CN112305518A - From distancer of taking data processing - Google Patents

Abstract

The invention discloses a range finder with data processing, which comprises a shell, a base, a data acquisition module, a processing module and a data storage module, the shell comprises a key module and a display module, a first mounting groove is arranged on the side surface of the shell, a key module is arranged in the first mounting groove and comprises a switch key, a clear height key, a depth key, a delete key, a confirm key, a break key and a menu key, the switch key, the clear height key, the depth key, the delete key, the confirm key, the inter-cut key and the menu key are all fixedly connected in the first mounting groove, a second mounting groove is arranged on the shell, the second mounting groove is arranged on the first mounting groove, a display module is arranged in the second mounting groove, display module includes distancer LCD screen and distancer mirror surface, distancer LCD screen fixed connection is in the second mounting groove, the distancer mirror surface is above the distancer LCD screen with second mounting groove top surface fixed connection.

Description

From distancer of taking data processing

Technical Field

The invention belongs to the field of measurement, and particularly relates to a range finder with data processing.

Background

Laser rangefinders (Laser rangefinders) are instruments that use a certain parameter of modulated Laser to achieve distance measurement to a target. The measuring range of the laser range finder is 3.5-5000 meters. The distance measuring method is divided into a phase method distance measuring instrument and a pulse method distance measuring instrument, the pulse type laser distance measuring instrument emits a pulse laser beam or a sequence of short pulse laser beams to a target when in work, a photoelectric element receives the laser beam reflected by the target, a timer measures the time from the emitting to the receiving of the laser beam, and the distance from an observer to the target is calculated. The phase-method laser range finder detects a distance by detecting a phase difference occurring when emitted light and reflected light propagate in a space. The laser range finder has light weight, small volume, simple operation, high speed and accuracy, and the error is only one fifth to one hundred times of that of other optical range finders.

But the present range finder can not process the measured data by oneself, this greatly increased technical engineer's work burden, still need be equipped with the record personnel during the measurement and record data, still record mistake during the record easily, after going back after the survey, still need to record the excel table, carry out data processing. To solve this problem, a solution is now provided.

Disclosure of Invention

The invention aims to provide a range finder with data processing, which can automatically process measured data, reduce the burden of technical engineers, avoid accompanying recording personnel and enhance the reasonable distribution of the personnel.

The purpose of the invention can be realized by the following technical scheme:

a range finder with data processing comprises a shell, a base, a data acquisition module, a processing module and a data storage module, wherein the shell comprises a key module and a display module, the data acquisition module is used for acquiring a target linear distance, a data calculation value, a data specification value, a room number and a specific room position, when the net height H needs to be measured, a net height key on the range finder is clicked, the net height H data is measured, if the operation is wrong, a delete key is clicked to delete the data, the net height key on the range finder is clicked again, if the operation is correct, a confirm key is clicked, and the net height H data is sent to the processing module; when the depth L needs to be measured, a depth key on the distance meter is clicked, the depth L data is measured, if the operation is wrong, a delete key is clicked to delete the data, a depth key on the distance meter is clicked again, if the operation is correct, a confirm key is clicked, and the depth L data is sent to the processing module; when the bay S needs to be measured, the bay key on the distance meter is clicked, the bay S data is measured, if the operation is wrong, the delete key is clicked to delete the data, the bay key on the distance meter is clicked again, if the operation is correct, the confirm key is clicked, and the bay S data is sent to the processing module; sending the data deduction value, the data specification value, the room number and the specific room position to a processing module;

the processing module receives the clear height H, the depth L, the division S data, the data calculation value, the data standard value, the room number and the specific room part and then processes the received clear height H, the depth L, the division S data, the data calculation value, the data standard value, the room number and the specific room part, and the specific processing steps are as follows:

the method comprises the following steps: filling the received clear height H, depth L, bay S and data calculation values into H measurement, L measurement, S measurement, H push, L push and S push at the positions of the corresponding tables respectively according to the room number and the specific room position;

step two: according to the formula: max (M net height ═ H measured-H derived |), max (M division ═ S measured-S derived |), max (M depth ═ L measured-L derived |); measuring max-H and min |, measuring max-S and min |, and measuring max-L and min |; filling the calculated values into corresponding positions respectively;

step three: comparing the calculated value with the data standard value, and when the calculated value is smaller than the data standard value, not operating; when the calculated value is larger than the data standard value, left-marking the calculated value;

step four: transmitting the table to a storage module;

the storage module stores the received table.

Furthermore, a menu key switching mode is clicked, the data acquisition module is used for acquiring a target linear distance, a confirmation key is clicked, the linear distance is measured, and linear distance data are transmitted to the processing module;

the processing module transmits the received linear distance data to the storage module;

the storage module stores the received linear distance data, and from the sixth data, the storage module deletes the first data every time the storage module stores one data, and so on, the storage module only stores the latest five data.

Furthermore, a first mounting groove is arranged on the shell, a key module is arranged in the first mounting groove, the key module comprises a switch key, a clear height key, a depth key, a delete key, a confirm key, a time key and a menu key, the switch key, the clear height key, the depth key, the delete key, the confirm key, the time key and the menu key are all fixedly connected in the first mounting groove, a second mounting groove is arranged on the shell, the second mounting groove is arranged on the first mounting groove, a display module is arranged in the second mounting groove, the display module comprises a distance meter liquid crystal screen and a distance meter mirror surface, the distance meter liquid crystal screen is fixedly connected in the second mounting groove, the distance meter mirror surface is fixedly connected with the top surface of the second mounting groove on the distance meter liquid crystal screen, a third mounting groove and a fourth mounting groove are arranged at the upper end of the shell, and a laser measuring head is fixedly connected in the third mounting groove, fixedly connected with cylinder air level in the fourth mounting groove, shell bottom surface fixedly connected with base.

Further, in the formula: m net height is the maximum deviation value of net height; m is the maximum deviation value of the interval; m, the depth is the maximum depth deviation value; h is measured as a net height measurement value; s is measured as a bay measurement value; l is measured as a depth measurement value; h is deducted as a net height deduction value; s is deducted as a bay deduction value; l is a depth estimation value; the net height N is the net height range; n is the inter-opening range; n depth is depth range; h, measuring max to be a maximum net height measurement value; s, measuring max to be a maximum interval measurement value; measuring max by L to obtain a maximum depth measurement value; h, measuring min as a minimum net height measurement value; s, measuring min as a minimum interval measurement value; l measure min is the minimum depth measurement.

The invention has the beneficial effects that: through the data acquisition module, processing module, data storage module's setting, make the distancer can handle measured data by oneself, greatly reduced technical engineer's work load, need not take notes personnel's cooperation during the measurement, just can accomplish measurement alone, the measurement progress has been accelerated greatly, alleviate technical engineer's burden, setting through the mune key, make need not measure between, when the depth is advanced and the clear height, the distancer still can work, setting through data storage module, make the distancer only save five nearest data, increase data storage module storage space's utilization ratio.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

FIG. 1 is a schematic structural diagram of the entire range finder structure of the present invention;

FIG. 2 is a top view of a range finder configuration of the present invention;

FIG. 3 is a schematic structural view of a second mounting groove of the distance measuring device of the present invention;

FIG. 4 is a table of range finder data processing according to the present invention;

fig. 5 is a schematic block diagram of the present invention.

Detailed Description

The first embodiment is as follows: as shown in fig. 1-5, a range finder with data processing comprises a housing 1, a base 6, a data acquisition module, a processing module and a data storage module, wherein the housing 1 comprises a key module 2 and a display module 3, the housing 1 is provided with a first mounting groove 101, the key module 2 is arranged in the first mounting groove 101, the key module 2 comprises a switch key 201, a clear-high key 202, a depth key 203, a delete key 204, a confirm key 206, an on-off key 207 and a menu key 205, the switch key 201, the clear-high key 202, the depth key 203, the delete key 204, the confirm key 206, the on-off key 207 and the menu key 205 are all fixedly connected in the first mounting groove 101, the housing 1 is provided with a second mounting groove 102, the second mounting groove 102 is arranged on the first mounting groove 101, the display module 3 is arranged in the second mounting groove 102, the display module 3 comprises a range finder liquid crystal screen 301 and a range finder mirror 302, the range finder liquid crystal screen 301 is fixedly connected in the second mounting groove 102, the range finder mirror surface 302 is fixedly connected with the top surface of the second mounting groove 102 on the range finder liquid crystal screen 301, the upper end of the shell 1 is provided with a third mounting groove 103 and a fourth mounting groove 104, the third mounting groove 103 is fixedly connected with a laser measuring head 4, the fourth mounting groove 104 is fixedly connected with a cylindrical level bubble 5, and the bottom surface of the shell 1 is fixedly connected with a base 6;

the data acquisition module is used for acquiring a target linear distance, a data calculation value, a data specification value, a room number and a specific room position, when the net height H needs to be measured, a net height key 202 on the distance meter is clicked, the net height H data is measured, if the operation is wrong, a delete key 204 is clicked to delete the data, the net height key 202 on the distance meter is clicked again, if the operation is correct, a confirm key 206 is clicked, and the net height H data is sent to the processing module; when the depth L needs to be measured, a depth key 203 on the distance meter is clicked, the depth L data is measured, if the operation is wrong, a delete key 204 is clicked to delete the data, the depth key 203 on the distance meter is clicked again, if the operation is correct, a confirm key 206 is clicked, and the depth L data is sent to the processing module; when the bay S needs to be measured, the bay key 207 on the distance meter is clicked, the bay S data is measured, if the operation is wrong, the delete key 204 is clicked to delete the data, the bay key 207 on the distance meter is clicked again, if the operation is correct, the confirm key 206 is clicked, and the bay S data is sent to the processing module; sending the data deduction value, the data specification value, the room number and the specific room position to a processing module;

the processing module receives the clear height H, the depth L, the division S data, the data calculation value, the data standard value, the room number and the specific room part and then processes the received clear height H, the depth L, the division S data, the data calculation value, the data standard value, the room number and the specific room part, and the specific processing steps are as follows:

the method comprises the following steps: filling the received clear height H, depth L, bay S and data calculation values into H measurement, L measurement, S measurement, H push, L push and S push at the positions of the corresponding tables respectively according to the room number and the specific room position;

step two: according to the formula: max (M net height ═ H measured-H derived |), max (M division ═ S measured-S derived |), max (M depth ═ L measured-L derived |); measuring max-H and min |, measuring max-S and min |, and measuring max-L and min |; filling the calculated values into corresponding positions respectively;

in the formula: m net height is the maximum deviation value of net height; m is the maximum deviation value of the interval; m, the depth is the maximum depth deviation value; h is measured as a net height measurement value; s is measured as a bay measurement value; l is measured as a depth measurement value; h is deducted as a net height deduction value; s is deducted as a bay deduction value; l is a depth estimation value; the net height N is the net height range; n is the inter-opening range; n depth is depth range; h, measuring max to be a maximum net height measurement value; s, measuring max to be a maximum interval measurement value; measuring max by L to obtain a maximum depth measurement value; h, measuring min as a minimum net height measurement value; s, measuring min as a minimum interval measurement value; l is measured min and is the minimum depth measurement value;

step three: comparing the calculated value with the data standard value, and when the calculated value is smaller than the data standard value, not operating; when the calculated value is larger than the data standard value, left-marking the calculated value;

step four: transmitting the table to a storage module;

the storage module stores the received table;

example two: clicking a menu key switching mode, wherein the data acquisition module is used for acquiring a target linear distance, clicking a confirmation key 206, measuring the linear distance, and transmitting linear distance data to the processing module;

the processing module transmits the received linear distance data to the storage module;

the storage module stores the received linear distance data, and from the sixth data, the storage module deletes the first data every time the storage module stores one data, and so on, the storage module only stores the latest five data.

When the invention is used, the distance measuring instrument base 6 is contacted with the ground or the wall surface, the distance measuring instrument is adjusted until the cylindrical level bubble 5 is horizontal, and the first mode is as follows: when the net height H needs to be measured, the net height key 202 on the distance meter is clicked, net height H data are measured, if the operation is wrong, the delete key 204 is clicked to delete the data, the net height key 202 on the distance meter is clicked again, if the operation is correct, the confirm key 206 is clicked, and the net height H data are sent to the processing module; when the depth L needs to be measured, a depth key 203 on the distance meter is clicked, the depth L data is measured, if the operation is wrong, a delete key 204 is clicked to delete the data, the depth key 203 on the distance meter is clicked again, if the operation is correct, a confirm key 206 is clicked, and the depth L data is sent to the processing module; when the bay S needs to be measured, the bay key 207 on the distance meter is clicked, the data of the bay S is measured, if the operation is wrong, the delete key 204 is clicked to delete the data, the bay key 207 on the distance meter is clicked again, and if the operation is correct, the confirm key 206 is clicked; the second method comprises the following steps: and clicking a menu key switching mode, clicking a confirmation key 206, and measuring the linear distance.

The invention has the beneficial effects that: through the data acquisition module, processing module, data storage module's setting, make the distancer can handle measured data by oneself, greatly reduced technical engineer's work load, need not take notes personnel's cooperation during the measurement, just can accomplish measurement alone, the measurement progress has been accelerated greatly, alleviate technical engineer's burden, setting through the mune key, make need not measure between, when the depth is advanced and the clear height, the distancer still can work, setting through data storage module, make the distancer only save five nearest data, increase data storage module storage space's utilization ratio.

The foregoing is merely exemplary and illustrative of the present invention and various modifications, additions and substitutions may be made by those skilled in the art to the specific embodiments described without departing from the scope of the invention as defined in the following claims.

Claims (4)

1. A range finder with data processing comprises a shell (1), a base (6), a data acquisition module, a processing module and a data storage module, wherein the shell (1) comprises a key module (2) and a display module (3), and the range finder is characterized in that the data acquisition module is used for acquiring a target linear distance, a data calculation value, a data specification value, a room number and a specific room position, when the net height H needs to be measured, a net height key (202) on the range finder is clicked, the net height H data is measured, if the operation is wrong, a delete key (204) is clicked to delete the data, the net height key (202) on the range finder is clicked again, if the operation is correct, a confirm key (206) is clicked, and the net height H data is sent to the processing module; when the depth L needs to be measured, a depth key (203) on the distance meter is clicked, the depth L data is measured, if the operation is wrong, a delete key (204) is clicked to delete the data, the depth key (203) on the distance meter is clicked again, if the operation is correct, a confirm key (206) is clicked, and the depth L data is sent to the processing module; when the bay S needs to be measured, a bay key (207) on the distance meter is clicked, bay S data are measured, if the operation is wrong, a delete key (204) is clicked to delete the data, the bay key (207) on the distance meter is clicked again, if the operation is correct, a confirm key (206) is clicked, and the bay S data are sent to the processing module; sending the data deduction value, the data specification value, the room number and the specific room position to a processing module;

the processing module receives the clear height H, the depth L, the division S data, the data calculation value, the data standard value, the room number and the specific room part and then processes the received clear height H, the depth L, the division S data, the data calculation value, the data standard value, the room number and the specific room part, and the specific processing steps are as follows:

the method comprises the following steps: filling the received clear height H, depth L, bay S and data calculation values into H measurement, L measurement, S measurement, H push, L push and S push at the positions of the corresponding tables respectively according to the room number and the specific room position;

step two: according to the formula: max (M net height ═ H measured-H derived |), max (M division ═ S measured-S derived |), max (M depth ═ L measured-L derived |); measuring max-H and min |, measuring max-S and min |, and measuring max-L and min |; filling the calculated values into corresponding positions respectively;

step three: comparing the calculated value with the data standard value, and when the calculated value is smaller than the data standard value, not operating; when the calculated value is larger than the data standard value, left-marking the calculated value;

step four: transmitting the table to a storage module;

the storage module stores the received table.

2. The range finder with data processing of claim 1, wherein when the menu key is clicked to switch modes, the data acquisition module is used for acquiring a target linear distance, clicking the confirm key (206) to measure the linear distance, and transmitting linear distance data to the processing module;

the processing module transmits the received linear distance data to the storage module;

the storage module stores the received linear distance data, and from the sixth data, the storage module deletes the first data every time the storage module stores one data, and so on, the storage module only stores the latest five data.

3. The range finder with data processing according to claim 1, wherein a first mounting groove (101) is formed in the housing (1), a key module (2) is arranged in the first mounting groove (101), the key module (2) comprises a switch key (201), a clear height key (202), a depth key (203), a delete key (204), a confirm key (206), a bay key (207) and a menu key (205), the switch key (201), the clear height key (202), the depth key (203), the delete key (204), the confirm key (206), the bay key (207) and the menu key (205) are all fixedly connected in the first mounting groove (101), a second mounting groove (102) is formed in the housing (1), the second mounting groove (102) is formed in the first mounting groove (101), and a display module (3) is arranged in the second mounting groove (102), display module (3) include distancer LCD screen (301) and distancer mirror surface (302), distancer LCD screen (301) fixed connection is in second mounting groove (102), distancer mirror surface (302) and second mounting groove (102) top surface fixed connection on distancer LCD screen (301), shell (1) upper end is equipped with third mounting groove (103) and fourth mounting groove (104), fixedly connected with laser gauge head (4) in third mounting groove (103), fixedly connected with cylinder air level (5) in fourth mounting groove (104), shell (1) bottom surface fixedly connected with base (6).

4. A rangefinder with data processing according to claim 1 wherein: m net height is the maximum deviation value of net height; m is the maximum deviation value of the interval; m, the depth is the maximum depth deviation value; h is measured as a net height measurement value; s is measured as a bay measurement value; l is measured as a depth measurement value; h is deducted as a net height deduction value; s is deducted as a bay deduction value; l is a depth estimation value; the net height N is the net height range; n is the inter-opening range; n depth is depth range; h, measuring max to be a maximum net height measurement value; s, measuring max to be a maximum interval measurement value; measuring max by L to obtain a maximum depth measurement value; h, measuring min as a minimum net height measurement value; s, measuring min as a minimum interval measurement value; l measure min is the minimum depth measurement.

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