CN209296354U - A kind of portable soil analysis device - Google Patents

Abstract

A kind of portable soil analysis device, it is related to the technical field of soil analysis equipment, it includes handle, connection frame, rack, elevating mechanism, drilling ground machine structure, bindiny mechanism, driving mechanism, key A, key B, control mechanism, sand pumping machine structure and soil analysis equipment, the bindiny mechanism includes connecting plate B, spring, telescopic rod, electromagnet, iron block, connecting column, slide block B and sliding rail B, one end of the connecting plate B, which is connected to, to be fixedly connected in top inner wall, the other end of connecting plate B is connected with one end of spring, the other end of spring is connected to the side of telescopic rod, the other side of telescopic rod is connected with electromagnet；The portable soil analysis device can analyze the soil property that will build foundation pit in varying environment, it is by the less-restrictive of environment, and different method for digging can be changed according to the soil situation on different surfaces, the ability for adapting to environment is strong, can analyze in different environment soil property.

Description

A kind of portable soil analysis device

Technical field

The utility model relates to the technical field of soil analysis equipment, especially a kind of portable soil analysis device.

Background technique

Before building now, the analysis in terms of the underground progress soil property to the building built is needed, point The soil property is analysed if appropriate for foundation pit is built, prevents the collapsing because of foundation pit caused by building foundation pit in unsuitable soil property； And it needs to use this into corresponding soil analysis equipment when carrying out analyzing its ingredient or construction to soil property now.

And soil analysis equipment now is usually all pure analytical equipment, when needing to the corresponding of foundation pit will be built When soil property in depth is analyzed, it is also necessary to which staff is using corresponding digging tool come to will build the corresponding of foundation pit It, can be using the soil analysis equipment come to the hole bottom after digging tool excavates after soil more than depth scoops away Soil carry out soil analysis, operation be more troublesome, when staff does not carry excavating equipment or more complicated When can not move excavating equipment in environment, the soil property that will be built in foundation pit can not just be analyzed.

Utility model content

The technical problem to be solved by the utility model is to provide a kind of portable soil analysis devices, can be to not It is analyzed with the soil property that will build foundation pit in environment, by the less-restrictive of environment, and can be according to different tables The soil situation in face changes different method for digging, and the ability for adapting to environment is strong, can in different environment to soil property into Row analysis.

A kind of in order to solve the above technical problems, the technical scheme adopted by the utility model is: portable soil analysis dress It sets, including handle, connection frame, rack, elevating mechanism, drilling ground machine structure, bindiny mechanism, driving mechanism, key A, key B, control Mechanism, sand pumping machine structure and soil analysis equipment, handle are mounted on the top of connection frame, the top of connection frame be equipped with key A with And key B, the bottom of connection frame are connected to rack, are equipped with elevating mechanism in rack, with the central axes pair of rack on elevating mechanism Claim connection there are two one end of drilling ground machine structure, the other end of two drilling ground machine structures is each passed through the bottom of rack, on elevating mechanism One end of bindiny mechanism is also symmetrically connected with the central axes of rack, the other end of bindiny mechanism is connected in the top of rack Wall is connected with driving mechanism on elevating mechanism, and driving mechanism is connected to drilling ground machine structure, and the bottom of rack is equipped with sand pumping machine Structure, sand pumping machine structure is interior to be equipped with soil analysis equipment, and the control mechanism is connected to elevating mechanism, drilling ground machine by conducting wire Structure, bindiny mechanism, driving mechanism, sand pumping machine structure, key A, key B and soil analysis equipment, the bindiny mechanism include connecting Fishplate bar B, spring, telescopic rod, electromagnet, iron block, connecting column, slide block B and sliding rail B, one end of the connecting plate B are connected to solid Surely it is connected in top inner wall, the other end of connecting plate B is connected with one end of spring, and the other end of spring is connected to telescopic rod Side, the other side of telescopic rod are connected with electromagnet, and the side for having iron block, the other side connection of iron block are connected on electromagnet In one end of connecting column, the other end of connecting column is connected on the side interior wall of rack, is connected to cunning at the top of the telescopic rod On block B, slide block B is slidably connected on sliding rail B, and sliding rail B is mounted on frame top inner wall.

The elevating mechanism includes motor A, screw rod, screw rod sliding block and two groups of lifting assemblies, the motor A installation In frame top, the motor shaft of motor A passes through one end that screw rod is connected at the top of rack, and the other end of screw rod is connected to machine Screw rod sliding block is slidably connected in the bottom interior wall of frame, on screw rod, using the central axes on screw rod sliding block as axle center on screw rod sliding block It is symmetrically installed with one end of two groups of lifting assemblies, the other end of two groups of lifting assemblies is connected to the side of rack.

The lifting assembly includes that connecting plate A, sliding block A and sliding rail A, one end of the connecting plate A are bolted In the side of screw rod sliding block, the other end of connecting plate A is connected on sliding block A, and sliding block A is slidably connected on sliding rail A, sliding rail A peace On the side interior wall of rack.

The brill nailing machine structure includes rotating disc, connecting rod A, fixed frame, motor B and drill bit, the rotating disc installation In the bottom of connecting plate A, one end of connecting rod A is hinged on rotating disc, the other end of connecting rod A is connected on fixed frame, Gu Determine to be fixedly connected with motor B on frame, the motor shaft of motor B is connected to drill bit.

The driving mechanism includes that two gear As, gear B and motor C, two gear As are passed through by strut respectively Rotating disc is fixedly connected on connecting rod A, and two gear As are symmetrically engaged using the central axes of gear B as axle center respectively is connected to tooth It takes turns on B, one end of gear B is connected on screw rod sliding block by strut, the other end of gear B and the motor axis connection of motor C.

The sand pumping machine structure includes sandbox and sand pump, and the sandbox is mounted on the bottom of rack, sandbox Bottom, which is equipped with, is open and is fixedly connected with sand pump, and the output end of sand pump is connected to sandbox, the input terminal connection of sand pump In the external world.

The control mechanism includes receiver, signal adapter, reservoir, data comparison device, controller and battery, institute It states receiver and signal adapter is connected to by conducting wire, signal adapter is connected to reservoir by conducting wire, and reservoir is by leading Line is connected to data comparison device, and data comparison device is connected to controller by conducting wire, and controller is connected to battery by conducting wire, electricity Pond is connected to electromagnet by conducting wire.

The receiver is connected to key A and key B by conducting wire.

The controller is connected to motor A, motor B and motor C by conducting wire.

The utility model provides a kind of portable soil analysis device, can will build base in varying environment The soil property in hole is analyzed, and by the less-restrictive of environment, and can be changed not according to the soil situation on different surfaces Same method for digging, the ability for adapting to environment is strong, can analyze in different environment soil property.

Detailed description of the invention

Fig. 1 is the front view of the portable soil analysis device of the utility model；

Fig. 2 is the rearview of the portable soil analysis device of the utility model.

Specific embodiment

As shown in Figs. 1-2, a kind of portable soil analysis device, including handle 1, connection frame 2, rack 3, elevating mechanism, Drilling ground machine structure, bindiny mechanism, driving mechanism, key A801, key B802, control mechanism, sand pumping machine structure and soil analysis are set Standby, handle 1 is mounted on the top of connection frame 2, and the top of connection frame 2 is equipped with key A801 and key B802, the bottom of connection frame 2 Portion is connected to rack 3, is equipped with elevating mechanism in rack 3, on elevating mechanism with being symmetrically connected with two brill with the central axes of rack 3 One end of mechanism, the other end of two drilling ground machine structures are each passed through the bottom of rack 3, also with the axis of rack 3 on elevating mechanism Line is symmetrically connected with one end of bindiny mechanism, and the other end of bindiny mechanism is connected to the top inner wall of rack 3, elevating mechanism it is upper It is connected with driving mechanism, driving mechanism is connected to drilling ground machine structure, and the bottom of rack 3 is equipped with sand pumping machine structure, sets in sand pumping machine structure There is soil analysis equipment, the control mechanism is connected to elevating mechanism, drilling ground machine structure, bindiny mechanism, driving by conducting wire Mechanism, sand pumping machine structure, key A801, key B802 and soil analysis equipment, the bindiny mechanism include connecting plate B601, bullet Spring 602, telescopic rod 603, electromagnet 604, iron block 605, connecting column 606, slide block B 607 and sliding rail B608, the connecting plate One end of B601, which is connected to, to be fixedly connected in top inner wall, and the other end of connecting plate B601 is connected with one end of spring 602, bullet The other end of spring 602 is connected to the side of telescopic rod 603, and the other side of telescopic rod 603 is connected with electromagnet 604, electromagnet 604 Upper connect has the side of iron block 605, and the other side of iron block 605 is connected to one end of connecting column 606, connecting column 606 it is another One end is connected on the side interior wall of rack 3, and the top of the telescopic rod 603 is connected in slide block B 607, and slide block B 607 is slided It is connected on sliding rail B608, sliding rail B608 is mounted in 3 top inner wall of rack.

The elevating mechanism includes motor A401, screw rod 402, screw rod sliding block 403 and two groups of lifting assemblies, the electricity Motivation A401 is mounted on 3 top of rack, and the top that the motor shaft of motor A401 passes through rack 3 is connected to one end of screw rod 402, The other end of screw rod 402 is connected in the bottom interior wall of rack 3, and screw rod sliding block 403 is slidably connected on screw rod 402, and screw rod is sliding One end of two groups of lifting assemblies, two groups of lifting assemblies are symmetrically installed on block 403 using the central axes on screw rod sliding block 403 as axle center The other end be connected to the side of rack 3.

The lifting assembly includes connecting plate A404, sliding block A405 and sliding rail A406, one end of the connecting plate A404 It is bolted to the side of screw rod sliding block 403, the other end of connecting plate A404 is connected on sliding block A405, and sliding block A405 is sliding Dynamic to be connected on sliding rail A406, sliding rail A406 is mounted on the side interior wall of rack 3.

The brill nailing machine structure includes rotating disc 501, connecting rod A502, fixed frame 503, motor B504 and drill bit 505, The rotating disc 501 is mounted on the bottom of connecting plate A404, and one end of connecting rod A502, connecting rod are hinged on rotating disc 501 The other end of A502 is connected on fixed frame 503, and motor B504, the electricity of motor B504 are fixedly connected on fixed frame 503 Arbor is connected to drill bit 505.

The driving mechanism includes that two gear As 701, gear B 702 and motor C703, two gear As 701 are distinguished It passes through rotating disc 501 by strut to be fixedly connected on connecting rod A502, two gear As 701 are respectively with the axis of gear B 702 Line is symmetrically engaged for axle center and is connected in gear B 702, and one end of gear B 702 is connected on screw rod sliding block 403 by strut, tooth Take turns the other end of B702 and the motor axis connection of motor C703.

The sand pumping machine structure includes sandbox 1001 and sand pump 1002, and the sandbox 1001 is mounted on rack 3 Bottom, the bottom of sandbox 1001, which is equipped with, to be open and is fixedly connected with sand pump 1002, and the output end of sand pump 1002 is connected to The input terminal of sandbox 1001, sand pump 1002 is connected to the external world.

The control mechanism includes receiver 901, signal adapter 902, reservoir 903, data comparison device 904, control Device 905 and battery 906, the receiver 901 are connected to signal adapter 902 by conducting wire, and signal adapter 902 is by leading Line is connected to reservoir 903, and reservoir 903 is connected to data comparison device 904 by conducting wire, and data comparison device 904 passes through conducting wire It is connected to controller 905, controller 905 is connected to battery 906 by conducting wire, and battery 906 is connected to electromagnet by conducting wire 604。

The receiver 901 is connected to key A801 and key B802 by conducting wire.

The controller 905 is connected to motor A401, motor B504 and motor C703 by conducting wire.

Specific implementation process is as follows: during use, it is portable that staff moves this by the handle 1 of holding with a firm grip first This is simultaneously placed on the foundation pit that will be built for needing soil analysis by formula soil analysis device；

When staff judges, the soil property of the environment is harder soil property, staff presses the button simultaneously first A801, at this moment, key A801 can give receiver 901 1 push button signalling A, be transmitted push button signalling A by receiver 901 Into signal adapter 902, push button signalling A is converted by electric signal A by signal adapter 902 and is transmitted to storage In device 903, electric signal A and the enabling signal A being previously stored in reservoir 903 are transferred to number by reservoir 903 together According to contrast device 904, the electric signal A and enabling signal A being previously stored in reservoir 903 is made by data comparison device 904 It compares out, when comparing consistent, controller 905 controls electromagnet 604 immediately and battery 906 is connected, while starting motor C703 is driven the rotation of gear B 702 connected to it by the rotating forward of the motor shaft of motor C703, passes through gear B 702 Rotation drives the rotation of two gear As 701 engaged, is driven by the rotation of gear A 701 and it passes through strut connection The rotation of rotating disc 501 is driven the rotation of connecting rod A502 connected to it by the rotation of rotating disc 501, passes through connecting rod The rotation of A502 drives the rotation of fixed frame 503 connected to it, and drives electricity connected to it by the rotation of fixed frame 503 Drill bit 505 on the motor shaft of motivation B504 and motor B504 rotates, and at this moment, two drilling ground machine structures can be close to each other, when Staff observe two drilling ground machine structures turn to suitably apart from when, press the button A801 again, immediately complete two brill The relative movement of ground mechanism, meanwhile, staff controls the starting of motor A401 by controller 905, passes through motor The rotation of the motor shaft of A401 drives the rotation of screw rod 402 connected to it, is driven by the rotation of screw rod 402 connected to it Screw rod sliding block 403 is moved along the length direction of screw rod 402, passes through the mobile drive connecting plate connected to it of screw rod sliding block 403 The movement of A404 is opened simultaneously by moving down for the drilling ground machine structure of the mobile bottom drive connecting plate A404 of connecting plate A404 Dynamic motor B504, the rotation of drill bit 505 connected to it is driven by the rotation of motor B504, passes through turning for drill bit 505 It is dynamic to drill to the harder soil on the foundation pit that built, by two symmetrical drill bits 505 come simultaneously to harder Soil drills, and can excavate the soil for needing soil property to detect in a relatively short period of time, meanwhile, when excavation finishes Afterwards, staff passes through the starting that controller 905 controls sand pump 1002 immediately, needs soil property to detect by 1002 pairs of sand pump Soil be pumped into sandbox 1001, while starting the soil analysis equipment in sandbox 1001, and then soil property point is carried out to it Analysis is completed to carry out drilling and carrying out it to harder soil taking out the soil analysis after sand immediately；

When staff needs to excavate softer soil property, B802 is pressed the button immediately, key B802 can give Push button signalling B is transferred in signal adapter 902 by receiver 901, passes through letter by 901 1 push button signalling B of receiver Push button signalling B is converted into electric signal B and is transmitted in reservoir 903 by number converter 902, and reservoir 903 is by the electricity Signal B and the enabling signal B being previously stored in reservoir 903 are transferred to data comparison device 904 together, pass through data comparison Device 904 makes comparison to electric signal B and the enabling signal B being previously stored in reservoir 903, when comparing consistent, control Device 905 controls the electromagnet 604 of one of bindiny mechanism immediately and battery 906 is disconnected and being connected, while starting motor C703, The rotation that gear B 702 connected to it is driven by the rotating forward of the motor shaft of motor C703, passes through the rotation band of gear B 702 The rotation of the dynamic one of gear A 701 engaged is driven by the rotation of one of gear A 701 and passes through strut with it The rotation of the rotating disc 501 of connection is driven the rotation of connecting rod A502 connected to it by the rotation of rotating disc 501, passed through The rotation of connecting rod A502 drives the rotation of fixed frame 503 connected to it, and is connected by the rotation of fixed frame 503 drive with it Drill bit 505 on the motor shaft of the motor B504 and motor B504 that connect rotates, and at this moment, one of drilling ground machine structure can be held Beginning rotates the angle of its drill bit 505, when staff observes that the drill bit 505 of one of drilling ground machine structure turns to suitable position When setting, B802 is pressed the button again, stops the starting of motor C703 immediately, meanwhile, staff is controlled by controller 905 The starting of motor A401 is driven the rotation of screw rod 402 connected to it by the rotation of the motor shaft of motor A401, passed through The rotation of screw rod 402 drives screw rod sliding block 403 connected to it to move along the length direction of screw rod 402, passes through screw rod sliding block 403 Mobile drive connecting plate A404 connected to it movement, pass through the mobile bottom drive connecting plate A404 of connecting plate A404 Drilling ground machine structure moves down, while starting motor B504, drives drill bit connected to it by the rotation of motor B504 505 rotation drills to the softer soil on the foundation pit that will be built by the rotation of drill bit 505, passes through wherein one A drill bit 505 can drill to softer soil, so that it is not needed two drilling ground machine structures of investment, prevent the waste of the energy, Meanwhile after excavation, staff passes through the starting that controller 905 controls sand pump 1002 immediately, passes through sand pump 1002 pairs of soil for needing soil property to detect are pumped into sandbox 1001, while starting the soil analysis equipment in sandbox 1001, And then soil analysis is carried out to it, it completes that softer soil is carried out to drill and carry out it to take out the soil analysis after sand immediately, It can analyze the soil property that will build foundation pit in varying environment, by the less-restrictive of environment, and being capable of root Change different method for digging according to the soil situation on different surfaces, the ability for adapting to environment is strong, can be in different environment In soil property is analyzed.

The above embodiments are only the optimal technical scheme of the utility model, and are not construed as the limit for the utility model System, the technical solution that the protection scope of the utility model should be recorded with claim, the technical solution recorded including claim The equivalents of middle technical characteristic are protection scope.Equivalent replacement i.e. within this range is improved, also in the utility model Protection scope within.

Claims (9)

1. a kind of portable soil analysis device, it is characterised in that: including handle, connection frame, rack, elevating mechanism, drilling ground machine Structure, bindiny mechanism, driving mechanism, key A, key B, control mechanism, sand pumping machine structure and soil analysis equipment, handle are mounted on The top at the top of connection frame, connection frame is equipped with key A and key B, and the bottom of connection frame is connected to rack, is equipped in rack Elevating mechanism, is symmetrically connected with one end of two drilling ground machine structures on elevating mechanism with the central axes of rack, two drilling ground machine structures The other end is each passed through the bottom of rack, is also symmetrically connected with one end of bindiny mechanism on elevating mechanism with the central axes of rack, The other end of bindiny mechanism is connected to the top inner wall of rack, and driving mechanism, driving mechanism connection are connected on elevating mechanism In drilling ground machine structure, the bottom of rack is equipped with sand pumping machine structure, and soil analysis equipment is equipped in sand pumping machine structure, and the control mechanism is logical Cross conducting wire be connected to elevating mechanism, drilling ground machine structure, bindiny mechanism, driving mechanism, sand pumping machine structure, key A, key B and Soil analysis equipment, the bindiny mechanism include connecting plate B, spring, telescopic rod, electromagnet, iron block, connecting column, slide block B and Sliding rail B, one end of the connecting plate B, which is connected to, to be fixedly connected in top inner wall, and the other end of connecting plate B is connected with spring One end, the other end of spring are connected to the side of telescopic rod, and the other side of telescopic rod is connected with electromagnet, the company of contact on electromagnet It is connected to the side of iron block, the other side of iron block is connected to one end of connecting column, and the other end of connecting column is connected to the side of rack It on inner wall, is connected in slide block B at the top of the telescopic rod, slide block B is slidably connected on sliding rail B, and sliding rail B is mounted on rack top On portion's inner wall.

2. portable soil analysis device according to claim 1, it is characterised in that: the elevating mechanism includes motor A, screw rod, screw rod sliding block and two groups of lifting assemblies, the motor A are mounted on frame top, and the motor shaft of motor A passes through One end of screw rod is connected at the top of rack, the other end of screw rod is connected in the bottom interior wall of rack, is slidably connected on screw rod There is screw rod sliding block, be symmetrically installed with one end of two groups of lifting assemblies on screw rod sliding block using the central axes on screw rod sliding block as axle center, The other end of two groups of lifting assemblies is connected to the side of rack.

3. portable soil analysis device according to claim 2, it is characterised in that: the lifting assembly includes connecting plate A, one end of sliding block A and sliding rail A, the connecting plate A are bolted to the side of screw rod sliding block, and connecting plate A's is another End is connected on sliding block A, and sliding block A is slidably connected on sliding rail A, and sliding rail A is mounted on the side interior wall of rack.

4. portable soil analysis device according to claim 1, it is characterised in that: the drilling ground machine structure includes rotation Disk, connecting rod A, fixed frame, motor B and drill bit, the rotating disc are mounted on the bottom of connecting plate A, hinged on rotating disc There is one end of connecting rod A, the other end of connecting rod A is connected on fixed frame, and motor B is fixedly connected on fixed frame, electronic The motor shaft of machine B is connected to drill bit.

5. portable soil analysis device according to claim 1, it is characterised in that: the driving mechanism includes two teeth A, gear B and motor C are taken turns, two gear As pass through strut respectively and are fixedly connected on connecting rod A across rotating disc, and two Gear A is symmetrically engaged as axle center using the central axes of gear B be connected in gear B respectively, and one end of gear B is connected to by strut On screw rod sliding block, the other end of gear B and the motor axis connection of motor C.

6. portable soil analysis device according to claim 1, it is characterised in that: the sand pumping machine structure includes sandbox And sand pump, the sandbox are mounted on the bottom of rack, the bottom of sandbox, which is equipped with, is open and is fixedly connected with sand pump, The output end of sand pump is connected to sandbox, and the input terminal of sand pump is connected to the external world.

7. portable soil analysis device according to claim 1, it is characterised in that: the control mechanism includes receiving Device, signal adapter, reservoir, data comparison device, controller and battery, the receiver are connected to signal by conducting wire and turn Parallel operation, signal adapter are connected to reservoir by conducting wire, and reservoir is connected to data comparison device, data comparison device by conducting wire It is connected to controller by conducting wire, controller is connected to battery by conducting wire, and battery is connected to electromagnet by conducting wire.

8. portable soil analysis device according to claim 7, it is characterised in that: the receiver is connected by conducting wire In key A and key B.

9. portable soil analysis device according to claim 7, it is characterised in that: the controller is connected by conducting wire In motor A, motor B and motor C.