CN111829597A - Mobile portable environmental factor monitoring device - Google Patents

Abstract

The invention provides a mobile portable environmental factor monitoring device, which comprises an upper monitoring part and a lower support part, wherein the upper monitoring part is used for supporting the upper monitoring part, and the upper monitoring part and the lower support part can be quickly assembled and disassembled; the monitoring part is fixedly provided with a rainfall sensor, an air speed and wind direction sensor, a battery and circuit boards for realizing corresponding functions; the rainfall sensor is positioned at the upper part of the monitoring part, the wind speed and direction sensor is positioned at the middle part of the monitoring part, and the battery and the corresponding control circuit board are arranged at the lower part of the monitoring part. The invention has simple structure, convenient installation and disassembly, rapid deployment and movement, suitability for various terrains, and strong anti-shaking and anti-tipping performance.

Description

Mobile portable environmental factor monitoring device

Technical Field

The invention belongs to the field of environmental factor monitoring equipment structures, and particularly relates to a mobile portable environmental factor monitoring device.

Background

The environmental factors generally comprise elements such as rainfall, wind speed, wind direction, temperature, humidity, illumination intensity and the like, and no matter in the civil or military field, the environmental factors are required to be rapidly monitored, and the corresponding monitoring devices are usually fixedly arranged in a certain place, but under some special situations, especially in military application scenes, the monitoring devices which can be moved, are convenient to carry and can be rapidly deployed are required.

Disclosure of Invention

In view of this, the present invention provides a mobile portable environmental factor monitoring device, which specifically comprises:

the device comprises an upper monitoring part and a lower support part, wherein the support part is used for supporting the upper monitoring part, and the upper monitoring part and the lower support part can be quickly assembled and disassembled;

the monitoring part is fixedly provided with a rainfall sensor, an air speed and wind direction sensor, a battery and circuit boards for realizing corresponding functions; the rainfall sensor is positioned at the upper part of the monitoring part, the wind speed and direction sensor is positioned at the middle part of the monitoring part, and the battery and the corresponding control circuit board are arranged at the lower part of the monitoring part.

Further, the rainfall sensor is integrally cylindrical, and an annular top cover is hermetically sleeved outside the opening at the upper end of the rainfall sensor; the first supporting plate is also detachably provided with an arc-shaped cushion block for supporting the lower end face of the rainfall sensor through bolts; the upper shell is sleeved outside the rainfall sensor, the top end and the bottom end of the upper shell are respectively fixed with the annular top cover and the first supporting circular plate, so that the rainfall sensor is accommodated in the upper shell, and an annular cavity is formed between the inner wall of the upper shell and the periphery of the rainfall sensor and used for penetrating through a cable of the rainfall sensor; a central through hole is formed in the center of the first supporting circular plate, and rainwater collected by the rainfall sensor can be discharged downwards through the central through hole;

the second supporting circular plate is positioned right below the first supporting circular plate, the second supporting circular plate and the first supporting circular plate are supported and fixed through four uniformly distributed upright connecting columns, the wind speed and direction sensor is arranged in an area defined by the connecting columns and is fixed on the second supporting circular plate through a sensor mounting seat, and a wiring gap is formed between a mounting panel for connecting and fixing the wind speed and direction sensor and the second supporting circular plate through the sensor mounting seat;

a foldable antenna for transmitting and receiving signals is fixed on the second supporting circular plate;

a level gauge for measuring whether the device is placed horizontally is also fixed on the second supporting circular plate;

the third supporting circular plate is positioned right below the second supporting circular plate, the third supporting circular plate and the second supporting circular plate are fastened at two ends of the cylindrical lower shell respectively, and the third supporting circular plate, the second supporting circular plate and the third supporting circular plate form a lower mounting and accommodating space together for accommodating a battery and a corresponding circuit board.

Furthermore, the transverse plate body of the L-shaped mounting plate is fixed with the lower surface of the second supporting circular plate, and corresponding circuit boards are fixedly arranged on the front surface and the rear surface of the vertical plate body; the battery is fixed on the upper surface of the lower third supporting circular plate; the power plug and the control button are also fixed at corresponding positions on the third supporting circular plate.

Further, the support part comprises a connecting flange, an upright post, a first locking sheet, a first four-lug lantern ring, four groups of supporting leg units, a second four-lug lantern ring, a second locking sheet and an adjusting screw rod;

the connecting plate of the connecting flange is fast assembled and fast disassembled with the lower surface of the third supporting circular plate of the monitoring part through bolts, and the threaded shaft hole part of the connecting flange and the external thread section at the top of the upright post are fast assembled and fast disassembled;

the upright post sequentially passes through the central through holes of the first locking sheet, the first four-lug-ring, the second four-lug-ring and the second locking sheet, the second locking sheet is fixedly connected with the lower end of the upright post, the second locking sheet is fixedly connected with the second four-lug-ring, and the first locking sheet is fixedly connected with the first four-lug-ring and can relatively slide with the upright post through the central through hole;

each group of supporting leg units comprises a supporting leg pipe and a pair of hinge pieces, the top of the supporting leg pipe is hinged with one hinge lug of the first four-lug lantern ring, and two ends of each hinge piece are respectively hinged with the hinge lug corresponding to the second four-lug lantern ring and the middle of the supporting leg pipe;

the adjusting screw rod comprises a threaded rod and a handle, the threaded rod is parallel to the axis of the upright column, and the threaded rod sequentially penetrates through the second locking sheet and the first locking sheet from bottom to top; the threaded rod is rotatably connected with the second locking sheet, and the position of the second locking sheet relative to the axial lead direction of the threaded rod is kept unchanged; the threaded rod is in threaded connection with the first locking piece.

Furthermore, the second locking piece is connected with a bolt hanging ring through threads, the four groups of supporting leg units and the ground form four supporting points, the bolt hanging ring is located above the center of an area defined by the four supporting points, and the bolt hanging ring can be fixedly connected with a lower connecting point fixed to the ground through a connecting object.

Furthermore, the bottom of the supporting leg pipe is connected with an adjustable ground foot through threads.

Furthermore, an adjusting pipe is arranged between the bottom of the supporting leg pipe and the adjustable ground foot, and a plurality of positioning through holes capable of being positioned in a penetrating mode through the fastening piece are correspondingly formed in the bottom pipe body of the supporting leg pipe and the adjusting pipe body.

The mobile portable environmental factor monitoring device is simple in structure, convenient and fast to install and disassemble, capable of being deployed and moved quickly, suitable for various terrains, and high in shaking resistance and tilting resistance.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate an embodiment of the invention and, together with the description, serve to explain the invention and not to limit the invention. In the drawings:

FIG. 1 is a perspective view of the present invention;

FIG. 2 is an exploded view of the monitoring section;

fig. 3 is an exploded view of the bracket portion.

Detailed Description

It should be noted that the embodiments and features of the embodiments may be combined with each other without conflict.

The present invention will be described in detail below with reference to the embodiments with reference to the attached drawings.

As shown in the figures, the mobile portable environmental factor monitoring device comprises an upper monitoring part 1 and a lower support part 2, wherein the support part 2 is used for supporting the upper monitoring part 1, the support part 2 and the monitoring part 1 can be quickly assembled and disassembled, and the support part 2 can be folded, contracted and unfolded to facilitate carrying and transferring, and can be quickly unfolded and deployed after reaching a deployment destination.

As shown in fig. 1 and 2, the monitoring part 1 is fixedly provided with a rainfall sensor 102 and a wind speed and direction sensor 106, as well as a battery 112 and respective circuit boards for realizing respective functions;

in this embodiment, the rainfall sensor 102 is of the type PH-YL 2; the type of the wind speed and direction sensor is PH-5 YT;

in this embodiment, the rainfall sensor 102 is located at the upper part of the monitoring part 1, the wind speed and direction sensor 106 is located at the middle part of the monitoring part 1, the battery and the corresponding control circuit board are installed at the lower part of the monitoring part 1, and the space utilization is reasonable and the installation and maintenance are convenient;

specifically, the rainfall sensor 102 is cylindrical as a whole, the outer side of an opening at the upper end is sleeved with the annular top cover 101, and an annular sealing ring (not shown) is clamped between the two to prevent rainwater from permeating through a gap between the two; the first supporting plate 104 supports the lower end of the rainfall sensor 102, and an arc-shaped cushion block 1041 for supporting the lower end face of the rainfall sensor 102 is detachably mounted on the first supporting plate through bolts in order to facilitate mounting and leveling of the rainfall sensor 102;

a cylindrical upper housing 103 is sleeved outside the rainfall sensor 102, the top end and the bottom end of the upper housing are respectively fixed with the annular top cover 101 and the first supporting circular plate 104 through bolts, so that the rainfall sensor 102 is accommodated in the upper housing, and an annular gap is reserved between the inner wall of the upper housing 103 and the periphery of the rainfall sensor 102 to form an annular cavity for a cable of the rainfall sensor 102 to pass through;

a central through hole 1042 is formed in the center of the first supporting circular plate 104, and rainwater collected by the rainfall sensor 102 can be discharged downwards through the hole;

the second supporting circular plate 108 is positioned right below the first supporting circular plate 104, the two supporting circular plates are supported and fixed through four uniformly distributed upright connecting columns 105, the wind speed and direction sensor 106 is arranged in an area between the four connecting columns 105 and is fixed on the second supporting circular plate 108 through a sensor mounting seat 107, and a wiring gap convenient for wiring is formed between a mounting panel for connecting and fixing the wind speed and direction sensor 106 and the second supporting circular plate 108 by the sensor mounting seat 107;

a foldable antenna 110 for transceiving signals is fixed to the second supporting circular plate 108;

a level meter 109 for measuring whether the device is placed horizontally is also fixed on the second supporting circular plate 108;

the third supporting circular plate 114 is located right below the second supporting circular plate 108, and the two supporting circular plates are fastened to two ends of the cylindrical lower casing 115 through bolts respectively, and the three parts jointly form a lower mounting accommodating space for accommodating the battery 112 and relevant units such as corresponding circuit boards;

specifically, the control circuit board is fixed with the second supporting circular plate 108 through the L-shaped mounting plate 111, the transverse plate body of the L-shaped mounting plate is fixed with the lower surface of the second supporting circular plate 108, and the front and rear surfaces of the vertical plate body can be respectively provided with the corresponding circuit board, so that the space is saved; the circuit boards include but are not limited to: a power conversion control panel, a control and audio main board, a communication main control board, a network bridge control panel and the like;

the battery 112 is fixed on the upper surface of the lower third supporting circular plate 114;

the power plug 113 and the control button are also fixed at corresponding positions on the third supporting circular plate 114;

the monitoring part 1 of the present embodiment only demonstrates the monitoring collocation of three environmental factors, namely rainfall, wind speed and wind direction, and a person skilled in the art can add or replace a corresponding monitoring unit according to the required functions.

As shown in fig. 1 and 3, the bracket part 2 includes a connecting flange 201, a pillar 202, a first locking plate 203, a first four-ear loop 204, four sets of supporting leg units, a second four-ear loop 209, a second locking plate 210, and an adjusting screw 211;

the connecting plate 2011 of the connecting flange 201 is fast assembled and fast disassembled with the lower surface of the third supporting circular plate 114 of the monitoring part 1 through bolts, and the threaded shaft hole part 2012 of the connecting flange and the external thread section at the top of the upright column 202 are fast assembled and fast disassembled;

the upright column 202 sequentially passes through central through holes of a first locking sheet 203, a first four-lug ring 204, a second four-lug ring 209 and a second locking sheet 210, the second locking sheet 210 is fixedly connected with the lower end of the upright column 202 through welding, the second locking sheet 210 and the second four-lug ring 209 are fixed into a whole through welding, and the first locking sheet 203 and the first four-lug ring 204 are fixed into a whole through welding and can relatively slide with the upright column 202 through the central through hole;

each group of support leg units comprises a support leg pipe 205 and a pair of hinge pieces 206, the top of the support leg pipe 205 is hinged with one hinge lug of the first four-lug lantern ring 204, and two ends of each hinge piece 206 are respectively hinged with the corresponding hinge lug of the second four-lug lantern ring 209 and the middle part of the support leg pipe 205; preferably, the bottom of the supporting leg tube 205 is further connected with an adjustable ground pin 208 in a threaded manner, so that leveling is facilitated; further, an adjusting pipe 207 is further arranged between the bottom of the supporting leg pipe 205 and the adjustable anchor 208, a plurality of pairs of positioning through holes are correspondingly formed in the bottom pipe body of the supporting leg pipe 205 and the adjusting pipe 207, and the fixing is achieved through a pin shaft or a bolt-nut pair and other fasteners in a penetrating mode, so that the length adjustment within a certain range is achieved, and the leveling is facilitated.

Adjusting screw 11 includes threaded rod and handle, the threaded rod is parallel with stand 202 axle center, the threaded rod is by supreme second stay 210 and the first stay 203 of wearing in proper order down, and the threaded rod is connected for rotating with second stay 210, and second stay 210 keeps unchangeable for the ascending position of threaded rod axial lead side, the threaded rod is threaded connection with first stay 203, through turning handle, can realize the expansion to four groups of supporting leg units of support portion 2, fold, and through the threaded rod with first, the relation of connection of second stay, can be with the angle locking.

Further, the second locking piece 210 is further connected with a bolt hanging ring 212 through threads, after the support part 2 is placed on the ground, four groups of support leg units and the ground form four support points, the bolt hanging ring 212 is located above the center of an area defined by the four support points, and the bolt hanging ring and a ground drill rod fixed with the ground below can form fixed connection through a rope or other connecting objects, so that the whole device is more stable and is not prone to toppling over due to the influence of strong wind and the like.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (7)

1. The mobile portable environmental factor monitoring device is characterized by comprising an upper monitoring part (1) and a lower support part (2), wherein the support part is used for supporting the upper monitoring part and can be quickly assembled and disassembled;

the monitoring part is fixedly provided with a rainfall sensor, an air speed and wind direction sensor, a battery and circuit boards for realizing corresponding functions; the rainfall sensor (102) is positioned at the upper part of the monitoring part (1), the wind speed and direction sensor (106) is positioned at the middle part of the monitoring part (1), and the battery and the corresponding control circuit board are arranged at the lower part of the monitoring part (1).

2. The mobile portable environmental factor monitoring device according to claim 1, wherein the rainfall sensor (102) is cylindrical as a whole, and an annular top cover (101) is hermetically sleeved outside the opening at the upper end; an arc-shaped cushion block (1041) for supporting the lower end face of the rainfall sensor is detachably mounted on the first supporting plate through bolts; the cylindrical upper shell (103) is sleeved outside the rainfall sensor, the top end and the bottom end of the upper shell are respectively fixed with the annular top cover and the first supporting circular plate, so that the rainfall sensor is accommodated in the upper shell, and an annular cavity is formed between the inner wall of the upper shell and the periphery of the rainfall sensor and is used for penetrating through a cable of the rainfall sensor; a central through hole (1042) is formed in the center of the first supporting circular plate, and rainwater collected by the rainfall sensor can be discharged downwards through the central through hole;

the second supporting circular plate (108) is positioned right below the first supporting circular plate (104), the two supporting circular plates are supported and fixed through four uniformly distributed upright connecting columns (105), the wind speed and direction sensor (106) is arranged in an area defined by the connecting columns and is fixed on the second supporting circular plate through a sensor mounting seat (107), and a wiring gap is formed between a mounting panel for connecting and fixing the wind speed and direction sensor and the second supporting circular plate;

a foldable antenna for transmitting and receiving signals is fixed on the second supporting circular plate;

a level gauge for measuring whether the device is placed horizontally is also fixed on the second supporting circular plate;

the third supporting circular plate 114 is located right below the second supporting circular plate, and the two supporting circular plates are fastened to two ends of a cylindrical lower shell (115) respectively, and the three supporting circular plates form a lower mounting accommodating space together for accommodating a battery and a corresponding circuit board.

3. The mobile portable environmental factor monitoring device of claim 2, wherein the horizontal plate body of the L-shaped mounting plate is fixed to the lower surface of the second supporting circular plate, and the front and rear surfaces of the vertical plate body are fixed with corresponding circuit boards; the battery is fixed on the upper surface of the lower third supporting circular plate; the power plug and the control button are also fixed at corresponding positions on the third supporting circular plate.

4. The mobile portable environmental factor monitoring device of claim 2, wherein the bracket portion comprises a connecting flange (201), a pillar (202), a first locking tab (203), a first four-ear loop (204), four sets of support leg units, a second four-ear loop (209), a second locking tab (210), and an adjusting screw (211);

a connecting disc (2011) of the connecting flange is quickly assembled and disassembled with the lower surface of a third supporting circular plate (114) of the monitoring part (1) through bolts, and a threaded shaft hole part (2012) of the connecting flange and an external thread section at the top of the upright column (202) are quickly assembled and disassembled;

the upright post sequentially passes through the central through holes of the first locking sheet, the first four-lug-ring, the second four-lug-ring and the second locking sheet, the second locking sheet is fixedly connected with the lower end of the upright post, the second locking sheet is fixedly connected with the second four-lug-ring, and the first locking sheet is fixedly connected with the first four-lug-ring and can relatively slide with the upright post through the central through hole;

each group of supporting leg units comprises a supporting leg pipe and a pair of hinge pieces, the top of the supporting leg pipe is hinged with one hinge lug of the first four-lug lantern ring, and two ends of each hinge piece are respectively hinged with the hinge lug corresponding to the second four-lug lantern ring and the middle of the supporting leg pipe;

the adjusting screw rod (11) comprises a threaded rod and a handle, the threaded rod is parallel to the axis of the upright post (202), and the threaded rod sequentially penetrates through the second locking sheet (210) and the first locking sheet (203) from bottom to top; the threaded rod is rotatably connected with the second locking sheet, and the position of the second locking sheet relative to the axial lead direction of the threaded rod is kept unchanged; the threaded rod is in threaded connection with the first locking piece.

5. The mobile portable environmental factor monitoring device of claim 4, wherein the second locking piece is further connected with a bolt ring through threads, the four sets of supporting leg units form four supporting points with the ground, the bolt ring is located above the center of an area enclosed by the four supporting points, and the bolt ring can be fixedly connected with a lower connecting point fixed with the ground through a connector.

6. The mobile portable environmental factor monitor device of claim 4, wherein the bottom of the leg tube is further threaded with an adjustable foot.

7. The mobile portable environmental factor monitoring device of claim 6, wherein an adjusting tube is disposed between the bottom of the supporting leg tube and the adjustable anchor, and a plurality of positioning holes are correspondingly disposed on the bottom tube body of the supporting leg tube and the adjusting tube body for passing through and positioning by fasteners.

Images