CN203894819U - Varied direction running timing system - Google Patents

Abstract

The utility model provides a varied direction running timing system which is arranged on a varied direction runway, and the varied direction runway comprises a starting point, a turning point and at least two terminal points including a first terminal point and a second terminal point; the varied direction running timing system comprises a host module, a first slave module, a second slave module, a first Zigbee communication module and a second Zigbee communication module, wherein the host module is arranged at the starting point of the varied direction runway and is used for recording and displaying the varied direction running moment; the first slave module is arranged at the first terminal point of the varied direction runway and is used for detecting a varied direction runner reaching the first terminal point; the second slave module is arranged at the second terminal point of the varied direction runway and is used for detecting a varied direction runner reaching the second terminal point; the first Zigbee communication module and the second Zigbee communication module are arranged on the first slave module and the second slave module respectively, are capable of automatically networking mutually and are respectively used for connecting the first slave module with the host module as well as connecting the second slave module with the host module. The varied direction running timing system is capable of accurately recording the varied direction running time, thus being suitable for achievement analysis and collection of speed training in competitive sports.

Description

Timekeeping system is run in a kind of break-in

Technical field

The utility model relates to sports equipment technical field, particularly relates to the timing technical field in sports, is specially a kind of break-in and runs timekeeping system.

Background technology

Human Movement Science is mutual relationship and the rule thereof of research sports and people's body.It is the one training of commonly using in physical training or sports tournament that break-in is run, research break-in race sports bag spotting-in is studied carefully human motion and is carried out break-in race achievement, record point segment distance required time, by distance, the time can computing velocity, speed control and the collection of motion run time set and is applicable to Human Movement Science research human body is walked, run in break-in, is also applicable to athletics sports to analyze and collection in speed training achievement.

At present, domestic shortage is run the research of motion to break-in, does not also have corresponding break-in to run time set.

Utility model content

The shortcoming of prior art in view of the above, the purpose of this utility model is to provide a kind of break-in to run timekeeping system, does not run the problem of the device of time study for solving prior art for break-in.

For achieving the above object and other relevant objects, the utility model provides a kind of break-in to run timekeeping system, be arranged on the break-in runway that comprises a starting point, turn round a little and at least contain First terminal point and two terminals of the second terminal, described break-in is run timekeeping system and is comprised: be arranged at break-in runway starting point place for recording and showing that break-in runs the host module in moment; Be connected with described host module, be arranged at the first slave module of the along the line or First terminal point place of break-in runway for detection of break-in race personnel process; Be connected with described host module, be arranged at the second slave module of along the line or the second destination county of break-in runway for detection of break-in race personnel process; Be installed in respectively described the first slave module and can be respectively used to a Zigbee communication module and the 2nd Zigbee communication module that described the first slave module is connected with described host module, described the second slave module is connected with described host module by automatic network-building in described the second slave module and to each other.

Preferably, described host module at least comprises: the first A-frame; Be arranged at the first box body on described the first A-frame; Be installed in the host scm in described the first box body; Be installed in described the first box body side surface and be connected with described host scm for showing the break-in display screen in race moment; The start button and the reset button that are arranged at described the first cartridge upper surface and are connected with described host scm.

Preferably, described host scm is connected with the 3rd Zigbee communication module for communicating with a Zigbee communication module and the 2nd Zigbee communication module.

Preferably, the antenna in described the 3rd Zigbee communication module is placed in the upper surface of described the first box body.

Preferably, a described Zigbee communication module, described the 2nd Zigbee communication module and described the 3rd Zigbee communication module include: control enclosure, be arranged at antenna on described control enclosure and be stuck in the USB joint of described control enclosure for being connected with host module, the first slave module or the second slave module.

Preferably, described the first slave module and described the second slave module include: the second A-frame; Be arranged at the second box body on described the second A-frame; Be installed in described the second box body from single-chip microcomputer; Be installed in described the second box body side surface and be connected and arrive the infrared range-measurement system of First terminal point or the second terminal for detection of break-in race personnel from single-chip microcomputer with described.

Preferably, in described the first slave module from single-chip microcomputer and being connected with the 2nd Zigbee communication module with a Zigbee communication module from single-chip microcomputer is respectively corresponding described the second slave module.

Preferably, described host module also connects one for gathering the Wireless data acquisition unit in described host module break-in race moment.

Preferably, described Wireless data acquisition unit is connected with the computer that shows the monitoring break-in race moment.

As mentioned above, timekeeping system is run in a kind of break-in of the present utility model, has following beneficial effect:

1, accurately break-in race achievement of timekeeping system is run in break-in of the present utility model, can record a point segment distance required time, personnel for deliberation can computing velocity by distance, time, speed control and the collection of motion run time set and is applicable to Human Movement Science research human body is walked, run in break-in of the present utility model, is also applicable to athletics sports to analyze and collection in speed training achievement.

2, in addition, it is simple that the utility model also has timing, advantage easy to maintenance.

Brief description of the drawings

Fig. 1 is shown as a kind of break-in of the present utility model and runs the one-piece construction schematic diagram of timekeeping system.

Fig. 2 is shown as the structural drawing of host module in a kind of break-in race timekeeping system of the present utility model.

Fig. 3 is shown as a kind of break-in of the present utility model and runs the structural drawing of slave module in timekeeping system.

Fig. 4 is shown as a kind of break-in of the present utility model and runs the structural drawing of Zigbee communication module in timekeeping system.

Element numbers explanation

Timekeeping system is run in 1 break-in

11 host modules

111 first A-frames

112 first box bodys

113 display screens

114 reset button

115 start buttons

12 first slave modules

121 second A-frames

122 second box bodys

123 infrared range-measurement systems

13 second slave modules

14 Zigbee communication modules

141 control enclosurees

142 antennas

143 USB joints

Embodiment

By specific instantiation, embodiment of the present utility model is described below, those skilled in the art can understand other advantages of the present utility model and effect easily by the disclosed content of this instructions.The utility model can also be implemented or be applied by other different embodiment, and the every details in this instructions also can be based on different viewpoints and application, carries out various modifications or change not deviating under spirit of the present utility model.It should be noted that, in the situation that not conflicting, the feature in following examples and embodiment can combine mutually.

It should be noted that, the diagram providing in following examples only illustrates basic conception of the present utility model in a schematic way, satisfy and only show with assembly relevant in the utility model in graphic but not component count, shape and size drafting while implementing according to reality, when its actual enforcement, kenel, quantity and the ratio of each assembly can be a kind of random change, and its assembly layout kenel also may be more complicated.

The purpose of this utility model is to provide a kind of break-in to run timekeeping system, does not run the problem of the device of time study for solving prior art for break-in.Run describe a kind of break-in of the present utility model in detail about principle and the embodiment of timekeeping system below, make those skilled in the art not need creative work can understand a kind of break-in of the present utility model and run timekeeping system.

As shown in Figure 1 and Figure 4, the utility model provides a kind of break-in to run timekeeping system, be arranged on the break-in runway that comprises a starting point, turn round a little and at least contain First terminal point and two terminals of the second terminal, as shown in Figure 1, described break-in is run timekeeping system 1 and is comprised: host module 11, two slave modules (the first slave module 12 and the second slave module 13) and Zigbee communication modules 14 (as shown in Figure 4).Break-in is run personnel from starting point A, runs forward along path, when turning round a some O, selects to want towards terminal B or terminal C motion host module 11 and two slave modules collection run durations.

Below the structure of the break-in race timekeeping system 1 in the utility model is elaborated.

Host module 11 be arranged at break-in runway starting point place for record and show break-in run the moment, as shown in Figure 2, particularly, in the present embodiment, described host module 11 at least comprises: the first A-frame 111, be arranged at the first box body 112 on described the first A-frame 111, be installed in the host scm (not shown) in described the first box body 112, be installed in described the first box body 112 side surfaces and be connected with described host scm for showing the break-in display screen 113 in race moment, wherein display screen 113 can be the LED display of dot matrix; The start button 115 and the reset button 114 that are arranged at described the first box body 112 upper surfaces and are connected with described host scm.Start button 115 is equivalent to the button of issuing an order, and in the time pressing this button, break-in race personnel start to run, and press reset button 114, and timing is made zero.

Slave module is arranged at break-in runway (for example 100m place, 200 meters of) or destination county along the line, because break-in runway may have multiple terminals after one is turned round a little, so it is multiple that slave module also can have, and is at least two, and the structure of multiple slave modules is identical.

In the present embodiment, break-in runway, after one is turned round a little, forms two branch roads, and the quantity of described slave module is two, i.e. the first slave module 12 and the second slave module 13.

The first slave module 12 is connected with described host module 11, is arranged at the along the line or First terminal point place of break-in runway and passes through for detection of break-in race personnel; The second slave module 13 is connected with described host module 11, is arranged at along the line or the second destination county of break-in runway and passes through for detection of break-in race personnel.

As shown in Figure 3, described the first slave module 12 and described the second slave module 13 include: the second A-frame 121; Be arranged at the second box body 122 on described the second A-frame 121; Be installed in described the second box body 122 from single-chip microcomputer (not shown); Be installed in described the second box body 122 side surfaces and be connected and arrive the infrared range-measurement system 123 of First terminal point or the second terminal for detection of break-in race personnel from single-chip microcomputer with described.

Described the first slave module 12 and described the second slave module 13 adopt infrared range-measurement system 123, detect the moment of break-in race personnel process by the phase place of infrared external reflection, and accuracy of detection is high, detection distance is adjustable.

Infrared range-measurement system 123 detects that, after break-in race personnel, the slave module at its place records the moment of break-in race personnel process, and is sent to host module 11 by Zigbee communication module 14, and host module 11 is presented at this moment on its display screen 113.

As shown in Figure 4, Zigbee communication module 14 comprises a Zigbee communication module, the 2nd Zigbee communication module and the 3rd Zigbee communication module, the one Zigbee communication module, the 2nd Zigbee communication module and the 3rd Zigbee communication module energy automatic network-building, intercommunication, completes the transmission of information mutually.

Described host scm in described host module 11 connects the 3rd Zigbee communication module communicating with a Zigbee communication module and the 2nd Zigbee communication module, and the antenna 142 in described the 3rd Zigbee communication module is placed in the upper surface of described the first box body 112.

In described the first slave module 12 from single-chip microcomputer and being connected with the 2nd Zigbee communication module with a Zigbee communication module from single-chip microcomputer is respectively corresponding described the second slave module 13; Antenna 142 in the one Zigbee communication module and the 2nd Zigbee communication module is placed in respectively the upper surface of the second corresponding box body 122.

A described Zigbee communication module, described the 2nd Zigbee communication module and described the 3rd Zigbee communication module include: control enclosure 141, be arranged at antenna 142 on described control enclosure 141 and be stuck in the USB joint 143 of described control enclosure 141 for being connected with host module 11, the first slave module 12 or the second slave module 13.That is to say, in the present embodiment, a described Zigbee communication module, described the 2nd Zigbee communication module and described the 3rd Zigbee communication module are connected with the first slave module 12, the second slave module 13, host module 11 by USB joint 143 respectively.

In addition, in the present embodiment, for making not run in break-in the time interocclusal record that on-the-spot host module 11 bystanders also know that break-in is run, described host module 11 also connects one for gathering the Wireless data acquisition unit (not shown) in described 11 break-ins race moment of host module; Described Wireless data acquisition unit is connected with the computer (not shown) that shows the monitoring break-in race moment.

Therefore, in the present embodiment, the course of work of the present utility model is: be with the host module 11 of issue an order button and reset button 114 to be positioned over starting point, slave module be positioned over respectively break-in run route and the terminal of process, in each slave module with an infrared facility, in the time of this set-point of sportsman's process, the moment of this point of process under corresponding slave module records, and send to host module 11 by zigbee module, host module 11 is recorded the break-in personnel that run to be presented in LCD display by the moment of slave module, and synchronous transmission is to data acquisition unit, be presented on PC device.

In sum, timekeeping system is run in a kind of break-in of the present utility model, reach following beneficial effect: accurately break-in race achievement of timekeeping system is run in break-in of the present utility model, can record a point segment distance required time, personnel for deliberation can computing velocity by distance, time, speed control and the collection of motion run time set and is applicable to Human Movement Science research human body is walked, run in break-in of the present utility model, is also applicable to athletics sports to analyze and collection in speed training achievement; In addition, it is simple that the utility model also has timing, advantage easy to maintenance.So the utility model has effectively overcome various shortcoming of the prior art and tool high industrial utilization.

Above-described embodiment is illustrative principle of the present utility model and effect thereof only, but not for limiting the utility model.Any person skilled in the art scholar all can, under spirit of the present utility model and category, modify or change above-described embodiment.Therefore, have in technical field under such as and conventionally know that the knowledgeable modifies or changes not departing from all equivalences that complete under spirit that the utility model discloses and technological thought, must be contained by claim of the present utility model.

Claims (9)

1. a timekeeping system is run in break-in, is arranged on the break-in runway that comprises a starting point, turn round a little and at least contain First terminal point and two terminals of the second terminal, it is characterized in that, described break-in is run timekeeping system and comprised:

Be arranged at break-in runway starting point place for recording and showing that break-in runs the host module in moment;

Be connected with described host module, be arranged at the first slave module of the along the line or First terminal point place of break-in runway for detection of break-in race personnel process;

Be connected with described host module, be arranged at the second slave module of along the line or the second destination county of break-in runway for detection of break-in race personnel process;

Be installed in respectively described the first slave module and can be respectively used to a Zigbee communication module and the 2nd Zigbee communication module that described the first slave module is connected with described host module, described the second slave module is connected with described host module by automatic network-building in described the second slave module and to each other.

2. timekeeping system is run in break-in according to claim 1, it is characterized in that, described host module at least comprises:

The first A-frame;

Be arranged at the first box body on described the first A-frame;

Be installed in the host scm in described the first box body;

Be installed in described the first box body side surface and be connected with described host scm for showing the break-in display screen in race moment;

The start button and the reset button that are arranged at described the first cartridge upper surface and are connected with described host scm.

3. timekeeping system is run in break-in according to claim 2, it is characterized in that, described host scm is connected with the 3rd Zigbee communication module for communicating with a Zigbee communication module and the 2nd Zigbee communication module.

4. timekeeping system is run in break-in according to claim 3, it is characterized in that, the antenna in described the 3rd Zigbee communication module is placed in the upper surface of described the first box body.

5. timekeeping system is run in break-in according to claim 3, it is characterized in that, a described Zigbee communication module, described the 2nd Zigbee communication module and described the 3rd Zigbee communication module include: control enclosure, be arranged at antenna on described control enclosure and be stuck in the USB joint of described control enclosure for being connected with host module, the first slave module or the second slave module.

6. timekeeping system is run in break-in according to claim 1, it is characterized in that, described the first slave module and described the second slave module include:

The second A-frame;

Be arranged at the second box body on described the second A-frame;

Be installed in described the second box body from single-chip microcomputer;

Be installed in described the second box body side surface and be connected and arrive the infrared range-measurement system of First terminal point or the second terminal for detection of break-in race personnel from single-chip microcomputer with described.

7. timekeeping system is run in break-in according to claim 6, it is characterized in that, in described the first slave module from single-chip microcomputer and being connected with the 2nd Zigbee communication module with a Zigbee communication module from single-chip microcomputer is corresponding respectively described the second slave module.

8. timekeeping system is run in break-in according to claim 1, it is characterized in that, described host module also connects one and runs the Wireless data acquisition unit in moment for gathering described host module break-in.

9. timekeeping system is run in break-in according to claim 8, it is characterized in that, described Wireless data acquisition unit is connected with the computer that shows the monitoring break-in race moment.