CN209765705U - Construction safety protection equipment - Google Patents

Abstract

The utility model discloses a construction safety protection device, which comprises a safety helmet, an ultra-close range communication module, a first close range communication module, a remote communication module and a battery module which are arranged on the safety helmet, a background computer and a second close range communication module which is arranged in a real-name system channel and/or a safety channel; the ultra-short distance communication module is used for carrying out radio frequency identification, the second short distance communication module is used for communicating with the first short distance communication module, the output end of the first short distance communication module is connected with the input end of the remote communication module, the remote communication module is used for communicating with a background computer, and the battery module supplies power for the ultra-short distance communication module, the first short distance communication module and the remote communication module. The utility model discloses collect multiple functions in an organic whole, it is with low costs, be applicable to multiple occasion.

Description

construction safety protection equipment

Technical Field

The utility model relates to a construction safety protection field especially relates to a construction safety protection equipment.

Background

With the continuous development of the building industry, the requirements on the safety protection of construction sites are higher and higher. Various construction safety protection schemes are disclosed in the prior art, for example: an infrared correlation method is used, when a person approaches, a sound-light alarm can be generated to prompt the person not to approach. The ZigBee or other wireless sensing technologies can be used for transmitting information to a background, but people cannot be identified, and only an early warning signal can be generated. The utility model provides an adopt wireless sensing technology and GPS or big dipper location finding technique, use the electronic fence mode, can realize information transmission and personnel's discernment.

However, the construction safety protection scheme in the prior art has the problems of single effect, high cost and narrow application range.

SUMMERY OF THE UTILITY MODEL

Utility model purpose: the utility model aims at providing a construction safety protection equipment can solve the technical problem that "the effect is single, with high costs, the application face is narrow" that exists among the prior art.

The technical scheme is as follows: the construction safety protection device comprises a safety helmet, an ultra-close range communication module, a first close range communication module, a remote communication module and a battery module which are arranged on the safety helmet, a background computer and a second close range communication module which is arranged in a real-name system channel and/or a safety channel; the ultra-short distance communication module is used for carrying out radio frequency identification, the second short distance communication module is used for communicating with the first short distance communication module, the output end of the first short distance communication module is connected with the input end of the remote communication module, the remote communication module is used for communicating with a background computer, and the battery module supplies power for the ultra-short distance communication module, the first short distance communication module and the remote communication module.

Furthermore, the safety helmet also comprises an infrared proximity switch arranged on the inner side of the safety helmet, and the output end of the infrared proximity switch is connected with the input end of the remote communication module. Therefore, whether the user wears the safety helmet or not can be detected, if the user does not wear the safety helmet, the signal is transmitted to the background computer through the remote communication module, and therefore whether the user wears the safety helmet or not is monitored.

Further, the ultra-close range communication module is positioned on the outer side of the safety helmet. This is more advantageous for radio frequency identification.

Further, still including locating the altitude sensor on the safety helmet, the input of remote communication module is connected to altitude sensor's output. This enables monitoring of the height information of the person.

The battery charger further comprises a first switch state communication module, wherein the first switch state communication module comprises a first spring switch, a third near-field communication module and a first battery, one end of the first spring switch is connected with the first battery, and the other end of the first spring switch is connected with the third near-field communication module; the first switch state communication module is fixed between two adjacent protective railings in a construction site through a detachable fixing mechanism, and the first spring switch is pressed by the fixing mechanism when the first switch state communication module is fixed, so that the first spring switch is in a power-off state. This enables the condition of the guard rail being opened to be monitored.

The battery charger further comprises a second switch state communication module, wherein the second switch state communication module comprises a second spring switch, a fourth near distance communication module and a second battery, one end of the second spring switch is connected with the second battery, and the other end of the second spring switch is connected with the fourth near distance communication module; the second switch state communication module is arranged below an opening with a cover plate in a construction site, and when the cover plate covers the opening, the second spring switch is pressed by the cover plate, so that the second spring switch is in a power-off state. Therefore, the condition that the opening cover plate is opened can be monitored.

further, the safety helmet also comprises a display lamp arranged on the safety helmet.

Furthermore, the safety helmet also comprises a sound module arranged on the safety helmet.

Has the advantages that: the utility model discloses a construction safety protection equipment can carry out radio frequency identification through super close range communication module, can realize monitoring personnel business turn over real name system passageway and/or the condition of escape way through the cooperation between first close range communication module and the second close range communication module, can give background computer, it is visible with the data transmission of first close range communication module through remote communication module the utility model discloses collect multiple functions in an organic whole, can carry out safety protection comprehensively, improve the protection precision. Furthermore, the utility model discloses simple structure, it is with low costs, be applicable to various safety protection's occasion.

Drawings

FIG. 1 is a schematic view of the overall structure of a safety helmet according to an embodiment of the present invention;

FIG. 2 is a schematic view of a partial structure of a safety helmet according to an embodiment of the present invention;

FIG. 3 is a schematic structural diagram of a built-in module according to an embodiment of the present invention;

FIG. 4 is a schematic structural diagram of an external module according to an embodiment of the present invention;

FIG. 5 is a schematic structural diagram of a connection module according to an embodiment of the present invention;

Fig. 6 is a schematic structural view of a guard rail and a first switch state communication module according to an embodiment of the present invention;

Fig. 7 is a schematic structural diagram of a first spring switch and a first battery according to an embodiment of the present invention;

FIG. 8 is a schematic structural view of a fixing mechanism according to an embodiment of the present invention;

Fig. 9 is a schematic structural diagram of an opening and a second switch state communication module according to an embodiment of the present invention.

Detailed Description

The technical solution of the present invention will be further described with reference to the following detailed description and the accompanying drawings.

The specific embodiment discloses a construction safety protection device, as shown in fig. 1, which includes a safety helmet 11, as shown in fig. 2, a super short-distance communication module 12, a first short-distance communication module 13, a long-distance communication module 14, a battery module 19, a background computer, and a second short-distance communication module disposed in a real-name system channel and/or a safety channel, which are disposed on the safety helmet 11. The ultra-close range communication module 12 is used for performing radio frequency identification, and the ultra-close range communication module 12 is located outside the safety helmet 11 and may be an RFID module, for example, an RFID module with a model of Tag-LMCF-01GL or Tag-LMCF-02 GL. The second short-distance communication module is used for communicating with the first short-distance communication module 13. The output end of the first short-distance communication module 13 is connected to the input end of the long-distance communication module 14, and the long-distance communication module 14 is used for communicating with a background computer, for example, the communication with the background computer can be realized through a gateway with a 4G network card or a 5G network card. The battery module 19 supplies power to the ultra-short distance communication module 12, the first short distance communication module 13 and the long distance communication module 14. Telecommunications module 14 may be a telecommunications module of the type SX1276 or E32-TTL-100. The battery module 19 may employ model 802083 or 420450.

The device may further comprise an infrared proximity switch 16 disposed inside the helmet 11, as shown in fig. 2, with an output of the infrared proximity switch 16 connected to an input of the telecommunications module 14. The infrared proximity switch 16 may be an infrared proximity switch model YH512 or E3F-DS30C 4.

The apparatus may further comprise a height sensor 17, for example of the type BM1383GLV or BM1385GLV, provided on the helmet 11. The output of the height sensor 17 is connected to the input of the telecommunications module 14.

The device may further comprise a display light 110 provided on the helmet 11, as shown in fig. 4. The display lamp 110 may be of a model 1608, 3528, etc. The device may also include a sound module 111 provided on the helmet 11, as shown in fig. 5. Models that can be used for the sound module 111 are BL-SBZ0525, BL-PBZ12085CYB, and the like. The device can also comprise a microprocessor 15, the microprocessor 15 can adopt a microprocessor with the model number STM32F103RET6 or PIC16F690-I, the output end of the first near-distance communication module 13 is connected with the first input end of the microprocessor 15, the output end of the infrared proximity switch 16 is connected with the second input end of the microprocessor 15, the output end of the height sensor 17 is connected with the third input end of the microprocessor 15, the output end of the microprocessor 15 is connected with the input end of the long-distance communication module 14, the display lamp 110 is connected with the microprocessor 15, and the sound module 111 is connected with the microprocessor 15.

The infrared proximity switch 16, the first short-range communication module 13, the long-range communication module 14, the microprocessor 15 and the battery module 19 are all disposed inside the helmet 11, and are collectively referred to as a built-in module 3, as shown in fig. 3. The built-in module 3 is connected to the connection module 2 through the first interface 32. As shown in fig. 5, the connection module 2 is connected to the internal module 3 through a second interface 21 and connected to the external module 4 through a third interface 22. The connection module 2 further comprises a height sensor 17, an antenna of the telecommunications module 14, a sound module 111 and a charging port 23. As shown in fig. 4, the external module 4 is located outside the helmet 11, and includes a display lamp 110 and an ultra-short distance communication module 12, and the external module 4 is further provided with an area 42 for pasting a two-dimensional code. The external module 4 is connected to the connection module 2 through a fourth interface 41. The internal module 3, the connection module 2 and the external module 4 are collectively referred to as a split-type smart module 100, as shown in fig. 1.

the device may further comprise a first switch state communication module 7, as shown in fig. 7, the first switch state communication module 7 comprising a first spring switch 181, a third proximity communication module, not shown in fig. 7, and a first battery 182. One end of the first spring switch 181 is connected to the first battery 182, and the other end of the first spring switch 181 is connected to the third short-range communication module. The first switch state communication module 7 is fixed between two adjacent guard rails 5 in the construction site through a detachable fixing mechanism 6, as shown in fig. 6, and when the first switch state communication module 7 is fixed, the first spring switch 181 is pressed by the fixing mechanism 6, so that the first spring switch 181 is in a power-off state. The structure of the fixing mechanism 6 is shown in fig. 8, and it can be seen that it includes two upper and lower regions, between which a partition plate 62 is provided, and side plates 61 are provided on both sides of the upper region and both sides of the lower region. When the first switch state communication module 7 is fixed, the first spring switch 181 of the first switch state communication module 7 is pressed against the upper region of the fixing mechanism 6, and the first switch state communication module 7 is prevented from sliding downward by the partition plate 62. The third near field communication module stores the matching information of the first near field communication module 13, and the first near field communication module 13 stores the matching information of the third near field communication module and the information of the guard rail 5 corresponding to the third near field communication module. After the first close-range communication module 13 is connected with the third close-range communication module, the first close-range communication module 13 sends information of the guard rail 5 corresponding to the third close-range communication module to the microprocessor 15, the microprocessor 15 sends information of the guard rail 5 corresponding to the third close-range communication module to the remote communication module 14, and the remote communication module 14 sends information of the guard rail 5 corresponding to the third close-range communication module to the background computer.

In addition, the device may further include a second switch state communication module 9, where the second switch state communication module 9 includes a second spring switch, a fourth short-distance communication module, and a second battery, one end of the second spring switch is connected to the second battery, and the other end of the second spring switch is connected to the fourth short-distance communication module. The second switch state communication module 9 is disposed below the opening 8 with the cover plate 81 in the construction site, as shown in fig. 9, when the cover plate 81 covers the opening 8, the second spring switch is pressed by the cover plate 81, so that the second spring switch is in a power-off state. The fourth near-distance communication module stores pairing information with the first near-distance communication module 13, and the first near-distance communication module 13 stores pairing information with the fourth near-distance communication module and information of the portal 8 corresponding to the fourth near-distance communication module. After the first short-distance communication module 13 is connected with the fourth short-distance communication module, the first short-distance communication module 13 sends information of the hole 8 corresponding to the fourth short-distance communication module to the microprocessor 15, the microprocessor 15 sends information of the hole 8 corresponding to the fourth short-distance communication module to the long-distance communication module 14, and the long-distance communication module 14 sends information of the hole 8 corresponding to the fourth short-distance communication module to the background computer.

The first short-range communication module 13, the second short-range communication module, the third short-range communication module, and the fourth short-range communication module may be bluetooth modules, for example, bluetooth modules of SKB360 and SKB369 models.

The utility model discloses a may relate to some software programs among the construction safety protection equipment, for example microprocessor 15 is inside may control other modules through software program, but these software programs all can be realized according to textbook, instrument book, the conventional technological means in this field or other prior art, and it is not the innovation of the utility model. The utility model discloses an innovation only lies in the inside structure of construction safety protection equipment.

Claims (8)

1. the utility model provides a construction safety protection equipment, includes safety helmet (11), its characterized in that: the safety helmet also comprises an ultra-short distance communication module (12), a first short distance communication module (13), a long distance communication module (14) and a battery module (19) which are arranged on the safety helmet (11), and also comprises a background computer and a second short distance communication module which is arranged in a real-name channel and/or a safety channel; the ultra-short distance communication module (12) is used for carrying out radio frequency identification, the second short distance communication module is used for communicating with the first short distance communication module (13), the output end of the first short distance communication module (13) is connected with the input end of the remote communication module (14), the remote communication module (14) is used for communicating with a background computer, and the battery module (19) supplies power for the ultra-short distance communication module (12), the first short distance communication module (13) and the remote communication module (14).

2. The construction safety device of claim 1, wherein: the safety helmet also comprises an infrared proximity switch (16) arranged on the inner side of the safety helmet (11), and the output end of the infrared proximity switch (16) is connected with the input end of the remote communication module (14).

3. The construction safety device of claim 1, wherein: the ultra-close range communication module (12) is positioned at the outer side of the safety helmet (11).

4. The construction safety device of claim 1, wherein: the safety helmet also comprises a height sensor (17) arranged on the safety helmet (11), and the output end of the height sensor (17) is connected with the input end of the remote communication module (14).

5. the construction safety device of claim 1, wherein: the battery charger is characterized by further comprising a first switch state communication module (7), wherein the first switch state communication module (7) comprises a first spring switch (181), a third short-distance communication module and a first battery, one end of the first spring switch (181) is connected with the first battery, and the other end of the first spring switch (181) is connected with the third short-distance communication module; the first switch state communication module (7) is fixed between two adjacent protective railings (5) in a construction site through a detachable fixing mechanism (6), and when the first switch state communication module (7) is fixed, the first spring switch (181) is pressed by the fixing mechanism (6), so that the first spring switch (181) is in a power-off state.

6. The construction safety device of claim 1, wherein: the battery charger is characterized by further comprising a second switch state communication module (9), wherein the second switch state communication module (9) comprises a second spring switch, a fourth near distance communication module and a second battery, one end of the second spring switch is connected with the second battery, and the other end of the second spring switch is connected with the fourth near distance communication module; the second switch state communication module (9) is arranged below an opening (8) with a cover plate (81) in a construction site, and when the cover plate (81) covers the opening (8), the second spring switch is pressed by the cover plate (81), so that the second spring switch is in a power-off state.

7. The construction safety device of claim 1, wherein: the safety helmet also comprises a display lamp (110) arranged on the safety helmet (11).

8. the construction safety device of claim 1, wherein: the safety helmet also comprises a sound module (111) arranged on the safety helmet (11).