CN215115283U - Be used for mineral geology to excavate sample multifunctional equipment - Google Patents

Abstract

The utility model discloses a be used for mineral geology excavation sample multifunctional equipment relates to excavation sampling device field, the utility model discloses a base, fixing device, elevating gear, buffer, excavation device and sampling device, the base includes bottom plate, spliced pole, mount pad, roller bearing and gyro wheel, a plurality of spliced pole upper surfaces all are connected with bottom plate lower surface, a plurality of mount pad upper surfaces respectively with a plurality of spliced pole lower surface connections, a plurality of mount pad both sides surface is equipped with first through-hole, a plurality of gyro wheel side surface is equipped with the second through-hole, a plurality of roller bearing week side surface respectively with a plurality of first through-holes and a plurality of second through-hole connection. The utility model relates to a be used for mineral geology to excavate sample multi-functional equipment, through setting up the spring, thereby reduced the huge impulse that the drill bit produced in the high frequency motion through overcoming the spring resistance work, through setting up buffer block and stopper, can utilize rocking of buffer block at the horizontal direction, further strengthen buffering effect.

Description

Be used for mineral geology to excavate sample multifunctional equipment

Technical Field

The utility model relates to an excavation sampling equipment field, in particular to be used for mineral geology excavation sample multifunctional equipment.

Background

Mineral products generally refer to all natural minerals or rock resources which are buried underground or distributed on the earth surface or weathered rocks and can be utilized by human beings, and the natural minerals or rock resources are non-renewable energy sources.

Generally, whether the detection geology has mineral products and needs to excavate the soil, the manual sampling, so, strengthen intensity of labour, waste time and energy, for this reason, we propose one kind and be used for the mineral products geology excavation sample multi-functional equipment.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a main aim at provides a be used for mineral geology to excavate sample multifunctional equipment, can effectively solve the problem that intensity of labour is big and waste time and energy among the background art.

In order to achieve the above purpose, the utility model adopts the following technical scheme: a multifunctional device for mining geology excavation sampling comprises a base, a fixing device, a lifting device, a buffering device, an excavation device and a sampling device, wherein the base comprises a bottom plate, connecting columns, mounting seats, rolling shafts and rollers, the upper surfaces of the connecting columns are all connected with the lower surface of the bottom plate, the upper surfaces of the mounting seats are respectively connected with the lower surfaces of the connecting columns, a plurality of side surfaces of the mounting seats are provided with first through holes, a plurality of side surfaces of the rollers are provided with second through holes, the side surfaces of the rolling shafts are respectively connected with a plurality of first through holes and a plurality of second through holes, the fixing device comprises rotating wheels, first lead screws and fixing plates, two ends of each first lead screw are respectively connected with the lower surfaces of the two rotating wheels and the two fixing plates, the upper surface of the bottom plate is provided with first threaded holes, and the two first lead screws are respectively in rotating fit with the two first threaded holes, elevating gear includes first motor, first spindle, second lead screw and slide bar, two first motor upper surface is equipped with first spindle, two first motor is two first spindle normal running fit respectively, two second lead screw one end and first spindle upper surface are connected, and are a plurality of slide bar one end and bottom plate upper surface are connected, buffer includes first connecting plate, second connecting plate and sleeve pipe, two sleeve pipe lower surface all with second connecting plate upper surface, the excavation device includes drill bit and second spindle, drill bit one end and second spindle lower surface are connected, sampling device includes the brill shovel sword and bores the shovel body, brill shovel sword upper surface and the lower surface connection of brill shovel body.

Preferably, the base is still including connecting the down tube, connecting horizontal pole and handle, two connect the down tube both ends respectively with bottom plate side surface and connect horizontal pole week side surface connection, two the handle internal surface all with connect horizontal pole week side surface connection, the handle is used for conveniently exerting oneself, avoids the sweat hand smooth when pushing equipment.

Preferably, the fixing device further comprises a plurality of pricker needles, the upper surfaces of the pricker needles are respectively connected with the lower surfaces of the two fixing plates, and the pricker needles are used for being inserted into the soil to fix the whole equipment so that the equipment is in a stable state during operation.

Preferably, elevating gear still includes limiting plate and slider, two the limiting plate lower surface respectively with two second lead screw upper surfaces and a plurality of slide bar upper surface connection, two the slider respectively with two second lead screw normal running fit, two the slider respectively with a plurality of slide bar sliding fit, limiting plate are used for limiting the slider position, avoid the slider roll-off slide bar when rising.

Preferably, buffer still includes buffer block, stopper and spring, two the buffer block upper surface all is connected with first connecting plate lower surface, two a set of intraductal surface of cover is equipped with the spout, and is a plurality of the stopper respectively with spout sliding fit, it is a plurality of stopper side surface respectively with two all side surface connections of buffer block, two the spring both ends are connected with buffer block lower surface and a set of intraduct surface respectively, and the stopper is used for restricting the buffer block and further strengthens buffering effect at rocking of horizontal direction.

Preferably, the cutting device further comprises a second motor, the upper surface of the second motor is connected with the lower surface of the second connecting plate, a second crankshaft is arranged on the lower surface of the second motor, the second motor is in rotating fit with the second crankshaft, and the second motor provides power for the rotation of the drill bit.

Preferably, sampling device still includes mounting panel and sampling plate, the mounting panel upper surface is equipped with the mounting groove, drill bit week side surface is connected with the mounting groove, and is a plurality of sampling plate side surface all with bore shovel internal portion surface connection, the sampling plate is used for taking the sample of soil co-altitude not, avoids soil to drop when the sample.

Compared with the prior art, the utility model discloses following beneficial effect has:

the utility model discloses a set up the felting needle, can tightly grasp ground, fix whole equipment, be convenient for consolidate whole equipment, improve overall stability, guarantee equipment normal use when digging the sample.

The utility model discloses a set up the spring, thereby reduced the huge impulse that the drill bit produced in the high frequency motion through overcoming the spring resistance work, through setting up buffer block and stopper, can utilize rocking of buffer block at the horizontal direction, further strengthen buffering effect.

The utility model discloses a set up the mounting panel, can be connected sampling device and drill bit, make excavation and sample work go on simultaneously for sample rate has avoided artifical sample, wastes time and energy.

Drawings

Fig. 1 is a schematic view of an external integral first view structure of the multifunctional device for mining geological excavation and sampling of the utility model;

fig. 2 is a schematic view of an external integral second view structure of the multifunctional device for mining geological excavation and sampling of the utility model;

fig. 3 is a schematic view of an external integral third perspective structure of the multifunctional device for mining geological excavation and sampling of the utility model;

fig. 4 is a schematic view of a partial enlarged structure at a in fig. 3 according to the present invention;

fig. 5 is a schematic view of the internal overall structure of the buffering device of the present invention.

In the figure: 100. a base; 110. a base plate; 120. connecting columns; 130. a mounting seat; 140. a roller; 150. a roller; 160. connecting the inclined rod; 170. connecting the cross bars; 180. a grip; 200. a fixing device; 210. a rotating wheel; 220. a first lead screw; 230. a fixing plate; 240. a needle; 300. a lifting device; 310. a first motor; 320. a first crankshaft; 330. a second lead screw; 340. a slide bar; 350. a limiting plate; 360. a slider; 400. a buffer device; 410. a first connecting plate; 420. a second connecting plate; 430. a sleeve; 440. a buffer block; 450. a limiting block; 460. a spring; 500. a cutting device; 510. a drill bit; 520. a second crankshaft; 530. a second motor; 600. a sampling device; 610. a drilling shovel blade; 620. a drilling shovel body; 630. mounting a plate; 640. and (4) sampling the plate.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention is further described below with reference to the following embodiments.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "front end", "rear end", "both ends", "one end", "the other end" and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element to which the reference is made must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "connected," and the like are to be construed broadly, and for example, "connected" may be either fixedly connected or detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1-5, the present invention relates to a multifunctional device for mineral geological excavation and sampling, comprising a base 100, a fixing device 200, a lifting device 300, a buffering device 400, an excavating device 500 and a sampling device 600, wherein the base 100 comprises a bottom plate 110, connecting columns 120, mounting seats 130, rollers 140 and rollers 150, the upper surfaces of the connecting columns 120 are all connected with the lower surface of the bottom plate 110, the upper surfaces of the mounting seats 130 are respectively connected with the lower surfaces of the connecting columns 120, the lateral surfaces of the mounting seats 130 are provided with first through holes, the lateral surface of the rollers 150 is provided with second through holes, the lateral surfaces of the rollers 140 are respectively connected with the first through holes and the second through holes, the fixing device 200 comprises a rotating wheel 210, a first screw 220 and a fixing plate 230, the two ends of the first screw 220 are respectively connected with the lower surfaces of the two rotating wheels 210 and the two fixing plates 230, the upper surface of the base plate 110 is provided with first threaded holes, the two first lead screws 220 are respectively in rotating fit with the two first threaded holes, the lifting device 300 comprises a first motor 310 and a first motor shaft 320, the upper surfaces of the two first motors 310 are provided with first shafts 320, the two first motors 310 are respectively in rotating fit with the two first shafts 320, one ends of the two second screws 330 are connected with the upper surface of the first shafts 320, one ends of the plurality of sliding rods 340 are connected with the upper surface of the bottom plate 110, the buffer device 400 comprises a first connecting plate 410, a second connecting plate 420 and a sleeve 430, the lower surfaces of the two sleeve 430 are respectively connected with the upper surface of the second connecting plate 420, the cutting device 500 comprises a drill bit 510 and a second shaft 520, one end of the drill bit 510 is connected with the lower surface of the second shaft 520, the sampling device 600 comprises a drilling shovel blade 610 and a drilling shovel body 620, and the upper surface of the drilling shovel blade 610 is connected with the lower surface of the drilling shovel body 620.

Further, the base 100 further comprises connecting inclined rods 160, a connecting cross rod 170 and handles 180, two ends of the two connecting inclined rods 160 are respectively connected with one side surface of the bottom plate 110 and the peripheral side surface of the connecting cross rod 170, the inner surfaces of the two handles 180 are respectively connected with the peripheral side surface of the connecting cross rod 170, and the handles 180 are used for conveniently exerting force to avoid sweating and slipping hands when pushing the equipment.

Further, the fixing device 200 further comprises a plurality of needles 240, the upper surfaces of the needles 240 are respectively connected with the lower surfaces of the two fixing plates 230, and the needles 240 are inserted into the ground to fix the whole device, so that the device is in a stable state during operation.

Further, the lifting device 300 further comprises a limiting plate 350 and a sliding block 360, the lower surfaces of the two limiting plates 350 are respectively connected with the upper surfaces of the two second lead screws 330 and the upper surfaces of the plurality of sliding rods 340, the two sliding blocks 360 are respectively in rotating fit with the two second lead screws 330, the two sliding blocks 360 are respectively in sliding fit with the plurality of sliding rods 340, the limiting plate 350 is used for limiting the positions of the sliding blocks 360, and the sliding blocks 360 are prevented from sliding out of the sliding rods 340 when the sliding blocks are lifted.

Further, the buffering device 400 further comprises buffer blocks 440, limiting blocks 450 and springs 460, the upper surfaces of the two buffer blocks 440 are connected with the lower surface of the first connecting plate 410, a sliding groove is formed in one surface inside the two sleeves 430, the limiting blocks 450 are in sliding fit with the sliding groove respectively, one side surface of each limiting block 450 is connected with the peripheral side surfaces of the two buffer blocks 440 respectively, two ends of each spring 460 are connected with the lower surface of each buffer block 440 and one surface inside the sleeve 430 respectively, and the limiting blocks 450 are used for limiting the buffer blocks 440 to shake in the horizontal direction, so that the buffering effect is further enhanced.

Further, the cutting device 500 further includes a second motor 530, an upper surface of the second motor 530 is connected to a lower surface of the second connecting plate 420, a second shaft 520 is disposed on a lower surface of the second motor 530, the second motor 530 is rotatably engaged with the second shaft 520, and the second motor 530 provides power for the rotation of the drill bit 510.

Further, sampling device 600 still includes mounting panel 630 and sampling plate 640, and mounting panel 630 upper surface is equipped with the mounting groove, and drill bit 510 week side surface is connected with the mounting groove, and a plurality of sampling plates 640 side surface all with bore the inside surface connection of shovel body 620, and sampling plate 640 is used for taking the sample of soil co-altitude, avoids soil to drop when the sample.

The working principle of the utility model is as follows:

referring to fig. 1-5, the present invention relates to a multifunctional device for mining geological excavation and sampling, wherein the model of the first motor 310 is a BN three-phase motor, the model of the second motor 530 is a BN three-phase motor, the handle 180 is held, the whole device is pushed to a place to be sampled, the rotating wheel 210 is rotated to drive the first screw rod 220 to move downwards and drive the puncture needle 240 to move downwards, so that the puncture needle 240 tightly grasps the ground, the first motor 310 is positively driven, the first shaft 320 rotates to drive the second screw rod 330 to rotate, the slide block 360 slides downwards on the slide bar 340 to drive the second motor 530, the second shaft 520 rotates to drive the drill bit 510 to rotate, simultaneously, the drilling shovel blade 610 and the drilling shovel body 620 are driven to rotate, the first motor 310 is driven reversely, the drill bit 510 and the drilling shovel body 620 move upwards, and soil samples on the sampling plate 640 are taken out of the test tube and labeled.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (7)

1. A be used for mineral geology excavation sample multifunctional equipment which characterized in that: including base (100), fixing device (200), elevating gear (300), buffer (400), excavation device (500) and sampling device (600), base (100) are including bottom plate (110), spliced pole (120), mount pad (130), roller bearing (140) and gyro wheel (150), and is a plurality of spliced pole (120) upper surface all is connected with bottom plate (110) lower surface, and is a plurality of mount pad (130) upper surface is connected with a plurality of spliced pole (120) lower surface respectively, and is a plurality of mount pad (130) both sides surface is equipped with first through-hole, and is a plurality of gyro wheel (150) side surface is equipped with the second through-hole, and is a plurality of roller bearing (140) week side surface is connected with a plurality of first through-holes and a plurality of second through-holes respectively, fixing device (200) include runner (210), first lead screw (220) and fixed plate (230), two first lead screw (220) both ends respectively with two runner (210) lower surfaces and two fixed plates (230), two first lead screw (220) both ends ) The upper surface of the base plate (110) is provided with a first threaded hole, the two first screw rods (220) are respectively in rotating fit with the two first threaded holes, the lifting device (300) comprises a first motor (310), a first crankshaft (320), a second screw rod (330) and a sliding rod (340), the upper surface of the two first motors (310) is provided with a first crankshaft (320), the two first motors (310) are respectively in rotating fit with the two first crankshafts (320), one end of each of the two second screw rods (330) is connected with the upper surface of the first crankshaft (320), one end of each of the plurality of sliding rods (340) is connected with the upper surface of the base plate (110), the buffer device (400) comprises a first connecting plate (410), a second connecting plate (420) and a sleeve (430), the lower surfaces of the two sleeve pipes (430) are both connected with the upper surface of the second connecting plate (420), the excavation device (500) comprises a drill bit (510) and a second crankshaft (520), drill bit (510) one end is connected with second spindle (520) lower surface, sampling device (600) are including boring shovel sword (610) and boring shovel body (620), boring shovel sword (610) upper surface is connected with boring shovel body (620) lower surface.

2. A multi-function apparatus for mineral geology excavation sampling according to claim 1, characterized in that: the base (100) is still including connecting down tube (160), connecting horizontal pole (170) and handle (180), two connect down tube (160) both ends respectively with bottom plate (110) one side surface and connect horizontal pole (170) week side surface connection, two handle (180) internal surface all is connected with connecting horizontal pole (170) week side surface.

3. A multi-function apparatus for mineral geology excavation sampling according to claim 1, characterized in that: the fixing device (200) also comprises a puncture needle (240), and the upper surfaces of a plurality of puncture needles (240) are respectively connected with the lower surfaces of the two fixing plates (230).

4. A multi-function apparatus for mineral geology excavation sampling according to claim 1, characterized in that: the lifting device (300) further comprises a limiting plate (350) and two sliding blocks (360), wherein the lower surface of the limiting plate (350) is connected with the upper surfaces of the two second screw rods (330) and the upper surfaces of the plurality of sliding rods (340) respectively, the two sliding blocks (360) are in rotating fit with the two second screw rods (330) respectively, and the two sliding blocks (360) are in sliding fit with the plurality of sliding rods (340) respectively.

5. A multi-function apparatus for mineral geology excavation sampling according to claim 1, characterized in that: buffer (400) still includes buffer block (440), stopper (450) and spring (460), two buffer block (440) upper surface all is connected with first connecting plate (410) lower surface, two the inside surface of sleeve pipe (430) is equipped with the spout, and is a plurality of stopper (450) respectively with spout sliding fit, a plurality of stopper (450) side surface respectively with two buffer block (440) week side surface connection, two spring (460) both ends are connected with buffer block (440) lower surface and the inside surface of sleeve pipe (430) respectively.

6. A multi-function apparatus for mineral geology excavation sampling according to claim 1, characterized in that: the cutting device (500) further comprises a second motor (530), the upper surface of the second motor (530) is connected with the lower surface of the second connecting plate (420), a second crankshaft (520) is arranged on the lower surface of the second motor (530), and the second motor (530) is in rotating fit with the second crankshaft (520).

7. A multi-function apparatus for mineral geology excavation sampling according to claim 1, characterized in that: sampling device (600) still includes mounting panel (630) and sampling plate (640), mounting panel (630) upper surface is equipped with the mounting groove, drill bit (510) week side surface is connected with the mounting groove, and is a plurality of sampling plate (640) side surface all with bore the inside surface connection of shovel body (620).

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