CN109059776B

CN109059776B - Multifunctional limiter stroke error testing equipment

Info

Publication number: CN109059776B
Application number: CN201810728448.3A
Authority: CN
Inventors: 陈涛; 罗鹤飞; 杨小香; 易淑红
Original assignee: Jiangxi Feida Electrical Equipment Co ltd
Current assignee: Jiangxi Feida Electrical Equipment Co ltd
Priority date: 2018-07-05
Filing date: 2018-07-05
Publication date: 2023-05-12
Anticipated expiration: 2038-07-05
Also published as: CN109059776A

Abstract

The invention discloses a multifunctional limiter stroke error testing device which comprises a testing box, wherein a lock catch and a foot pad are respectively arranged on the front surface of the testing box, a handle is arranged on the front surface of the foot pad, the handle is outwards protruded, the two ends of the handle are respectively provided with the foot pad, meanwhile, the handle is movably connected to the top of the foot pad, an embedded frame, a fixed frame and a fixed keyboard are respectively arranged on the top of the testing box, a control key is arranged on the top of the fixed keyboard, a first display screen, a second display screen and a third display screen are respectively arranged on the top of the embedded frame, a thermal image sensor is arranged in the first display screen, and when a tested object works, heat can be generated due to friction among components, so that a worker can scan a thermal image through the thermal image sensor, and the versatility of the device is effectively improved.

Description

Multifunctional limiter stroke error testing equipment

Technical Field

The invention relates to the technical field of error testing equipment, in particular to multifunctional limiter stroke error testing equipment.

Background

The error refers to the fact that when actual observation or numerical calculation is carried out, a true and exact accurate value cannot be obtained, but only an approximate value can be obtained, the error detection refers to the fact that the measured value and the error between the calculated value and the actual value are calculated through a certain method, the error detection has significance in many fields, and the related performance of an algorithm or a machine can be evaluated through the error detection.

However, most of the existing multifunctional limiter stroke error testing equipment cannot display data of a non-communication instrument on one device for comparison, so that the tested data error is large, and the existing multifunctional limiter stroke error testing equipment is connected with a display device through a wire, so that the test is inconvenient to carry out and inconvenient to carry.

Therefore, how to design a multifunctional limiter stroke error testing device becomes a current problem to be solved.

Disclosure of Invention

The invention aims to provide a multifunctional limiter stroke error testing device, which aims to solve the problems of lack of contrast data and inconvenient carrying in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a multi-functional stopper stroke error test equipment, includes the test box, the front of test box is provided with hasp and pad foot respectively, the front of pad foot is provided with the handle, the top of test box is provided with embedded frame, fixed frame and fixed keyboard respectively, fixed keyboard's top is provided with the control key, the top of embedded frame is provided with display screen No. one, no. two display screens and No. three display screens respectively, the top of fixed frame is provided with the display lamp, one side of test box is provided with charging hole and external transmission interface respectively, the back of test box is provided with the hinge, the back of hinge is provided with No. four display screens, no. four display screen's top is provided with the lock plunger, no. one display screen's inside is provided with thermal image inductor, thermal image inductor's inside is provided with temperature scanning receiver, data synthesis module and thermal image information transfer pole respectively, no. two display screen's inside is provided with laser sensor, the inside of sensor No. two display screens is provided with the display screen respectively, the inside is provided with laser synthesizer output and filter module, the filter module top is provided with.

Further, the laser inductor is formed by processing superconductor materials, and the laser inductor is hollow inside, and meanwhile the laser inductor is tightly attached to the inside of the second display screen.

Further, the information filtering module is perpendicular to the top of the synthesizer, the information synthesizing module is rectangular, and the information synthesizing module is fixedly connected with the synthesizer.

Further, the internal resistance of the temperature scanning receiver is larger, five variable resistors are arranged in the temperature scanning receiver, and meanwhile the temperature scanning receiver penetrates through one side of the thermal image sensor.

Further, the data synthesis module is perpendicular to one end of the temperature scanning receiver and one end of the thermal image information transmission rod respectively, the outer surface of the data synthesis module is textured, and meanwhile the data synthesis module is tightly embedded into the thermal image sensor.

Further, the top of the lock catch is inwards sunken to be in a groove shape, and the number of the lock catch is two, and meanwhile the lock catch is fixedly connected with the number four display screen.

Further, the handle is outwards protruded, the two ends of the handle are provided with foot pads, and meanwhile the handle is movably connected to the tops of the foot pads.

Further, a plurality of binding posts are arranged inside the external transmission interface, the external transmission interface is perpendicular to one side of the test box, and meanwhile the external transmission interface is tightly embedded into the side face of the test box.

Compared with the prior art, the invention has the beneficial effects that: this kind of multi-functional stopper stroke error test equipment has increased and improved on original device's basis, this kind of multi-functional stopper stroke error test equipment, be provided with the test box, pad foot, a display screen, no. two display screens, heat image sensor and laser sensor, no. two display screen are inside to be provided with the laser sensor, at the device during operation, the laser sensor passes through laser, respond to the object that needs the test, and pass through the information that senses to No. two display screens, the laser sensor is because through laser test, thereby the effectual efficiency that improves device response part, laser receiver bottom is provided with information filtering module, when information passes through information filtering module, this part will filter this information, and then reject rubbish and adverse factor in the information, thereby the effectual accuracy that improves device information, no. one display screen is inside to be provided with the heat image sensor, the measured object is at the during operation, because of the friction between the part, will produce heat, thereby the staff can carry out heat image scanning through the heat image sensor, and then effectual increase the multi-functional efficiency of device has set up the multi-functional device, the effective data of comparison device has been passed through to the display screen, thereby the testing efficiency is improved.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic cross-sectional view of a thermal image sensor according to the present invention;

fig. 3 is a schematic cross-sectional structure of a laser sensor according to the present invention.

In the figure: 1. test box, 2, hasp, 3, pad foot, 4, display screen No. 401, temperature scanning receiver, 402, data synthesis module, 403, thermal image information transfer pole, 404, information output module, 405, thermal image inductor, 5, embedded frame, 6, handle, 7, no. two display screens, 701, laser inductor, 702, synthesizer, 703, output, 704, information filter module, 705, laser receiver, 8, no. three display screens, 9, charging hole, 10, external transmission interface, 11, fixed frame, 12, hinge, 13, no. four display screens, 14, lock plunger, 15, display lamp, 16, control key, 17, fixed keyboard.

The model of the information filtering module in the embodiment of the invention is ZPG-I-40 (Hecan En valve Co., ltd.);

the model of the laser sensor is DCC100A (Dongguan city, legend intelligent science and technology Co., ltd);

the laser receiver was 1JP-250 (Jining He Qing mineral machine Co., ltd.).

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-3, the present invention provides a technical solution: the multifunctional limiter travel error testing equipment comprises a testing box 1, a lock catch 2, a foot pad 3, a first display screen 4, a temperature scanning receiver 401, a data synthesis module 402, a thermal image information transmission rod 403, an information output module 404, a thermal image sensor 405, an embedded frame 5, a handle 6, a second display screen 7, a laser sensor 701, a synthesizer 702, an output end 703, an information filtering module 704, a laser receiver 705, a third display screen 8, a charging hole 9, an external transmission interface 10, a fixed frame 11, a hinge 12, a fourth display screen 13, a lock bolt 14, a display lamp 15, a control key 16 and a fixed keyboard 17, wherein the lock catch 2 and the foot pad 3 are respectively arranged on the front surface of the testing box 1, the top of the lock catch 2 is inwards sunken to be in a groove shape, the lock catch 2 is provided with two, meanwhile, the lock catch 2 is fixedly connected with the fourth display screen 13, the handle 6 is arranged on the front surface of the foot pad 3, the handle 6 is outwards protruded, both ends of the handle 6 are provided with foot pads 3, the handle 6 is movably connected to the tops of the foot pads, the top of the test box 1 is respectively provided with an embedded frame 5, a fixed frame 11 and a fixed keyboard 17, the top of the fixed keyboard 17 is provided with a control key 16, the top of the embedded frame 5 is respectively provided with a first display screen 4, a second display screen 7 and a third display screen 8, the top of the fixed frame 11 is provided with a display lamp 15, one side of the test box 1 is respectively provided with a charging hole 9 and an external transmission interface 10, a plurality of binding posts are arranged in the external transmission interface 10, the external transmission interface 10 is perpendicular to one side of the test box 1, the external transmission interface 10 is tightly embedded into the side of the test box 1, the back of the test box 1 is provided with a hinge 12, the back of the hinge 12 is provided with a fourth display screen 13, the top of the fourth display screen 13 is provided with a lock bolt 14, the thermal image sensor 405 is arranged in the first display screen 4, when a measured object works, heat is generated due to friction among components, so that a worker can perform thermal image scanning through the thermal image sensor 405, the versatility of the device is effectively increased, the thermal image sensor 405 is internally provided with the temperature scanning receiver 401, the data synthesis module 402 and the thermal image information transmission rod 403 respectively, the internal resistance of the temperature scanning receiver 401 is large, five variable resistors are arranged in the temperature scanning receiver 401, meanwhile, the temperature scanning receiver 401 penetrates through one side of the thermal image sensor 405, the data synthesis module 402 is respectively perpendicular to one end of the temperature scanning receiver 401 and one end of the thermal image information transmission rod 403, and the external surface texture of the data synthesis module 402, meanwhile, the data synthesis module 402 is tightly embedded in the thermal image sensor 405, one end of the thermal image information transmission rod 403 is provided with the information output module 404, the inside of the second display screen 7 is provided with the laser sensor 701, when the device works, the laser sensor 701 senses an object to be tested through laser and transmits sensed information to the second display screen 7, the laser sensor 701 passes the laser test, thereby effectively improving the efficiency of the sensing part of the device, the laser sensor 701 is processed by superconductor materials, the inside of the laser sensor 702 is hollowed out, meanwhile, the laser sensor 701 is tightly attached in the inside of the second display screen 7, the inside of the laser sensor 701 is respectively provided with the output end 703, the synthesizer 702 and the information filtering module 704, the bottom of the laser receiver 705 is provided with the information filtering module 704, when the information passes through the information filtering module 704, the component filters the information, and then rejects garbage and adverse factors in the information, so that the accuracy of the device information is effectively improved, the information filtering module 704 is perpendicular to the top of the synthesizer 702, the information synthesizing module 704 is in a rectangular shape, meanwhile, the information synthesizing module 704 is fixedly connected with the synthesizer 702, and a laser receiver 705 is arranged at the top of the information filtering module 704.

Working principle: firstly, a worker comprehensively checks each part of the device to see whether each part is loose or damaged, if so, the device is placed at a designated place for operation after the parts are to be replaced and maintained in time, before the operation starts, the worker fills a storage battery in the device through a charging hole 9, then starts the operation, the worker opens a test box 1 through a lock plunger 14 and opens a switch to enable the device to normally operate, the worker passes through an external tester, the collected information is transmitted to a data synthesis module 402 through a thermal image scanning function through a temperature scanning receiver 401, data synthesis is carried out in the data synthesis module 402, the processed information is transmitted to an information output module 404 through a thermal image information transmission rod 403, specific data is transmitted to a first display screen 4 through the information output module 403, specific data is displayed in the first display screen 4, the worker again passes through an external tester and tests, the tested information passes through a laser 705 and is transmitted to an information filtering module 704, the information is filtered in the information filtering module, the filtered information is synthesized through a synthesizer 702, the synthesized information is transmitted to a second display screen 7 through an output end, the error value is displayed in the second display screen 7, the error value is displayed in the first display screen 7, the error value is displayed in the second display screen 7, the error value is displayed in the third display screen 13, and the error value is displayed in the first display screen 13, and the error value is displayed in the second display screen 13, and the error value is displayed in the method is displayed in the third display screen 13.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a multi-functional stopper stroke error test equipment, includes test box (1), its characterized in that: the front of test box (1) is provided with hasp (2) and pad foot (3) respectively, the front of pad foot (3) is provided with handle (6), the top of test box (1) is provided with embedded frame (5) respectively, fixed frame (11) and fixed keyboard (17), the top of fixed keyboard (17) is provided with control key (16), the top of embedded frame (5) is provided with display screen (4) respectively, no. two display screens (7) and No. three display screen (8), the top of fixed frame (11) is provided with display lamp (15), one side of test box (1) is provided with charge hole (9) and external transmission interface (10) respectively, the back of test box (1) is provided with hinge (12), the back of hinge (12) is provided with No. four display screen (13), the top of No. four display screen (13) is provided with lock plunger (14), the inside of No. one display screen (4) is provided with heat image sensor (405), the inside of heat image sensor (405) is provided with temperature image sensor (403) and receives information of module (403) and heat transfer module (402) respectively, heat image information transmission module (403) is provided with one and heat transfer module (402), a laser sensor (701) is arranged in the second display screen (7), an output end (703), a synthesizer (702) and an information filtering module (704) are respectively arranged in the laser sensor (701), and a laser receiver (705) is arranged at the top of the information filtering module (704);

the laser sensor (701) is formed by processing superconductor materials, the inside of the laser sensor (701) is hollowed out, and meanwhile, the laser sensor (701) is tightly attached to the inside of the second display screen (7);

the information filtering module (704) is perpendicular to the top of the synthesizer (702), the information filtering module (704) is arranged in a rectangular shape, and the information filtering module (704) is fixedly connected with the synthesizer (702); the output end (703) is positioned at one end of the synthesizer (702);

five variable resistors are arranged in the temperature scanning receiver (401), and meanwhile the temperature scanning receiver (401) penetrates through one side of the thermal image sensor (405);

the data synthesis module (402) is respectively perpendicular to one end of the temperature scanning receiver (401) and one end of the thermal image information transmission rod (403), the outer surface of the data synthesis module (402) is textured, and meanwhile, the data synthesis module (402) is tightly embedded into the thermal image sensor (405).

2. A multi-purpose stopper stroke error testing device as recited in claim 1, wherein: the top of the lock catch (2) is inwards recessed to form a groove, two lock catches (2) are arranged, and the lock catch (2) is fixedly connected with a fourth display screen (13);

the handle (6) protrudes outwards, the two ends of the handle (6) are provided with the foot pads (3), and the handle (6) is movably connected to the tops of the foot pads;

the external transmission interface (10) is internally provided with a plurality of binding posts, the external transmission interface (10) is perpendicular to one side of the test box (1), and meanwhile, the external transmission interface (10) is tightly embedded into the side surface of the test box (1).