CN214066053U - Energy-saving engineering detection equipment - Google Patents

Abstract

The utility model discloses an energy-saving engineering check out test set, including the surveyor's level body, the surveyor's level body includes measuring device, measuring device's lateral wall is equipped with objective adjust knob, eyepiece adjust knob and two installation pieces, two the installation piece respectively with objective adjust knob and eyepiece adjust knob phase-match, two all be equipped with first servo motor in the installation piece, first servo motor's output shaft respectively with objective adjust knob, eyepiece adjust knob fixed connection, measuring device's lower extreme lateral wall passes through horizontal adjuster fixedly connected with fixing base, be equipped with second servo motor in the fixing base. The utility model discloses can carry out the electrical control to the surveyor's level, avoid the lower condition of artifical manual regulation degree of accuracy to appear, ensure the accuracy of final detection structure, the surveyor's level is used in open air at most simultaneously, uses solar panel can realize the automatic replenishment of electric energy basically, the energy saving.

Description

Energy-saving engineering detection equipment

Technical Field

The utility model relates to an engineering check out test set technical field especially relates to an energy-saving engineering check out test set.

Background

The engineering detection equipment is of various types, including a level, a total station, a wireless ultrasonic detector, an ultrasonic flaw detector and the like, wherein the level is used for establishing a horizontal sight line to measure the height difference between two points on the ground. The principle is to measure the height difference between ground points according to the leveling principle.

Among the prior art, the surveyor's level is all through manual regulation in the use, adjusts structures such as objective, eyepiece, often can appear adjusting inaccurate condition and appear, and manual regulation's precision is lower moreover, influences final detection structure very easily.

To this end, we propose an energy-saving engineering inspection apparatus to solve the above problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving among the prior art surveyor's level and all being through manual regulation in the use, to objective, eyepiece isotructure is adjusted, often can appear adjusting the unsafe condition and appear, and manual regulation's precision is lower moreover, influences the problem of final detection structure very easily, and the energy-saving engineering check out test set that proposes.

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

an energy-saving engineering detection device comprises a level body, wherein the level body comprises a measuring device, the side wall of the measuring device is provided with an objective lens adjusting knob, an eyepiece lens adjusting knob and two mounting blocks, the two mounting blocks are respectively matched with the objective lens adjusting knob and the eyepiece lens adjusting knob, a first servo motor is arranged in each of the two mounting blocks, the output shaft of the first servo motor is respectively and fixedly connected with the objective lens adjusting knob and the eyepiece lens adjusting knob, the side wall of the lower end of the measuring device is fixedly connected with a fixed seat through a horizontal regulator, a second servo motor is arranged in the fixed seat, the output shaft of the second servo motor is fixedly connected with a horizontal regulator, the side wall of the fixed seat is fixedly connected with a controller, the side wall of the lower end of the fixed seat is fixedly connected with a mounting seat, and a voltage-stabilizing storage battery is arranged in the mounting seat, the lateral wall of mount pad rotates and is connected with a plurality of telescopic support leg, and is a plurality of telescopic support leg's lateral wall all is equipped with solar panel.

Preferably, the side walls of the plurality of telescopic supporting legs are fixedly connected with a first mounting groove and a second mounting groove which are fixedly connected, the side wall of the first mounting groove is rotatably connected with the solar panel through a rotating shaft, the inner wall of the first mounting groove is fixedly connected with a double-shaft motor, two output shafts of the double-shaft motor are fixedly connected with a first helical gear, two threaded rods are rotatably connected between the inner walls of the two sides of the second mounting groove, the two threaded rods penetrate through the side walls of the first mounting groove and the second mounting groove, the two threaded rods are rotatably connected with the connecting part of the side walls of the first mounting groove and the second mounting groove in a sealing manner, one ends of the two threaded rods, which are far away from the second mounting groove, are rotatably connected with the inner wall of the first mounting groove, and the two threaded rods are respectively sleeved with a second helical gear matched with the first helical gear, two all be equipped with the nut rather than matching on the threaded rod, two fixedly connected with dysmorphism sliding block between the nut, the inner wall fixedly connected with of second mounting groove and the special-shaped slope slide that the special-shaped sliding block matches, the strip opening that matches with special-shaped sliding block is seted up to the upper end lateral wall of second mounting groove.

Preferably, the rotation angle of the solar panel is less than ninety degrees, and the highest position of the rotation of the solar panel and the rotation shaft are in the same horizontal line.

Preferably, a plurality of solar panels all are connected with steady voltage battery electricity, steady voltage battery passes through the controller and is connected with first servo motor, second servo motor and biax motor electricity.

Preferably, the length of the special-shaped inclined sliding plate is smaller than that of the second mounting groove, and the thickest end of the special-shaped inclined sliding plate is close to the first mounting groove.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the solar panel, the voltage-stabilizing storage battery, the first servo motor, the second servo motor, the controller and other structures are matched, so that the level can be electrically adjusted, the situation that the accuracy of manual adjustment is low is avoided, the accuracy of a final detection structure is ensured, meanwhile, most of the levels are used outdoors, the solar panel can basically realize automatic supplement of electric energy, and energy is saved;

2. through the cooperation of structures such as biax motor, threaded rod, nut, dysmorphism sliding block, can adjust solar panel's inclination for solar panel furthest's acceptance sun illumination ensures the sufficient of the supply of energy.

Drawings

Fig. 1 is a schematic front structural diagram of an energy-saving engineering inspection apparatus provided by the present invention;

FIG. 2 is a schematic top view of the first and second mounting slots;

fig. 3 is a schematic structural diagram at a in fig. 1.

In the figure: the device comprises a measuring device 1, an objective lens adjusting knob 2, a first servo motor 3, a second servo motor 4, a fixed seat 5, a voltage stabilizing storage battery 6, a telescopic supporting leg 7, an eyepiece adjusting knob 8, a mounting block 9, a controller 10, a mounting seat 11, a double-shaft motor 12, a first mounting groove 13, a first bevel gear 14, a second mounting groove 15, a nut 16, a special-shaped sliding block 17, a threaded rod 18, a second bevel gear 19, a special-shaped inclined sliding plate 20, a solar panel 21 and a rotating shaft 22.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1-3, an energy-saving engineering detection device comprises a level body, the level body comprises a measuring device 1, the side wall of the measuring device 1 is provided with an objective lens adjusting knob 2, an eyepiece adjusting knob 8 and two mounting blocks 9, the two mounting blocks 9 are respectively matched with the objective lens adjusting knob 2 and the eyepiece adjusting knob 8, a first servo motor 3 is arranged in each of the two mounting blocks 9, the output shaft of the first servo motor 3 is respectively fixedly connected with the objective lens adjusting knob 2 and the eyepiece adjusting knob 8, the lower end side wall of the measuring device 1 is fixedly connected with a fixed seat 5 through a horizontal regulator, a second servo motor 4 is arranged in the fixed seat 5, the output shaft of the second servo motor 4 is fixedly connected with a horizontal regulator, the side wall of the fixed seat 5 is fixedly connected with a controller 10, the lower end side wall of the fixed seat 5 is fixedly connected with a mounting seat 11, and a voltage stabilizing storage battery 6 is arranged in the mounting seat 11, the side wall of the mounting seat 11 is rotatably connected with a plurality of telescopic supporting legs 7, the side walls of the telescopic supporting legs 7 are respectively provided with a solar panel 21, the side walls of the telescopic supporting legs 7 are respectively fixedly connected with a first mounting groove 13 and a second mounting groove 15, the first mounting groove 13 and the second mounting groove 15 are fixedly connected, and the side wall of the first mounting groove 13 is rotatably connected with the solar panel 21 through a rotating shaft 22;

a double-shaft motor 12 is fixedly connected to the inner wall of the first mounting groove 13, two output shafts of the double-shaft motor 12 are fixedly connected with a first helical gear 14, two threaded rods 18 are rotatably connected between the inner walls of the two sides of the second mounting groove 15, the two threaded rods 18 penetrate through the side walls of the first mounting groove 13 and the second mounting groove 15, the joints of the two threaded rods 18 and the side walls of the first mounting groove 13 and the second mounting groove 15 are in sealed and rotatable connection, one ends of the two threaded rods 18 far away from the second mounting groove 15 are rotatably connected with the inner wall of the first mounting groove 13, second helical gears 19 matched with the first helical gear 14 are sleeved on the two threaded rods 18, nuts 16 matched with the two threaded rods 18 are arranged on the two threaded rods 18, a special-shaped sliding block 17 is fixedly connected between the two nuts 16, a special-shaped inclined sliding block 20 matched with the special-shaped sliding block 17 is fixedly connected to the inner wall of the second mounting groove 15, and a strip-shaped opening matched with the special-shaped sliding block 17 is arranged on the side wall of the upper end of the second mounting groove 15, solar panel 21 turned angle is less than ninety degrees, solar panel 21 pivoted highest position is in same water flat line with pivot 22, ensure that solar panel 21 can accept under sufficient irradiant prerequisite, avoid solar panel 21 to produce the interference to measurement, a plurality of solar panel 21 all are connected with steady voltage battery 6 electricity, steady voltage battery 6 passes through controller 10 and first servo motor 3, second servo motor 4 and biax motor 12 electricity are connected, can be more accurate to the objective through controller 10, eyepiece and turned angle adjust, the length of dysmorphism slope slide 20 is less than the length of second mounting groove 15, the thickest one end of dysmorphism slope slide 20 is close to first mounting groove 13, ensure that solar panel 21 can furthest's acceptance illumination.

The utility model discloses at the during operation, solar panel 21 receives the illumination, in converting light energy into electric energy storage restabilize the voltage battery 6, the voltage battery 6 controls first servo motor 3, second servo motor 4 and biax motor 12 through controller 10, first servo motor 3 is through controlling objective adjust knob 2 and eyepiece adjust knob 8, measure the target object, second servo motor 4 controls the rotation of the angle of measuring device 1, measure a plurality of target objects, can carry out the electronic regulation to the spirit level, avoid the condition that artifical manual regulation degree of accuracy is lower to appear, ensure the accuracy of final detection structure, simultaneously the spirit level is used mostly in the open air, use solar panel 21 can realize the automatic replenishment of electric energy basically, the energy saving, biax motor 12 drives second helical gear 19 through first helical gear 14 and rotates, second helical gear 19 drives nut 16 through threaded rod 18 and moves, the nut 16 pushes the solar panel 21 to rotate through the special-shaped sliding block 17, and the inclination angle of the solar panel 21 can be adjusted, so that the solar panel 21 receives solar illumination to the maximum extent, and the sufficient supply of energy is ensured.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (5)

1. An energy-saving engineering detection device comprises a level body and is characterized in that the level body comprises a measuring device (1), the side wall of the measuring device (1) is provided with an objective lens adjusting knob (2), an eyepiece adjusting knob (8) and two installation blocks (9), the two installation blocks (9) are respectively matched with the objective lens adjusting knob (2) and the eyepiece adjusting knob (8), the two installation blocks (9) are internally provided with a first servo motor (3), the output shaft of the first servo motor (3) is respectively fixedly connected with the objective lens adjusting knob (2) and the eyepiece adjusting knob (8), the lower end side wall of the measuring device (1) is fixedly connected with a fixing seat (5) through a level adjuster, a second servo motor (4) is arranged in the fixing seat (5), the output shaft of the second servo motor (4) is fixedly connected with a level adjuster, the solar photovoltaic power generation device is characterized in that a controller (10) is fixedly connected to the side wall of the fixing seat (5), a mounting seat (11) is fixedly connected to the side wall of the lower end of the fixing seat (5), a voltage stabilizing storage battery (6) is arranged in the mounting seat (11), the side wall of the mounting seat (11) is rotatably connected with a plurality of telescopic supporting legs (7), and the side wall of each telescopic supporting leg (7) is provided with a solar panel (21).

2. The energy-saving type engineering detection equipment according to claim 1, wherein the side walls of the plurality of telescopic support legs (7) are fixedly connected with a first installation groove (13) and a second installation groove (15), the first installation groove (13) and the second installation groove (15) are fixedly connected, the side wall of the first installation groove (13) is rotatably connected with a solar panel (21) through a rotating shaft (22), the inner wall of the first installation groove (13) is fixedly connected with a double-shaft motor (12), two output shafts of the double-shaft motor (12) are fixedly connected with a first helical gear (14), two threaded rods (18) are rotatably connected between the inner walls of the two sides of the second installation groove (15), the two threaded rods (18) penetrate through the side walls of the first installation groove (13) and the second installation groove (15), and the two threaded rods (18) are rotatably connected with the joint of the side walls of the first installation groove (13) and the second installation groove (15) in a sealing manner, two the one end and the first mounting groove (13) inner wall rotation that second mounting groove (15) were kept away from in threaded rod (18) are connected, two all the cover is equipped with second helical gear (19) rather than the matching with first helical gear (14) on threaded rod (18), two all be equipped with nut (16) rather than the matching on threaded rod (18), two fixedly connected with dysmorphism sliding block (17) between nut (16), the special-shaped inclined sliding plate (20) that the inner wall fixedly connected with and the special-shaped sliding block (17) of second mounting groove (15) match, the strip opening that matches with special-shaped sliding block (17) is seted up to the upper end lateral wall of second mounting groove (15).

3. The energy-saving engineering detection device according to claim 2, wherein the solar panel (21) rotates by less than ninety degrees, and the highest position of rotation of the solar panel (21) is in the same horizontal line with the rotation shaft (22).

4. The energy-saving type engineering detection device according to claim 2, characterized in that a plurality of solar panels (21) are electrically connected with a voltage-stabilizing storage battery (6), and the voltage-stabilizing storage battery (6) is electrically connected with the first servo motor (3), the second servo motor (4) and the double-shaft motor (12) through a controller (10).

5. An energy-saving type engineering detection device according to claim 2, characterized in that the length of the special-shaped inclined sliding plate (20) is less than that of the second installation groove (15), and the thickest end of the special-shaped inclined sliding plate (20) is close to the first installation groove (13).

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