CN204854726U - Engineering measuring apparatu is used on slope - Google Patents
Engineering measuring apparatu is used on slope Download PDFInfo
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- CN204854726U CN204854726U CN201520528447.6U CN201520528447U CN204854726U CN 204854726 U CN204854726 U CN 204854726U CN 201520528447 U CN201520528447 U CN 201520528447U CN 204854726 U CN204854726 U CN 204854726U
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- fixedly connected
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Abstract
The utility model provides an engineering measuring apparatu is used on slope, comprising a supporting bar, a fixing device, thrust unit, a measuring device, angle measuring device and perpendicular device, be equipped with first down tube on the bracing piece, the spin, the pipeline, the fastener, surveyor's level and three corner fittingss, thrust unit includes first catch bar and promotes the piece, fixing device includes first horizontal pole, the second horizontal pole, first dead lever, first screw, the second dead lever, first rotating part and second screw, a measuring device includes dipperstick and locating lever, angle measuring device includes ring and first pointer, perpendicular device is including first connection rope, vertical pole, the rope is connected to the second, ball and second pointer, the surface that the dipperstick runs through the ring is just rather than fixed connection, the upper end of first pointer is the cuboid, its lower extreme is triangle -shaped, the left end of dipperstick is equipped with first recess. The utility model discloses high, length and the angle of measuring the slope that can be convenient, the operation be succinct, and only needs alone can accomplish, has improved work efficiency.
Description
Technical field
The utility model relates to engineering measuring technology field, especially relates to a kind of slope engineering measuring instrument.
Background technology
Slope survey meter is used for Hydraulic Engineering Survey dykes and dams, dyke, and at present, slope survey meter used needs the instruments such as Sopwith staff, line rod, spirit-leveling instrument, circle chi measuring dykes and dams, when watching out for, and also needs a lot of technician to operate these instruments.So when using this type of slope survey meter, personnel are numerous, use complexity, need many people to coordinate, often measurement dykes and dams or watch out for data time, need to take a long time and spend more human and material resources.
Therefore, be necessary to provide a kind of new technical scheme to overcome above-mentioned defect.
Summary of the invention
The purpose of this utility model is to provide a kind of slope engineering measuring instrument that can effectively solve the problems of the technologies described above.
For reaching the object of the utility model, adopt following technical scheme:
A kind of slope engineering measuring instrument, described slope engineering measuring instrument comprises support bar, be positioned at the stationary installation below described support bar, be positioned at the thrust unit above described support bar, be positioned at the first measurement mechanism on the left of described thrust unit, the vertical means being arranged at the angle measurement unit on described first measurement mechanism and being positioned at below described angle measurement unit, described support bar is provided with the first brace being positioned at right side, be positioned at the spin of top, be positioned at the pipeline on the left of described spin, be arranged at the securing member on described pipeline, the triangle part being positioned at the spirit-leveling instrument on described support bar and being positioned at below described support bar, described thrust unit comprises the first catch bar and is positioned at the pushing block on the right side of described first catch bar, described stationary installation comprises the first cross bar, be positioned at second cross bar in left side, be positioned at the first fixed bar above described first cross bar, be positioned at the first screw below described first fixed bar, be positioned at the second fixed bar above described second cross bar, the second screw being positioned at the first rotating part above described second fixed bar and being positioned at below described second fixed bar, described first measurement mechanism comprises dip stick and is positioned at the backstay on the left of described dip stick, described angle measurement unit comprises annulus and is positioned at the first pointer of described annulus inside, described vertical means comprises the first connection cord, be positioned at the vertical bar below described first connection cord, be positioned at the second connection cord below described vertical bar, the second pointer being positioned at the ball below described second connection cord and being positioned at below described ball, described annulus is circular, described dip stick runs through the surface of described annulus and is fixedly connected with it, described annulus is provided with scale, the upper end of described first pointer is rectangular parallelepiped, its lower end is triangular in shape, the left end of described dip stick is provided with the first groove, the upper end of described first pointer is contained in turn in described first groove and with described dip stick axle and is connected, on the inside surface of annulus described in the lower end aligned of described first pointer.
Described first brace is skewed, and the lower end of described first brace is fixedly connected with the right surface of described support bar, and described spin is spherical shape, and described spin is fixedly connected with described support bar.
Described pipeline is that upper left lower right tilts, the right-hand member of described pipeline is fixedly connected with described spin, a passage is provided with in described pipeline, described passage runs through the surface, left and right of described pipeline, described securing member is in T shape, and one end of described securing member extends to the inside of described pipeline through the upper surface of described pipeline and leans on described thrust unit.
Described spirit-leveling instrument is arranged on described support bar, and described triangle part is triangular in shape, and the upper surface of described triangle part is fixedly connected with the lower surface of described support bar.
Described first catch bar is right cylinder, described first catch bar runs through the surface, left and right of described spin and extends in described passage, described first catch bar and described spin are slidably connected, and described first catch bar runs through the surface, left and right of described first brace and is slidably connected with it.
Described pushing block is right cylinder, and the right surface of described first catch bar is fixedly connected with the left surface of described pushing block.
Described first cross bar is rectangular parallelepiped, described first cross bar horizontal positioned, the left surface of described first cross bar is fixedly connected with the right surface of described support bar, described first cross bar is provided with rectangular block, described rectangular block is rectangular parallelepiped, and the lower surface of described rectangular block is fixedly connected with the upper surface of described first cross bar, and described second cross bar is rectangular parallelepiped, described second cross bar horizontal positioned, the right surface of described second cross bar is fixedly connected with the left surface of described support bar.
The upper end of described first connection cord is fixedly connected with the lower end of described first pointer, the lower end of described first connection cord is fixedly connected with the upper surface of described vertical bar, described vertical bar is rectangular parallelepiped, described vertical bar is vertically placed, and the upper end of described second connection cord is fixedly connected with the lower surface of described vertical bar.
Described ball is spheroid, and the lower end of described second connection cord is fixedly connected with described ball, and the upper surface of described second pointer is fixedly connected with described ball.
Compared with prior art, the utility model has following beneficial effect: the utility model slope engineering measuring instrument structure is simple, easy to use, the height on slope, length and angle can be measured easily, operation is succinct, and only needs a people to complete, and reduces labour intensity, and decrease human cost, improve work efficiency.
Accompanying drawing explanation
Fig. 1 is the structural representation of the utility model slope engineering measuring instrument.
Embodiment
Below in conjunction with accompanying drawing, clear complete explanation is made to the utility model slope engineering measuring instrument.
As shown in Figure 1, the utility model slope engineering measuring instrument vertical means 6 of comprising support bar 2, being positioned at stationary installation 1 below described support bar 2, being positioned at thrust unit 3 above described support bar 2, being positioned at the first measurement mechanism 4 on the left of described thrust unit 3, being arranged at the angle measurement unit 5 on described first measurement mechanism 4 and being positioned at below described angle measurement unit 5.
As shown in Figure 1, described support bar 2 is in vertical shape, and described support bar 2 is provided with the first brace 21 being positioned at right side, the spin 22 being positioned at top, is positioned at the pipeline 23 on the left of described spin 22, the securing member 24 be arranged on described pipeline 23, the triangle part 26 that is positioned at the spirit-leveling instrument 25 on described support bar 2 and is positioned at below described support bar 2.Described first brace 21 is in skewed, and the lower end of described first brace 21 is fixedly connected with the right surface of described support bar 2.Described spin 22 is in spherical shape, and described spin 22 is fixedly connected with described support bar 2.Described pipeline 23 is in rectangular parallelepiped, described pipeline 23 tilts in upper left lower right, and the right-hand member of described pipeline 23 is fixedly connected with described spin 22, is provided with a passage in described pipeline 23, described passage is cylindrical shape, and described passage runs through the surface, left and right of described pipeline 23.Described securing member 24 is in T shape, one end of described securing member 24 extends to the inside of described pipeline 23 through the upper surface of described pipeline 23 and leans on described thrust unit 3, thus fixing described thrust unit 3, described securing member 24 is threaded with described pipeline 23, make when turn Fastener 24, described securing member 24 leans on described thrust unit 3.Described spirit-leveling instrument 25 is arranged on described support bar 2, is in plumbness for detecting described support bar 2.Described triangle part 26 is triangular in shape, and the upper surface of described triangle part 26 is fixedly connected with the lower surface of described support bar 2.
As shown in Figure 1, described thrust unit 3 comprises the first catch bar 32 and is positioned at the pushing block 31 on the right side of described first catch bar 32.Described first catch bar 32 is in right cylinder, described first catch bar 32 runs through the surface, left and right of described spin 22 and extends in described passage, described first catch bar 32 is slidably connected with described spin 22, and described first catch bar 32 runs through the surface, left and right of described first brace 21 and is slidably connected with it.Described pushing block 31 is in right cylinder, and the right surface of described first catch bar 32 is fixedly connected with the left surface of described pushing block 31, thus person easy to use promotes described pushing block 31.
As shown in Figure 1, described stationary installation 1 the second screw 17 of comprising the first cross bar 11, being positioned at second cross bar 12 in left side, being positioned at the first fixed bar 13 above described first cross bar 11, being positioned at the first screw 14 below described first fixed bar 13, being positioned at the second fixed bar 15 above described second cross bar 12, being positioned at the first rotating part 16 above described second fixed bar 15 and being positioned at below described second fixed bar 15.Described first cross bar 11 is in rectangular parallelepiped, described first cross bar 11 horizontal positioned, the left surface of described first cross bar 11 is fixedly connected with the right surface of described support bar 2, described first cross bar 11 is provided with rectangular block 111, described rectangular block 111 is in rectangular parallelepiped, and the lower surface of described rectangular block 111 is fixedly connected with the upper surface of described first cross bar 11.Described second cross bar 12 is in rectangular parallelepiped, and described second cross bar 12 horizontal positioned, the right surface of described second cross bar 12 is fixedly connected with the left surface of described support bar 2.Described first fixed bar 13 is in L-type, and one end of described first fixed bar 13 is buckled on described first cross bar 11, and due to the setting of rectangular block 111, what it is such that described first fixed bar 13 can be firm is buckled on described rectangular block 111.Described first screw 14 is in vertical shape, and the upper surface of described first screw 14 is fixedly connected with described first fixed bar 13.Described second fixed bar 15 is in rectangular parallelepiped, and described second fixed bar 15 horizontal positioned, the lower surface of described second fixed bar 15 contacts with the upper surface of described second cross bar 12.Described first rotating part 16 is in right cylinder, and the lower surface of described first rotating part 16 is fixedly connected with the upper surface of described second fixed bar 15.Described second screw 17 is in vertical shape, and the upper surface of described second screw 17 is fixedly connected with the lower surface of described second fixed bar 15.Due to the setting of the first screw 14 and the second screw 17, described first fixed bar 13 and the second fixed bar 15 are pressed on described first cross bar 11 and the second cross bar 12 respectively, thus support bar 2 can be fixed.
As shown in Figure 1, described first measurement mechanism 4 comprises dip stick 41 and is positioned at the backstay 42 on the left of described dip stick 41.Described dip stick 41 is in right cylinder, described dip stick 41 is in skewed, the right-hand member of described dip stick 41 to be contained in described passage and can to move left and right, described dip stick 41 is provided with scale, the left end of described dip stick 41 is provided with the first groove 411, described first groove 411 is in rectangular-shaped, and the right surface of described dip stick 41 leans on the left surface of described first catch bar 32.Described backstay 42 is in rectangular parallelepiped, and described backstay 42 is in skewed, and the right-hand member of described backstay 42 is fixedly connected with the left surface of described dip stick 41.
As shown in Figure 1, described angle measurement unit 5 comprises annulus 51 and is positioned at the first pointer 52 of described annulus 51 inside.Described annulus 51 is in circular, and described dip stick 41 runs through the surface of described annulus 51 and is fixedly connected with it, and described annulus 51 is provided with scale.The upper end of described first pointer 52 is rectangular parallelepiped, lower end is triangular in shape, the upper end of described first pointer 52 is contained in turn in described first groove 411 and with described dip stick 41 axle and is connected, described first pointer 52 can be rotated, on the inside surface of annulus 51 described in the lower end aligned of described first pointer 52, thus facilitate reading angular data.
As shown in Figure 1, described vertical means 6 the second pointer 65 of comprising the first connection cord 61, being positioned at vertical bar 62 below described first connection cord 61, being positioned at the second connection cord 63 below described vertical bar 62, being positioned at the ball 64 below described second connection cord 63 and being positioned at below described ball 64.The upper end of described first connection cord 61 is fixedly connected with the lower end of described first pointer 52, and the lower end of described first connection cord 61 is fixedly connected with the upper surface of described vertical bar 62.Described vertical bar 62 is in rectangular parallelepiped, and described vertical bar 62 is vertically placed.The upper end of described second connection cord 63 is fixedly connected with the lower surface of described vertical bar 62.Described ball 64 is in spheroid, and the lower end of described second connection cord 63 is fixedly connected with described ball 64.The upper surface of described second pointer 65 is fixedly connected with described ball 64, and the point needing to measure is pointed in the lower end of described second pointer 65.
As shown in Figure 1, when described the utility model slope engineering measuring instrument uses, first triangle part 26 is made to be inserted into first point, then the first screw 14 and the second screw 17 are inserted into corresponding place, then support bar 2 is fixed, simultaneously by rotation first rotating part 16, support bar 2 is regulated to make support bar 2 be in plumbness.Then by promoting pushing block 31, make dip stick 41 or move right left, the second pointer 65 is made to point to the point needing measurement, then the length of inclination is read from dip stick 41, then angle-data is read from annulus 51, then can calculate height, the length of the point needing test, and then can angle be calculated.So far, the engineering measuring instrument use procedure of the utility model slope is described.
The above; be only embodiment of the present utility model, but protection domain of the present utility model is not limited thereto, any those skilled in the art are in the technical scope that the present invention discloses; change can be expected easily or replace, all should be encompassed within protection domain of the present utility model.Therefore, protection domain of the present utility model should be as the criterion with the protection domain of described claim.
Claims (9)
1. a slope engineering measuring instrument, it is characterized in that: described slope engineering measuring instrument comprises support bar, be positioned at the stationary installation below described support bar, be positioned at the thrust unit above described support bar, be positioned at the first measurement mechanism on the left of described thrust unit, the vertical means being arranged at the angle measurement unit on described first measurement mechanism and being positioned at below described angle measurement unit, described support bar is provided with the first brace being positioned at right side, be positioned at the spin of top, be positioned at the pipeline on the left of described spin, be arranged at the securing member on described pipeline, the triangle part being positioned at the spirit-leveling instrument on described support bar and being positioned at below described support bar, described thrust unit comprises the first catch bar and is positioned at the pushing block on the right side of described first catch bar, described stationary installation comprises the first cross bar, be positioned at second cross bar in left side, be positioned at the first fixed bar above described first cross bar, be positioned at the first screw below described first fixed bar, be positioned at the second fixed bar above described second cross bar, the second screw being positioned at the first rotating part above described second fixed bar and being positioned at below described second fixed bar, described first measurement mechanism comprises dip stick and is positioned at the backstay on the left of described dip stick, described angle measurement unit comprises annulus and is positioned at the first pointer of described annulus inside, described vertical means comprises the first connection cord, be positioned at the vertical bar below described first connection cord, be positioned at the second connection cord below described vertical bar, the second pointer being positioned at the ball below described second connection cord and being positioned at below described ball, described annulus is circular, described dip stick runs through the surface of described annulus and is fixedly connected with it, described annulus is provided with scale, the upper end of described first pointer is rectangular parallelepiped, its lower end is triangular in shape, the left end of described dip stick is provided with the first groove, the upper end of described first pointer is contained in turn in described first groove and with described dip stick axle and is connected, on the inside surface of annulus described in the lower end aligned of described first pointer.
2. slope as claimed in claim 1 engineering measuring instrument, it is characterized in that: described first brace is skewed, the lower end of described first brace is fixedly connected with the right surface of described support bar, and described spin is spherical shape, and described spin is fixedly connected with described support bar.
3. slope as claimed in claim 2 engineering measuring instrument, it is characterized in that: described pipeline is that upper left lower right tilts, the right-hand member of described pipeline is fixedly connected with described spin, a passage is provided with in described pipeline, described passage runs through the surface, left and right of described pipeline, described securing member is in T shape, and one end of described securing member extends to the inside of described pipeline through the upper surface of described pipeline and leans on described thrust unit.
4. slope as claimed in claim 3 engineering measuring instrument, it is characterized in that: described spirit-leveling instrument is arranged on described support bar, and described triangle part is triangular in shape, the upper surface of described triangle part is fixedly connected with the lower surface of described support bar.
5. slope as claimed in claim 4 engineering measuring instrument, it is characterized in that: described first catch bar is right cylinder, described first catch bar runs through the surface, left and right of described spin and extends in described passage, described first catch bar and described spin are slidably connected, and described first catch bar runs through the surface, left and right of described first brace and is slidably connected with it.
6. slope as claimed in claim 5 engineering measuring instrument, it is characterized in that: described pushing block is right cylinder, the right surface of described first catch bar is fixedly connected with the left surface of described pushing block.
7. slope as claimed in claim 6 engineering measuring instrument, it is characterized in that: described first cross bar is rectangular parallelepiped, described first cross bar horizontal positioned, the left surface of described first cross bar is fixedly connected with the right surface of described support bar, described first cross bar is provided with rectangular block, described rectangular block is rectangular parallelepiped, the lower surface of described rectangular block is fixedly connected with the upper surface of described first cross bar, described second cross bar is rectangular parallelepiped, described second cross bar horizontal positioned, the right surface of described second cross bar is fixedly connected with the left surface of described support bar.
8. slope as claimed in claim 7 engineering measuring instrument, it is characterized in that: the upper end of described first connection cord is fixedly connected with the lower end of described first pointer, the lower end of described first connection cord is fixedly connected with the upper surface of described vertical bar, described vertical bar is rectangular parallelepiped, described vertical bar is vertically placed, and the upper end of described second connection cord is fixedly connected with the lower surface of described vertical bar.
9. slope as claimed in claim 8 engineering measuring instrument, it is characterized in that: described ball is spheroid, the lower end of described second connection cord is fixedly connected with described ball, and the upper surface of described second pointer is fixedly connected with described ball.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201520528447.6U CN204854726U (en) | 2015-07-20 | 2015-07-20 | Engineering measuring apparatu is used on slope |
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| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201520528447.6U CN204854726U (en) | 2015-07-20 | 2015-07-20 | Engineering measuring apparatu is used on slope |
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| CN204854726U true CN204854726U (en) | 2015-12-09 |
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| CN201520528447.6U Active CN204854726U (en) | 2015-07-20 | 2015-07-20 | Engineering measuring apparatu is used on slope |
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Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN109407180A (en) * | 2018-12-13 | 2019-03-01 | 桂林理工大学 | A kind of auxiliary device that simple direct-reading rainfall gauge is horizontally mounted certainly |
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2015
- 2015-07-20 CN CN201520528447.6U patent/CN204854726U/en active Active
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN109407180A (en) * | 2018-12-13 | 2019-03-01 | 桂林理工大学 | A kind of auxiliary device that simple direct-reading rainfall gauge is horizontally mounted certainly |
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Legal Events
| Date | Code | Title | Description |
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| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| CP01 | Change in the name or title of a patent holder | ||
| CP01 | Change in the name or title of a patent holder |
Address after: 730050 Gansu Province, Lanzhou city Qilihe District Yan Ping Village three No. 200 Hospital of Gansu Construction Vocational Technical College Patentee after: Huabang xinerda Technology Testing Co.,Ltd. Address before: 730050 Gansu Province, Lanzhou city Qilihe District Yan Ping Village three No. 200 Hospital of Gansu Construction Vocational Technical College Patentee before: GANSU XINERDA ENGINEERING TEST DETECTION Co.,Ltd. |