CN204206082U - A kind of portable power devices of soil monitoring device - Google Patents

Abstract

The application relates to environmental monitoring field, particularly relates to a kind of portable power devices of soil monitoring device.Comprise: support bar; Position-limit mechanism; It is enclosed within described support bar, and can move along the axial direction of described support bar or fix; At least three supports; Described support is arranged around described support bar, and support described in every root all have one end and described position-limit mechanism hinged, all can rotate expansion to make support described in every root; Connecting rod; Its quantity is consistent with the quantity of described support, and described in every root, one end of connecting rod is hinged with a described support respectively, and the other end of all described connecting rods is all hinged with described support bar, to make the expansion degree of support described in every root identical; Solar panels; It is arranged on described support bar; Power transmission line; It is connected with described solar panels.The portable power devices of the soil monitoring device that the embodiment of the present application provides is easy to carry the electric energy that can provide for a long time in the wild needed for soil monitoring device.

Description

A kind of portable power devices of soil monitoring device

Technical field

The application relates to environmental monitoring field, particularly relates to a kind of portable power devices of soil monitoring device.

Background technology

In correlation technique, soil monitoring device generally needs to carry out monitoring in the wild.Some area is meagrely-populated, and infrastructure falls behind, and soil monitoring device cannot obtain enough electric energy in these areas.Comparatively common solution is: carry with polylith battery, for soil monitoring device is powered.

But because battery self electric quantity is limited, if the quantity therefore needing the long power supply of maintenance to need to carry is comparatively large, this significantly can increase the work load of operating personnel.

Utility model content

This application provides a kind of portable power devices of soil monitoring device, can be convenient to for soil monitoring device carries out field charging.

According to the portable power devices of the soil monitoring device that the application provides, comprising: support bar; Position-limit mechanism; It is enclosed within described support bar, and can move along the axial direction of described support bar or fix; At least three supports; Described support is arranged around described support bar, and support described in every root all have one end and described position-limit mechanism hinged, all can rotate expansion to make support described in every root; Connecting rod; Its quantity is consistent with the quantity of described support, and described in every root, one end of connecting rod is hinged with a described support respectively, and the other end of all described connecting rods is all hinged with described support bar, to make the expansion degree of support described in every root identical; Solar panels; It is arranged on described support bar; Power transmission line; It is connected with described solar panels.

Preferably, described position-limit mechanism comprises: adapter sleeve; It is enclosed within described support bar, and hinged with described support; First spacing screw; It runs through the sidewall of described adapter sleeve, and is provided with screw thread; First lead screw; Itself and described first spacing screw are spirally connected; First friction shim; It is arranged between described adapter sleeve and described support bar.

Preferably, described support bar comprises: base segment; Itself and described connecting rod are hinged, and described position-limit mechanism is enclosed within described base segment; Telescopic section; It is nested within described base segment, and can move vertically; This equipment also comprises pushing handle telescopic control mechanism; It is fixed on described base segment, and can limit or remove the axial motion of described telescopic section.

Preferably, described pushing handle telescopic control mechanism comprises: knob sleeve; It is set in the top of described base segment, and stretches out described base segment at least partially; Second spacing screw; It runs through the sidewall that described knob sleeve stretches out the part of described base segment, and is provided with screw thread; Second lead screw; Itself and described second spacing screw are spirally connected; Second friction shim; It is arranged between described second spacing screw and described telescopic section, and its at least side and described knob sleeve are fixed.

Preferably, also comprise: adjusting mechanism; The top of its bottom and described support bar removably connects, and top is fixedly connected with described solar panels.

Preferably, described adjusting mechanism comprises: detachable section; Bottom is connected with the top side detachable of described support bar; First coordinates section; It is arranged on the top of described detachable section; Be arranged on the first auxiliary section in described first cooperation section; Be arranged on the through hole in described first cooperation section; This through hole is through this first auxiliary section, and the axes normal of its axis and described support bar; Canned paragraph; Its top is fixedly connected with described solar panels; Second coordinates section; It is arranged on the bottom of described canned paragraph; Be arranged on the second auxiliary section in described second cooperation section; Be arranged on the through hole in described second cooperation section; This through hole is through this second auxiliary section, and the axes normal of axis and described support bar; At least one in two through holes is provided with adjustment screw thread, and described first auxiliary section and described second auxiliary section can cooperatively interact fixing; Knob screw rod; Its by the outside of through hole described in one of them successively through two described through holes, and can with described adjustment threaded engagement, described knob screw rod is greater than the radial dimension of the described through hole closed on this end away from the radial dimension of one end of described adjustment screw thread.

Preferably, described first auxiliary section and described second auxiliary section are engaging tooth.

Preferably, described support comprises: movable foot lever; Its top and described position-limit mechanism hinged, its sidepiece and described connecting rod hinged; Stator; It is arranged on the bottom of described movable foot lever; Fixing hole; It is arranged on described stator; This equipment also comprises multiple fixing hammer drill; Its quantity is identical with described support, can insert under earth's surface, and the position of the movable foot lever connected by described stator is fixed through described fixing hole.

Preferably, described fixing hammer drill comprises: pricker body; It is rectangular shaft-like, is provided with tip; Bit shank; It is arranged on the rear portion of described pricker body, and the angle of itself and described pricker body is acute angle.

Preferably, described power transmission line stretches into the inside of described support bar by the top of described support bar, and is stretched out by the bottom of described support bar.

The technical scheme that the embodiment of the application provides can comprise following beneficial effect:

The portable power devices of the soil monitoring device that the embodiment of the present application provides, its agent structure can fold or launch, and is easy to carry, and utilizes solar power generation simultaneously, can provide the electric energy needed for soil monitoring device in the wild for a long time.

Should be understood that, it is only exemplary that above general description and details hereinafter describe, and can not limit the application.

Accompanying drawing explanation

The deployed condition schematic diagram of the portable power devices of the soil monitoring device that Fig. 1 provides for the embodiment of the present application;

The folded state schematic diagram of the portable power devices of the soil monitoring device that Fig. 2 provides for the embodiment of the present application;

The structural representation of the fixing hammer drill that Fig. 3 provides for the embodiment of the present application;

The plan structure schematic diagram of the position-limit mechanism that Fig. 4 provides for the embodiment of the present application;

The fit structure schematic diagram of the position-limit mechanism that Fig. 5 provides for the embodiment of the present application and support bar;

The plan structure schematic diagram of the pushing handle telescopic control mechanism that Fig. 6 provides for the embodiment of the present application;

The fit structure schematic diagram of the pushing handle telescopic control mechanism that Fig. 7 provides for the embodiment of the present application and support bar;

The fit structure schematic diagram of the adjusting mechanism that Fig. 8 provides for the embodiment of the present application and support bar.

Accompanying drawing illustrates: 10-support bar; 100-base segment; 102-telescopic section; 12-position-limit mechanism; 120-adapter sleeve; The spacing screw of 122-first; 124-first lead screw; 126-first friction shim; 128-first knob handle; 14-support; The movable foot lever of 140-; 142-stator; 144-fixing hole; 16-connecting rod; 18-solar panels; 20-power transmission line; 22-fixes hammer drill; 220-pricker body; 222-bit shank; 24-pushing handle telescopic control mechanism; 240-knob sleeve; The spacing screw of 242-second; 244-second lead screw; 246-second friction shim; 248-second knob handle; 26-adjusting mechanism; The detachable section of 260-; 261-first auxiliary section; 262-first section of cooperation; 263-through hole; 264-canned paragraph; 265-second auxiliary section; 266-second section of cooperation; 267-through hole; 268-knob screw rod; 269-nut; 270-knob cap; 271-entrance hole.

Accompanying drawing to be herein merged in specification and to form the part of this specification, shows the embodiment meeting the application, and is used from specification one principle explaining the application.

Embodiment

Also by reference to the accompanying drawings the application is described in further detail below by specific embodiment.

As illustrated in fig. 1 and 2, the embodiment of the application provides a kind of portable power devices of soil monitoring device, comprises support bar 10, position-limit mechanism 12, support 14, connecting rod 16, solar panels 18 and power transmission line 20.Support bar 10 is main bodys of this equipment, is positioned at the centre position of whole equipment.Position-limit mechanism 12 is enclosed within support bar 10, and can move along the axial direction of support bar 10 or fix.The quantity of support 14 is at least three, can form a supporting plane so after deployment, and quantity is in the present embodiment three.Three supports 14 are arranged around support bar 10, and every root support 10 all have one end and position-limit mechanism 12 hinged, all can rotate expansion to make every root support 14.The quantity of connecting rod 16 is consistent with the quantity of support 14, and one end of every root connecting rod 16 is hinged with a support 14 respectively, and the other end is all hinged with support bar 10.

Such position-limit mechanism 12, support 14 and connecting rod 16 just constitute the structure of a collapsible/expansion.By position-limit mechanism 12 moving axially along support bar 10, the bottom of support 14 can be made to launch or draw in around support bar 10, due to the existence of connecting rod 16, the expansion degree of support 14 is subject to the common restriction of position-limit mechanism 12 and connecting rod 16, therefore the expansion degree of every root support 14 is identical, so just, can ensure that residing for the standoff bottom of institute, plane is vertical relation with support bar substantially, namely can make support bar 10 be in vertical state.

Solar panels 18 are generally arranged on the top of support bar 10, do not have shelter here, daylighting best results.Power transmission line 20 is connected with solar panels 18, is responsible for the electric energy that solar panels 18 send outwards to carry, and when soil monitoring device needs charging, it can be connected with power transmission line 20, pull up after being full of electricity again, use easily.

In the present embodiment, support 14 comprises movable foot lever 140, stator 142 and fixing hole 144; Top and the position-limit mechanism 12 of movable foot lever 140 are hinged, its sidepiece and connecting rod 16 hinged; Stator 142 is arranged on the bottom of movable foot lever 140, and fixing hole 144 is arranged on stator 142.

This equipment also comprises fixing hammer drill 22, and its quantity is identical with the quantity of support 14, inserted under earth's surface by fixing hammer drill 22, and the position of the movable foot lever 140 connected by stator 142 is fixed during use through fixing hole 144.So just, equipment can be fixed on the ground, can use on strong wind or hillside.

See Fig. 3, fixing hammer drill 22 comprises pricker body 220 and bit shank 222, and pricker body is rectangular shaft-like, and is provided with tip, and bit shank 222 is arranged on the rear portion of pricker body 220, and is acute angle with the angle of pricker body 220.Like this, pricker body 220 and bit shank 222 all can stretch under earth's surface, and on earth's surface, only surplus next coupling part is used for through fixing hole 144.More excellent fixed effect can be possessed like this.

In order to adjust the height of height solar panels 18, support bar 10 comprises base segment 100 and telescopic section 102; Base segment 100 is hinged with connecting rod 16, and position-limit mechanism 12 is enclosed within base segment 100.Telescopic section 102 is nested within base segment 100, and can move vertically.Telescopic process between base segment 100 and telescopic section 102 controls by drawing together pushing handle telescopic control mechanism 24, and it is fixed on base segment 100.

In order to finely tune the direction of solar panels 18, be also provided with adjusting mechanism 26 in the present embodiment, the top of its bottom and telescopic section 102 removably connects, and top is fixedly connected with solar panels 18.

Below the structure of position-limit mechanism 12 is specifically described.See Figure 4 and 5, position-limit mechanism 12 comprises adapter sleeve 120, first spacing screw 122, first lead screw 124 and the first friction shim 126.Adapter sleeve 120 is enclosed within support bar 10, and hinged with support 14.First spacing screw 122 runs through the sidewall of adapter sleeve 120, and is provided with screw thread.First lead screw 124 and the first spacing screw 122 are spirally connected.First friction shim 126 is arranged between adapter sleeve 120 and support bar 10.By coordinating of the first lead screw 124 and the first spacing screw 122, just the first lead screw 124 is made to produce axial displacement by rotating, when it pushes against the first friction shim 126, first friction shim 126 can push against with base segment 100, produce larger frictional force, thus the movement between restriction adapter sleeve 120 and base segment 100.If need mobile link to overlap 120, as long as then unscrew the first lead screw 124.Can increasing friction force by the first friction shim 126, simultaneously can available protecting base segment 100.

For the ease of rotating the first lead screw 124, the present embodiment is also provided with the first knob handle 128 in the end of the first lead screw 124.

Next the structure of controlling structure for telescopic handle 24 is described in detail.See Fig. 6 and 7, pushing handle telescopic control mechanism 24 comprises knob sleeve 240, second spacing screw 242, second lead screw 244 and the second friction shim 246.Knob sleeve 240 is set in the top of base segment 100, and a part stretches out base segment 100.Second spacing screw 242 runs through the sidewall that knob sleeve 240 stretches out the part of base segment 100, and is provided with screw thread.Second lead screw 244 and the second spacing screw 242 are spirally connected.Second friction shim 246 is arranged between the second spacing screw 242 and telescopic section 102, and bottom it, side and knob sleeve 240 are fixed.By coordinating of the second lead screw 244 and the second spacing screw 242, just the second lead screw 244 is made to produce axial displacement by rotating, when it pushes against the second friction shim 246, because the second friction shim 246 only has side, bottom and knob sleeve 240 to fix, it is all unsettled with part, therefore the second friction shim 246 can be promoted by the second lead screw 244 and push against with base segment 100, produces larger frictional force, thus the movement between restriction telescopic section 102 and base segment 100.If need moving telescopic section 102, as long as then unscrew the second lead screw 244.Second friction shim 246 is same for increasing friction force, simultaneously available protecting telescopic section 102.For the ease of rotating the second lead screw 244, the present embodiment is provided with the second knob handle 248 in the end of the second lead screw 244.

Below the structure of adjusting mechanism 26 is specifically described.See Fig. 8, adjusting mechanism 26 comprises detachable section 260, first and coordinates section 262, canned paragraph 264, second to coordinate section 266 and knob screw rod 268.The bottom of detachable section 260 is connected with the top side detachable of telescopic section 102.First coordinates section 262 to be arranged on the top of detachable section, such as, pass through the mode of the plug between the large diameter of telescopic section 102 and the little external diameter of detachable section 260.First coordinates section 262 to possess first auxiliary section 261 and a through hole 263 through this first auxiliary section 261.The top of canned paragraph 264 is fixedly connected with solar panels 18.Second coordinates section 266 to be arranged on the bottom of canned paragraph 264, and possesses second auxiliary section 265 and a through hole 267 through this second auxiliary section 265.First auxiliary section 261 and the second auxiliary section 265 are engaging tooth, and the circumference that can limit when the two close contact is each other rotated.Through hole 263 and through hole 267 are all perpendicular to the axis of telescopic section 102, one has been inlayed with the nut 270 regulating screw thread in through hole 267, knob screw rod 268 passes through hole 263 and through hole 267 successively by the outside of through hole 263, and coordinate with nut 270, knob screw rod 268 is away from the sheathed knob cap 269 in one end of nut 270, its not only played rotate knob screw rod 268 effect simultaneously but also the outside of through hole 263 can be stuck in, to limit the movement of knob screw rod 268, make the first auxiliary section 261 and the second auxiliary section 265 can close contact.

Arrange an entrance hole 271 at the sidepiece of detachable section 260, power transmission line 20 is penetrated in detachable section 260 by this entrance hole 271, and wears under telescopic section 102 and base segment 100 continue, and is finally stretched out by the bottom of base segment 100.See Fig. 1 and 2, most of power transmission line 20 can be made like this to be positioned at the inside of support bar 10, to make Whole Equipment more neat and artistic, also can be good at protecting power transmission line 20 simultaneously.

The foregoing is only the preferred embodiment of the application, be not limited to the application, for a person skilled in the art, the application can have various modifications and variations.Within all spirit in the application and principle, any amendment done, equivalent replacement, improvement etc., within the protection range that all should be included in the application.

Claims (10)

1. a portable power devices for soil monitoring device, is characterized in that, comprising:

Support bar;

Position-limit mechanism; It is enclosed within described support bar, and can move along the axial direction of described support bar or fix;

At least three supports; Described support is arranged around described support bar, and support described in every root all have one end and described position-limit mechanism hinged, all can rotate expansion to make support described in every root;

Connecting rod; Its quantity is consistent with the quantity of described support, and described in every root, one end of connecting rod is hinged with a described support respectively, and the other end of all described connecting rods is all hinged with described support bar, to make the expansion degree of support described in every root identical;

Solar panels; It is arranged on described support bar;

Power transmission line; It is connected with described solar panels.

2. the portable power devices of soil monitoring device according to claim 1, is characterized in that, described position-limit mechanism comprises:

Adapter sleeve; It is enclosed within described support bar, and hinged with described support;

First spacing screw; It runs through the sidewall of described adapter sleeve, and is provided with screw thread;

First lead screw; Itself and described first spacing screw are spirally connected;

First friction shim; It is arranged between described adapter sleeve and described support bar.

3. the portable power devices of soil monitoring device according to claim 1, is characterized in that, described support bar comprises:

Base segment; Itself and described connecting rod are hinged, and described position-limit mechanism is enclosed within described base segment;

Telescopic section; It is nested within described base segment, and can move vertically;

This equipment also comprises pushing handle telescopic control mechanism; It is fixed on described base segment, and can limit or remove the axial motion of described telescopic section.

4. the portable power devices of soil monitoring device according to claim 3, is characterized in that, described pushing handle telescopic control mechanism comprises:

Knob sleeve; It is set in the top of described base segment, and stretches out described base segment at least partially;

Second spacing screw; It runs through the sidewall that described knob sleeve stretches out the part of described base segment, and is provided with screw thread;

Second lead screw; Itself and described second spacing screw are spirally connected;

Second friction shim; It is arranged between described second spacing screw and described telescopic section, and its at least side and described knob sleeve are fixed.

5. the portable power devices of soil monitoring device according to claim 1, is characterized in that, also comprise:

Adjusting mechanism; The top of its bottom and described support bar removably connects, and top is fixedly connected with described solar panels.

6. the portable power devices of soil monitoring device according to claim 5, is characterized in that, described adjusting mechanism comprises:

Detachable section; Bottom is connected with the top side detachable of described support bar;

First coordinates section; It is arranged on the top of described detachable section;

Be arranged on the first auxiliary section in described first cooperation section;

Be arranged on the through hole in described first cooperation section; This through hole is through this first auxiliary section, and the axes normal of its axis and described support bar;

Canned paragraph; Its top is fixedly connected with described solar panels;

Second coordinates section; It is arranged on the bottom of described canned paragraph;

Be arranged on the second auxiliary section in described second cooperation section;

Be arranged on the through hole in described second cooperation section; This through hole is through this second auxiliary section, and the axes normal of axis and described support bar;

At least one in two through holes is provided with adjustment screw thread, and described first auxiliary section and described second auxiliary section can cooperatively interact fixing;

Knob screw rod; Its by the outside of through hole described in one of them successively through two described through holes, and can with described adjustment threaded engagement, described knob screw rod is greater than the radial dimension of the described through hole closed on this end away from the radial dimension of one end of described adjustment screw thread.

7. the portable power devices of soil monitoring device according to claim 6, is characterized in that, described first auxiliary section and described second auxiliary section are engaging tooth.

8. the portable power devices of soil monitoring device according to claim 1, is characterized in that, described support comprises:

Movable foot lever; Its top and described position-limit mechanism hinged, its sidepiece and described connecting rod hinged;

Stator; It is arranged on the bottom of described movable foot lever;

Fixing hole; It is arranged on described stator;

This equipment also comprises multiple fixing hammer drill; Its quantity is identical with described support, can insert under earth's surface, and the position of the movable foot lever connected by described stator is fixed through described fixing hole.

9. the portable power devices of soil monitoring device according to claim 8, is characterized in that, described fixing hammer drill comprises:

Pricker body; It is rectangular shaft-like, is provided with tip;

Bit shank; It is arranged on the rear portion of described pricker body, and the angle of itself and described pricker body is acute angle.

10. the portable power devices of soil monitoring device according to claim 1, is characterized in that, described power transmission line stretches into the inside of described support bar by the top of described support bar, and is stretched out by the bottom of described support bar.