CN204286592U - A kind of greenhouse indoor optical radiation instrument bracing frame - Google Patents

Abstract

The utility model discloses a kind of greenhouse indoor optical radiation instrument bracing frame, comprises bottom bar and adjustable lever; Wherein, bottom bar bottom is designed with conical hollow base; Bottom bar top offside has pilot hole; Adjustable lever is 2-3 root, layer by layer nested setting, and the adjuster bar tip designs being positioned at innermost layer has mounting plane, is used for installing optical radiation instrument; On above-mentioned every root adjustable lever sidewall, relative position has equally spaced adjustment hole vertically; Between different adjustment hole and different adjustment hole is mated with located space, by land through fixing.When each layer adjustable lever apical position adjustment hole all coordinates with pilot hole on bottom bar, bracing frame height is 0.4 meter; Advantage of the present utility model is: Height Adjustable to close to greenhouse floor height 0.4m, be applicable to the measurement in greenhouse, and be adapted to the setting on dirt floor or cement flooring, and stability is strong.

Description

A kind of greenhouse indoor optical radiation instrument bracing frame

Technical field

The utility model relates to Environment Controlled Agricultural Facility field, specifically, is a kind of greenhouse indoor optical radiation instrument bracing frame.

Background technology

The bracing frame that current optical radiation instrument is subsidiary with oneself, mainly for meteorological data collection use outside greenhouse, the minimum altitude 1.5m of bracing frame; When measuring optical radiation in greenhouse, usually will measure each point of below 1.5m, optical radiation instrument self-carrying bracket cannot be accomplished.During due to optical radiation measurement, require optical radiation instrument probe straight up, and 10m scope is not blocked around, if adopt the bracing frame installing multiple detection instrument, bracing frame mobile jib can block optical radiation instrument, causes measurement to occur deviation.

Utility model content

For the problems referred to above, the utility model proposes one, to solve in heliogreenhouse in optical radiation measurement and research, the support problem of optical radiation instrument.

The utility model greenhouse indoor optical radiation instrument bracing frame, comprises bottom bar and adjustable lever.Wherein, bottom bar bottom is designed with conical hollow base; Bottom bar top offside has pilot hole.Adjustable lever is 2-3 root, layer by layer nested setting, and the adjuster bar tip designs being positioned at innermost layer has mounting plane, is used for installing optical radiation instrument.On above-mentioned every root adjustable lever sidewall, relative position has equally spaced adjustment hole vertically; Between different adjustment hole and different adjustment hole is mated with located space, by land through fixing.

When each layer adjustable lever apical position adjustment hole all coordinates with pilot hole on bottom bar, bracing frame height is 0.4 meter.When in each layer adjustable lever, meet outer adjustable lever top adjustment hole and coordinate with internal layer adjustable lever 2 bottom adjustment hole, meanwhile, when outermost layer adjustable lever bottom adjustment hole coordinates with pilot hole on bottom bar, bracing frame height is 2 meters.

The utility model has the advantage of:

(1) the utility model optical radiation instrument bracing frame, Height Adjustable to close to greenhouse floor height 0.4m, and current bracing frame minimum be 1.5m;

(2) the utility model optical radiation instrument bracing frame, can adapt to more complicated ground condition, and be adapted to the setting on dirt floor or cement flooring, and stability is strong;

(3) the utility model optical radiation instrument bracing frame, makes optical radiation instrument easy for installation, again loads onto after being dismantled by optical radiation instrument signal wire;

(4) the utility model optical radiation instrument bracing frame, optical radiation instrument is positioned at bracing frame top, can not be subject to the impact that bracing frame self blocks light.

Accompanying drawing explanation

Fig. 1 is the utility model greenhouse light radiation gauge support frame structure schematic diagram;

Fig. 2 is backstay mounting means schematic diagram on the utility model greenhouse light radiation gauge bracing frame;

Fig. 3 is light radiation gauge bracing frame feeder hopper position, the utility model greenhouse schematic diagram.

In figure:

1-bottom bar 2-adjustable lever 3-backstay 4-feeder hopper

5-optical radiation instrument 101-sloped footing 102-pilot hole 103-mounting plane

201-adjustment hole 202-limiting stand

Embodiment

Below in conjunction with accompanying drawing, the invention will be further described.

A kind of greenhouse of the utility model indoor optical radiation instrument bracing frame, comprises bottom bar 1, adjustable lever 2, is hollow-core construction, as shown in Figure 1.

Wherein, bottom bar 1 bottom is designed with conical hollow base 101, for the placement of bracing frame.Can integral structure be designed between sloped footing 101 and bottom bar 1, or and bottom bar 1 between be designed to by the hard-wired demountable structure of screw thread.Bottom bar 1 top offside has pilot hole 102.Adjustable lever 2 can be 2-3 root, layer by layer nested setting, and adjuster bar 2 tip designs being positioned at innermost layer has mounting plane 103, is used for installing optical radiation instrument 5, and mounting plane is designed with gap, and the data line for optical radiation instrument 5 passes.

On above-mentioned every root adjustable lever 2 sidewall, relative position has equally spaced adjustment hole 201 vertically, and adjustment hole 201 quantity is 10-20.By coordinating between the adjustment hole 201 of varying level position on each layer adjustable lever 2, and the adjustment hole 201 of varying level position coordinates with between pilot hole 102 on bottom bar 1 on each layer adjustable lever 2, passed by screw, pass through nut screwing clamping, the adjustment realizing relative position on vertical direction between each layer adjustable lever 2 and bottom bar 1 is located, realize bracing frame height adjustable, and then realize the adjustment of the differing heights of optical radiation instrument 5 in heliogreenhouse.Each adjuster bar 2 apical position circumference above-mentioned is designed with annular stop platform 202, is used for, when carrying out bracing frame height and regulating, to the gripping of adjustable lever 2, preventing internal layer adjustable lever 2 top in adjustment process to be absorbed in outer adjustable lever 2.

In order to make the optical radiation measurement in bracing frame adaptation heliogreenhouse, make bracing frame adjustable-height scope at 0.4-2 rice.In the utility model, when each layer adjustable lever 2 apical position adjustment hole 201 all coordinates with pilot hole on bottom bar 102, bracing frame height is 0.4 meter; When in each layer adjustable lever 2, meet outer adjustable lever 2 top adjustment hole 201 and coordinate with internal layer adjustable lever 2 bottom adjustment hole 201, meanwhile, when outermost layer adjustable lever 2 bottom adjustment hole 201 coordinates with pilot hole 102 on bottom bar 1, bracing frame height is 2 meters.

In order to strengthen the soundness between bracing frame and cement flooring in the utility model, bottom bar 1 bottom sloped footing 101 upper portion side wall being designed with feeder hopper 4, being communicated with bottom bar inside, as shown in Figure 2; Thus, by feeder hopper, sandstone can be filled to sloped footing inside, compress between sloped footing and brick face or concrete.

In order to make the setting on bracing frame simultaneous adaptation dirt floor, be also designed with hollow backstay 3 in the utility model, backstay 3 one end is most advanced and sophisticated, as positioning end; The other end is designed with external thread structure, as link; Meanwhile, threaded hole is designed with in bottom bar 1 bottom sloped footing 101 bottom dead center position; By the link of backstay 3 to coordinate with threaded hole tighten fixing; Realize the connection of backstay 3 and bracing frame; And then when bracing frame is arranged, backstay 3 is inserted dirt floor by the tip by backstay 3, realizes the firm setting between bracing frame and dirt floor, as shown in Figure 2, and sandstone can be filled by feeder hopper to sloped footing inside equally, realize the firm setting of bracing frame.Said structure, after pulling down backstay 3, can realize the setting of bracing frame on brick face or mattess, and can fill sandstone by feeder hopper to sloped footing inside equally, realizes the firm setting of bracing frame.

Claims (6)

1. the indoor optical radiation instrument in a greenhouse bracing frame, is characterized in that: comprise bottom bar and adjustable lever; Wherein, bottom bar bottom is designed with conical hollow base; Bottom bar top offside has pilot hole; Adjustable lever is 2-3 root, layer by layer nested setting, and the adjuster bar tip designs being positioned at innermost layer has mounting plane, is used for installing optical radiation instrument; On above-mentioned every root adjustable lever sidewall, relative position has equally spaced adjustment hole vertically; Between different adjustment hole and different adjustment hole is mated with located space, by land through fixing.

When each layer adjustable lever apical position adjustment hole all coordinates with pilot hole on bottom bar, bracing frame height is 0.4 meter; When in each layer adjustable lever, meet outer adjustable lever top adjustment hole and coordinate with internal layer adjustable lever 2 bottom adjustment hole, meanwhile, when outermost layer adjustable lever bottom adjustment hole coordinates with pilot hole on bottom bar, bracing frame height is 2 meters.

2. the indoor optical radiation instrument in a kind of greenhouse bracing frame as claimed in claim 1, is characterized in that: be threaded connection between described sloped footing and bottom bar.

3. the indoor optical radiation instrument in a kind of greenhouse bracing frame as claimed in claim 1, is characterized in that: described mounting plane is designed with gap.

4. the indoor optical radiation instrument in a kind of greenhouse bracing frame as claimed in claim 1, is characterized in that: each adjuster bar apical position circumference above-mentioned is designed with annular stop platform.

5. the indoor optical radiation instrument in a kind of greenhouse bracing frame as claimed in claim 1, is characterized in that: described bottom bar bottom sloped footing upper portion side wall is designed with feeder hopper, is communicated with bottom bar inside.

6. the indoor optical radiation instrument in a kind of greenhouse bracing frame as claimed in claim 1, is characterized in that: also comprise hollow backstay, and backstay one end is most advanced and sophisticated, as positioning end; The other end is designed with external thread structure, as link; Meanwhile, threaded hole is designed with in bottom bar bottom sloped footing bottom dead center position; By the link of backstay to coordinate with threaded hole tighten fixing.