CN218720092U - Laser measuring instrument tripod capable of adjusting angle at will - Google Patents

Abstract

The utility model discloses a but angle regulation's laser surveying instrument tripod wantonly, including shank supporting mechanism and cloud platform mechanism, cloud platform mechanism passes through the lifter and connects in shank supporting mechanism, and is located shank supporting mechanism's top, and cloud platform mechanism has the coupling mechanism who is connected with laser surveying instrument, and cloud platform mechanism includes cloud platform seat and sphere cloud platform, and the cloud platform seat inlays magnetic element, and the sphere cloud platform is the metal material, and cloud platform seat and magnetic element form a spherical surface matched with sphere recess with the sphere cloud platform jointly. This laser measuring instrument tripod can provide simple and convenient laser measuring instrument angle modulation more, and can adjust to arbitrary direction, has effectively promoted user experience and has felt.

Description

Laser measuring instrument tripod capable of adjusting angle at will

Technical Field

The utility model relates to a laser surveying instrument's annex and tripod field especially relate to a but angle regulation's laser surveying instrument tripod wantonly.

Background

Laser measuring instruments are common tools in decoration and decoration projects and daily life of people, and the laser instruments are various in types, including laser levels, laser range finders, laser line projectors and the like. When the laser measuring instruments are used, the laser measuring instruments are often provided with tripods or other supporting devices and are arranged on the supporting devices, so that measuring errors caused by shaking, shaking and the like of the laser measuring instruments can be effectively avoided.

As shown in fig. 1, the conventional tripod generally includes two parts, namely, a leg support 1 'and a tripod head 2', wherein the tripod head 2 'is mounted on the leg support 1', and the laser measuring instrument is mounted on the tripod head 2', so that when the angle of the laser measuring instrument needs to be adjusted, the adjustment is realized by adjusting the tripod head 2'. Specifically, the pan/tilt head 2' can be adjusted in the directions of the X-axis, Y-axis, and Z-axis, but the adjustment in these 3 directions is independent of each other, and is adjusted by 3 mechanisms, respectively. As shown in the figure, the knob B is used for controlling and adjusting the rotation of the pan/tilt head 2' along the X-axis direction, the knob C is used for controlling and adjusting the rotation of the pan/tilt head 2' along the Z-axis direction, and the crank a is used for controlling and adjusting the rotation of the pan/tilt head 2' along the Y-axis direction. Therefore, when the user adjusts the angle of the laser measuring instrument, a plurality of operations need to be implemented to coordinate and can be adjusted to an ideal angle, the operation is complex, the adjusting speed is low, the use is inconvenient, and the knob is repeatedly tightened, so that the parts are repeatedly rubbed, the parts are easily failed, and the service life is shortened.

Disclosure of Invention

For solving the not enough of prior art existence, the utility model provides a but angle regulation's laser surveying appearance tripod wantonly, its regulation easy operation, time spent are short, and can angle regulation wantonly.

In order to realize the above object, the utility model discloses a but angle regulation's laser surveying appearance tripod wantonly, including shank supporting mechanism and cloud platform mechanism, cloud platform mechanism passes through the lifter and connects in shank supporting mechanism, and is located shank supporting mechanism's top, and cloud platform mechanism has the coupling mechanism who is connected with laser surveying appearance, and cloud platform mechanism includes cloud platform seat and sphere cloud platform, and the cloud platform seat inlays magnetic element, and the sphere cloud platform is the metal material, and cloud platform seat and magnetic element form one jointly with the sphere surface matched with sphere recess of sphere cloud platform.

In one embodiment, under the condition of no external force, the spherical tripod head is fixed in position relative to the tripod head under the action of the attraction force of the magnetic element; under the condition that external force is applied, the spherical holder can slide relative to the spherical groove.

In one embodiment, the cloud platform is provided with a containing groove downwards from the upper surface of the cloud platform, the containing groove is used for containing a magnetic element, the magnetic element is fixedly arranged in the containing groove, and the upper surface of the magnetic element is lower than the upper surface of the cloud platform.

In one embodiment, the surface area of the spherical recess is smaller than the surface area of the spherical outer surface of the spherical pan and tilt head.

In one embodiment, the upper surface of the spherical head protrudes above the upper surface of the cloud platform.

In one embodiment, the connecting mechanism is a bolt fixed on the spherical pan-tilt head, and the laser measuring instrument is provided with a threaded hole matched with the bolt.

In one embodiment, the leg support mechanism includes 3 support legs, a support bar, and 3 hinge rods, the support bar being connected to the 3 support legs through the 3 hinge rods, respectively.

In one embodiment, the lifting rod is connected to the support rod and is capable of moving up and down relative to the support rod.

Has the advantages that:

the utility model discloses a laser surveying instrument tripod improves traditional cloud platform, designs the cloud platform into two parts of mutually supporting from top to bottom, sets up the sphere recess on the cloud platform seat below, designs the part above as the sphere cloud platform for cloud platform seat and sphere cloud platform pass through the sphere shape and mutually support; moreover, the magnetic element is arranged on the cloud platform base, the spherical cloud platform is made of metal materials which can be adsorbed by the magnetic element, and the positions of the spherical cloud platform and the laser measuring instrument arranged on the spherical cloud platform are fixed by utilizing the adsorption force of the magnetic element, so that the laser measuring instrument tripod of the utility model ensures that a user only needs one operation when adjusting the angle of the laser measuring instrument, namely, applying force to the spherical cloud platform and rotating the spherical cloud platform towards the required angle, the angle adjustment is simple and convenient, the adjustment can be carried out towards any direction of X, Y and Z, and the position fixation after the adjustment is simpler; additionally, the utility model discloses a cloud platform mechanism of laser surveying appearance tripod is simpler, low in manufacturing cost.

Drawings

The invention will be further described and illustrated with reference to the accompanying drawings.

FIG. 1 is a schematic view of a prior art laser survey tripod.

Fig. 2 is a schematic perspective view of the laser measuring instrument tripod capable of adjusting the angle at will according to the present invention.

FIG. 3 is another schematic view of the laser gauge tripod of FIG. 2 with the laser gauge removed.

Figure 4 is a partial cross-sectional view of the laser gauge tripod of figure 3 taken along the longitudinal direction.

Figure 5 is a partial cross-sectional view of the laser gauge tripod of figure 3 taken in a transverse direction.

Reference numerals:

100. a laser survey meter tripod; 1. a leg support mechanism; 2. a holder mechanism; 3. a lifting rod; 4. a laser measuring instrument; 5. a connecting mechanism; 6. a magnetic element; 7. a lifting control rod; 11. supporting legs; 12. a support bar; 13. a hinge rod; 21. a cloud pedestal; 22. a spherical pan-tilt; 210. a spherical groove; 220. a spherical outer surface; 211. accommodating the recess.

Detailed Description

The technical solutions of the present invention will be more clearly and completely explained below through the description of the preferred embodiments of the present invention with reference to the accompanying drawings.

The utility model provides a but angle regulation's laser surveying appearance tripod wantonly, including shank supporting mechanism and cloud platform mechanism, cloud platform mechanism passes through the lifter and connects in shank supporting mechanism, and is located shank supporting mechanism's top, and cloud platform mechanism has the coupling mechanism who is connected with laser surveying appearance, and cloud platform mechanism includes cloud platform seat and sphere cloud platform, and the cloud platform seat inlays magnetic element, and the sphere cloud platform is the metal material, and cloud platform seat and magnetic element form a spherical surface matched with sphere recess with the sphere cloud platform jointly.

Above-mentioned the utility model discloses a laser surveying appearance tripod improves traditional tripod, especially improves the cloud platform part of tripod, designs traditional cloud platform for the two parts of mutually supporting, cloud platform seat and sphere cloud platform promptly, cooperate through the sphere between the two to, set up magnetic element in cloud platform seat, and adopt the metal material to make the sphere cloud platform, like this, but through the swing joint of magnetic element realization sphere cloud platform and cloud platform seat to the absorption of sphere cloud platform. Under the condition of no external force, the positions of the magnetic element and the spherical holder are relatively fixed by the adsorption force of the magnetic element to the spherical holder; when external force is applied to the spherical pan-tilt, the external force overcomes the adsorption force, and the spherical pan-tilt can slide relative to the cloud pedestal through spherical matching, so that the aim of adjusting the spherical pan-tilt, namely adjusting the angle of the laser measuring instrument arranged on the spherical pan-tilt is fulfilled. Because the spherical tripod head is in spherical fit with the tripod seat, the user can adjust the angles in the X direction, the Y direction and the Z direction only by sliding the spherical tripod head, and can adjust the angles at will, and the adjusting operation is simpler and more convenient than the existing tripod and takes shorter time.

As shown in fig. 2 to 5, in a preferred embodiment, the laser surveying instrument tripod 100 capable of arbitrarily adjusting the angle comprises a leg support mechanism 1 and a tripod head mechanism 2, wherein the tripod head mechanism 2 is connected to the leg support mechanism 1 through a lifting rod 3 and is located above the leg support mechanism 1, and the tripod head mechanism 2 is provided with a connecting mechanism 5 connected with a laser surveying instrument 4. The holder mechanism 2 includes a cloud platform base 21 and a spherical holder 22, the magnetic element 6 is embedded in the cloud platform base 21, the spherical holder 22 is made of metal, and the cloud platform base 21 and the magnetic element 6 jointly form a spherical groove 210 matched with a spherical outer surface 220 of the spherical holder 22.

Specifically, as shown in fig. 2 and 3, the laser measuring instrument 4 is mounted on the top of the tripod 100, and further, on the head mechanism 2, the head mechanism 2 has a connecting mechanism 5 for connecting the laser measuring instrument 4, and the connecting mechanism 5 is located on the spherical head 22. In the present embodiment, the connecting mechanism 5 is a bolt fixed on the spherical pan/tilt 22, the bolt extends upward from the spherical pan/tilt 22, and correspondingly, a threaded hole matched with the thread is provided on the laser measuring instrument 4, so that the laser measuring instrument 4 is fixedly installed on the spherical pan/tilt 22 through the matching of the bolt and the threaded hole.

As shown in fig. 4, the cloud base 21 is opened with a receiving groove 211 for receiving the magnetic element 6 from the upper surface downward, and the magnetic element 6 is fixedly disposed in the receiving groove 211, wherein the fixing means may be gluing, screwing or other suitable fixing means. As shown in fig. 5, preferably, the magnetic member 6 is cylindrical, and accordingly, the accommodation groove 211 is a cylindrical groove, and the magnetic member 6, the accommodation groove 211 and the cloud base 21 are coaxially arranged. When the magnetic member 6 is mounted in the accommodation groove 211, the upper surface of the magnetic member 6 is lower than the upper surface of the cloud base 21. The cloud platform base 21 has a spherical recess 210 formed therein for fitting with a spherical outer surface 220 of the spherical platform 22, the spherical recess 210 is formed by the cloud platform base 21 and the magnetic element 6 mounted thereon, specifically, the spherical recess 210 extends from the upper surface of the cloud platform base 21 to the magnetic element 6, that is, a part of the arc surface of the spherical recess 210 is located on the cloud platform base 21, and another part of the smaller spherical surface is located on the magnetic element 6, and the arc surface and the smaller spherical surface form the spherical recess 210.

The lower surface of the spherical pan/tilt 22 is a spherical outer surface 220, and the upper surface is a plane. The surface area of the spherical outer surface 220 of the spherical pan/tilt 22 is larger than that of the spherical groove 210, so that when the spherical outer surface 220 of the spherical pan/tilt 22 is fitted into the spherical groove 210, that is, when the spherical pan/tilt 22 is seated on the cloud base 21, the upper surface of the spherical pan/tilt 22 protrudes from the upper surface of the cloud base 21. Such arrangement facilitates the user to perform the sliding operation of the spherical pan/tilt 22 with respect to the pan/tilt base 21, whereas if the surface area of the spherical outer surface 220 of the spherical pan/tilt 22 is not larger than the surface area of the spherical groove 210, a situation may occur in which the spherical pan/tilt 22 is sunk into the spherical groove 210, so that the user experience may be reduced.

As shown in FIGS. 1 and 2, the leg support mechanism 1 includes 3 support legs 11, a support bar 12 and 3 hinge rods 13, the 3 support legs 11 are arranged in the circumferential direction, the support bar 12 is located at the center of the circle surrounded by the 3 support legs 11, and is connected to the 3 support legs 11 through the 3 hinge rods 13, respectively. The lifting rod 3 is connected to the upper end of the support rod 12 and can move up and down relative to the support rod 12, the up and down movement is controlled by the lifting control handle 7, and the power transmission from the lifting control handle 7 to the lifting rod 3 can adopt a gear rack mechanism or a worm and gear mechanism, which is a common technique in the field and will not be described in detail herein. Based on the design of the leg support mechanism 11 and the lifting rod 3, the heights of the holder mechanism 2 and the laser measuring instrument 4 mounted on the top of the lifting rod can be adjusted.

The working principle of the laser measuring instrument tripod is as follows:

in the case where no external force is applied, since the magnetic element 6 on the cloud base 21 has an attractive force to the spherical pan/tilt 22 made of a metal material, the position of the spherical pan/tilt 22 with respect to the cloud base 21 is fixed, and the laser measuring instrument 4 mounted on the spherical pan/tilt 22 is also at a fixed position; when the angle of the laser measuring instrument 4 needs to be adjusted, the user applies force to the spherical pan/tilt 22 to overcome the attraction force of the magnetic element 6, at this time, the spherical pan/tilt 22 can move relative to the cloud base 21, under the cooperation of the spherical groove 220 and the spherical outer surface 210, the spherical pan/tilt 22 can slide in 3 directions of X, Y and Z relative to the cloud base 21, when the laser measuring instrument 4 is adjusted to a required angle, the user releases the spherical pan/tilt 22, and under the attraction force of the magnetic element 6, the spherical pan/tilt 22 and the laser measuring instrument 4 are fixed. Therefore, through the utility model discloses a laser measuring instrument tripod, the user only needs an operation can adjust laser measuring instrument at 3 ascending angles of side wantonly, operates simpler, consuming time shorter to, the structure of cloud platform mechanism is compared in traditional cloud platform simpler, and manufacturing cost is lower.

The above detailed description merely describes the preferred embodiments of the present invention and does not limit the scope of the present invention. Without departing from the design concept and spirit scope of the present invention, the ordinary skilled in the art should belong to the protection scope of the present invention according to the present invention provides the text description and drawings to the various modifications, replacements and improvements made by the technical solution of the present invention. The scope of protection of the present invention is determined by the claims.

Claims (8)

1. The utility model provides a but angle regulation's laser surveying appearance tripod wantonly, includes shank supporting mechanism and cloud platform mechanism, cloud platform mechanism pass through the lifter connect in shank supporting mechanism, and be located shank supporting mechanism's top, cloud platform mechanism have with the coupling mechanism that laser surveying appearance connects, a serial communication port, cloud platform mechanism includes cloud platform seat and sphere cloud platform, magnetic element has been inlayed to the cloud platform seat, the sphere cloud platform is the metal material, cloud platform seat and magnetic element form one jointly with the spherical surface matched with sphere recess of sphere cloud platform.

2. The optionally adjustable angle laser surveying instrument tripod of claim 1, wherein said spherical head is positionally fixed relative to said head seat by the attraction of said magnetic element in the absence of an external force; under the condition that external force is applied, the spherical holder can slide relative to the spherical groove.

3. A laser surveying instrument tripod according to claim 2, wherein said cloud base is downwardly open from an upper surface thereof with a receiving recess for receiving said magnetic element, said magnetic element being fixedly disposed within said receiving recess, and an upper surface of said magnetic element being lower than an upper surface of said cloud base.

4. A laser surveying instrument tripod according to claim 3, wherein the surface area of said spherical recess is less than the surface area of the spherical outer surface of said spherical head.

5. A laser surveying instrument tripod according to claim 4, wherein the upper surface of the spherical head protrudes from the upper surface of the cloud platform.

6. A laser measuring instrument tripod according to claim 1, wherein said connection means is a bolt fixed to said spherical pan head, and said laser measuring instrument has a threaded hole for engaging said bolt.

7. A laser surveying instrument tripod according to claim 1, wherein said leg support means comprises 3 support legs, a support bar and 3 hinge rods, said support bar being connected to said 3 support legs via said 3 hinge rods, respectively.

8. A laser surveying instrument tripod according to claim 7, wherein said lifting rod is connected to said support rod and is displaceable up and down relative to said support rod.

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