CN113580090A - Quick building cost mapping device and using method thereof - Google Patents

Abstract

The invention discloses a rapid building cost mapping device and a using method thereof, a tool box and a mapping tool arranged in the tool box, wherein a damping component for damping the mapping tool in the vertical direction is arranged in the tool box, and the mapping tool is arranged on the damping component and is detachably connected with the damping component. Set up the damper of vertical direction in the toolbox to when receiving vertical direction's impact force in the toolbox handling, cushion surveying and mapping instrument, with the impact force that reduces surveying and mapping instrument and receive, reduced the damage that surveying and mapping instrument received. Simultaneously, can dismantle with damper through setting up mapping tool and be connected to when using mapping tool, take out mapping tool from the toolbox.

Description

Quick building cost mapping device and using method thereof

Technical Field

The invention relates to the field of construction cost, in particular to a rapid building cost mapping device and a using method thereof.

Background

The construction cost directly means the construction cost of the project, and before the construction cost of the project is carried out, the target project needs to be measured firstly according to the actual requirement.

When measuring a building, surveying and mapping tools such as a theodolite, a level, a scanner, and the like generally need to be carried to a site to measure a target object so as to obtain required measurement data. After the measurement is finished, the measuring tool is placed in a measuring box for carrying. The existing tool boxes generally adopt a mode of placing sponge inside to realize the shock absorption effect on the surveying and mapping tool.

The inventors believe that another means of damping may be provided to damp the mapping tool in transit.

Disclosure of Invention

In order to provide the cushioning effect for the surveying and mapping instrument in the transportation, the application provides a quick construction cost surveying and mapping device and a use method thereof.

First aspect, the application provides a quick construction cost mapping device, adopts following technical scheme:

the utility model provides a quick building cost mapping device, toolbox and place the mapping tool in the toolbox, it is right to set up in the toolbox the mapping tool carries out the damped damper assembly in the vertical direction, mapping tool locate damper assembly and with damper assembly can dismantle the connection.

Through adopting above-mentioned technical scheme, set up the damper assembly of vertical direction in the toolbox to when receiving the impact force of vertical direction in the toolbox handling, cushion surveying and mapping instrument, in order to reduce the impact force that surveying and mapping instrument received, reduced the damage that surveying and mapping instrument received. Simultaneously, can dismantle with damper through setting up mapping tool and be connected to when using mapping tool, take out mapping tool from the toolbox.

Optionally, the transversal circular setting of personally submitting of toolbox, the one end opening of toolbox, toolbox open-ended one end is provided with the top cap, the protruding locking strip that is equipped with of side of top cap, the inner wall of toolbox is sunken to have the draw-in groove that supplies locking strip card to go into, the locking strip with the draw-in groove rotates the joint.

Through adopting above-mentioned technical scheme, rotate the top cap, make the locking strip card go into the locking inslot to realize the ejector pin with the locking in locking groove, so that at the in-process of transport, the top cap is difficult for breaking away from the toolbox. When the surveying instrument needs to be taken out, the top cover is rotated reversely so that the top cover is separated from the tool box, and the surveying instrument can be taken out from the opening.

Optionally, damper includes mounting panel, left shock attenuation pole and right shock attenuation pole, the mounting panel is provided with the articulated shaft, the one end of left shock attenuation pole and right shock attenuation pole all cup joint in the articulated shaft, left shock attenuation pole and right shock attenuation pole all with the articulated shaft is articulated, top cap back sliding connection left side slider and right slider, the other end of left shock attenuation pole with left side slider is articulated, right side slider with right shock attenuation pole is articulated, left side slider with be connected with left elastic component between the top cap, right side slider with be connected with right elastic component between the top cap, the mounting panel with the mapping tool butt.

Through adopting above-mentioned technical scheme, left shock attenuation pole and right shock attenuation pole are articulated with the articulated shaft, left shock attenuation pole is articulated with left slider simultaneously, right shock attenuation pole is articulated with right slider, in order when surveying instrument receives the thrust of vertical direction, power conduction to left shock attenuation pole, right shock attenuation pole department, left shock attenuation pole, right shock attenuation pole is through rotating around the articulated shaft, in order to decompose partial power, simultaneously, left shock attenuation pole, right shock attenuation pole is when rotating, drive left slider and right slider orientation relative or the direction motion in opposite directions, left slider extrudees left elastic component or tensile left elastic component, right slider extrudees right elastic component or tensile right elastic component, in order to decompose the power that surveying instrument received, and then realize the effect of buffering, reduce the impact force that surveying instrument received, in order to reduce the damage that surveying instrument received.

Optionally, the bottom of the toolbox is provided with a lifting member for driving the surveying and mapping tool to extend out of the toolbox.

Through adopting above-mentioned technical scheme, through setting up the lifter to when using surveying instrument, make surveying instrument stretch out outside the toolbox, so that surveying instrument get put.

Optionally, the lifter is including placing board, left sliding block and right sliding block, it has left lifter and right lifter to place articulated on the board, left side lifter keep away from place the board one end with left sliding block is articulated, right lifter keep away from place the board one end with right sliding block is articulated, left side sliding block with right sliding block is connected with the relative or driving piece that moves in opposite directions of left sliding block of drive and right sliding block.

Through adopting above-mentioned technical scheme, the drive driving piece to drive left sliding block and right sliding block and slide towards the direction that is close to each other, under the effect of left lifter and right lifter, surveying and mapping instrument risees towards the opening direction of toolbox and exposes outside the toolbox at last, and then makes things convenient for getting of staff to put, has improved the convenience of work. After finishing using, through the direction motion of driving piece drive left sliding block and right sliding block towards keeping away from each other, contained angle grow between left lifter and the right lifter, the inside motion of mapping tool toward the toolbox, until accomodating in the toolbox, cover the top cap at last to make mapping tool at the in-process of transport, difficult quilt is damaged.

Optionally, the driving piece includes the actuating lever, be equipped with two sections reverse screw threads on the actuating lever, the actuating lever with left sliding block, right sliding block threaded connection, left sliding block, right sliding block are located two sections screw thread departments of actuating lever respectively.

Through adopting above-mentioned technical scheme, rotate the actuating lever, because of two sections screw thread on the actuating lever are opposite, left side sliding block and right sliding block move towards relative or opposite direction under the effect of actuating lever, and then drive the survey and drawing instrument and go up and down.

Optionally, the driving rod penetrates out of the tool box.

Through adopting above-mentioned technical scheme, wear out the toolbox with the actuating lever outside, increase the operating space of actuating lever, provide the convenience for lift mapping tool, and then promoted the use value of whole toolbox.

Optionally, just be located in the toolbox the both sides of surveying instrument all are equipped with damper, damper with the surveying instrument butt.

Through adopting above-mentioned technical scheme, all set up damper through the both sides at the mapping tool to when the both sides at the toolbox received the impact, damper can reduce the impact of transmitting to mapping tool department, and then reduce the damage that mapping tool received.

In a second aspect, the present application provides a rapid building cost estimation method, which adopts the following technical scheme:

a method of using a rapid construction cost mapping apparatus according to any one of claims 1 to 8, comprising the steps of:

rotating the top cover to remove the top cover from the tool box;

rotating the driving rod to enable the left sliding block and the right sliding block to move towards the mutually approaching direction so as to drive the mapping tool to extend out of the tool box;

the surveying tool is removed and mounted on a holder matching the surveying tool and the surveying tool is calibrated, and then the measurement is started.

Through adopting above-mentioned technical scheme, the drive actuating lever to drive left sliding block and right sliding block and slide towards the direction that is close to each other, under the effect of left lifter and right lifter, surveying and mapping instrument risees towards the opening direction of toolbox and exposes outside the toolbox at last, and then makes things convenient for getting of staff to put, has improved the convenience of work. After finishing using, through the direction motion of actuating lever drive left sliding block and right sliding block towards keeping away from each other, contained angle grow between left lifter and the right lifter, mapping tool is toward the inside motion of toolbox, until accomodating in the toolbox, covers the top cap at last to make mapping tool at the in-process of transport, difficult quilt is damaged.

In summary, the present application has at least the following beneficial effects:

1. set up the damper of vertical direction in the toolbox to when receiving vertical direction's impact force in the toolbox handling, cushion surveying and mapping instrument, with the impact force that reduces surveying and mapping instrument and receive, reduced the damage that surveying and mapping instrument received. Simultaneously, can dismantle with damper through setting up mapping tool and be connected to when using mapping tool, take out mapping tool from the toolbox.

2. The driving part is driven to drive the left sliding block and the right sliding block to slide towards the directions close to each other, and under the action of the left lifting rod and the right lifting rod, the plotting tool rises towards the opening direction of the tool box and is finally exposed outside the tool box, so that the worker can conveniently take and place, and the convenience of work is improved. After finishing using, through the direction motion of driving piece drive left sliding block and right sliding block towards keeping away from each other, contained angle grow between left lifter and the right lifter, the inside motion of mapping tool toward the toolbox, until accomodating in the toolbox, cover the top cap at last to make mapping tool at the in-process of transport, difficult quilt is damaged.

Drawings

FIG. 1 is a schematic view of the overall structure of the present embodiment;

fig. 2 is a schematic view of the internal structure of the tool box of the present embodiment.

Description of reference numerals:

1. a tool box; 2. a top cover; 3. a shock absorbing assembly; 31. mounting a plate; 32. a left shock absorbing lever; 33. a right shock-absorbing lever; 34. hinging a shaft; 35. a right slider; 36. a slide bar; 37. a left spring; 38. a right spring; 39. a left slider; 4. a lifting member; 41. placing the plate; 42. a left slider; 43. a right slider; 44. a left lifter bar; 441. a left adjusting sleeve; 442. a lower connecting section; 45. a right lifter bar; 451. a right adjusting sleeve; 452. a rear connection section; 453. a front connection section; 46. a drive rod; 5. a surveying tool; 6. a locking strip; 7. and (5) fixing blocks.

Detailed Description

The present application is described in further detail below with reference to figures 1-2.

The embodiment of the application discloses quick building cost mapping device, refer to fig. 1 and 2, quick building cost mapping device includes toolbox 1 and places surveying and mapping tool 5 in toolbox 1.

Referring to fig. 2, the cross section of toolbox 1 is circular, the one end opening of toolbox 1, the opening part of toolbox 1 is provided with and is used for sealing open-ended circular top cap 2, the protruding a plurality of locking strips 6 that are equipped with of side of top cap 2, a plurality of locking strips 6 set up along the even interval of axis direction of top cap 2, locking strip 6 is the screw thread form around the circumference of top cap 2, the inner wall of the opening part of toolbox 1 is sunken to have and locks the complex draw-in groove of 6 joint (not shown in the figure), the draw-in groove is close to the open-ended one end opening of toolbox 1, locking strip 6 is rotatory in order to block in the draw-in groove from the open end of draw-in groove.

Referring to fig. 2, a shock-absorbing assembly 3 is provided on the top cover 2. Damper 3 includes mounting panel 31, left shock attenuation pole 32 and right shock attenuation pole 33, mounting panel 31 and 5 butts of mapping tool, and the one side of mounting panel 31 and 5 butts of mapping tool is the compliance surface, fixedly connected with articulated shaft 34 on the mounting panel 31, and the one end of left shock attenuation pole 32 and right shock attenuation pole 33 is cup jointed in articulated shaft 34, and left shock attenuation pole 32 and right shock attenuation pole 33 are articulated with articulated shaft 34. Two fixed blocks 7 of relative placement of back fixedly connected with of top cap 2, fixedly connected with slide bar 36 on two fixed blocks 7, the axis of slide bar 36 is perpendicular with articulated shaft 34's axis, wear to be equipped with left slider 39 and right slider 35 on the slide bar 36, left slider 39 and right slider 35 all with slide bar 36 sliding connection, left shock absorber rod 32 keeps away from the one end of being connected with articulated shaft 34 and articulates with left slider 39, the one end that articulated shaft 34 was kept away from to right shock absorber rod 33 is articulated with right slider 35.

Referring to fig. 2, a left elastic member is fixed between the left slider 39 and the fixed block 7 close to the left slider 39, in this embodiment, the left elastic member is a left spring 37, in other embodiments, the left elastic member may also be an elastic block, the left spring 37 is sleeved on the sliding rod 36, and two ends of the left spring 37 are connected to the left slider 39 and the fixed block 7 respectively. A right elastic part is fixed between the right slider 35 and the fixed block 7 close to the right slider 35, in this embodiment, the right elastic part is a right spring 38, in other embodiments, the right elastic part may also be an elastic block, the right spring 38 is sleeved on the sliding rod 36, and two ends of the right spring 38 are respectively connected with the right slider 35 and the fixed block 7. When the surveying and mapping tool 5 is subjected to impact force in the vertical direction, the left shock absorption rod 32 and the right shock absorption rod 33 rotate around the hinge shaft 34, and then the left sliding block 39 and the right sliding block 35 are driven to move, and under the cooperation effect of the left spring 37 and the right spring 38, buffering is realized.

Referring to fig. 2, because toolbox 1 is circular setting, so, all set up damper 3 in toolbox 1 both sides that lie in surveying instrument 5 to in the surveying instrument 5 left and right sides, realize the effect of buffering to surveying instrument 5.

Referring to fig. 2, the bottom of the tool box 1 is provided with a lifting member 4 for driving a surveying and mapping tool 5 to extend out of the tool box 1 from an opening of the tool box 1.

Referring to fig. 2, the lifting member 4 includes a placing plate 41, a left sliding block 42 and a right sliding block 43, two sliding grooves (not shown in the figure) are recessed in the bottom of the tool box 1, the two sliding grooves are located on the same straight line, the sliding grooves extend towards the direction of the surveying and mapping tool 5, and the left sliding block 42 and the right sliding block 43 are respectively and correspondingly placed in the two sliding grooves. The placing plate 41 is hinged with a left lifting rod 44 and a right lifting rod 45, one end of the left lifting rod 44, which is far away from the placing plate 41, is hinged with the left sliding block 42, one end of the right lifting rod 45, which is far away from the placing plate 41, is hinged with the right sliding block 43, and the left sliding block 42 and the right sliding block 43 are connected with driving pieces for driving the left sliding block 42 and the right sliding block 43 to move oppositely or oppositely.

Referring to fig. 2, the driving member is a driving rod 46, one end of the driving rod 46 extends out of the tool box 1, and a rotating handle is fixed at one end of the driving rod 46 extending out of the tool box 1. Two sections of reverse threads are arranged on the driving rod 46, the driving rod 46 is in threaded connection with the left sliding block 42 and the right sliding block 43, the left sliding block 42 and the right sliding block 43 are respectively positioned at the two sections of threads of the driving rod 46, and the left sliding block 42 and the right sliding block 43 move towards the directions away from or close to each other under the action of the driving rod 46.

Referring to fig. 2, the left lifting rod 44 includes an upper connection section (not shown) and a lower connection section 442, the upper connection section is hinged to the placement plate 41, the lower connection section 442 is hinged to the left sliding block 42, a left adjustment sleeve 441 is screwed to an end of the upper connection section, which is close to the lower connection section 442, both ends of the left adjustment sleeve 441 are provided with threads, and the threads of both ends of the left adjustment sleeve 441 are reversed.

Referring to fig. 2, the right lifting rod 45 includes a front connection section 453 and a rear connection section 452, the front connection section 453 is hinged to the placing plate 41, the rear connection section 452 is hinged to the right sliding block 43, one end of the front connection section 453 and the rear connection section 452, which are close to each other, is in threaded connection with the right adjusting sleeve 451, both ends of the right adjusting sleeve 451 are provided with threads, and the threads at both ends of the right adjusting sleeve 451 are reversed.

Referring to fig. 2, the surveying tool 5 is detachably connected to the placing plate 41. The bottom cross section of mapping tool 5 becomes circular setting, places the breach that board 41 went up sunken to have the confession mapping tool 5 bottom and put into, and the bottom of mapping tool 5 is protruding to be equipped with elastic convex ring (not shown in the figure), and elastic convex ring becomes the closed setting of head and the tail around the bottom circumference of mapping tool 5, and sunken recess (not shown in the figure) that supply convex ring card to go into in the breach, when the breach is put into to mapping tool 5 bottom, elastic convex ring and recess joint cooperation.

The working principle of the rapid building cost mapping device of the embodiment is as follows:

before surveying, rotate top cap 2 in order to take off top cap 2 from toolbox 1, rotate actuating lever 46 so that left sliding block 42 and right sliding block 43 move towards the direction that is close to each other to make surveying instrument 5's horizontal position rise to expose outside toolbox 1, so that the staff gets and puts, then can take surveying instrument 5 off from placing board 41, install the support (this support adopts the triangular support among the prior art, no longer describe here) with this surveying instrument 5 adaptation on carry out the survey.

After the surveying and mapping are completed, the surveying and mapping tool 5 is taken down and placed on the placing plate 41, and the driving rod 46 is rotated reversely, so that the surveying and mapping tool 5 is accommodated in the tool box 1, and the top cover 2 is covered, so that the tool box 1 is carried. In the work of transporting the surveying tool 5, the left and right shock-absorbing bars 32 and 33 provided on the top cover 2 apply a pushing force to the surveying tool 5 so that the surveying tool 5 is fixed between the placing plate 41 and the mounting plate 31. When the tool box 1 is subjected to a force in the vertical direction (i.e., a force vertically towards the direction of the surveying and mapping tool 5), the left shock absorption rod 32 and the right shock absorption rod 33 rotate to drive the left slider 39 and the right slider 35 to slide, the left spring 37 and the right spring 38 deform when being extruded by the left slider 39 and the right slider 35, the force on the left slider 39 and the right slider 35 is converted into other energy, and finally, the buffering effect is realized, so that the damage of the external force to the surveying and mapping tool 5 is reduced.

The embodiment also provides a use method of the rapid building cost mapping device, which is performed by using the mapping tool 5 in the above embodiment, and comprises the following steps:

rotating the top cover 2 to remove the top cover 2 from the tool box 1;

rotating the driving lever 46 to move the left and right sliding blocks 42 and 43 toward each other to drive the surveying tool 5 to extend out of the toolbox 1;

the surveying tool 5 is taken out and mounted on a stand matching the surveying tool 5 and the surveying tool 5 is calibrated, and then the measurement is started.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. A quick construction cost mapping device which characterized in that: toolbox (1) and place surveying instrument (5) in toolbox (1), it is right to set up in toolbox (1) surveying instrument (5) carry out the damped damper assembly (3) in the vertical direction, surveying instrument (5) locate damper assembly (3) and with damper assembly (3) can dismantle the connection.

2. A rapid construction cost mapping apparatus according to claim 1, wherein: the transversal circular setting of personally submitting of toolbox (1), the one end opening of toolbox (1), toolbox (1) open-ended one end is provided with top cap (2), the protruding locking strip (6) that are equipped with of side of top cap (2), the inner wall of toolbox (1) is sunken to have the draw-in groove that supplies locking strip (6) card to go into, locking strip (6) with the draw-in groove rotates the joint.

3. A rapid construction cost mapping apparatus according to claim 2, wherein: the shock absorption component (3) comprises a mounting plate (31), a left shock absorption rod (32) and a right shock absorption rod (33), the mounting plate (31) is provided with a hinged shaft (34), one end of each of the left shock absorption rod (32) and the right shock absorption rod (33) is sleeved on the hinged shaft (34), the left shock absorption rod (32) and the right shock absorption rod (33) are hinged with the hinged shaft (34), the back of the top cover (2) is connected with a left slide block (39) and a right slide block (35) in a sliding way, the other end of the left shock absorption rod (32) is hinged with the left sliding block (39), the right sliding block (35) is hinged with the right shock absorption rod (33), a left elastic part is connected between the left sliding block (39) and the top cover (2), right slider (35) with be connected with right elastic component between top cap (2), mounting panel (31) with surveying instrument (5) butt.

4. A rapid construction cost mapping apparatus according to claim 2, wherein: the bottom of the tool box (1) is provided with a lifting piece (4) for driving the surveying and mapping tool (5) to extend out of the tool box (1).

5. The rapid construction cost mapping apparatus according to claim 4, wherein: the lifting piece (4) comprises a placing plate (41), a left sliding block (42) and a right sliding block (43), wherein the placing plate (41) is hinged to a left lifting rod (44) and a right lifting rod (45), one end, far away from the placing plate (41), of the left lifting rod (44) is hinged to the left sliding block (42), one end, far away from the placing plate (41), of the right lifting rod (45) is hinged to the right sliding block (43), and the left sliding block (42) and the right sliding block (43) are connected with driving pieces for driving the left sliding block (42) and the right sliding block (43) to move oppositely or oppositely.

6. The rapid construction cost mapping apparatus according to claim 5, wherein: the driving piece includes actuating lever (46), be equipped with two sections reverse screw threads on actuating lever (46), actuating lever (46) with left side sliding block (42), right sliding block (43) threaded connection, left side sliding block (42), right sliding block (43) are located two sections screw threads department of actuating lever (46) respectively.

7. The rapid construction cost mapping apparatus according to claim 6, wherein: the driving rod (46) penetrates out of the tool box (1).

8. A rapid construction cost mapping apparatus according to claim 1, wherein: just be located in toolbox (1) the both sides of surveying and mapping instrument (5) all are equipped with damper (3), damper (3) with surveying and mapping instrument (5) butt.

9. A method of use of a rapid construction cost mapping apparatus according to any one of claims 1-8, wherein: the method comprises the following steps:

rotating the top cover (2) to remove the top cover (2) from the tool box (1);

rotating the driving rod (46) to enable the left sliding block (42) and the right sliding block (43) to move towards the direction of mutual approaching to drive the surveying and mapping tool (5) to extend out of the tool box (1);

the surveying tool (5) is removed and mounted on a holder matching the surveying tool (5) and the surveying tool (5) is calibrated, and then the measurement is started.

Images