CN105866030A - Photosynthesis equipment probe measurement environmental controller with thermal insulation type operating window - Google Patents

Abstract

The invention relates to the field of a plant physiology measurement instrument and provides a photosynthesis equipment probe measurement environmental controller with a thermal insulation type operating window. The photosynthesis equipment probe measurement environmental controller with the thermal insulation type operating window comprises a protective cover of a transparent structure. The protective cover is provided with a probe cable through hole. The probe cable through hole is encircled by a first semicircular notch and a second semicircular notch. The protective cover is provided with a window. The window is in sliding connection with a window panel good in thermal insulation effect. The first semicircular notch is arranged on the window. The second semicircular notch is arranged on a door panel. The photosynthesis equipment probe measurement environmental controller with the thermal insulation type operating window is good in isolation effect, and solves the problem in the prior art that an existing photosynthesis equipment probe measurement environmental controller with a thermal insulation type operating window is poor in isolation effect.

Description

The photosynthetic instrument probe being provided with thermal-insulating type working window measures environmental control

Technical field

The present invention relates to plant physiology vital measuring instrument field, particularly relate to a kind of photosynthetic instrument probe being provided with thermal-insulating type working window and measure environmental control.

Background technology

Photosynthetic instrument is a kind of important instrument for measuring the Physiological Activities of Plants parameters such as plant leaf blade photosynthesis, transpiration and Repiration.Existing photosynthetic instrument is mainly made up of the parts such as main frame and measuring probe, as a example by the portable photosynthetic instrument of CIRAS-2 of PP Systems company exploitation, this photosynthetic instrument mainly includes main frame and measuring probe (being also called leaf room), wherein by being connected cable connection between measuring probe with main frame, measuring probe is for gathering the photosynthetic signal of leaf houseplant blade, connecting cable and the photosynthetic signal of measuring probe collection is sent to main frame, then photosynthetic signal is analyzed by main frame, exports corresponding data.The portable photosynthetic instrument of CIRAS-2 can measure the parameter such as plant leaf blade and tissue photosynthetic rate, breathing rate, transpiration rate, stomatal conductance and soil CH_4 uptake/H2O flux, can control intensity of illumination, humiture, Atmospheric CO₂Concentration etc., both can measure under field conditions (factors), it is possible to measure under manual control condition.

Atmospheric environment residing for measuring probe is closely related with the stability of measurement data and accuracy, during measurement best calm dustless, so can control leaf indoor blade-section to greatest extent not affected with the granule that drifts along by outside air air-flow, thus ensure the accurate of measurement data.But during actually used particularly field measurement, photosynthetic instrument is generally in wind or has the environment of dirt, and this may directly result in the inaccurate of measurement data or wrong data.Have developed for this and be provided with the photosynthetic instrument probe of thermal-insulating type working window and measure environmental control (also known as the measurement protection equipment of: photosynthetic instrument probe).Be 2013205905237 in China Patent No., Authorization Notice No. be CN203490163U patent document in i.e. disclose a kind of existing photosynthetic instrument probe being provided with thermal-insulating type working window and measure environmental control.

The existing photosynthetic instrument probe being provided with thermal-insulating type working window is measured environmental control and is had the disadvantage that and pass through for probe cable by starting semicircular indentations at the lower limb of protective cover, when therefore using, one end of protective cover can be lifted away from ground by probe cable, cause existing between protective cover and ground gap, thus affect the isolation effect of protective cover.

Summary of the invention

The photosynthetic instrument probe being provided with thermal-insulating type working window that the invention provides a kind of isolation effect good measures environmental control, solves the problem that the existing photosynthetic instrument probe being provided with thermal-insulating type working window measures the isolation effect difference of environmental control.

nullMore than technical problem is that and solved by following technical proposal: a kind of photosynthetic instrument probe being provided with thermal-insulating type working window measures environmental control，Protective cover including transparent configuration，It is characterized in that，Described protective cover is provided with probe cable via，Described probe cable via is surrounded formed by the first semicircular indentations and the second semicircular indentations，Described protective cover is provided with window，The two ends up and down of described window are provided with crossbeam，Described crossbeam is provided with slide rail，Luffer boards are slidably connected between the crossbeam at the upper and lower two ends of window，Described first semicircular indentations is arranged at described window，Described second semicircular indentations is arranged at described luffer boards，Luffer boards include glass pane and are connected to the section bar beam at the upper and lower two ends of glass pane，Section bar beam is provided with the inner chamber of opening，The both side surface that described inner chamber is relative is designed with section bars sealing strip link slot，Described interior intracavity is provided with at least one piece of thermal insulation board，Described lumen segmentation is at least two heat-insulation and heat-preservation chamber by described thermal insulation board，The side of described thermal insulation board is provided with peripheral board、Opposite side is provided with thermal insulation board portion link slot，Described peripheral board is provided with outer clamping bar；Described thermal insulation board is stuck in by described outer dop and links together in described section bars sealing strip link slot；A heat-insulation and heat-preservation chamber in described heat-insulation and heat-preservation chamber is provided with slide rail installation opening, being designed with the sealing strip being sealed connected together with described slide rail inside and outside described slide rail installation opening, the sealing strip of the side of slide rail installation opening is connected in thermal insulation board portion link slot, the sealing strip of opposite side is connected in thermal insulation board portion link slot or section bars sealing strip link slot.During use, slide and open luffer boards, window is extend in protective cover by probe, is then shut off luffer boards and makes probe cable be connected in probe cable via.Again protective cover is covered on plant to be measured.Which makes the lower end i.e. opening of protective cover not insert in earth flow valve core, thus realizes good isolation effect.Probe can also be played fixation when coordinating protecting cover clamping probe cable by door, and existing also need to other design organization and be fixed in protective cover by probe suspension.It is isolated into the little cavity of at least two by a big cavity inside the section bar beam of the panel of the technical program and cavity arranges along indoor and outdoor direction always, thus realize improving heat insulation effect.

As preferably, described peripheral board and outer clamping bar are linked together by connection strap, described connection strap includes the first connecting portion and the second connecting portion that side links together, the opposite side of described first connecting portion links together with described peripheral board, the opposite side of described second connecting portion links together with described outer clamping bar, forms heat insulation water jacket between described peripheral board, the first connecting portion and isolation case.Effect of heat insulation can be improved.

As preferably, described thermal insulation board includes inner segment and outer section, described peripheral board is arranged at one end of described outer section, the other end of described outer section is provided with cylinder, it is provided with piston in described cylinder, described cylinder is divided into negative pressure cavity and connects chamber by described piston, and one end of described inner segment links together with described piston after described negative pressure cavity stretches into described cylinder.The setting of negative pressure cavity, heat insulation and preservation effect can be improved, simultaneously because the effect of the pressure reduction between connection chamber and negative pressure cavity, having the trend of elongation between inner segment and outer section, this trend enables to thermal insulation board and links together with inner chamber or adjacent thermal insulation board the most solid and reliablely.

As preferably, the heat-insulation and heat-preservation chamber being provided with slide rail installation opening surrounded in described heat-insulation and heat-preservation chamber connects with the described connection chamber in thermal insulation board, and one end that described sealing strip connects with slide rail bends towards heat-insulation and heat-preservation intracavity portion.The increase of pressure in the heat-insulation and heat-preservation chamber caused from connection chamber expellant gas during assembling can be utilized to drive sealing strip the most reliably to seal against together with slide rail, play the effect by sealing reliability.

As preferably, being provided with the door closing structure making luffer boards remain turned-off on described window between described luffer boards and protective cover, described door closing structure includes being arranged at the bolt of protective cover, is arranged at the bolt passed for bolt of luffer boards and snaps in breach and be threadedly connected to bolt and the nut luffer boards pressure holding lived.Door closing structure can also be door lock, knocker and keeper etc..It is prevented from luffer boards surprisingly to open.

As preferably, described nut includes the screwed hole section coordinated with described bolt, and the hole wall of described screwed hole section is provided with along the axially extended groove of nut, and described groove runs through described screwed hole section.nullNut in the technical program is by offering groove in the threaded walls of screwed hole section，And groove runs through whole screwed hole section，If screw thread gets rusty or has foreign material，So during turning nut，The foreign material such as rust can be by exclusion to groove，Without the stuck screw thread that affects between nut and the screw thread of bolt according to normal orbiting motion、Thus cause the phenomenon of stripped thread to occur，Before twist-on nut，Some lubricating oil can be dripped in groove，After in nut twist-on to bolt，Unnecessary lubricating oil can be stored in groove，Play the function of pcrmanent lubrication，The long rear thread of evaluation time is got rusty，But as long as staggering slightly some positions between screw thread，Screw thread can be lubricated again by the lubricating oil being stored in groove，Screw thread is made to turn on easily，It is unlikely to stripped thread，Simultaneously because being designed with groove，Destroy the seriality of screw thread，So nut is not easy to loosen，Locking function can be higher.

As preferably, described groove is " V " shape groove.When nut is screwed on bolt, groove is oblique line with the line that contacts of the screw thread on bolt, and during rotation, the edge of groove is good with the scraping effect of foreign material to the rust on screw thread so that be less susceptible to stripped thread between nut and Hanging bolt.

As preferably, the angular aperture of described groove is 20 ° to 60 °.Can either ensure there are enough water environment capacities, have the intensity that ensure that Luo Ya is enough.

As preferably, the cell wall of described groove is provided with sword.Scraping effect to the rust on screw thread Yu foreign material when can improve nut rotation.

As preferably, described groove is three or four, and described groove is evenly distributed on the hole wall of described screwed hole section.When screw thread gets rusty or has foreign material on it, nut only need to rotate a less angle i.e. no more than 60 degree just can be discharged in groove by the foreign material such as rust, if uneven distribution, the angle that in foreign material are discharged to groove, the required angle rotated can be to be rotated than being uniformly distributed is big, namely anti-slip thread function do not have equally distributed good, if the quantity of groove is opened too much, the intensity of nut can be affected.

As preferably, described nut outer surfaces is axially sequentially provided with guiding area, operation area and crimping district, and the cross-sectional area of described guiding area, operation area and crimping district three becomes big successively, and described operation area is positive hexagonal prism.Hexagon is more general, is not required to special tool(s) and just this nut can be carried out twist-on operation.

The present invention have an advantage that probe cable through not interfering with the isolation effect of protective cover, isolation effect is good；The insulation destruction to protective cover of windowing is little.

Accompanying drawing explanation

Fig. 1 is the embodiment of the present invention one window schematic diagram when being in opening.

Fig. 2 is the axial schematic diagram of nut.

Fig. 3 is that the A of Fig. 2 is to schematic diagram.

Fig. 4 is the cross sectional representation of the junction of the crossbeam of embodiment one and section bar beam.

Fig. 5 is the embodiment of the present invention one window schematic diagram when being closed.

Fig. 6 is the cross sectional representation of the junction of the crossbeam of embodiment two and section bar beam.

nullIn figure: thermal insulation board 1、Base plate 11、Peripheral board 12、Connection strap 13、First connecting portion 131、Second connecting portion 132、Outer clamping bar 14、Heat insulation water jacket 15、Thermal insulation board portion link slot 16、Outer link slot 17、Inner segment 18、Piston 181、Outer section 19、Cylinder 191、Negative pressure cavity 1911、Connection chamber 1912、Intercommunicating pore 1913、Section bar beam 2、Section bars sealing strip link slot 21、The lip 211 of section bars sealing strip link slot、Inner chamber 22、Sealing strip 3、The free end 31 of sealing strip、Crossbeam 4、Slide rail 41、Luffer boards 5、Glass pane 51、Door closing structure 6、Nut 63、Groove 631、Guiding area 632、Operation area 633、Crimping district 634、Sword 635、Protective cover 7、Window 71、Heat-insulation and heat-preservation chamber 8、Slide rail installation opening 81、Probe cable via 9、First semicircular indentations 91、Second semicircular indentations 92、The angular aperture B of groove.

Detailed description of the invention

The present invention is further illustrated with embodiment below in conjunction with the accompanying drawings.

Seeing Fig. 1, a kind of photosynthetic instrument probe being provided with thermal-insulating type working window measures environmental control, including protective cover 7, luffer boards 5 and the door closing structure 6 of transparent configuration.

Protective cover 7 is provided with window 71.The side of window 71 horizontal direction is provided with the first semicircular indentations 91.The two ends up and down of window 71 are designed with crossbeam 4.Crossbeam 4 is profile structure.

Luffer boards 5 include that luffer boards include glass pane 51 and are connected to the two root type material beams 2 at the upper and lower two ends of glass pane.The horizontal direction side of glass pane 51 is provided with the second semicircular indentations 92.Luffer boards 5 are between the crossbeam 4 at the two ends up and down of window 71.Luffer boards 5 are slidably connected together with crossbeam 4 in the horizontal direction by section bar beam 2.

Door closing structure 6 includes that bolt 61, bolt snap in breach 62 and nut 633.Bolt 61 is arranged at protective cover 7.Bolt snaps on the section bar beam being positioned at lower section that breach 62 is arranged in two root type material beams of luffer boards 5.

See Fig. 2, the hole wall of the screwed hole section of nut 63 is provided with three grooves 631, groove 631 threadingly hole section axially extending, and groove 631 runs through whole screwed hole section, groove 631 is evenly distributed on the hole wall of screwed hole section, i.e. angle between groove 631 is 120 degree.Groove 631 is " V " shape groove.The angular aperture B of groove is 20 ° to 60 °.The cell wall of groove 631 is provided with sword 635.

Seeing Fig. 3, the outer surface of nut 63 is sequentially provided with guiding area 632, operation area 633 and crimping district 634 vertically.The cross-sectional area of guiding area 632, operation area 633 and crimping district 634 three becomes big successively, and crimping district 634 is cylinder, and cylindrical upper surface is a plane, and cylindrical upper surface and side are arc transition.The lower end in crimping district 634 is connected with the operation area 633 of integrative-structure, and crimping district 634 and operation area 633 are taper seat transition.Operation area 633 is positive hexagonal prism.The lower surface of operation area 633 is connected with the guiding area 632 of integrative-structure, and guiding area 632 is tack spherical crown shape.

Seeing Fig. 4, section bar beam 2 is provided with the inner chamber 22 of opening towards the side of crossbeam 4.The both side surface that inner chamber 22 is relative is designed with section bars sealing strip link slot 21.

Thermal insulation board 1 it is plugged with in inner chamber 22.Thermal insulation board 1 has two pieces.Base plate 11 and two pieces of thermal insulation board 1 threes are that "U" shaped integrative-structure links together.Thermal insulation board 1 includes inner segment 18 and outer section 19.The side of outer section of 19 outer ends is provided with thermal insulation board portion link slot 16, the opposite side integrative-structure of outer section of 19 outer ends connects peripheral board 12.Peripheral board 12 is connected by connection strap 13 outer clamping bar 14.Connection strap 13 includes the first connecting portion 131 and the second connecting portion 132 that side links together.The opposite side of the first connecting portion 131 links together with peripheral board 12.The opposite side of the second connecting portion 132 links together with outer clamping bar 14.Heat insulation water jacket 15 is formed between peripheral board the 12, first connecting portion 131 and outer section 19.Outer link slot 17 is formed between first connecting portion the 131, second connecting portion 122 and outer clamping bar 14.Outer section 19, peripheral board 12, connection strap 13 and outer clamping bar 14 are structure as a whole and link together (specially profile structure) and be made for adiabator.The inner of outer section 19 is provided with cylinder 191.Piston 181 it is provided with in cylinder 191.Cylinder 191 is divided into negative pressure cavity 1911 and connects chamber 1912 by piston 181.One end of inner segment 18 links together with piston 181 after negative pressure cavity 1911 stretches into cylinder 191.The other end of inner segment 18 is linked together by base plate 11 in the way of integrative-structure.Two pieces of thermal insulation boards 1 are connected to two section bars sealing strip link slots 21 of inner chamber 22 correspondingly by respective outer clamping bar 14 and are connected and fixed with section bar beam 2.Assemble rear base plate 11 and be connected to together with the wall of inner chamber 22 so that inner chamber 22 is divided into three heat-insulation and heat-preservation chambeies 8 by two pieces of thermal insulation boards 1.Three heat-insulation and heat-preservation chambeies 8 are positioned at the heat-insulation and heat-preservation chamber of centre be week side open, other two be week side seal close, namely the heat-insulation and heat-preservation chamber being positioned at centre is provided with slide rail installation opening 81.The both sides of slide rail installation opening 81 are respectively provided with a sealing strip 3 and are provided with two sealing strips the most altogether, and one end of two sealing strips 3 is connected in two thermal insulation board portion link slots 16 altogether of two pieces of thermal insulation boards 1 correspondingly.The free end 31 of the i.e. sealing strip of the other end of sealing strip 3 bends towards the inside in heat-insulation and heat-preservation chamber 8.The insulation chamber for slide rail insertion in heat-insulation and heat-preservation chamber 8 is connected with connection chamber 1912 by intercommunicating pore 1913.

Crossbeam 4 is provided with slide rail 41.Slide rail 41 be inserted between two sealing strips 3 heat-insulation and heat-preservation chamber 8(i.e. in the middle of that heat-insulation and heat-preservation chamber) and the free end 31 of sealing strip of two sealing strips 3 seal against in the both sides of slide rail 41, make open heat-insulation and heat-preservation chamber 8, week side also become the heat-insulation and heat-preservation chamber that week side seal closes, thus realize to be isolated into three little cavitys (i.e. heat-insulation and heat-preservation chamber 8) by a big inner chamber 22 inside section bar beam and three heat-insulation and heat-preservation chambeies arrange along indoor and outdoor direction always.After assembling.The lip 211 of section bars sealing strip link slot is connected in outer link slot 17.

Seeing Fig. 5, the method that probe cable is fixed sealing is: be input to inside protective cover 7 through window 71 by probe when luffer boards 5 are in opening.On crossbeam 4, sliding window panel 5 is covered on window 71 to luffer boards 5, and now the first semicircular indentations 91 and the second semicircular indentations 92 are docking together and are encircled into probe cable via 9, bolt 61 is located in bolt and snaps in breach 62.Probe cable sealed card is made to be connected in probe cable via 9 when closing luffer boards 5.Finally nut 63 it is threadedly coupled on bolt 61 and tightens.

Screw on nut 63 time, in order to take off next time conveniently, the inwall of the screwed hole section of nut 63 coats a small amount of lubricating oil, unnecessary lubricating oil can be scraped groove 631(and be seen Fig. 2) in, screw thread can be played good lubrication by the lubricating oil the most herein stored when next time takes off this nut so that anti-slip thread effect can be more preferably.

Embodiment two, with the difference of embodiment one be:

See Fig. 6, thermal insulation board 1 only a piece.Inner chamber 22 is divided into two heat-insulation and heat-preservation chambeies 8 by thermal insulation board 1.The side of a sealing strip in two sealing strips 3 is connected in section bars sealing strip link slot 21.Connection chamber 1912 is also with the insulation chamber connection inserted for slide rail in insulation chamber 6 by intercommunicating pore.

Claims (10)

1. null1. the photosynthetic instrument probe being provided with thermal-insulating type working window measures environmental control，Protective cover including transparent configuration，It is characterized in that，Described protective cover is provided with probe cable via，Described probe cable via is surrounded formed by the first semicircular indentations and the second semicircular indentations，Described protective cover is provided with window，The two ends up and down of described window are provided with crossbeam，Described crossbeam is provided with slide rail，Luffer boards are slidably connected between the crossbeam at the upper and lower two ends of window，Described first semicircular indentations is arranged at described window，Described second semicircular indentations is arranged at described luffer boards，Luffer boards include glass pane and are connected to the section bar beam at the upper and lower two ends of glass pane，Section bar beam is provided with the inner chamber of opening，The both side surface that described inner chamber is relative is designed with section bars sealing strip link slot，Described interior intracavity is provided with at least one piece of thermal insulation board，Described lumen segmentation is at least two heat-insulation and heat-preservation chamber by described thermal insulation board，The side of described thermal insulation board is provided with peripheral board、Opposite side is provided with thermal insulation board portion link slot，Described peripheral board is provided with outer clamping bar；Described thermal insulation board is stuck in by described outer dop and links together in described section bars sealing strip link slot；A heat-insulation and heat-preservation chamber in described heat-insulation and heat-preservation chamber is provided with slide rail installation opening, being designed with the sealing strip being sealed connected together with described slide rail inside and outside described slide rail installation opening, the sealing strip of the side of slide rail installation opening is connected in thermal insulation board portion link slot, the sealing strip of opposite side is connected in thermal insulation board portion link slot or section bars sealing strip link slot.
2. The photosynthetic instrument probe being provided with thermal-insulating type working window the most according to claim 1 measures environmental control, it is characterized in that, described thermal insulation board includes inner segment and outer section, described peripheral board is arranged at one end of described outer section, the other end of described outer section is provided with cylinder, being provided with piston in described cylinder, described cylinder is divided into negative pressure cavity and connects chamber by described piston, and one end of described inner segment links together with described piston after described negative pressure cavity stretches into described cylinder.
3. The photosynthetic instrument probe being provided with thermal-insulating type working window the most according to claim 2 measures environmental control, it is characterized in that, the heat-insulation and heat-preservation chamber being provided with slide rail installation opening in described heat-insulation and heat-preservation chamber connects with the described connection chamber in thermal insulation board, and one end that described sealing strip connects with slide rail bends towards heat-insulation and heat-preservation intracavity portion.
4. 4. measure environmental control according to the photosynthetic instrument probe being provided with thermal-insulating type working window described in claim 1 or 2 or 3, it is characterized in that, being provided with the door closing structure making luffer boards remain turned-off on described window between described luffer boards and protective cover, described door closing structure includes being arranged at the bolt of protective cover, is arranged at the bolt passed for bolt of luffer boards and snaps in breach and be threadedly connected to bolt and the nut luffer boards pressure holding lived.
5. The photosynthetic instrument probe being provided with thermal-insulating type working window the most according to claim 4 measures environmental control, it is characterized in that, described nut includes the screwed hole section coordinated with described bolt, the hole wall of described screwed hole section is provided with along the axially extended groove of nut, and described groove runs through described screwed hole section.
6. The photosynthetic instrument probe being provided with thermal-insulating type working window the most according to claim 5 measures environmental control, it is characterised in that described groove is " V " shape groove.
7. The photosynthetic instrument probe being provided with thermal-insulating type working window the most according to claim 6 measures environmental control, it is characterised in that the angular aperture of described groove is 20 ° to 60 °.
8. The photosynthetic instrument probe being provided with thermal-insulating type working window the most according to claim 4 measures environmental control, it is characterised in that the cell wall of described groove is provided with sword.
9. The photosynthetic instrument probe being provided with thermal-insulating type working window the most according to claim 4 measures environmental control, it is characterised in that described groove is three or four, and described groove is evenly distributed on the hole wall of described screwed hole section.
10. The photosynthetic instrument probe being provided with thermal-insulating type working window the most according to claim 4 measures environmental control, it is characterized in that, described nut outer surfaces is axially sequentially provided with guiding area, operation area and crimping district, the cross-sectional area of described guiding area, operation area and crimping district three becomes big successively, and described operation area is positive hexagonal prism.