after the identification or induction parameters are acquired, temporarily storing the induction identification data.

5. After the temporary data storage is finished, automatically entering a microprocessor for data or object image calculation; the calculation time is determined according to the identification time length of the current data of the user or the size of the drawing, and the maximum time is not more than 5 minutes.

6. And after the data result calculation is completed, the user selects an uploading object through an uploading touch panel (the uploading object can be a mobile phone, an IPAD (Internet protocol ad), a PC (personal computer) terminal and the like), and the result data is displayed on the uploading object in a format of Excel/PDF and the like.

On the other hand, referring to fig. 7, the embodiment of the invention also discloses a method for quickly identifying a drawing using the portable sensing pen, which comprises the following steps:

s1: setting relevant parameters of province, proportion or graphic representation matched with the paper edition design drawing through a functional touch panel;

s2: acquiring related drawing size, parameter or line data, and temporarily storing the acquired drawing data;

s3: performing data identification or object image calculation on the drawing according to the acquired drawing data and the preset province, proportion or graphic related parameters matched with the drawing to obtain a drawing identification result;

s4: and uploading the obtained drawing identification result to external terminal equipment.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other. The device disclosed by the embodiment corresponds to the method disclosed by the embodiment, so that the description is simple, and the relevant points can be referred to the method part for description.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.