CN209416376U - A kind of benchmark framework of Atmospheric Survey equipment - Google Patents

Abstract

The utility model relates to Atmospheric Survey equipment technical fields, more specifically, it is related to a kind of benchmark framework of Atmospheric Survey equipment, it is intended to solve the problems, such as framework gap installed caused by detecting devices it is unstable, its key points of the technical solution are that: including framework, installation cavity；The installation cavity is opened in framework along framework length direction and communicates with one end of framework；It further include being connected to installation cavity and the position-limit mechanism for limiting detecting devices, the position-limit mechanism includes the setting of right angle setting chamber opening direction and is slidably connected to the limit plate in installation cavity, is connected to framework and drive limit plate close to the telescopic component for being connected to detecting devices to detecting devices.The utility model is by setting position-limit mechanism, so that detecting devices is limited between limit plate, to prevent detecting devices from will not move in installation cavity.

Description

A kind of benchmark framework of Atmospheric Survey equipment

Technical field

The utility model relates to Atmospheric Survey equipment technical fields, more specifically, it relates to a kind of Atmospheric Survey equipment Benchmark framework.

Background technique

Benchmark framework includes framework 1, installation for stablizing installation Atmospheric Survey equipment, existing benchmark framework (such as Fig. 1) Chamber 2, installation cavity 2 are opened in framework 1 along framework length direction, and the cabinet of Atmospheric Survey equipment is placed in installation cavity when use In 2, so that Atmospheric Survey equipment avoids directly mutually fixing with external object, the integrality of Atmospheric Survey equipment and accurate is protected Type.Atmospheric Survey equipment can be had the gap when being placed into installation cavity 2, between installation cavity 2 and Atmospheric Survey equipment for convenient big The installation of gas detecting devices, but after Atmospheric Survey equipment is installed, the presence in gap will cause the equipment in installation cavity It is unstable, it may be damaged equipment during transportation.

Utility model content

In view of the deficienciess of the prior art, the purpose of this utility model is to provide a kind of benchmark of Atmospheric Survey equipment Framework, by the way that position-limit mechanism is arranged, so that detecting devices is limited between limit plate, to prevent detecting devices from will not install Intracavitary movement.

The above-mentioned technical purpose of the utility model has the technical scheme that a kind of Atmospheric Survey equipment Benchmark framework, including framework, installation cavity；The installation cavity is opened in one end in framework and with framework along framework length direction It communicates；It further include being connected to installation cavity and the position-limit mechanism for limiting detecting devices, the position-limit mechanism includes right angle setting Chamber opening direction is arranged and is slidably connected to the limit plate in installation cavity, is connected to framework and limit plate is driven to lean on to detecting devices Closely to the telescopic component for being connected to detecting devices.

By using above-mentioned technical proposal, detecting devices is installed into installation cavity first, then drives telescopic component, is made It drives limit plate to move to the direction close to detecting devices, detecting devices is limited between limit plate and framework, to make It obtains in transport or the moving process of benchmark framework, the detecting devices being installed in it arbitrarily will not be moved or be shaken, and reach steady Determine the purpose of detecting devices.

The utility model is further arranged to: the limit plate is provided with two groups and is located at installation cavity both ends.

By using above-mentioned technical proposal, after detecting devices is placed in installation cavity, while two groups of position-limit mechanisms are driven It moves simultaneously, shortens the time of fixed detecting devices, and only need limit plate close to detecting devices during this, without Movement sensing device again not only facilitates limit detecting devices, and during limiting detecting devices due to detecting devices not It needs to move, so that the accuracy of detecting devices will not be impacted.

The utility model is further arranged to: one end that the limit plate is open towards installation cavity and towards the side of detecting devices It is arranged to cambered surface, the concave surface of the cambered surface is towards side-lower outside framework.

By using above-mentioned technical proposal, cambered surface is set by the top of limit plate, the path that detecting devices is installed is opened Mouth expands, and installs convenient for detecting devices.

The utility model is further arranged to: the telescopic component includes rotating bar, threaded rod；The rotating bar rotation connects It is connected to framework and is rotated coaxially with threaded rod and is connect；The threaded rod is threadedly connected to rotating bar and is connected to limit plate towards frame External side.

By using above-mentioned technical proposal, since the side wall of limit plate and installation cavity abuts against, rotating bar, threaded rod are driven It is relatively moved with rotating bar, so that threaded rod drives limit plate mobile to detecting devices direction, to reach limit detecting devices Purpose.

The utility model is further arranged to: further including the STATEMENT OF FEDERALLY SPONSORED for driving two sides telescopic component to move synchronously；It is described Moving part includes first gear, second gear, rotation axis；The first gear is coaxially fixed in rotating bar；The second gear It is arranged there are two and is engaged respectively with the first gear of two sides；The rotation axis is rotationally connected with framework.

By using above-mentioned technical proposal, rotating bar and first gear coaxially fixed rotation, so that second gear and rotation Axis rotates with it, so that another first gear and second gear engagement rotation, realize that synchronizing for first gear rotates in same direction, Drive limit plate to detecting devices synchronizing moving.

The utility model is further arranged to: position-limit mechanism described in every group is provided with two groups of telescopic components；Second tooth Wheel is engaged with two ipsilateral first gears.

By using above-mentioned technical proposal, if one group of telescopic component is only arranged, every piece of limit plate only passes through a spiral shell The phenomenon that rasp bar supports, and may still occur shaking in framework transportational process, therefore two groups of the ipsilateral setting of limit plate is stretched Contracting component enhances and supports to stablizing for limit plate, guarantees the stabilization abutting relation of limit plate and detecting devices.

The utility model is further arranged to: the framework lateral wall opened up along rotating bar length direction it is fluted, it is described Groove and rotating bar are coaxially disposed；The rotating bar is coaxially arranged with limited block far from the side wall of limit plate, and the limited block is received It is contained in groove.

By using above-mentioned technical proposal, limited block is set far from one end of limit plate in rotating bar, so that driving rotation It is more convenient when bar；And groove is set on the outside of framework, and when so that threaded rod is mobile to detecting devices, limited block is always positioned at In groove, so that framework lateral wall still maintains smooth, the normal mounting of framework is not influenced.

The utility model is further arranged to: the limit plate is provided with cushion close to the side of detecting devices.

By using above-mentioned technical proposal, cushion reduce between detecting devices and limit plate it is direct abut, be conducive to Protect detecting devices injury-free.

In conclusion the utility model has the following beneficial effects:

First, by setting position-limit mechanism, so that detecting devices is limited between limit plate, to prevent detecting devices not It can be moved in installation cavity；

Second, by being arranged in limit plate two groups of telescopic components of ipsilateral setting, so that between limit plate and detecting devices It abuts more stable；

Third, realizing that the position-limit mechanism of detecting devices two sides can move synchronously by setting STATEMENT OF FEDERALLY SPONSORED, reduces detection and set The standby set-up time；

Fourth, realizing hiding for limited block by setting groove, preventing influence of the limited block to flatness on the outside of framework.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the prior art；

Fig. 2 is the cross-sectional view of embodiment；

Fig. 3 is the portion the A enlarged diagram of Fig. 2；

Fig. 4 is the structural schematic diagram of position-limit mechanism.

In figure: 1, framework；11, groove；2, installation cavity；3, position-limit mechanism；31, limit plate；32, telescopic component；321, spiral shell Rasp bar；322, first gear；323, rotation axis；324, second gear；325, STATEMENT OF FEDERALLY SPONSORED；326, rotating bar；4, limited block；5, delay Punching pad.

Specific embodiment

With reference to the accompanying drawings and examples, the utility model is described in detail.

Embodiment: a kind of benchmark framework 1 of Atmospheric Survey equipment, as in Figure 2-4, including framework 1, installation cavity 2, limit Mechanism 3；By the way that position-limit mechanism 3 is arranged, so that detecting devices is limited between limit plate 31, to prevent detecting devices will not be It is moved in installation cavity 2.

Installation cavity 2 is opened in framework 1 along 1 length direction of framework, and the cross section of installation cavity 2 is rectangle；Position-limit mechanism 3 is set It is equipped with two groups and is installed in installation cavity 2, be respectively arranged in the both ends of detecting devices；Position-limit mechanism 3 includes limit plate 31, stretches Component 32；Limit plate 31 is arranged along the length direction of installation cavity 2, and detecting devices is placed between limit plate 31, every piece of limit plate Two groups of telescopic components 32 are connected on 31；The top of limit plate 31 is provided with cambered surface, and the concave surface of cambered surface is downward；Limit plate 31 is close The end face of detecting devices is provided with cushion 5, and cushion 5 is made of rubber.

Telescopic component 32 includes threaded rod 321, first gear 322, STATEMENT OF FEDERALLY SPONSORED 325, rotating bar 326；Rotating bar 326 rotates Be connected to framework 1, threaded rod 321 and rotating bar 326 are coaxially disposed and are threadedly connected to rotating bar 326, rotating bar 326 it is separate One end of limit plate 31 is coaxially connected with limited block 4, and limited block 4 is regular hexagon；321 one end of threaded rod and limit plate 31 rotate Connection；Threadingly 321 length direction of bar opens up fluted 11 to the lateral wall of framework 1；Limited block 4 is finally accommodated in groove 11, And it is connected to the side wall of groove 11.

First gear 322 is coaxially disposed in rotating bar 326 and between limit plate 31 and framework 1；STATEMENT OF FEDERALLY SPONSORED 325 is wrapped Include rotation axis 323, second gear 324；Rotation axis 323 is rotationally connected with 1 inner sidewall of framework, and coaxial with second gear 324 Setting；Second gear 324 is provided with two pieces, is respectively arranged in 323 both ends of rotation axis；Second gear 324 engages ipsilateral simultaneously Two first gears 322, and two first gears 322 is driven to rotate in same direction.

The course of work: being placed in the center of installation cavity 2 for detecting devices, using tool rotary spacing block 4 and rotating bar 326, So that threaded rod 321 extends forward, and drive limit plate 31 mobile to detecting devices direction, while first gear 322 and second Gear 324 engages, and rotation is transferred to the other end by rotation axis 323, and drives first gear 322 to rotate simultaneously, and then make It is mobile to detecting devices simultaneously to obtain another piece of limit plate 31, is limited so that two pieces of limit plates 31 stablize detecting devices, it is anti- Only detecting devices is mobile.

The above is only the preferred embodiment of the utility model, and the protection scope of the utility model is not limited merely to Above-described embodiment, technical solution belonging to the idea of the present invention belong to the protection scope of the utility model.It should refer to Out, for those skilled in the art, it is without departing from the principle of the utility model it is several improvement and Retouching, these improvements and modifications also should be regarded as the protection scope of the utility model.

Claims (8)

1. a kind of benchmark framework of Atmospheric Survey equipment, including framework (1), installation cavity (2)；The installation cavity (2) is along framework (1) Length direction is opened in framework (1) and communicates with one end of framework (1), it is characterised in that: further includes being connected to installation cavity (2) And the position-limit mechanism (3) for limiting detecting devices, the position-limit mechanism (3) include the setting of right angle setting chamber (2) opening direction And be slidably connected in installation cavity (2) limit plate (31), be connected to framework (1) and driving limit plate (31) leaned on to detecting devices Closely to the telescopic component (32) for being connected to detecting devices.

2. a kind of benchmark framework of Atmospheric Survey equipment according to claim 1, it is characterised in that: the limit plate (31) It is provided with two groups and is located at installation cavity (2) both ends.

3. a kind of benchmark framework of Atmospheric Survey equipment according to claim 2, it is characterised in that: the limit plate (31) Towards installation cavity (2) opening one end and be arranged to cambered surface towards the side of detecting devices, the concave surface of the cambered surface towards framework (1) outside Side-lower.

4. a kind of benchmark framework of Atmospheric Survey equipment according to claim 3, it is characterised in that: the telescopic component It (32) include rotating bar (326), threaded rod (321)；The rotating bar (326) is rotationally connected with framework (1) and and threaded rod (321) connection is rotated coaxially；The threaded rod (321) is threadedly connected to rotating bar (326) and is connected to limit plate (31) direction The side of framework (1) outside.

5. a kind of benchmark framework of Atmospheric Survey equipment according to claim 4, it is characterised in that: further include driving two sides The STATEMENT OF FEDERALLY SPONSORED (325) that telescopic component (32) moves synchronously；The STATEMENT OF FEDERALLY SPONSORED (325) includes first gear (322), second gear (324), rotation axis (323)；The first gear (322) is coaxially fixed on rotating bar (326)；The second gear (324) It is arranged there are two and is engaged respectively with the first gear of two sides (322)；The rotation axis (323) is rotationally connected with framework (1).

6. a kind of benchmark framework of Atmospheric Survey equipment according to claim 5, it is characterised in that: position restrainer described in every group Structure (3) is provided with two groups of telescopic components (32)；The second gear (324) is engaged with two ipsilateral first gears (322).

7. a kind of benchmark framework of Atmospheric Survey equipment according to claim 6, it is characterised in that: the framework (1) is outside Side wall opens up fluted (11) along rotating bar (326) length direction, and the groove (11) and rotating bar (326) are coaxially disposed；Institute It states rotating bar (326) to be coaxially arranged with limited block (4) far from the side wall of limit plate (31), the limited block (4) is accommodated in groove (11) in.

8. a kind of benchmark framework of Atmospheric Survey equipment according to claim 1, it is characterised in that: the limit plate (31) Side close to detecting devices is provided with cushion (5).