CN204881627U - Chi is surveyed to curve for building works survey - Google Patents

Abstract

The utility model provides a chi is surveyed to curve for building works survey, including first horizontal pole, the framework, a fixing device, first carriage release lever, measuring device and locating lever device, fixing device includes first mount and first dead lever, be equipped with first recess on the first carriage release lever, first pointer and first locating piece, measuring device is including measuring the frame, first montant, second carriage release lever and second pointer, the locating lever device includes first locating lever, the second locating lever, first fixed block, the device is leaned on on second fixed block and top, the upper and lower both ends and the interior fixed surface who measures the frame of first montant are connected, the upper and lower surface that first montant runs through the second carriage release lever is just rather than sliding connection, the right side surface and the interior sliding surface who measures the frame of second carriage release lever are connected, the left -handed watch face of second carriage release lever is connected with the right sliding surface of first carriage release lever. The utility model discloses can accomplish a series of horizontal position yu vertical position's measurement alone, it is accurate to measure, and labour saving and time saving has reduced work personnel's intensity of labour.

Description

A kind of building engineering survey plotting curves chi

Technical field

The utility model relates to building engineering survey technical field, especially relates to a kind of building engineering survey plotting curves chi.

Background technology

At present, what in engineering survey, the mapping of curve was commonly used is that application level chi, tape measure and vertical coordinate the horizontal level and the vertical position that record a series of unique point on curve, then this curve is also had by the method for fixed point line, in actual measurement, generally need 2-3 people to coordinate, this measuring method wastes time and energy, and measuring error is comparatively large, is not suitable for promotion and implementation.

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 building engineering survey plotting curves chi 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 building engineering survey plotting curves chi, described building engineering survey plotting curves chi comprises the first cross bar, be positioned at the framework above described first cross bar, be positioned at the stationary installation of the described framework left and right sides, be positioned at the first carriage release lever above described first cross bar, be positioned at the measurement mechanism on the right side of described first carriage release lever and be positioned at the backstay device of the upper and lower both sides of described measurement mechanism, the lower surface of described framework is fixedly connected with the upper surface of described first cross bar, described stationary installation comprises the first fixed mount and is arranged at the first fixed bar on described first fixed mount, described first carriage release lever is provided with the first groove, the first pointer being positioned at described first groove and the first locating piece be positioned on lower surface, described measurement mechanism comprises measurement frame, be arranged at the first montant on described measurement frame, the second pointer being arranged at the second carriage release lever on described first montant and being arranged on described second carriage release lever, described backstay device comprises the first backstay being positioned at top, be positioned at the second backstay of below, be positioned at the first fixed block of the described first upper and lower both sides of backstay, be positioned at the second fixed block of the described second upper and lower both sides of backstay and be arranged at described second backstay leans device, described measurement frame is concave character type, the two ends of described measurement frame are fixedly connected with the right surface of described first carriage release lever, described first montant is rectangular parallelepiped, described first montant is vertically placed, the two ends up and down of described first montant are fixedly connected with the inside surface of described measurement frame, described second carriage release lever is rectangular parallelepiped, described second carriage release lever horizontal positioned, described first montant runs through the upper and lower surface of described second carriage release lever and is slidably connected with it, the right surface of described second carriage release lever and the inside surface of described measurement frame are slidably connected, the left surface of described second carriage release lever is connected with the right surface sliding of described first carriage release lever, the left surface of described second carriage release lever is provided with the second groove, described second pointer to be contained in described second groove and to be fixedly connected with described second carriage release lever.

Described first fixed mount is L-type, and one end of described first fixed mount is fixedly connected with the upper surface of described first cross bar, and the other end of described first fixed mount is fixedly connected with the side of described framework.

Described first fixed bar is rectangular parallelepiped, described first fixed bar horizontal positioned, and one end of described first fixed bar is fixedly connected with described first fixed mount, and the other end of described first fixed bar is fixedly connected with the side of described framework.

Described first carriage release lever is rectangular parallelepiped, and described first carriage release lever is vertically placed, and the lower surface of described first carriage release lever is connected with the upper surface slide of described first cross bar, and the upper surface of described first carriage release lever and the inside surface of described framework are slidably connected.

Described first pointer is triangular in shape, and the lower end of described first pointer is fixedly connected with the bottom surface of described first groove, and the inside surface of described framework is aimed in the upper end of described first pointer.

Described first locating piece is rectangular parallelepiped, and described first locating piece is vertically placed, and the upper surface of described first locating piece is fixedly connected with the lower surface of described first carriage release lever.

Described first backstay is rectangular parallelepiped, and described first backstay horizontal positioned, the two ends, left and right of described first backstay are fixedly connected with the inside surface of described framework.

Described second backstay is rectangular parallelepiped, described second backstay horizontal positioned, and described second two ends, backstay left and right are fixedly connected with the inside surface of described framework, and described second backstay runs through the surface, left and right of described first carriage release lever and is slidably connected with it.

The described device that leans comprises upper end and is positioned at the bottom below described upper end, described upper end is L-type, described second backstay runs through the surface, left and right of described upper end and is slidably connected with it, described bottom is rectangular parallelepiped, described bottom is vertically placed, the upper surface of described bottom is fixedly connected with the lower surface of described upper end, and the lower surface of described bottom is connected with the upper surface slide of described first cross bar.

Compared with prior art, the utility model has following beneficial effect: the utility model building engineering survey plotting curves chi structure is simple, easy to use, a people can complete alone the horizontal level of series of points and the measurement of upright position, and and then obtain this curve by connecting each point, measure accurately, time saving and energy saving, only need a people easily to complete, reduce the labour intensity of work personnel.

Accompanying drawing explanation

Fig. 1 is the structural representation of the utility model building engineering survey plotting curves chi.

Embodiment

Below in conjunction with accompanying drawing, clear complete explanation is made to the utility model building engineering survey plotting curves chi.

As shown in Figure 1, the utility model building engineering survey plotting curves chi comprises the first cross bar 1, is positioned at framework 2 above described first cross bar 1, is positioned at the stationary installation 3 of described framework 2 left and right sides, is positioned at the first carriage release lever 4 above described first cross bar 1, is positioned at the measurement mechanism 5 on the right side of described first carriage release lever 4 and is positioned at the backstay device 6 of described measurement mechanism about 5 both sides.

As shown in Figure 1, described first cross bar 1 is rectangular parallelepiped, described first cross bar 1 horizontal positioned, and described first cross bar 1 is provided with the first rectangular channel 11, described first rectangular channel 11 is recessed to form downwards from the upper surface of described first cross bar 1, and described first rectangular channel 11 is in rectangular-shaped.

As shown in Figure 1, described framework 2 is in inverted concave character type, and the lower surface of described framework 2 is fixedly connected with the upper surface of described first cross bar 1, and described framework 2 is positioned at the top of described first rectangular channel 11.

As shown in Figure 1, described stationary installation 3 is provided with two and lays respectively at the left and right sides, and described stationary installation 3 comprises the first fixed mount 31 and is arranged at the first fixed bar 32 on described first fixed mount 31.Described first fixed mount 31 is in L-type, one end of described first fixed mount 31 is fixedly connected with the upper surface of described first cross bar 1, the other end of described first fixed mount 31 is fixedly connected with the side of described framework 2, thus plays comparatively firm fixation to described framework 2.Described first fixed bar 32 is in rectangular parallelepiped, and described first fixed bar 32 horizontal positioned, one end of described first fixed bar 32 is fixedly connected with described first fixed mount 31, and the other end of described first fixed bar 32 is fixedly connected with the side of described framework 2.

As shown in Figure 1, described first carriage release lever 4 is in rectangular parallelepiped, described first carriage release lever 4 is vertically placed, the lower surface of described first carriage release lever 4 is connected with the upper surface slide of described first cross bar 1, the described upper surface of the first carriage release lever 4 and the inside surface of described framework 2 are slidably connected, and described first carriage release lever 4 can be moved left and right.The first locating piece 43 that described first carriage release lever 4 is provided with the first groove 41, is positioned at the first pointer 42 of described first groove 41 and is positioned on lower surface.Described first groove 41 is in rectangular-shaped, and described first groove 41 is recessed to form downwards from the upper surface of described first carriage release lever 4.Described first pointer 42 is triangular in shape, and the lower end of described first pointer 42 is fixedly connected with the bottom surface of described first groove 41, and the upper inner surface of described framework 2 is aimed in the upper end of described first pointer 42, thus conveniently reads horizontal ordinate.Described first locating piece 43 is in rectangular parallelepiped, described first locating piece 43 is vertically placed, the upper surface of described first locating piece 43 is fixedly connected with the lower surface of described first carriage release lever 4, and described first locating piece 43 to be contained in described first rectangular channel 11 and can to move left and right.

As shown in Figure 1, described measurement mechanism 5 comprise measurement frame 51, the first montant 52 be arranged on described measurement frame 51, the second pointer 54 of being arranged at the second carriage release lever 53 on described first montant 52 and being arranged on described second carriage release lever 53.Described measurement frame 51 is in concave character type, and the two ends of described measurement frame 51 are fixedly connected with the right surface of described first carriage release lever 4.Described first montant 52 is in rectangular parallelepiped, and described first montant 52 is vertically placed, and the two ends up and down of described first montant 52 are fixedly connected with the inside surface of described measurement frame 51.Described second carriage release lever 53 is in rectangular parallelepiped, described second carriage release lever 53 horizontal positioned, described first montant 52 runs through the upper and lower surface of described second carriage release lever 53 and is slidably connected with it, described second carriage release lever 53 can be moved up and down, the described right surface of the second carriage release lever 53 and the inside surface of described measurement frame 51 are slidably connected, the left surface of described second carriage release lever 53 is connected with the right surface sliding of described first carriage release lever 4, the left surface of described second carriage release lever 53 is provided with the second groove 531, and described second groove 531 is in rectangular-shaped.Described second pointer 54 to be contained in described second groove 531 and to be fixedly connected with described second carriage release lever 53, and described second pointer 54 points on the right surface of described first carriage release lever 4, thus conveniently reads ordinate.

As shown in Figure 1, described backstay device 6 comprise the first backstay 61 being positioned at top, the second backstay 63 being positioned at below, be positioned at described first backstay about 61 both sides the first fixed block 62, be positioned at described second backstay about 63 both sides the second fixed block and be arranged at described second backstay 63 lean device 65.Described first backstay 61 is in rectangular parallelepiped, and described first backstay 61 horizontal positioned, the two ends, left and right of described first backstay 61 are fixedly connected with the inside surface of described framework 2.Described first fixed block 62 is provided with four, lay respectively at the two ends, left and right of described first fixed block 62 and be positioned at the both sides up and down of described first backstay 61, described first fixed block 62 is in rectangular parallelepiped, one end of described first fixed block 62 is fixedly connected with the inside surface of described framework 2, another surface of described first fixed block 62 and the intimate surface contact of described first backstay 61, thus comparatively firm supporting role is played to described first backstay 61, described first backstay 61 runs through the surface, left and right of described first carriage release lever 4 and is slidably connected with it.Described second backstay 63 is in rectangular parallelepiped, described second backstay 63 horizontal positioned, described second backstay about 63 two ends are fixedly connected with the inside surface of described framework 2, and described second backstay 63 runs through the surface, left and right of described first carriage release lever 4 and is slidably connected with it.Described second fixed block is provided with four, described second fixed block lays respectively at the left and right sides of described second backstay 63 and lays respectively at the both sides up and down of described second backstay 63, described second fixed block is rectangular parallelepiped, one surface of described second fixed block is fixedly connected with the inside surface of described framework 2, another surface of described second fixed block and the side close contact of described second backstay 63, thus comparatively firm supporting role is played to described second backstay 63.The described device 65 that leans is provided with two and the left and right sides laying respectively at described first carriage release lever 4, described in lean device 65 and comprise upper end 651 and be positioned at the bottom 652 below described upper end 651.Described upper end 651 is in L-type, and described second backstay 63 runs through the surface, left and right of described upper end and is slidably connected with it.Described bottom 652 is in rectangular parallelepiped, and described bottom 652 is vertically placed, and the upper surface of described bottom 652 is fixedly connected with the lower surface of described upper end 651, and the lower surface of described bottom 652 is connected with the upper surface slide of described first cross bar 1.

As shown in Figure 1, when described the utility model building engineering survey plotting curves chi uses, first the first cross bar 1 is made to aim at abscissa axis, axis of ordinates is aimed in the left surface of described framework 2, then mobile first carriage release lever 4 and the second carriage release lever 53, the second pointer 54 is made to aim at the point needing measurement, then according to the first pointer 42 and the second pointer 54 read to horizontal ordinate and ordinate, when the first carriage release lever 4 is fixed by needs, the mobile left and right sides lean device 65, upper end 651 is made to lean on the first carriage release lever 4, thus fix the first carriage release lever 4.So far, the use procedure of the utility model building engineering survey plotting curves chi 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 building engineering survey plotting curves chi, it is characterized in that: described building engineering survey plotting curves chi comprises the first cross bar, be positioned at the framework above described first cross bar, be positioned at the stationary installation of the described framework left and right sides, be positioned at the first carriage release lever above described first cross bar, be positioned at the measurement mechanism on the right side of described first carriage release lever and be positioned at the backstay device of the upper and lower both sides of described measurement mechanism, the lower surface of described framework is fixedly connected with the upper surface of described first cross bar, described stationary installation comprises the first fixed mount and is arranged at the first fixed bar on described first fixed mount, described first carriage release lever is provided with the first groove, the first pointer being positioned at described first groove and the first locating piece be positioned on lower surface, described measurement mechanism comprises measurement frame, be arranged at the first montant on described measurement frame, the second pointer being arranged at the second carriage release lever on described first montant and being arranged on described second carriage release lever, described backstay device comprises the first backstay being positioned at top, be positioned at the second backstay of below, be positioned at the first fixed block of the described first upper and lower both sides of backstay, be positioned at the second fixed block of the described second upper and lower both sides of backstay and be arranged at described second backstay leans device, described measurement frame is concave character type, the two ends of described measurement frame are fixedly connected with the right surface of described first carriage release lever, described first montant is rectangular parallelepiped, described first montant is vertically placed, the two ends up and down of described first montant are fixedly connected with the inside surface of described measurement frame, described second carriage release lever is rectangular parallelepiped, described second carriage release lever horizontal positioned, described first montant runs through the upper and lower surface of described second carriage release lever and is slidably connected with it, the right surface of described second carriage release lever and the inside surface of described measurement frame are slidably connected, the left surface of described second carriage release lever is connected with the right surface sliding of described first carriage release lever, the left surface of described second carriage release lever is provided with the second groove, described second pointer to be contained in described second groove and to be fixedly connected with described second carriage release lever.

2. building engineering survey plotting curves chi as claimed in claim 1, it is characterized in that: described first fixed mount is L-type, one end of described first fixed mount is fixedly connected with the upper surface of described first cross bar, and the other end of described first fixed mount is fixedly connected with the side of described framework.

3. building engineering survey plotting curves chi as claimed in claim 2, it is characterized in that: described first fixed bar is rectangular parallelepiped, described first fixed bar horizontal positioned, one end of described first fixed bar is fixedly connected with described first fixed mount, and the other end of described first fixed bar is fixedly connected with the side of described framework.

4. building engineering survey plotting curves chi as claimed in claim 3, it is characterized in that: described first carriage release lever is rectangular parallelepiped, described first carriage release lever is vertically placed, the lower surface of described first carriage release lever is connected with the upper surface slide of described first cross bar, and the upper surface of described first carriage release lever and the inside surface of described framework are slidably connected.

5. building engineering survey plotting curves chi as claimed in claim 4, it is characterized in that: described first pointer is triangular in shape, the lower end of described first pointer is fixedly connected with the bottom surface of described first groove, and the inside surface of described framework is aimed in the upper end of described first pointer.

6. building engineering survey plotting curves chi as claimed in claim 5, it is characterized in that: described first locating piece is rectangular parallelepiped, described first locating piece is vertically placed, and the upper surface of described first locating piece is fixedly connected with the lower surface of described first carriage release lever.

7. building engineering survey plotting curves chi as claimed in claim 6, it is characterized in that: described first backstay is rectangular parallelepiped, described first backstay horizontal positioned, the two ends, left and right of described first backstay are fixedly connected with the inside surface of described framework.

8. building engineering survey plotting curves chi as claimed in claim 7, it is characterized in that: described second backstay is rectangular parallelepiped, described second backstay horizontal positioned, described second two ends, backstay left and right are fixedly connected with the inside surface of described framework, and described second backstay runs through the surface, left and right of described first carriage release lever and is slidably connected with it.

9. building engineering survey plotting curves chi as claimed in claim 8, it is characterized in that: described in lean device and comprise upper end and be positioned at the bottom below described upper end, described upper end is L-type, described second backstay runs through the surface, left and right of described upper end and is slidably connected with it, described bottom is rectangular parallelepiped, described bottom is vertically placed, the upper surface of described bottom is fixedly connected with the lower surface of described upper end, and the lower surface of described bottom is connected with the upper surface slide of described first cross bar.