CN219389138U - Instrument mounting rack - Google Patents

Abstract

The utility model discloses an instrument mounting rack, which comprises a base, wherein a mounting rod is vertically arranged on the base, a first equipment rack and a second equipment rack are respectively arranged on the mounting rod, and the second equipment rack is arranged at the top of the mounting rod; the first equipment rack is a shell-shaped rack body with a closed inner cavity, and the second equipment rack is provided with a sensor mounting rack; the base is provided with a fixing hole for fixing the base and a mounting groove for mounting the underground sensor. The instrument mounting frame provided by the utility model can not only meet the installation of control equipment, but also provide enough mounting positions for the components which need to be erected at different heights by providing mounting foundations on the base, the first equipment frame and the second equipment frame respectively, and provide convenience for the installation of geological monitors for erecting various and multiple components.

Description

Instrument mounting rack

Technical Field

The utility model relates to the technical field of mounting frames, in particular to an instrument mounting frame.

Background

Each monitoring instrument is installed through an instrument mounting frame when being installed, especially in the geological monitoring field, the monitoring instrument is often required to be arranged in the field, so that the mounting frame for being installed in the field is more important, in the prior art, a large number of mounting frames for installing the instrument are arranged, for example, technical schemes such as CN216590760U, CN216211467U and CN213745599U are disclosed, an installation foundation is provided for the monitoring instrument through a structural design, convenience in installation, stability in installation and the like can be realized to a certain extent, and certain defects still exist in the mounting frames:

in geological monitoring instruments, because of numerous items to be monitored, various sensors of different types are often provided, and regardless of the way of collecting data, probes of partial sensors are separated from a control device, for example, soil humidity monitoring, groundwater level monitoring and other underground monitoring items, the structures of the partial sensors are required to go deep underground, for example, inclination, wind and light monitoring, the structures of the partial sensors are required to be erected at high places, the installation frames provide installation bases for the control device, no installation bases are provided for component installation at different positions, and installation layout of the components still needs to be managed by an installer at will during actual installation, so that more inconvenience is brought.

Disclosure of Invention

In order to solve the defects in the prior art, the utility model provides the instrument mounting frame, and the instrument mounting frame can not only meet the mounting of control equipment, but also provide enough mounting positions for the components needing to be erected at different heights by providing mounting bases on the base, the first equipment frame and the second equipment frame respectively, thereby providing convenience for the mounting of geological monitors with various and multiple components.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides an instrument mounting rack, which comprises a base, wherein a mounting rod is vertically arranged on the base, a first equipment rack and a second equipment rack are respectively arranged on the mounting rod, and the second equipment rack is arranged at the top of the mounting rod;

the first equipment rack is a shell-shaped rack body with a closed inner cavity, and the second equipment rack is provided with a sensor mounting rack;

the base is provided with a fixing hole for fixing the base and a mounting groove for mounting the underground sensor.

When the instrument mounting frame is arranged, the base can be fixed on the ground through the fixing holes to realize integral fixation, in the installation process of the geological monitor, core components such as the control device and the power supply can be installed in the sealed inner cavity of the first equipment frame, the core components can be well protected, the sensor components which need to be arranged externally can be installed respectively, the instrument mounting frame can be installed on the second equipment frame for components which need to be arranged at high positions, and the installation grooves on the base can be used for installing components which need to be monitored underground.

The instrument mounting frame provided by the utility model can not only meet the installation of control equipment, but also provide enough mounting positions for the components which need to be erected at different heights by providing mounting foundations on the base, the first equipment frame and the second equipment frame respectively, and provide convenience for the installation of geological monitors for erecting various and multiple components.

In a further technical scheme, a solar panel mounting rack is further arranged on the second equipment rack.

Through setting up solar panel mounting bracket, conveniently set up solar panel, the monitor of being convenient for utilizes solar energy to supply electric quantity.

In a further technical scheme, an antenna frame is further arranged on the second equipment rack.

Part of monitoring instruments have wireless signal transmission function, conveniently lay the antenna through setting up the antenna frame.

In a further technical scheme, a reserved hole site for positioning and mounting is arranged on the second equipment rack.

The installation of each mounting bracket all can select according to actual conditions, and the mounting bracket that selects the needs during the installation installs on the second equipment frame can, can satisfy the installation of different demands, and the suitability is stronger.

In a further aspect, the sensor mount includes a shield with a vent.

Because the sensor mounting bracket sets up on the second equipment frame at installation pole top, field environment is abominable, and the security of sensor part is difficult to guarantee, protects the part of sensor through setting up the protection casing, can promote holistic security, the effect of guarantee monitoring.

In a further aspect, the fixing hole includes a vertical hole and an inclined hole.

The setting in vertical hole and slope hole, installer can install fixedly according to the flat hole site of ground with the slope selection when the installation, has promoted the base and has fixed effect in uneven field.

In a further technical scheme, the second equipment rack, the mounting groove and the mounting rod are respectively provided with a wiring groove for wiring.

Through seting up the wiring groove, can carry out the walking line through the wiring groove when the installation, it is better to the protection effect of circuit.

In a further technical scheme, the inside of the installation pole is provided with a wiring hole for wiring.

The wiring from the equipment to the installation rod is completed through the wiring groove, and the wiring inside the installation rod is completed through the wiring hole, so that the protection effect on the circuit is further improved.

In a further technical scheme, a reinforcing frame is arranged between the mounting rod and the base.

The setting of strengthening frame can strengthen the holistic stability of installation pole.

In a further technical scheme, the mounting groove and the fixing hole are respectively a sinking groove and a counter bore.

The mounting groove and the fixing hole are respectively arranged as the sinking groove and the counter bore, so that the surface of the base is flush, and the base is conveniently protected.

The beneficial effects are that:

1. the instrument mounting frame provided by the utility model can not only meet the installation of control equipment, but also provide enough mounting positions for the components which need to be erected at different heights by providing mounting foundations on the base, the first equipment frame and the second equipment frame respectively, and provide convenience for the installation of geological monitors for erecting various and multiple components.

2. Through setting up solar panel mounting bracket, conveniently set up solar panel, the monitor of being convenient for utilizes solar energy to supply electric quantity.

3. Part of monitoring instruments have wireless signal transmission function, conveniently lay the antenna through setting up the antenna frame.

4. The installation of each mounting bracket all can select according to actual conditions, and the mounting bracket that selects the needs during the installation installs on the second equipment frame can, can satisfy the installation of different demands, and the suitability is stronger.

5. Because the sensor mounting bracket sets up on the second equipment frame at installation pole top, field environment is abominable, and the security of sensor part is difficult to guarantee, protects the part of sensor through setting up the protection casing, can promote holistic security, the effect of guarantee monitoring.

6. The setting in vertical hole and slope hole, installer can install fixedly according to the flat hole site of ground with the slope selection when the installation, has promoted the base and has fixed effect in uneven field.

7. Through seting up the wiring groove, can carry out the walking line through the wiring groove when the installation, it is better to the protection effect of circuit.

8. The wiring from the equipment to the installation rod is completed through the wiring groove, and the wiring inside the installation rod is completed through the wiring hole, so that the protection effect on the circuit is further improved.

9. The setting of strengthening frame can strengthen the holistic stability of installation pole.

10. The mounting groove and the fixing hole are respectively arranged as the sinking groove and the counter bore, so that the surface of the base is flush, and the base is conveniently protected.

Drawings

FIG. 1 is a schematic view of the overall structure of an instrument mount according to an embodiment of the present utility model;

FIG. 2 is a schematic cross-sectional structural view of the base of an instrument mount according to an embodiment of the utility model.

Reference numerals:

10. a base; 11. a fixing hole; 12. a mounting groove; 20. a mounting rod; 21. a reinforcing frame; 22. wiring grooves; 30. a first equipment rack; 40. a second equipment rack; 41. a solar panel mounting rack; 42. a sensor mounting rack; 43. an antenna frame.

Detailed Description

The utility model is further described below with reference to the accompanying drawings:

examples:

an instrument mounting rack, as shown in fig. 1, comprises a base 10, wherein a mounting rod 20 is vertically arranged on the base 10, a first equipment rack 30 and a second equipment rack 40 are respectively arranged on the mounting rod 20, the second equipment rack 40 is arranged on the top of the mounting rod 20, and in the embodiment, the first equipment rack 30 is arranged in the middle of the mounting rod 20;

the first equipment rack 30 is a shell-shaped rack body with a closed inner cavity, the inner cavity of the shell-shaped rack body can be opened, and the second equipment rack 40 is provided with a sensor mounting rack 42;

as shown in fig. 2, the base 10 is provided with a fixing hole 11 for fixing the base 10 and a mounting groove 12 for mounting the underground sensor.

It will be appreciated that the mounting slots 12 and the fixing holes 11 may be provided in plural sets on the base 10, and are not limited to the two sets shown in fig. 2.

When the instrument mounting frame is arranged, the base 10 can be fixed on the ground through the fixing holes 11 to realize integral fixation, in the installation process of the geological monitor, core components such as a control device, a power supply and the like can be installed in the sealed inner cavity of the first equipment frame 30, the core components can be well protected, external sensor components are required to be installed respectively, the instrument mounting frame can be installed on the sensor mounting frame 42 of the second equipment frame 40 for components needing to be erected at high positions, and the mounting groove 12 on the base 10 can be used for installing components to be monitored underground.

It will be appreciated that the sensor mounting frame 42 may be used as a base for mounting a plurality of sensor components, or may be used as a base for mounting a single sensor component, and the number of sensor mounting frames 42 may be single or multiple, and the specific number may be set according to actual requirements, which is not limited herein.

It will be appreciated that the components to be monitored underground are mounted with the top secured in the mounting groove 12 and the bottom extending below the floor.

The instrument mounting frame of the utility model not only can meet the installation of control equipment, but also provides enough installation positions for the components which need to be erected at different heights by providing the installation foundation on the base 10, the first equipment frame 30 and the second equipment frame 40 respectively, thereby providing convenience for the installation of geological monitors for erecting various and multiple components.

In another embodiment, as shown in fig. 1, a solar panel mounting bracket 41 is further provided on the second equipment rack 40.

Through setting up solar panel mounting bracket 41, conveniently set up solar panel, the monitor of being convenient for utilizes solar energy to supply electric quantity.

In another embodiment, as shown in fig. 1, an antenna frame 43 is further disposed on the second equipment rack 40.

Part of the monitoring instruments have a wireless signal transmission function, and the antenna is conveniently distributed by arranging the antenna frame 43.

In another embodiment, as shown in fig. 1, a reserved hole site for positioning installation is provided on the second equipment rack 40.

In this embodiment, each mounting bracket all carries out detachable installation through reserving the hole site, and the installation of each mounting bracket all can select according to actual conditions, and the mounting bracket that selects the needs during the installation install on second equipment rack 40 can, can satisfy the installation of different demands, and the suitability is stronger.

In another embodiment, as shown in FIG. 1, the sensor mount 42 includes a shield with a vent.

Because the sensor mounting frame 42 is arranged on the second equipment frame 40 at the top of the mounting rod 20, the field environment is severe, the safety of the sensor components is difficult to ensure, the components of the sensor are protected by arranging the protective cover, the overall safety can be improved, and the monitoring effect is ensured.

The vent holes in fig. 1 are designed to be small and more, and it will be understood that, for example, for installation of a wind sensor, the vent holes should be large and less so as to facilitate ventilation of air, which will not be described in detail herein.

In another embodiment, as shown in fig. 2, the fixing hole 11 includes a vertical hole and an inclined hole.

In the present embodiment, as shown in fig. 2, the single set of fixing holes 11 includes one vertical hole and two inclined holes, and the inclination of the two inclined holes is different.

The setting in vertical hole and slope hole, installer can install fixedly according to the flat hole site of ground with the slope selection when the installation, has promoted the fixed effect in uneven field of base 10.

In another embodiment, as shown in fig. 2, the second equipment rack 40, the mounting groove 12 and the mounting bar 20 are respectively provided with a wiring groove 22 for wiring.

By arranging the wiring groove 22, the wiring can be carried out through the wiring groove 22 during installation, and the protection effect on the circuit is better.

In another embodiment, the interior of the mounting bar 20 is provided with routing holes for routing wires.

The wiring groove 22 leads to the installation pole 20, accomplishes the wiring of equipment to the installation pole 20 through the wiring groove 22, and the inside wiring of installation pole 20 is accomplished to the rethread wiring hole, has further promoted the protection effect to the circuit.

In another embodiment, as shown in fig. 1, a reinforcing frame 21 is provided between the mounting bar 20 and the base 10.

The provision of the reinforcing frame 21 can enhance the stability of the entire mounting rod 20.

In another embodiment, as shown in fig. 2, the mounting groove 12 and the fixing hole 11 are a countersink and a counter bore, respectively.

The mounting groove 12 and the fixing hole 11 are respectively arranged as a sinking groove and a counter bore, so that the surface of the base 10 is flush, and the base is conveniently protected.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims.

Claims (10)

1. The instrument mounting rack is characterized by comprising a base, wherein a mounting rod is vertically arranged on the base, a first equipment rack and a second equipment rack are respectively arranged on the mounting rod, and the second equipment rack is arranged at the top of the mounting rod;

the first equipment rack is a shell-shaped rack body with a closed inner cavity, and the second equipment rack is provided with a sensor mounting rack;

the base is provided with a fixing hole for fixing the base and a mounting groove for mounting the underground sensor.

2. The instrument mount of claim 1, wherein the second equipment rack further has a solar panel mount disposed thereon.

3. The instrument mount of claim 1 or 2, wherein the second equipment rack is further provided with an antenna mount.

4. The instrument mount of claim 1, wherein the second equipment rack is provided with reserved holes for locating the mounting.

5. The instrument mount of claim 1, wherein the sensor mount comprises a protective cover with vent holes.

6. The instrument mount of claim 1, wherein the securing holes comprise vertical holes and angled holes.

7. The instrument mount of claim 1, wherein the second equipment rack, the mounting slot, and the mounting bar are each provided with a wiring slot for wiring.

8. The instrument mount of claim 7, wherein the interior of the mounting bar is provided with routing holes for routing.

9. The instrument mount of claim 1, wherein a stiffener is disposed between the mounting bar and the base.

10. The instrument mount of claim 1, wherein the mounting slot and the securing hole are a countersink and a counter bore, respectively.