CN115077980B - Survey equipment of building planning convenient to installation - Google Patents

Abstract

The invention discloses a survey device for building planning, which is convenient to install, can conveniently realize rapid survey and sampling, is convenient for a detachable supporting member to be high in stability, can be convenient for quick disassembly and assembly, and is convenient for sampling and installation at different positions; after the drill bit reaches the sampling position, the sampling component can act and can extract samples at the inner wall of the drill hole, the sampling component can convey the extracted samples into the storage cavity inside the drill bit, rapid sampling can be conveniently realized, when the drill rod is taken out, the sampled samples can be conveniently taken out, independent storage of the samples is realized during sampling, the purity of the sampled samples can be ensured, and the survey effect is improved.

Description

Survey equipment of building planning convenient to installation

Technical Field

The invention particularly relates to a surveying device for building planning, which is convenient to install and relates to the relevant field of surveying devices.

Background

Currently, prior to planning and designing a building, it is generally necessary to survey the underground condition of a planned area, so as to perform a corresponding design according to the surveyed condition. At present, a common drilling machine is generally adopted for drilling and setting sampling, when the drilling and setting equipment is used for drilling and setting, soil scraps carried upwards in the rotation process of a drilling and setting rod are generally collected for sampling, and the samples collected by the mode often contain more substances on the wall of a drilling hole, so that the analysis and judgment of the layer soil condition of the underground are difficult, and the surveying result is influenced.

Disclosure of Invention

Accordingly, to address the above-described deficiencies, the present invention herein provides a survey apparatus for building planning that facilitates installation.

The invention is realized in such a way, a survey device convenient for installation and construction planning is constructed, the survey device comprises a detachable supporting member, a supporting platform, a driving main shaft, a drilling sampling mechanism and a driving mechanism, wherein the supporting platform is detachably and fixedly arranged at the center of the upper end of the detachable supporting member, the driving main shaft is rotatably arranged on the supporting platform in a penetrating way, the driving mechanism is connected with the upper end of the driving main shaft, the driving mechanism can drive the driving main shaft to rotate around a vertical central axis and can drive the driving main shaft to lift, the drilling sampling mechanism is detachably arranged at the lower end of the driving main shaft, and the drilling sampling mechanism can drill into a position to be surveyed to perform sampling operation; the drilling and sampling mechanism comprises a drilling rod, a drilling tool bit and a sampling assembly, wherein the upper end of the drilling rod is detachably arranged at the lower end of the driving spindle, the lower end of the drilling rod is provided with the drilling tool bit, the sampling assembly is arranged at the position, close to the lower end of the drilling rod, of the upper part of the drilling tool bit, and the drilling tool bit can downwards drill when rotating so as to enable the drilling rod to downwards extend into the drilling hole, and a storage cavity capable of storing samples is formed in the drilling tool bit; after the drilling tool bit reaches the sampling position, the sampling assembly can act and can mine samples at the inner wall of the drill hole, and the sampling assembly can convey the mined samples into a storage cavity inside the drilling tool bit.

Further, as the preference, it includes storage section of thick bamboo, reaming section of thick bamboo, brill sword and drill bit to bore and establish the tool bit, the upper end coaxial fixation of storage section of thick bamboo is in bore the lower extreme of establishing the pole, the inside hollow storage chamber that is provided with of storage section of thick bamboo, the coaxial fixedly of lower extreme of storage section of thick bamboo is provided with reaming section of thick bamboo, the coaxial fixedly of lower extreme of reaming section of thick bamboo is provided with the sword, the sword is cylindrical tool bit, the lower terminal surface of boring the sword is provided with a plurality of the drill bit, sampling assembly installs on the storage section of thick bamboo.

Further, preferably, the drill bit is of a cylindrical solid structure, a reaming blade of a spiral structure is arranged on the outer wall of the reaming barrel, the diameter of the outer wall of the reaming barrel is larger than the outer diameter of the cylinder of the drill bit, the diameter of the outer wall of the reaming barrel is larger than the diameter of the outer wall of the storage barrel, and the diameter of the outer wall of the storage barrel is smaller than or equal to the diameter of the outer wall of the drill rod.

Further, preferably, the outer wall of the drill rod is provided with a spiral structure, and the drill rod can discharge the soil chips when rotating.

Further, preferably, the storage cylinder is provided with a radial slot which is radially opened, the radial slot is communicated with the storage cavity, the sampling assembly is installed in the radial slot, and in a non-sampling state that the drilling rod drills downwards, the maximum vertical cross section of the sampling assembly is just positioned at the notch of the radial slot, so that the gap between the groove wall of the radial slot and the sampling assembly is minimum; the sampling assembly is capable of extending out of the radial slot during sampling.

Further, as the preference, the sampling subassembly includes articulated section of thick bamboo, actuating lever, biax motor, drive shaft, first sampling blade disc and second sampling blade disc, wherein, articulated section of thick bamboo fixed mounting is in the upper end of actuating lever, the lower extreme of actuating lever is fixedly provided with biax motor, two output of biax motor are all installed the drive shaft, one of them fixed mounting has first sampling blade disc in the drive shaft, another one fixed mounting has on the drive shaft the second sampling blade disc, be provided with the spiral cutting edge that the spiral direction is opposite on the outer peripheral face of first sampling blade disc and second sampling blade disc, and when the sampling, biax motor drive when first sampling blade disc and second sampling blade disc rotate, the spiral cutting edge makes the sample of taking off move towards the region between first sampling blade disc and the second sampling blade disc, and can move to in the radial fluting.

Further, preferably, the hinge cylinder is hinged on the slot wall of the radial slot by using a swing-out cylinder or a swing-out motor, the hinge axis of the hinge cylinder is vertical to the central line axis of the storage cylinder in space, the hinge axis of the hinge cylinder is vertical to the central axis of the driving rod, and the central axes of the first sampling cutter disc and the second sampling cutter disc are vertical to the central axis of the driving rod.

Further, as the preference, actuating mechanism includes driving motor, actuating cylinder, wherein, driving motor adopts the drive of drive belt to be connected with the driving disc, the fixed cover of driving disc is established the upper portion of drive main shaft, the rotatable setting of upper end of drive main shaft is on the lift drive piece, the lift drive piece is connected to the output of actuating cylinder, the vertical extension arrangement of actuating cylinder, driving motor installs on the lifter plate, the lifter plate with adopt the connecting rod to fix together between the lift drive piece, so that driving motor and lift drive piece go up and down together, actuating cylinder adopts the connection extension frame to install just the top of dismouting formula supporting member, the lifter plate is installed in the direction is slided from top to bottom on the connection extension frame.

Further, preferably, the detachable supporting member comprises a lower vertical post, a horizontal transverse post, an upper inclined connecting post, four-way connectors and an upper mounting platform, wherein the lower end of each four-way connector is detachably connected with the lower vertical post through threads, two horizontal transverse posts are connected to two ends of each four-way connector in the horizontal direction, the horizontal direction ends of two adjacent four-way connectors are connected through the same horizontal transverse post, the upper ends of the four-way connecting pieces are respectively connected with an upper inclined connecting column, the upper ends of the upper inclined connecting columns are respectively installed on the upper installation platform, wherein the number of the lower vertical support columns, the number of the horizontal transverse columns and the number of the upper inclined connecting columns are four, the support platform is detachably installed on the installation platform, and a central through hole is formed in the installation platform.

Further, preferably, a center bearing is disposed on the support platform, a sliding sleeve is disposed on an inner ring of the center bearing, and the driving main shaft is coaxially sleeved in the sliding sleeve, so that the driving main shaft can slide up and down in the sliding sleeve and can rotate in the center bearing along with the sliding sleeve.

The invention has the following advantages: the survey equipment for building planning, which is convenient to install, has the following advantages compared with the same type of equipment:

The survey equipment for building planning convenient to install can conveniently realize rapid survey and sampling, is convenient for the stability of the detachable supporting member to be high, can conveniently and rapidly disassemble and assemble, and is convenient for sampling and installing at different positions; after the drill bit reaches the sampling position, the sampling component can act and can extract samples at the inner wall of the drill hole, the sampling component can convey the extracted samples into the storage cavity inside the drill bit, rapid sampling can be conveniently realized, when the drill rod is taken out, the sampled samples can be conveniently taken out, independent storage of the samples is realized during sampling, the purity of the sampled samples can be ensured, and the survey effect is improved. When sampling, biax motor drive when first sampling blade disc and second sampling blade disc rotate, spiral cutting edge makes the sample of taking off move towards the region between a sampling blade disc and the second sampling blade disc, and can move to in the radial fluting, realize reliability and the purity of sampling, improve sampling efficiency, the detection after the reconnaissance of being convenient for provides better foundation for the planning.

Drawings

FIG. 1 is a schematic view of the overall three-dimensional structure of the present invention;

FIG. 2 is a schematic diagram of the drilling and sampling mechanism of the present invention;

FIG. 3 is a schematic overall front view of the present invention;

FIG. 4 is a schematic view of a partially enlarged structure of the drilling and sampling mechanism of the present invention;

FIG. 5 is an enlarged schematic view of the structure of FIG. 4A in accordance with the present invention;

FIG. 6 is a schematic diagram of the front view of the sampling assembly of the present invention;

Fig. 7 is a schematic three-dimensional structure of a sampling assembly of the present invention.

Detailed Description

The following detailed description of the present invention, taken in conjunction with the accompanying drawings, 1-7, will provide a clear and complete description of the embodiments of the present invention, it being apparent that the embodiments described are merely some, but not all, of the embodiments of the present invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The invention provides a survey device for building planning, which is convenient to install and comprises a detachable supporting member, a supporting platform 10, a driving main shaft 13, a drilling sampling mechanism 7 and a driving mechanism, wherein the supporting platform 10 is detachably and fixedly installed at the center of the upper end of the detachable supporting member, the driving main shaft 13 is rotatably arranged on the supporting platform 10 in a penetrating manner, the driving mechanism is connected with the upper end of the driving main shaft 13, the driving mechanism can drive the driving main shaft 13 to rotate around a vertical central axis and can drive the driving main shaft 13 to lift, the drilling sampling mechanism 7 is detachably installed at the lower end of the driving main shaft, and the drilling sampling mechanism can drill into a position to be surveyed to perform sampling operation; the drilling and sampling mechanism 7 comprises a drilling rod 15, a drilling tool bit 14 and a sampling assembly 20, wherein the upper end of the drilling rod 15 is detachably arranged at the lower end of the driving main shaft, the lower end of the drilling rod 15 is provided with the drilling tool bit, the sampling assembly 20 is arranged at the position, close to the lower end of the drilling rod, of the upper part of the drilling tool bit 14, and when the drilling tool bit 14 rotates, the drilling tool bit 14 can downwards drill so as to enable the drilling rod to downwards extend into the drilling hole, and a storage cavity capable of storing samples is formed in the drilling tool bit 14; after the drilling tool bit reaches the sampling position, the sampling assembly can act and can mine samples at the inner wall of the drill hole, and the sampling assembly can convey the mined samples into a storage cavity inside the drilling tool bit.

The drilling tool bit 14 comprises a storage cylinder 16, a reaming cylinder 19, a drilling tool 17 and a drilling blade 18, wherein the upper end of the storage cylinder 16 is coaxially fixed at the lower end of the drilling rod 15, a hollow storage cavity is formed in the storage cylinder 16, the reaming cylinder 19 is coaxially and fixedly arranged at the lower end of the storage cylinder, the drilling tool 17 is coaxially and fixedly arranged at the lower end of the reaming cylinder, a plurality of drilling blades 18 are arranged at the lower end face of the drilling tool, and the sampling assembly is mounted on the storage cylinder.

The drill bit 17 is of a cylindrical solid structure, a reaming blade of a spiral structure is arranged on the outer wall of the reaming barrel, the outer wall diameter of the reaming barrel is larger than the outer diameter of the cylinder of the drill bit, the outer wall diameter of the reaming barrel is larger than the outer wall diameter of the storage barrel, and the outer wall diameter of the storage barrel is smaller than or equal to the outer wall diameter of the drill rod.

The outer wall of the drill rod 15 is provided with a spiral structure, and when the drill rod rotates, soil scraps of the drill can be discharged.

The storage cylinder is provided with a radial slot 21 which is radially opened and communicated with the storage cavity, the sampling assembly 20 is installed in the radial slot, and in a non-sampling state that the drilling rod drills downwards, the maximum vertical cross section of the sampling assembly is just positioned at the slot opening of the radial slot so as to enable the gap between the slot wall of the radial slot and the sampling assembly to be minimum; the sampling assembly is capable of extending out of the radial slot during sampling.

The sampling assembly 20 comprises a hinged cylinder 22, a driving rod 27, a double-shaft motor 25, a driving shaft, a first sampling cutter 24 and a second sampling cutter 26, wherein the hinged cylinder 22 is fixedly installed at the upper end of the driving rod 27, the lower end of the driving rod 27 is fixedly provided with the double-shaft motor 25, the driving shafts are respectively installed at two output ends of the double-shaft motor 25, one driving shaft is fixedly provided with the first sampling cutter 24, the other driving shaft is fixedly provided with the second sampling cutter 26, the peripheral surfaces of the first sampling cutter 24 and the second sampling cutter 26 are provided with spiral blades 23 with opposite spiral directions, and during sampling, the double-shaft motor 25 drives the first sampling cutter and the second sampling cutter to rotate, and the spiral blades enable the taken sample to move towards the area between the first sampling cutter and the second sampling cutter and to move into the radial slot.

The hinge cylinder 22 is hinged on the radial slot wall by adopting a swing cylinder or a swing motor, the hinge axis of the hinge cylinder 22 is vertical to the central line axis of the storage cylinder in space, the hinge axis of the hinge cylinder is vertical to the central axis of the driving rod, and the central axes of the first sampling cutter head 24 and the second sampling cutter head 26 are vertical to the central axis of the driving rod.

The driving mechanism comprises a driving motor (not shown in the figure) and a driving air cylinder (not shown in the figure), wherein the driving motor is connected with a driving disc 12 by adopting a transmission belt, the driving disc 12 is fixedly sleeved on the upper part of a driving main shaft 13, the upper end of the driving main shaft is rotatably arranged on a lifting driving block 11, the lifting driving block 11 is connected to the output end of the driving air cylinder, the driving air cylinder is vertically extended and arranged, the driving motor is arranged on a lifting plate (not shown in the figure), the lifting plate and the lifting driving block are fixed together by adopting a connecting rod (not shown in the figure) so as to enable the driving motor and the lifting driving block to lift together, and the driving air cylinder is arranged above the conveniently detachable supporting member by adopting a connecting extension frame and is arranged on the connecting extension frame in a vertically guiding and sliding manner.

Just, reassembling type supporting member includes vertical pillar 8, horizontal post 9, goes up slope spliced pole 4, four cross connecting pieces 2 and last mounting platform 5 down, each the equal detachable threaded connection of lower extreme of cross connecting piece has vertical pillar down, each all be connected with a horizontal post on the both ends of the horizontal direction of cross connecting piece, and the horizontal direction end adoption of two adjacent cross connecting pieces is the same horizontal post is connected, each the slope upper end of cross connecting piece all is connected with one go up slope spliced pole 4, the upper end of each upward slope spliced pole 4 is installed on the mounting platform 5, wherein, vertical pillar 8 down, horizontal post 9, upward slope spliced pole 4 are four down, mounting platform 10 detachable installs on the mounting platform 5, just be provided with on the mounting platform 5 and supply to bore the center through-hole of establishing pole and drive main shaft and pass, the supporting legs is installed to the bottom of vertical pillar 8 down.

The supporting platform is provided with a center bearing, a sliding sleeve is arranged on the inner ring of the center bearing, and the driving main shafts are coaxially sleeved in the sliding sleeve, so that the driving main shafts can slide up and down in the sliding sleeve and can rotate in the center bearing along with the sliding sleeve.

The invention can conveniently realize quick survey and sampling, the stability of the detachable support member is high, the detachable support member can be conveniently and quickly detached, and the sampling and installation of different positions are convenient; after the drill bit reaches the sampling position, the sampling component can act and can extract samples at the inner wall of the drill hole, the sampling component can convey the extracted samples into the storage cavity inside the drill bit, rapid sampling can be conveniently realized, when the drill rod is taken out, the sampled samples can be conveniently taken out, independent storage of the samples is realized during sampling, the purity of the sampled samples can be ensured, and the survey effect is improved. When sampling, biax motor drive when first sampling blade disc and second sampling blade disc rotate, spiral cutting edge makes the sample of taking off move towards the region between a sampling blade disc and the second sampling blade disc, and can move to in the radial fluting, realize reliability and the purity of sampling, improve sampling efficiency, the detection after the reconnaissance of being convenient for provides better foundation for the planning.

The basic principle and main characteristics of the invention and the advantages of the invention are shown and described above, standard parts used by the invention can be purchased from market, special-shaped parts can be customized according to the description of the specification and the drawings, the specific connection modes of the parts adopt conventional means such as mature bolt rivets and welding in the prior art, the machinery, the parts and the equipment adopt conventional models in the prior art, and the circuit connection adopts conventional connection modes in the prior art, so that the description is omitted.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (5)

1. The utility model provides a survey equipment of building planning convenient to installation, its includes just dismouting formula supporting member, supporting platform, drive main shaft, bores and establishes sampling mechanism and actuating mechanism, just the detachable fixed mounting in upper end center of dismouting formula supporting member has supporting platform, rotatable the running through is provided with on the supporting platform drive main shaft, the upper end of drive main shaft is connected with actuating mechanism, actuating mechanism can drive the drive main shaft rotates around vertical central axis, and can drive the setting that drive main shaft goes up and down, the lower extreme of drive main shaft still detachable installs bore and establish sampling mechanism, bore and establish sampling mechanism and can bore into the position of waiting to survey and take samples the operation; the drilling and sampling mechanism is characterized by comprising a drilling rod, a drilling tool bit and a sampling assembly, wherein the upper end of the drilling rod is detachably arranged at the lower end of the driving spindle, the lower end of the drilling rod is provided with the drilling tool bit, the sampling assembly is arranged at the position, close to the lower end of the drilling rod, of the upper part of the drilling tool bit, and the drilling tool bit can downwards drill when rotating so as to enable the drilling rod to downwards extend into the drilling hole, and a storage cavity capable of storing samples is formed in the drilling tool bit; after the drilling tool bit reaches a sampling position, the sampling assembly can act and can extract samples at the inner wall of a drill hole, and the sampling assembly can convey the extracted samples into a storage cavity in the drilling tool bit;

The drilling tool bit comprises a storage cylinder, a reaming cylinder, a drilling tool and a drilling blade, wherein the upper end of the storage cylinder is coaxially fixed at the lower end of the drilling rod, a hollow storage cavity is formed in the storage cylinder, the reaming cylinder is coaxially and fixedly arranged at the lower end of the storage cylinder, the drilling tool is coaxially and fixedly arranged at the lower end of the reaming cylinder, the drilling tool is a cylindrical tool bit, a plurality of drilling blades are arranged at the lower end face of the drilling tool, and the sampling assembly is mounted on the storage cylinder;

The drilling tool is of a cylindrical solid structure, a reaming blade of a spiral structure is arranged on the outer wall of the reaming barrel, the diameter of the outer wall of the reaming barrel is larger than the outer diameter of the cylinder of the drilling tool, the diameter of the outer wall of the reaming barrel is larger than the diameter of the outer wall of the storage barrel, and the diameter of the outer wall of the storage barrel is smaller than or equal to the diameter of the outer wall of the drilling rod;

The storage cylinder is provided with a radial slot which is radially opened, the radial slot is communicated with the storage cavity, the sampling assembly is installed in the radial slot, and in a non-sampling state that the drilling rod drills downwards, the maximum vertical cross section of the sampling assembly is exactly positioned at the slot opening of the radial slot, so that the gap between the slot wall of the radial slot and the sampling assembly is minimum; the sampling assembly can extend out of the radial slot during sampling;

The sampling assembly comprises a hinged barrel, a driving rod, a double-shaft motor, a driving shaft, a first sampling cutter disc and a second sampling cutter disc, wherein the hinged barrel is fixedly arranged at the upper end of the driving rod, the lower end of the driving rod is fixedly provided with the double-shaft motor, the driving shafts are arranged at two output ends of the double-shaft motor, one driving shaft is fixedly provided with the first sampling cutter disc, the other driving shaft is fixedly provided with the second sampling cutter disc, spiral cutting edges with opposite spiral directions are arranged on the peripheral surfaces of the first sampling cutter disc and the second sampling cutter disc, and when sampling is carried out, the double-shaft motor drives the first sampling cutter disc and the second sampling cutter disc to rotate, and the spiral cutting edges enable a taken sample to move towards an area between the first sampling cutter disc and the second sampling cutter disc and to move into the radial slot;

The articulated cylinder is hinged on the radial slotted wall by adopting a swinging cylinder or a swinging motor, the articulated axis of the articulated cylinder is vertical to the central line axis of the storage cylinder in space, the articulated axis of the articulated cylinder is vertical to the central axis of the driving rod, and the central axes of the first sampling cutter disc and the second sampling cutter disc are vertical to the central axis of the driving rod.

2. A survey apparatus for facilitating installation building planning in accordance with claim 1, wherein: the outer wall of the drilling rod is provided with a spiral structure, and when the drilling rod rotates, soil scraps drilled can be discharged.

3. A survey apparatus for facilitating installation building planning in accordance with claim 1, wherein: the driving mechanism comprises a driving motor and a driving air cylinder, wherein the driving motor is connected with a driving disc through driving of a transmission belt, the driving disc is fixedly sleeved on the upper portion of the driving main shaft, the upper end of the driving main shaft is rotatably arranged on a lifting driving block, the lifting driving block is connected to the output end of the driving air cylinder, the driving air cylinder vertically extends and is arranged, the driving motor is arranged on a lifting plate, the lifting plate and the lifting driving block are fixed together through a connecting rod, so that the driving motor and the lifting driving block are lifted together, the driving air cylinder is arranged above a detachable supporting member through a connecting extension frame, and the lifting plate is arranged on the connecting extension frame in a vertical guiding sliding mode.

4. A construction planning survey apparatus for facilitating installation according to claim 3, wherein: the conveniently detachable supporting member comprises a lower vertical support column, horizontal transverse columns, an upper inclined connecting column, four-way connecting pieces and an upper mounting platform, wherein the lower ends of the four-way connecting pieces are detachably connected with the lower vertical support column through threads, two horizontal transverse columns are connected to two ends of each four-way connecting piece in the horizontal direction, the horizontal direction ends of two adjacent four-way connecting pieces are connected by adopting the same horizontal transverse column, the upper ends of the four-way connecting pieces are respectively connected with an upper inclined connecting column, the upper ends of the upper inclined connecting columns are respectively installed on the upper installation platform, wherein the number of the lower vertical support columns, the number of the horizontal transverse columns and the number of the upper inclined connecting columns are four, the support platform is detachably installed on the installation platform, and a central through hole is formed in the installation platform.

5. A survey apparatus for facilitating installation building planning as defined in claim 4, wherein: the supporting platform is provided with a center bearing, a sliding sleeve is arranged on the inner ring of the center bearing, and the driving main shafts are coaxially sleeved in the sliding sleeve, so that the driving main shafts can slide up and down in the sliding sleeve and can rotate in the center bearing along with the sliding sleeve.