CN210771159U - Atmospheric radiation monitoring support - Google Patents

Abstract

The utility model provides an atmospheric radiation monitoring bracket, which relates to the technical field of atmospheric radiation monitoring equipment and comprises a base, a longitudinal support rod and a transverse support rod; the longitudinal support rods comprise at least two longitudinal connecting rods, and adjacent longitudinal connecting rods are connected in a detachable mode; the bottom end of the longitudinal connecting rod positioned at the lowest part is connected to the top of the base in a detachable mode; the longitudinal connecting rod positioned at the top is connected to the transverse supporting rod in a detachable mode; the utility model discloses the atmospheric radiation who exists among the prior art monitors the support and uses and the equal inconvenient technical problem of transportation.

Description

Atmospheric radiation monitoring support

Technical Field

The utility model belongs to the technical field of atmosphere radiation monitoring equipment technique and specifically relates to an atmosphere radiation monitoring support is related to.

Background

In the field of atmospheric quality monitoring, atmospheric radiation monitoring equipment is required to be used for monitoring the atmospheric radiation, and specifically, a radiometer is required to be installed on an atmospheric radiation monitoring support to monitor the atmospheric radiation.

Atmosphere radiation monitoring support includes the base, longitudinal support pole and horizontal bracing piece, base and horizontal bracing piece are fixed connection respectively in the bottom and the top of longitudinal support pole, the radiometer is fixed in horizontal bracing piece, however, among the prior art, atmosphere radiation monitoring support is mostly the structure of welding integration, this structure can not change the length of longitudinal support pole and horizontal bracing piece, just also can not change the horizontal installation scope of monitoring height and radiometer, therefore, need do not make abundant investigation to monitoring environment before the use, and customize atmosphere radiation monitoring support in advance according to the characteristics of this monitoring environment, there is the equal inconvenient technical problem of use and transportation.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an atmosphere radiation monitoring support to alleviate the all inconvenient technical problem of atmosphere radiation monitoring support use and transportation that exists among the prior art.

In order to achieve the above object, the embodiment of the present invention adopts the following technical solutions:

in a first aspect, an embodiment of the present invention provides an atmospheric radiation monitoring bracket, which includes a base, a longitudinal support bar and a transverse support bar;

the longitudinal support rods comprise at least two longitudinal connecting rods, and the adjacent longitudinal connecting rods are connected in a detachable mode; the bottom end of the longitudinal connecting rod positioned at the lowest position is connected to the top of the base in a detachable mode; the longitudinal connecting rod positioned at the uppermost position is connected to the transverse supporting rod in a detachable mode.

In an alternative embodiment, the base comprises a body and a longitudinal sleeve, the bottom end of the longitudinal sleeve is fixedly connected to the body, and the longitudinal extension line of the longitudinal sleeve passes through the center of gravity of the body; the bottom end of the longitudinal connecting rod positioned at the lowest position is inserted and fixed in the longitudinal sleeve.

In an optional embodiment, a first through hole is formed in a position, inserted into the longitudinal sleeve, of the longitudinal connecting rod located at the lowest position, and the first through hole transversely penetrates through the longitudinal connecting rod; a second through hole is formed in the part, in contact with the longitudinal connecting rod, of the longitudinal sleeve, and the second through hole transversely penetrates through the longitudinal sleeve; under the working condition that the longitudinal connecting rod positioned at the lowest position is inserted into the longitudinal sleeve, the first through hole is superposed with the second through hole, and fixing pieces are inserted into the first through hole and the second through hole;

and/or, vertical sheathed tube with first screw hole and second screw hole have been seted up on the position that vertical connecting rod contacted, and on vertical sheathed tube transversely dissected the cross-section that forms, first screw hole with contained angle between the second screw hole is the right angle.

In an optional embodiment, the body comprises a first channel steel and a second channel steel, the slot body opening of the first channel steel and the slot body opening of the second channel steel face downwards, the middle of the first channel steel is connected with the middle of the second channel steel, and the length direction of the first channel steel is perpendicular to the length direction of the second channel steel.

In an optional embodiment, through holes are formed in both ends of the plate surface of the first channel steel and both ends of the plate surface of the second channel steel, and base fixing rods are arranged inside the through holes in a penetrating manner.

In an alternative embodiment, every two adjacent longitudinal connecting rods are connected through a connecting sleeve;

in every two adjacent longitudinal connecting rods, the top end of one longitudinal connecting rod is inserted and fixed into the bottom end of the connecting sleeve, and the bottom end of the other longitudinal connecting rod is inserted and fixed into the top end of the connecting sleeve.

In an optional embodiment, a first through hole is formed in a position, inserted into the connecting sleeve, of each longitudinal connecting rod, and the first through hole transversely penetrates through the longitudinal connecting rods; second through holes are formed in the positions, which are in contact with the two longitudinal connecting rods, of the connecting sleeves respectively, and the second through holes transversely penetrate through the connecting sleeves; under the working condition that the longitudinal connecting rod is inserted into the connecting sleeve, the first through hole is overlapped with the second through hole, and fixing pieces are inserted into the first through hole and the second through hole;

and/or the both ends of connecting sleeve with all seted up the screw hole on the position of longitudinal tie pole contact, just connecting sleeve's each end, the screw hole all includes first screw hole and second screw hole, and on connecting sleeve's the cross-section that transversely dissects and form, first screw hole with contained angle between the second screw hole is the right angle.

In an alternative embodiment, the atmospheric radiation monitoring mount further comprises a top sleeve; the top sleeve is T-shaped, the transverse support rod is inserted into the horizontal pipe section of the top sleeve in a detachable mode, and the top end of the longitudinal connecting rod positioned at the top is inserted into the vertical pipe section of the top sleeve in a detachable mode.

In an optional embodiment, in the top sleeve, a connection rib is connected between the horizontal pipe section and the vertical pipe section, and the connection rib includes at least two connection ribs that are symmetrical with respect to a center line of the vertical pipe section in the vertical direction.

In an optional embodiment, the atmospheric radiation monitoring bracket further comprises balance components, and the balance components at least comprise two groups which are symmetrical relative to a central line in the vertical direction of the vertical pipe section;

each group of balance components comprises a pull rope, a top sleeve fixing drill and a pull rope tensioner;

the pull rope tensioner is fixed on the top sleeve fixing drill rod;

one end of the pull rope is connected to the connecting rib, the other end of the pull rope is connected to the top sleeve fixing drill rod through the pull rope tensioner, and the top sleeve fixing drill rod is used for being inserted into the ground to fix the top sleeve.

The embodiment of the utility model provides a can realize following beneficial effect:

the utility model provides an atmospheric radiation monitoring bracket, which comprises a base, a longitudinal support rod and a transverse support rod; the longitudinal support rods comprise at least two longitudinal connecting rods, and adjacent longitudinal connecting rods are connected in a detachable mode; the bottom end of the longitudinal connecting rod positioned at the lowest part is connected to the top of the base in a detachable mode; the longitudinal connecting rod positioned at the top is connected with the transverse supporting rod in a detachable mode.

When in use, the radiation meter is arranged on the transverse supporting rod.

In the embodiment, the base, the longitudinal support rod and the transverse support rod are connected in a detachable mode, so that the beneficial effect of convenience in transportation can be achieved compared with the welding integrated atmospheric radiation monitoring support in the prior art; meanwhile, the longitudinal support rods comprise at least two longitudinal connecting rods, and adjacent longitudinal connecting rods are connected in a detachable mode, so that the assembling number of the longitudinal connecting rods can be selected according to actual monitoring requirements, and the assembling work of the longitudinal support rods with the required height can be completed in a monitoring site; the longitudinal support rods and the transverse support rods are connected in a detachable mode, so that the transverse support rods with different lengths can be prepared, and the transverse support rods with proper lengths and the longitudinal support rods can be selected to be assembled according to actual monitoring requirements; compared with the height of the preset longitudinal supporting rod and the length of the transverse supporting rod in the prior art, the embodiment is more flexible to use.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic view of an overall structure of an atmospheric radiation monitoring bracket according to an embodiment of the present invention;

fig. 2 is a schematic view of an overall structure of a connecting rod in an atmospheric radiation monitoring bracket according to an embodiment of the present invention;

fig. 3 is a schematic view of an overall structure of a base in an atmospheric radiation monitoring bracket according to an embodiment of the present invention;

fig. 4 is a schematic view of an overall structure of a top sleeve in an atmospheric radiation monitoring bracket according to an embodiment of the present invention;

fig. 5 is the embodiment of the utility model provides an atmospheric radiation monitors overall structure schematic diagram of adapter sleeve in support.

Icon: a1 — first via; a2 — second via; b 1-first screw hole; b 2-second screw hole; 1-a base; 11-a body; 111-a first channel steel; 112-a second channel steel; 12-a longitudinal sleeve; 2-longitudinal support bars; 20-longitudinal connecting rods; 21-connecting the sleeve; 3-transverse supporting rods; 31-a first transverse bar; 32-a second transverse bar; 4-a radiometer mounting plate; 5-fixing the drill rod on the base; 6-top sleeve; 61-connecting ribs; 7-pulling a rope; 8-top sleeve fixing drill rod; 9-rope tensioning device.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. The components of embodiments of the present invention, as generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the present invention, it should be noted that the terms "middle part", "upper", "lower", "vertical", "horizontal", "inner", "outer", etc. indicate the position or positional relationship based on the position or positional relationship shown in the drawings, or the position or positional relationship which is usually placed when the product of the present invention is used, and are only for convenience of describing the present invention and simplifying the description, but do not indicate or imply that the device or element to which the term refers must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like are used merely to distinguish one description from another, and are not to be construed as indicating or implying relative importance.

Furthermore, the terms "horizontal", "vertical" and the like do not imply that the components are required to be absolutely horizontal or pendant, but rather may be slightly inclined. For example, "horizontal" merely means that the direction is more horizontal than "vertical" and does not mean that the structure must be perfectly horizontal, but may be slightly inclined.

In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed," "mounted," and "connected" are to be construed broadly, e.g., as meaning fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Some embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The embodiments described below and the features of the embodiments can be combined with each other without conflict.

The embodiment provides an atmospheric radiation monitoring support, and referring to fig. 1, this atmospheric radiation monitoring support includes base 1, longitudinal support pole 2 and horizontal bracing piece 3. The longitudinal support rod 2 comprises at least two longitudinal connecting rods 20, and the adjacent longitudinal connecting rods 20 are connected in a detachable mode; the bottom end of the longitudinal connecting rod 20 positioned at the lowest part is connected to the top of the base 1 in a detachable mode; the uppermost longitudinal connecting rod 20 is detachably connected to the lateral support rod 3.

In use, the radiometer is mounted to the transverse support bar 3.

In the embodiment, the base 1, the longitudinal support rod 2 and the transverse support rod 3 are connected in a detachable mode, so that the beneficial effect of convenience in transportation can be achieved compared with the welding integrated atmospheric radiation monitoring support in the prior art; meanwhile, the longitudinal support rods 2 comprise at least two longitudinal connecting rods, and the adjacent longitudinal connecting rods 20 are connected in a detachable mode, so that the assembling number of the longitudinal connecting rods 20 can be selected according to actual monitoring requirements, and the assembling work of the longitudinal support rods with the required height can be completed in a monitoring site; the longitudinal support rods 2 and the transverse support rods 3 are connected in a detachable mode, so that the transverse support rods 3 with proper lengths can be selected to be assembled with the longitudinal support rods 2 according to actual monitoring requirements in a mode of preparing the transverse support rods 3 with different lengths; compared with the prior art in which the height of the longitudinal support bar 2 and the length of the transverse support bar 3 are preset, the present embodiment is more flexible to use.

Wherein, referring to fig. 1, in order to install the radiation meter on the transverse supporting rod 3, the radiation meter can be tied to the transverse supporting rod 3 by iron wires and the like and fixed by a bolt and nut assembly, or the radiation meter can be installed on the transverse supporting rod 3 by the radiation meter installing plate 4, so as to increase the installing area of the radiation meter by the radiation meter installing plate 4, thereby obtaining a plurality of groups of atmospheric radiation monitoring data, and further, the radiometer mounting plate 4 can be detachably fixed on the transverse supporting rod 3 for convenient transportation, specifically, the radiometer mounting plate 4 can be fixed on the transverse supporting rod 3 by a u-shaped clamp, more specifically, two long holes penetrating through the radiation meter mounting plate 4 are arranged on the radiation meter mounting plate 4, so that the radiation meter mounting plate 4 is fixed on the transverse supporting rod 3 after two ends of the u-shaped hoop respectively penetrate through the two long holes, or the radiometer attachment plate 4 may be detachably fixed to the lateral support bar 3 by other means. In addition, the radiometer mounting plate 4 can be made of materials such as an aluminum alloy plate or a stainless steel plate, preferably, the aluminum alloy plate which is light in weight relative to the stainless steel plate and has enough strength for mounting the atmospheric radiometer is used, and in order to prevent the radiometer mounting plate 4 from reflecting interference monitoring data and simultaneously avoid the radiometer mounting plate 4 from being rusted quickly, the surface of the radiometer mounting plate 4 can be subjected to sandblasting natural color oxidation treatment.

Further, referring to fig. 3, in at least one alternative embodiment of the present embodiment, the base 1 includes a body 11 and a longitudinal sleeve 12, a bottom end of the longitudinal sleeve 12 is fixedly connected to the body 11 by welding or integrally forming, and a longitudinal extension line of the longitudinal sleeve 12 passes through a center of gravity of the body 11; the bottom end of the longitudinal connecting rod 20 positioned at the lowest position is inserted and fixed in the longitudinal sleeve 12.

Specifically, there are various ways of "the bottom end of the lowermost longitudinal connecting rod 20 is inserted and fixed inside the longitudinal sleeve 12", for example, referring to the first way, referring to fig. 2, a first through hole a1 is opened at a position inserted into the longitudinal sleeve 12 of the lowermost longitudinal connecting rod 20, and the first through hole a1 penetrates the longitudinal connecting rod 20 in the lateral direction; referring to fig. 3, a second through hole a2 is opened at a portion of the longitudinal sleeve 12 contacting the longitudinal link 20, and the second through hole a2 transversely penetrates the longitudinal sleeve 12; in the condition that the longitudinal connecting rod 20 located at the lowest position is inserted into the longitudinal sleeve 12, the first through hole a1 coincides with the second through hole a2, and a fixing member, which may be a bolt, a screw, a connecting pin, or the like, is inserted into the first through hole a1 and the second through hole a 2. Therefore, the longitudinal connecting rod 20 positioned at the lowest position can be fixed in the longitudinal sleeve 12 through the first through hole a1, the second through hole a2 and the fixing piece, so that the longitudinal connecting rod 20 positioned at the lowest position can be fixed on the base 1, the fixing mode is convenient to disassemble and assemble and is stable after being fixed, and the longitudinal connecting rod 20 can be prevented from rotating relative to the longitudinal sleeve 12; meanwhile, the longitudinal extension line of the longitudinal sleeve 12 passes through the center of gravity of the body 11, so that the stability of the whole structure of the base 1 can be ensured, and the atmospheric radiation monitoring bracket can show very stable observation characteristics in the face of different severe environments such as deserts, plateaus, farmlands and the like.

As another example, in the second aspect, with reference to fig. 3, a first screw hole b1 and a second screw hole b2 are formed in a portion of the longitudinal sleeve 12 that contacts the lowermost longitudinal link 20, and an included angle between the first screw hole b1 and the second screw hole b2 is a right angle in a cross section of the longitudinal sleeve 12 cut in the transverse direction, so that the lowermost longitudinal link 20 may be pressed toward one side of the longitudinal sleeve 12 by installing screws in the first screw hole b1 and the second screw hole b2, thereby increasing a contact area between the longitudinal link 20 and an inner wall of the longitudinal sleeve 12, preventing the longitudinal link 20 from shaking, and further increasing monitoring stability of an atmospheric radiation meter on the atmospheric radiation monitoring stand.

As another example, the third mode, i.e., the first mode and the second mode, are combined with each other.

With continued reference to fig. 3, on the basis of the above optional embodiment, further optionally, in the base 1, the body 11 includes a first channel steel 111 and a second channel steel 112, a slot opening of the first channel steel 111 and a slot opening of the second channel steel 112 are both downward, a middle portion of the first channel steel 111 and a middle portion of the second channel steel 112 are connected to each other in a manner of welding or integral manufacturing, and a length direction of the first channel steel 111 is perpendicular to a length direction of the second channel steel 112. In this embodiment, can be under the condition facing different geology, through with first channel-section steel 111, the cell body opening of second channel-section steel 112 inserts downwards and realizes the fixed to base 1 in the soil layer, and simultaneously, because the middle part that sets up first channel-section steel 111 and second channel-section steel 112 makes mode interconnect such as with welding or integral type, the length direction of first channel-section steel 111 and the length direction mutually perpendicular of second channel-section steel 112, thereby can reduce the influence of strong wind to base 1, the structure in this embodiment all is favorable to guaranteeing base 1's structure steadiness, in order to guarantee the monitoring stability of atmospheric radiation table on this atmospheric radiation monitoring support.

Referring to fig. 1, on the basis of the above further optional embodiment, further optionally, through holes may be formed in both ends of the plate surface of the first channel steel 111 and both ends of the plate surface of the second channel steel 112, and the base fixing drill rods 5 are inserted into the through holes, so that the base 1 may be reinforced by inserting the bottom ends of the base fixing drill rods 5 into the ground during use, and the stability of the base 1 is further enhanced.

In addition, referring to fig. 5, in at least one alternative embodiment of the present embodiment, every two adjacent longitudinal connecting rods 20 are connected by a connecting sleeve 21; in every two adjacent longitudinal connecting rods 20, the top end of one longitudinal connecting rod 20 is inserted and fixed into the bottom end of the connecting sleeve 21, and the bottom end of the other longitudinal connecting rod 20 is inserted and fixed into the top end of the connecting sleeve 21.

Specifically, there are various ways of "the bottom ends of the lowermost longitudinal connecting rods 20 are inserted and fixed inside the longitudinal sleeves 12", for example, referring to fig. 2, a first through hole a1 is formed in a portion of each longitudinal connecting rod 20 inserted into the connecting sleeve 21, and the first through hole a1 transversely penetrates through the longitudinal connecting rods 20; referring to fig. 5, second through holes a2 are formed in the portions of the connection sleeve 21 that are respectively in contact with the two longitudinal connection rods 20, and the second through holes a2 transversely penetrate through the connection sleeve 21; under the working condition that the longitudinal connecting rod 20 is inserted into the connecting sleeve 21, the first through hole a1 is overlapped with the second through hole a2, and fixing pieces are inserted into the first through hole a1 and the second through hole a 2; the fixing member may be a bolt or a screw or a connecting pin, etc. Therefore, the longitudinal connecting rod 20 can be fixed in the connecting sleeve 21 through the first through hole a1, the second through hole a2 and the fixing piece, so as to fix the longitudinal connecting rod 20 in the connecting sleeve 21, the fixing mode is convenient to disassemble and assemble and is stable after being fixed, and the longitudinal connecting rod 20 can be prevented from rotating relative to the connecting sleeve 21.

As another example, in the second embodiment, referring to fig. 5, screw holes are formed at both ends of the connection sleeve 21, which are in contact with the longitudinal connection rod 20, and each of the screw holes includes a first screw hole b1 and a second screw hole b2 at each end of the connection sleeve 21, and an included angle between the first screw hole b1 and the second screw hole b2 is a right angle in a cross section of the connection sleeve 21 cut in a transverse direction. Therefore, the longitudinal connecting rod 20 can be pressed to one side of the connecting sleeve 21 in a mode of installing screws in the first screw hole b1 and the second screw hole b2, so that the contact area between the longitudinal connecting rod 20 and the inner wall of the connecting sleeve 21 is increased, the longitudinal connecting rod 20 is prevented from shaking, and the monitoring stability of the atmospheric radiation meter on the atmospheric radiation monitoring support is further improved.

As another example, the third mode, i.e., the first mode and the second mode, are combined with each other.

With additional reference to fig. 4, in at least one alternative embodiment of this embodiment, the atmospheric radiation monitoring mount further comprises a top sleeve 6; the top sleeve 6 is T-shaped, the transverse support rod 3 is inserted into the horizontal pipe section of the top sleeve 6 in a detachable mode, and the top end of the longitudinal connecting rod 20 positioned at the top is inserted into the vertical pipe section of the top sleeve 6 in a detachable mode. Through setting up top sleeve 6 to be favorable to carrying out quick assembly disassembly between horizontal support bar 3 and the longitudinal tie 20, wherein, can weld or integrative manufacturing forms between horizontal pipe section and the vertical pipe section.

Specifically, with continued reference to fig. 4, on the basis of the above-mentioned alternative embodiment, further optionally, in the above-mentioned top sleeve 6, a first screw hole b1 and a second screw hole b2 are formed at a portion of the vertical pipe section contacting the longitudinal connecting rod 20 and a portion of the horizontal pipe section contacting the lateral supporting rod 3, and an included angle between the first screw hole b1 and the second screw hole b2 is a right angle, whereby the lateral supporting rod 3 can be fixed in the horizontal pipe section of the top sleeve 6 and the top end of the uppermost longitudinal connecting rod 20 can be fixed in the vertical pipe section of the top sleeve 6 by installing screws in the first screw hole b1 and the second screw hole b2, respectively, so as to press the lateral supporting rod 3 toward one side of the horizontal pipe section of the top sleeve 6 and press the uppermost longitudinal connecting rod 20 toward one side of the vertical pipe section of the top sleeve 6, in order to increase the area of contact between horizontal bracing piece 3 and the 6 horizontal pipe sections of top sleeve pipe and between vertical connecting rod 20 and the 6 vertical pipe section inner walls of top sleeve pipe, avoid horizontal bracing piece 3 and vertical connecting rod 20 to rock, and then increase the monitoring stability of atmospheric radiation table on this atmospheric radiation monitoring support.

Of course, this embodiment only provides an alternative way of fixing the transverse support rod 3 and the longitudinal connecting rod 20 to the top sleeve 6, and may also be a way of fixing the transverse support rod 3 and the longitudinal connecting rod 20 to the top sleeve 6 by forming through holes on the transverse support rod 3, the longitudinal connecting rod 20, the horizontal pipe section of the top sleeve 6 and the vertical pipe section of the top sleeve 6, and inserting fixing members such as bolts, screws or connecting pins into the through holes, so long as the above-mentioned detachable fixing function can be achieved, but in contrast, obviously, the atmospheric radiation monitoring bracket is more stable by fixing the transverse support rod 3 and the longitudinal connecting rod 20 to the top sleeve 6 by adopting the structure in the above-mentioned alternative embodiment.

In addition, referring to fig. 1 and fig. 4, in the top casing 6, a connection rib 61 is connected between the horizontal pipe section and the vertical pipe section, and the connection rib 61 at least includes two symmetrical relative to the central line of the vertical pipe section in the vertical direction, so that the connection stability between the horizontal pipe section and the vertical pipe section can be enhanced through the connection rib 61, and further the overall stability of the top casing 6 can be ensured, wherein the connection rib 61 can be respectively welded or integrally manufactured with the horizontal pipe section and the vertical pipe section.

With continued reference to fig. 1, further optionally, the atmospheric radiation monitoring bracket further comprises a balance assembly comprising at least two groups symmetrical with respect to a center line in a vertical direction of the vertical pipe section of the top sleeve 6; each group of balance components comprises a pull rope 7, a top sleeve fixing drill 8 and a pull rope tensioner 9; the pull rope strainer 9 is fixed on the top sleeve fixing drill 8; one end of the pull rope 7 is connected to the connecting rib 61, the other end of the pull rope 7 is connected to the top sleeve fixing drill 8 through the pull rope tensioner 9, and the top sleeve fixing drill 8 is used for being inserted into the ground to fix the top sleeve 6. In this embodiment, the above-mentioned balance assembly of accessible carries out balance adjustment to this atmospheric radiation monitoring support, and wherein, stay cord strainer 9 is the structure that has fixed function in the transportation, removal, shipment or the storage of use in the goods, and they have not droing after the locking, safe and reliable, light, easy and simple to handle etc. effect mainly play taut effect, and it is the structure of wide application among the prior art, therefore, no longer give consideration to it in this embodiment. In the specific connection process, the pull rope 7 can be connected in a mode that the top sleeve fixing drill 8 and the connecting rib 61 are both welded with lantern rings. Preferably, with reference to fig. 1, the above-mentioned balancing assembly has 4 groups.

In addition, in an alternative embodiment of the present embodiment, the transverse supporting rod 3 includes a first transverse rod 31 and a second transverse rod 32, one end of the first transverse rod 31 and one end of the second transverse rod 32 are respectively inserted and fixed into two ends of the horizontal pipe section of the top casing 6, and the radiometer mounting plates 4 are fixed on both the first transverse rod 31 and the second transverse rod 32, so that the weight and volume of a single transverse supporting rod 3 can be reduced, and transportation is facilitated.

In addition, in the embodiment, the longitudinal connecting rod 20, the transverse supporting rod 3, the connecting sleeve 21 and the like can be made of stainless steel without limitation, and the pull rope 7 can be made of steel wire without limitation.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.

Claims (10)

1. An atmospheric radiation monitoring bracket is characterized by comprising a base (1), a longitudinal support rod (2) and a transverse support rod (3);

the longitudinal support rod (2) comprises at least two longitudinal connecting rods (20), and the adjacent longitudinal connecting rods (20) are connected in a detachable mode; the bottom end of the longitudinal connecting rod (20) positioned at the lowest part is connected to the top of the base (1) in a detachable mode; the uppermost longitudinal connecting rod (20) is detachably connected to the lateral support rod (3).

2. Atmospheric radiation monitoring bracket according to claim 1, characterized in that the base (1) comprises a body (11) and a longitudinal sleeve (12), the bottom end of the longitudinal sleeve (12) being fixedly connected to the body (11) and the longitudinal extension line of the longitudinal sleeve (12) passing through the center of gravity of the body (11); the bottom end of the longitudinal connecting rod (20) positioned at the lowest position is inserted and fixed in the longitudinal sleeve (12).

3. Atmospheric radiation monitoring mount as claimed in claim 2,

a first through hole (a1) is formed in the part, inserted into the longitudinal sleeve (12), of the longitudinal connecting rod (20) which is positioned at the lowest part, and the first through hole (a1) transversely penetrates through the longitudinal connecting rod (20); a second through hole (a2) is arranged on the part of the longitudinal sleeve (12) contacted with the longitudinal connecting rod (20), and the second through hole (a2) transversely penetrates through the longitudinal sleeve (12); under the working condition that the longitudinal connecting rod (20) positioned at the lowest position is inserted into the longitudinal sleeve (12), the first through hole (a1) is overlapped with the second through hole (a2), and a fixing piece is inserted into the first through hole (a1) and the second through hole (a 2);

and/or, a first screw hole (b1) and a second screw hole (b2) are arranged on the part of the longitudinal sleeve (12) contacting the longitudinal connecting rod (20), and on the cross section formed by transversely cutting the longitudinal sleeve (12), the included angle between the first screw hole (b1) and the second screw hole (b2) is a right angle.

4. The atmospheric radiation monitoring bracket of claim 2, characterized in that the body (11) comprises a first channel steel (111) and a second channel steel (112), the slot opening of the first channel steel (111) and the slot opening of the second channel steel (112) are both downward, the middle of the first channel steel (111) and the middle of the second channel steel (112) are connected with each other, and the length direction of the first channel steel (111) and the length direction of the second channel steel (112) are perpendicular to each other.

5. The atmospheric radiation monitoring bracket of claim 4, wherein through holes are formed in both ends of the plate surface of the first channel steel (111) and both ends of the plate surface of the second channel steel (112), and base fixing rods (5) are inserted into the through holes.

6. Atmospheric radiation monitoring bracket according to claim 1, characterized in that every two adjacent longitudinal connecting rods (20) are connected by a connecting sleeve (21);

in every two adjacent longitudinal connecting rods (20), the top end of one longitudinal connecting rod (20) is inserted and fixed into the bottom end of the connecting sleeve (21), and the bottom end of the other longitudinal connecting rod (20) is inserted and fixed into the top end of the connecting sleeve (21).

7. Atmospheric radiation monitoring mount as claimed in claim 6,

a first through hole (a1) is formed in the part, inserted into the connecting sleeve (21), of each longitudinal connecting rod (20), and the first through hole (a1) transversely penetrates through the longitudinal connecting rod (20); second through holes (a2) are respectively formed in the positions, which are contacted with the two longitudinal connecting rods (20), of the connecting sleeve (21), and the second through holes (a2) transversely penetrate through the connecting sleeve (21); under the working condition that the longitudinal connecting rod (20) is inserted into the connecting sleeve (21), the first through hole (a1) is overlapped with the second through hole (a2), and a fixing piece is inserted into the first through hole (a1) and the second through hole (a 2);

and/or, the both ends of adapter sleeve (21) with all seted up the screw hole on the position of longitudinal tie rod (20) contact, and each end of adapter sleeve (21), the screw hole all includes first screw hole (b1) and second screw hole (b2), and on the cross-section that forms is dissected in the traversing of adapter sleeve (21), first screw hole (b1) with contained angle between second screw hole (b2) is the right angle.

8. Atmospheric radiation monitoring mount as claimed in claim 1, further comprising a top sleeve (6); the top sleeve (6) is T-shaped, the transverse support rod (3) is inserted into the horizontal pipe section of the top sleeve (6) in a detachable mode, and the top end of the vertical connecting rod (20) positioned at the top is inserted into the vertical pipe section of the top sleeve (6) in a detachable mode.

9. Atmospheric radiation monitoring bracket according to claim 8, characterized in that in the top sleeve (6) a connecting rib (61) is connected between the horizontal tube section and the vertical tube section, and the connecting rib (61) comprises at least two symmetrical relative to the centre line in the vertical direction of the vertical tube section.

10. The atmospheric radiation monitoring mount of claim 9 further including at least two groups of balance members symmetrical about a centre line in a vertical direction of the upright tube section;

each group of balance components comprises a pull rope (7), a top sleeve fixing drill rod (8) and a pull rope tensioner (9);

the pull rope tensioner (9) is fixed on the top sleeve fixing drill rod (8);

one end of the pull rope (7) is connected to the connecting rib (61), the other end of the pull rope (7) is connected to the top sleeve fixing drill rod (8) through the pull rope tensioner (9), and the top sleeve fixing drill rod (8) is used for being inserted underground to fix the top sleeve (6).

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