CN205940327U

CN205940327U - Geological engineering angular instrument

Info

Publication number: CN205940327U
Application number: CN201620961039.4U
Authority: CN
Inventors: 陈健行
Original assignee: Individual
Current assignee: Individual
Priority date: 2016-08-28
Filing date: 2016-08-28
Publication date: 2017-02-08
Anticipated expiration: 2026-08-28

Abstract

The utility model relates to a mineral engineering equipment technical field, especially, geological engineering angular instrument, rotatory holder top is provided with first measuring tape and second measuring tape, the bottom of first measuring tape and the left end of second measuring tape all with rotatory holder swing joint, the top of first measuring tape and the right -hand member of second measuring tape all are provided with the laser alignment appearance, the equal fixedly connected with spirit level in first measuring tape bottom surface middle part and second measuring tape right side wall middle part, the nearly left end fixedly connected with angulation chi of first measuring tape upper surface, angulation upper part of cunkou pulse portion sets up the spout that runs through, the second measuring tape openly corresponds the smooth bolt of spout fixedly connected with, the inside tape measure that is provided with of base, the base upper surface is located the roating seat outside and is provided with the compass. The utility model discloses a geological engineering angular instrument has realized through setting up devices such as first measuring tape, second measuring tape, roating seat, rotatory holder that the angular instrument conveniently carries, easy operation's function, and convenient to use person carries out surveying work.

Description

A kind of Geological Engineering clinometer

Technical field

This utility model is related to Mineral Engineering equipment technical field, especially a kind of Geological Engineering clinometer.

Background technology

Geological Engineering field is with natural science and geoscience as theoretical basiss, with geologic survey, mineral resources general Look into and explore, engineering problem that the geologic structure of Important Project and geologic setting are related to is main object, with geology, earth thing Reason and geochemical techniques, Application of Mathematical Geology Methods, remote sensing technology, measuring technology, computer technology etc. are means, are national economy Build the guiding engineering field of service.Big geological problem in the development of the national economy, required all kinds of mineral resources, water resource It is condition and the basis of social stability sustainable development with environmental problem etc..Geological Engineering field exactly carries out science for this purpose Research, engineering construction and personnel training.Geological Engineering industry service is in extensive range, technological means variation, from aerial, ground, , to ocean, various method and technologies cooperate, Cross slot interference for underground, land, have formed scientific and reasonable, the clover leaf modern times Change complex art and method.

Clinometer is applied extremely extensively in terms of Geological Engineering, is also simultaneously suitable for other mining industry classes and construction work.But Existing clinometer is in measurement drilling machine construction orientation angles, angle and its with tunnels included angle, measurement roadway angle, azimuth etc. should Used time and there is inconvenience, there is also due to the realistic problem such as measurement process is loaded down with trivial details, inaccurate, common survey orientation same When also there is magnetic disturbance factor；Separately in terms of engineer operation and mechanical drawing, it is most commonly used that protractor, tilt gauge, in measurement Bad measurement when remote angle, the operation also giving people brings certain inconvenience, or even delays the engineering time, unfavorable Obtain engineering demand data and application in timely.

Utility model content

The technical problems to be solved in the utility model is：In order to solve problem present in above-mentioned background technology, provide one Plant Geological Engineering clinometer, solve the problems, such as existing apparatus measurement complex operation.

This utility model solves its technical problem and be employed technical scheme comprise that：A kind of Geological Engineering clinometer, the bottom of including Seat, is fixedly connected with rotating seat, described rotating seat upper surface is connected with swivel head, institute in the middle part of described base upper surface The swivel head upper surface stated is fixedly connected with rotating clamp base, is provided with the first gage and the second amount above described rotating clamp base Chi, the left end of the described bottom of the first gage and the second gage is all flexibly connected with rotating clamp base, described the first gage The right-hand member of top and the second gage is provided with laser alignment instrument, with the second gage right side wall in the middle part of the first described gage bottom surface Middle part has been fixedly connected with level indicator, and the described nearly left end of the first gage upper surface is fixedly connected with angle square, described angulation The chute running through is offered, the corresponding chute in the second described gage front is fixedly connected with retainer, in described base in the middle part of chi Portion is provided with tape measure, and described base upper surface is located at and is provided with compass outside rotating seat.

Preferably, described compass is annular.

Preferably, the first described gage and the second gage are made by PC material.

Preferably, described angle square is that 90 degree of sectors are circular.

Preferably, described rotating seat is " T " shape structure.

Preferably, the first described gage and the second gage all can rotate against the rotation of holder 180 degree.

The beneficial effects of the utility model are that a kind of Geological Engineering clinometer of the present utility model, by arranging the first amount The devices such as chi, the second gage, rotating seat, rotating clamp base achieve clinometer be convenient for carrying, function simple to operate, be easy to use Person carries out measurement work.

Brief description

With reference to the accompanying drawings and examples this utility model is further illustrated.

Fig. 1 is positive structure diagram of the present utility model.

Fig. 2 is overlooking the structure diagram of the present utility model.

In figure:1. base, 2. rotating seat, 3. swivel head, 4. rotating clamp base, 5. the first gage, 6. the second gage, 7. laser Aligner, 8. level indicator, 9. angle square, 10. chute, 11. retainers, 12. tape measures, 13. compass.

Specific embodiment

Presently in connection with accompanying drawing, this utility model is described in further detail.These accompanying drawings are the schematic diagram of simplification, Basic structure of the present utility model is only described in a schematic way, therefore it only shows the composition relevant with this utility model.

A kind of Geological Engineering clinometer shown in Fig. 1 and Fig. 2, including base 1, base 1 upper surface middle part is fixedly connected with Rotating seat 2, rotating seat 2 upper surface is connected with swivel head 3, and swivel head 3 upper surface is fixedly connected with rotating clamp base 4, rotation Be provided with the first gage 5 and the second gage 6 above holder 4, the left end of the bottom of the first gage 5 and the second gage 6 all with rotation Holder 4 is flexibly connected, and the right-hand member of the top of the first gage 5 and the second gage 6 is provided with laser alignment instrument 7, the first gage 5 bottom It has been fixedly connected with level indicator 8, the nearly left end of the first gage 5 upper surface is fixedly connected in the middle part of Middle face and the second gage 6 right side wall There is angle square 9, in the middle part of angle square 9, offer the chute 10 running through, the corresponding chute 10 in the second gage 6 front is fixedly connected with retainer 11, base 1 is internally provided with tape measure 12, and base 1 upper surface is located at and is provided with compass 13 outside rotating seat 2.

Embodiment 1：When being measured using clinometer, a kind of Geological Engineering clinometer, including base 1, base 1 upper surface middle part It is fixedly connected with rotating seat 2, rotating seat 2 upper surface is connected with swivel head 3, swivel head 3 upper surface is fixedly connected with rotation Holder 4, is provided with the first gage 5 and the second gage 6, a left side for the bottom of the first gage 5 and the second gage 6 above rotating clamp base 4 End is all flexibly connected with rotating clamp base 4, and the right-hand member of the top of the first gage 5 and the second gage 6 is provided with laser alignment instrument 7, In the middle part of first gage 5 bottom surface and it has been fixedly connected with level indicator 8 in the middle part of the second gage 6 right side wall, the first gage 5 upper surface is closely left End is fixedly connected with angle square 9, offers the chute 10 running through in the middle part of angle square 9, and the corresponding chute 10 in the second gage 6 front is fixing It is connected with retainer 11, base 1 is internally provided with tape measure 12, base 1 upper surface is located at and is provided with compass 13 outside rotating seat 2.

Compass 13 is annular, and the first gage 5 and the second gage 6 are made by PC material, and angle square 9 is 90 degree of sectors Circular, rotating seat 2 is " T " shape structure, and the first gage 5 and the second gage 6 all can rotate against 4180 degree of rotations of holder.

Between first gage 5 and the second gage 6, maximum angle is up to 90 degree.Base 1 is placed in any plane, the first gage 5 and second the level indicator 8 of gage 6 be used for calibrating the level of gage itself, laser alignment instrument 7 is used for gage and object being measured Be aligned.

Embodiment 2：When not using, a kind of Geological Engineering clinometer, including base 1, base 1 upper surface middle part is fixedly connected There is rotating seat 2, rotating seat 2 upper surface is connected with swivel head 3, swivel head 3 upper surface is fixedly connected with rotating clamp base 4, rotation Turn and above holder 4, be provided with the first gage 5 and the second gage 6, the left end of the bottom of the first gage 5 and the second gage 6 all with rotation Turn holder 4 to be flexibly connected, the right-hand member of the top of the first gage 5 and the second gage 6 is provided with laser alignment instrument 7, the first gage 5 It has been fixedly connected with level indicator 8, the nearly left end of the first gage 5 upper surface is fixing even in the middle part of bottom surface and in the middle part of the second gage 6 right side wall It is connected to angle square 9, in the middle part of angle square 9, offers the chute 10 running through, the corresponding chute 10 in the second gage 6 front is fixedly connected with cunning Bolt 11, base 1 is internally provided with tape measure 12, and base 1 upper surface is located at and is provided with compass 13 outside rotating seat 2.

With above-mentioned according to desirable embodiment of the present utility model for enlightenment, by above-mentioned description, related work people Member can carry out various change and modification completely in the range of without departing from this utility model technological thought.This reality The content being not limited in description with new technical scope it is necessary to determine its technology according to right Property scope.

Claims

1. a kind of Geological Engineering clinometer, including base (1), is characterized in that：Described base (1) upper surface middle part is fixedly connected There is rotating seat (2), described rotating seat (2) upper surface is connected with swivel head (3), described swivel head (3) upper surface is solid Surely it is connected with rotating clamp base (4), above described rotating clamp base (4), be provided with the first gage (5) and the second gage (6), described The bottom of the first gage (5) and the left end of the second gage (6) be all flexibly connected with rotating clamp base (4), described the first gage (5) top and the right-hand member of the second gage (6) are provided with laser alignment instrument (7), in the middle part of described the first gage (5) bottom surface and It has been fixedly connected with level indicator (8), the described nearly left end of the first gage (5) upper surface is fixed in the middle part of second gage (6) right side wall It is connected with angle square (9), in the middle part of described angle square (9), offer the chute (10) running through, described the second gage (6) front Corresponding chute (10) is fixedly connected with retainer (11), and described base (1) is internally provided with tape measure (12), described base (1) Upper surface is located at and is provided with compass (13) outside rotating seat (2).

2. a kind of Geological Engineering clinometer according to claim 1, is characterized in that：Described compass (13) is annulus Shape.

3. a kind of Geological Engineering clinometer according to claim 1, is characterized in that：Described the first gage (5) and second Gage (6) is made by PC material.

4. a kind of Geological Engineering clinometer according to claim 1, is characterized in that：Described angle square (9) is 90 degree of fans Shape is circular.

5. a kind of Geological Engineering clinometer according to claim 1, is characterized in that：Described rotating seat (2) is "T"-shaped knot Structure.

6. a kind of Geological Engineering clinometer according to claim 1, is characterized in that：Described the first gage (5) and second Gage (6) all can rotate against the rotation of holder (4) 180 degree.