CN212313641U - Rock sample censorship haulage equipment - Google Patents

Abstract

A rock sampling and inspecting transportation device relates to an inspecting transportation device. The utility model discloses a solve current rock sample and have the transportation inconvenient to and the problem that the measurement personnel detection work volume of detection unit is big. The utility model discloses a remove the universal wheel and install on the lower terminal surface that includes the removal bottom plate, the arm-tie rotates to be installed in the one end of removal bottom plate, and the arm-tie can expand to the outside of removal bottom plate, and the censorship universal wheel is installed on the lower terminal surface of censorship bottom plate, and rock sample places the case and can dismantle on the up end of censorship bottom plate, and the censorship universal wheel can dismantle on the up end of removal bottom plate; the upper box body can be opened and buckled on the lower box body, a plurality of sample placing holes are formed in the lower box body, sample placing grooves corresponding to the sample placing holes are formed in the lower end face of the upper box body, and a damping groove is formed in each sample placing hole. The utility model is used for rock sample censorship transportation.

Description

Rock sample censorship haulage equipment

Technical Field

The utility model relates to a censorship haulage equipment, concretely relates to rock sample censorship haulage equipment.

Background

At present, when sampling the rock, the rock is usually cut into a cylinder or a cuboid, the cut size is larger than the size required when detecting the rock, the size of a general rock test is 50mm by 50mm, and the size of the rock used in the actual detection is 100mm by 100mm, at this moment, the detection worker is required to cut the rock into the required size again. The whole cutting process has larger dust, the labor intensity of detection personnel is increased, and the detection time is also prolonged.

In the process of transporting the cut rock to a detection unit, a cutter generally carries the rock marked by the rock on an engineering vehicle and transports the rock to the detection unit for detection. In the rock sample transportation process, the rock is placed at random, and some are the level and place, and when the machineshop car was walked on the road surface of rugged and complicated topography, the rock sample can take place to collide each other, caused the damage of rock sample different degree. After reaching the detection unit, the rock sample needs to be moved to the detection chamber, which increases the labor intensity of workers.

In conclusion, the existing rock sampling has the problems of inconvenient transportation and large detection workload of detection personnel of a detection unit.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the problem that the transportation is inconvenient in the existing rock sampling and the detection personnel of the detection unit have large detection workload. Further provides a rock sampling and inspecting transportation device.

The technical scheme of the utility model is that: a rock sampling and submitting transportation device comprises a movable bottom plate, movable universal wheels, a pulling plate, a rock sample placing box, a submitting bottom plate and submitting universal wheels, wherein the movable universal wheels are arranged on the lower end face of the movable bottom plate; the rock sample placing box comprises a lower box body, an upper box body and a plurality of damping grooves, the upper box body can be buckled on the lower box body in an openable mode, a plurality of sample placing holes are formed in the lower box body, sample placing grooves corresponding to the sample placing holes are formed in the lower end face of the upper box body, and each sample placing hole is internally provided with one damping groove.

Furthermore, the movable bottom plate is a rectangular bottom plate, a groove is formed in the width direction of the movable bottom plate, and connecting lugs are arranged on two sides of the groove.

Furthermore, the device also comprises a rotating shaft, a limiting pin and a bearing, wherein the bearing is embedded into the connecting lugs at two sides of the length direction of the groove on the movable bottom plate, the bearing is rotatably arranged on the bearing in the connecting lugs, and the limiting pin is inserted on the rotating shaft.

Preferably, the limit pin is located inside the bearing.

Preferably, the damping groove of the rock sample placing box is made of an elastic rubber material.

Preferably, the height of the shock-absorbing groove is lower than that of the sample-placing hole of the lower case.

Further, the rock sample placing box further comprises a plurality of lifting pockets, and one lifting pocket is placed in each damping groove.

Further, carry and draw the pocket to carry the pocket for the rectangle, and carry four sides on the upper portion of carrying the pocket and be the non-side of sewing up, carry four sides of drawing the pocket and outwards turn out, fill in the sample of box down and place the hole and cut off in the gap.

Furthermore, a lifting rope is arranged outside the lifting bag.

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

the utility model provides a rock sample censorship haulage equipment, its important is the process that is used for transporting to the detection room after the rock sample is accomplished, adopts this haulage equipment to transport the rock after the sample, specifically has following several technological effects:

1. the rock after the sample can be directly cut according to the size that needs of detection, also can cut into the size that needs of detection at the rock sample scene promptly. The effectual detector of having avoided cuts once more at the detection room, and of course, the rock size specification of this time cutting can be many. The labor intensity of detection personnel is reduced, dust brought by cutting in a detection chamber is avoided, and cleaning is not needed.

2. The utility model discloses directly put into the rock sample after the on-the-spot cutting of rock sample and carry the pocket in, cover the box, tie up the censorship universal wheel 6 on removing bottom plate 1. The following two methods can be selected respectively according to actual conditions when the vehicle is transported to an engineering vehicle and in a detection room:

the first method comprises the following steps: the rock sample can be transported to an engineering vehicle or a detection chamber by directly pulling the pulling plate;

and the second method comprises the following steps: treat that transportation equipment removes under very abominable earth's surface environment when the engineering vehicle below, extract spacer pin 8, rotate the arm-tie to the outside and put down, insert spacer pin 8, untie the censorship universal wheel 6, promote the rock sample and place case 4 along moving bottom plate 1 and arm-tie rebound to the engineering vehicle in, perhaps detect indoorly.

The whole transportation process is simple and very flexible, and the labor intensity of rock cutting personnel is reduced. And prevent that the rock sample in rock sample storage box 4 can neatly put in engineering vehicle or detection room, practice thrift the occupation of land space of rock sample.

3. The utility model discloses a rock sample in the rock sample placing box 4 is under the effect of damping tank 4-4, even the engineering vehicle goes on rugged road surface, when jolting, can not take place the collision of rock sample yet, guarantees the integrality of the rock sample after the cutting takes shape, satisfies the requirement that the rock sample detected.

4. The utility model discloses a rock sample places case adopts the form of carrying the drawing pocket to take out rock sample, and rock sample is higher than the horizontal plane of lower box moreover, is convenient for with the quick taking out of rock sample, prevents the problem of easy landing when bare-handed taking out the rock.

5. The utility model discloses simple structure, the manufacturing is easy, and is with low costs, is convenient for use on a large scale.

Drawings

Fig. 1 is a schematic view of the overall structure of the pulling plate of the present invention in a vertical state;

fig. 2 is a schematic structural view of the pulling plate and the moving base plate in fig. 1 on the same plane according to the present invention;

fig. 3 is a top view of the moving base 1;

FIG. 4 is an enlarged view of a portion of FIG. 3 at A;

FIG. 5 is a schematic view showing the overall structure of the lower case 4-1 of the rock sample placing case 4;

FIG. 6 is a cross-sectional view of the single sample placement groove of FIG. 5, with the four sides of the lifting pocket turned outward;

FIG. 7 is a schematic view showing the four sides of the lifting pocket of FIG. 6 not turned outward (in the drawing, the portion X indicates an unstitched portion).

Detailed Description

The first embodiment is as follows: the embodiment is described with reference to fig. 1 to 7, the rock sampling and submission transportation device of the embodiment comprises a movable bottom plate 1, a movable universal wheel 2, a pulling plate 3, a rock sample placing box 4, a submission bottom plate 5 and a submission universal wheel 6, wherein the movable universal wheel 2 is installed on the lower end face of the movable bottom plate 1, the pulling plate 3 is rotatably installed at one end of the movable bottom plate 1, the pulling plate 3 is deployable towards the outer side of the movable bottom plate 1, the submission universal wheel 6 is installed on the lower end face of the submission bottom plate 5, the rock sample placing box 4 is detachably installed on the upper end face of the submission bottom plate 5, and the submission universal wheel 6 is detachably installed on the upper end face of the movable bottom plate 1; the rock sample placing box 4 comprises a lower box body 4-1, an upper box body 4-2 and a plurality of shock absorption grooves 4-4, wherein the upper box body 4-2 can be opened and buckled on the lower box body 4-1, a plurality of sample placing holes 4-3 are formed in the lower box body 4-1, sample placing grooves corresponding to the sample placing holes 4-3 in position are formed in the lower end face of the upper box body 4-2, and one shock absorption groove 4-4 is formed in each sample placing hole 4-3.

This embodiment has adopted two sets of mobilizable universal wheels, not only can be convenient for remove at the rock sample scene, still be convenient for transport the laborsaving transportation when transporting the rock sample to the machineshop car. If the engineering truck is provided with an iron plate, the utility model can be used for directly pulling the inspection equipment. If there is not iron plate, the utility model discloses a back is expanded to the outside to arm-tie 3, can regard as iron plate to use, and the one end of arm-tie 3 is taken and is established at the back of machineshop car, and the tip of moving bottom plate 1 supports and establishes subaerial, by arm-tie 3 and the iron plate that moves bottom plate 1 and form an slope, the workman directly draws to drag on the machineshop car and drag the rock sample and place case 4 can. The operation is flexible and convenient, and the labor intensity of workers is reduced.

In the process of forming the iron plate, the pulling plate 3 and the moving base plate 1 of the embodiment realize the positioning of the pulling plate through whether the limiting pin is inserted or not, and prevent the pulling plate from randomly rotating on the side surface of the moving base plate 1. The operation is simple and the use is reliable.

This embodiment is that arm-tie 3 is the rectangular plate when in actual use, is convenient for act as the bottom plate when necessary, is convenient for provide flat operational environment for the removal of rock sample storage box 4 moreover. Preventing jamming. In addition, a handle is mounted on the pulling plate 3 for easy pulling.

The second embodiment is as follows: the present embodiment is described with reference to fig. 3 and 4, the moving base plate 1 of the present embodiment is a rectangular base plate, a groove 1-1 is formed in the width direction of the moving base plate 1, and two sides of the groove 1-1 are provided with engaging lugs 1-2. So set up, be convenient for be connected with the lower extreme of arm-tie 3. Other components and connections are the same as in the first embodiment.

The third concrete implementation mode: the embodiment is described with reference to fig. 4, and the embodiment further includes a rotating shaft 7, a limit pin 8 and a bearing 9, the bearing 9 is embedded into the connecting lugs 1-2 at both sides of the groove 1-1 on the moving base plate 1 in the length direction, the bearing 9 is rotatably installed on the bearing 9 in the connecting lugs 1-2, and the limit pin 8 is inserted into the rotating shaft 7. So set up, the nimble of the arm-tie of being convenient for rotates, whether the cartridge of spacer pin 8 is convenient for control the horizontal or vertical state that the arm-tie was located when being connected with removal bottom plate 1 moreover. Other compositions and connections are the same as in the first or second embodiments.

The fourth concrete implementation mode: the present embodiment will be described with reference to fig. 4, and the stopper pin 8 of the present embodiment is located inside the bearing 9. With this arrangement, the interference between the stopper pin 8 and the mounting position of the bearing 9 is prevented. Other compositions and connection relationships are the same as in the first, second or third embodiment.

The fifth concrete implementation mode: referring to fig. 6 and 7, the present embodiment will be described, in which the damping grooves 4-4 of the rock sample storage case 4 are made of an elastic rubber material. So set up, the shock attenuation is effectual, and the long service life of elastic rubber board is applicable to the operational environment of rock sample transportation moreover, and simultaneously, the shock attenuation groove can protect the rock sample not to take place great drunkenness, and the shock attenuation, the energy-absorbing reduces the noise when the machineshop car jolts in the transportation. Other compositions and connection relationships are the same as those in the first, second, third or fourth embodiment.

The sixth specific implementation mode: the present embodiment is described with reference to FIGS. 6 and 7, and the height of the damper groove 4-4 of the present embodiment is lower than the height of the sample placement hole 4-3 of the lower case 4-1. With the arrangement, a place is provided for storing after the upper part of the lifting pocket is unfolded. Other compositions and connection relationships are the same as in the first, second, third, fourth or fifth embodiment.

The seventh embodiment: referring to fig. 6 and 7, the rock sample storage box 4 of this embodiment further includes a plurality of lifting pockets 4-5, and one lifting pocket 4-5 is disposed in each shock absorption groove 4-4. So set up, be convenient for when taking out the rock sample, directly take up and carry and draw the pocket, sample convenient, swift. Other compositions and connection relationships are the same as in the first, second, third, fourth, fifth or sixth embodiment.

The specific implementation mode is eight: referring to fig. 7, the present embodiment will be described, in which the lifting pocket 4-5 is a rectangular lifting pocket, four sides of the upper portion of the lifting pocket are non-sewn sides, and the four sides of the lifting pocket are turned out and plugged into a gap 4-6 defined by the sample placement hole of the lower case 4-1. So set up, the rock sample of being convenient for can be fast, accurate place in carrying the drawing pocket, prevent when preventing the rock sample, need several people to accomplish, need not other people's help to strut and carry the drawing pocket. Other constitutions and connection relations are the same as those of any one of the first to seventh embodiments.

The lifting pocket of the embodiment can be repeatedly used, and the cost is reduced.

The specific implementation method nine: referring to fig. 7, the present embodiment will be described, in which a lifting cord 4-7 is provided outside a lifting bag 4-5. So set up, when being convenient for take out the rock sample, directly carry. Other compositions and connection relations are the same as those of any one of the first to eighth embodiments.

The working principle of the present invention is explained with reference to fig. 1 to 6:

will be with the utility model discloses transport to the scene of rock sample, according to the size that the rock detection required, cut into the sample of unidimensional and specification with the rock to mark corresponding sample information on the rock sample.

The rock sample is placed in the lifting pocket, until the rock sample is completely finished, the box cover is covered and the box cover and the lower box cover are locked, and the inspection universal wheel 6 is bound on the movable bottom plate 1 through the thick rope belt and the buckle (the movable bottom plate 1 is provided with a plurality of binding holes 1-3).

Draw the arm-tie to by the machineshop car, take off iron plate on the car, will the utility model discloses a transportation equipment draws on drawing the machineshop car. Or take off the spacer pin, expand the arm-tie to the outside after, insert the spacer pin, untie thick fag end and buckle, the workman will with the fag end the utility model discloses a transportation equipment draws and to drag to the machineshop car on can.

While the foregoing has described only the preferred embodiments of the present invention, it is not intended to limit the invention to the particular embodiments described, and modifications and equivalents of the features and embodiments of the invention may be resorted to without departing from the spirit of the invention and the scope of the appended claims.

Claims (9)

1. The utility model provides a rock sample censorship haulage equipment which characterized in that: the rock sample placing box comprises a movable bottom plate (1), movable universal wheels (2), a pulling plate (3), a rock sample placing box (4), a censorship bottom plate (5) and censorship universal wheels (6), wherein the movable universal wheels (2) are installed on the lower end face of the movable bottom plate (1), the pulling plate (3) is rotatably installed at one end of the movable bottom plate (1), the pulling plate (3) can be unfolded towards the outer side of the movable bottom plate (1), the censorship universal wheels (6) are installed on the lower end face of the censorship bottom plate (5), the rock sample placing box (4) is detachably installed on the upper end face of the censorship bottom plate (5), and the censorship universal wheels (6) are detachably installed on the upper end face of the movable bottom plate (1);

the rock sample placing box (4) comprises a lower box body (4-1), an upper box body (4-2) and a plurality of damping grooves (4-4), the upper box body (4-2) can be opened and buckled on the lower box body (4-1), a plurality of sample placing holes (4-3) are formed in the lower box body (4-1), sample placing grooves corresponding to the positions of the sample placing holes (4-3) are formed in the lower end face of the upper box body (4-2), and one damping groove (4-4) is installed in each sample placing hole (4-3).

2. A rock sampling inspection transport apparatus according to claim 1, wherein: the movable bottom plate (1) is a rectangular bottom plate, a groove (1-1) is arranged in the width direction of the movable bottom plate (1), and connecting lugs (1-2) are arranged on two sides of the groove (1-1).

3. A rock sampling inspection transport apparatus according to claim 2, wherein: the movable bottom plate is characterized by further comprising a rotating shaft (7), a limiting pin (8) and a bearing (9), wherein the bearing (9) is embedded into connecting lugs (1-2) on two sides of the length direction of a groove (1-1) in the movable bottom plate (1), the bearing (9) is rotatably installed on the bearing (9) in the connecting lugs (1-2), and the limiting pin (8) is inserted into the rotating shaft (7).

4. A rock sampling inspection transport apparatus according to claim 3, wherein: the limit pin (8) is positioned on the inner side of the bearing (9).

5. A rock sampling inspection transport apparatus according to claim 4, wherein: the damping groove (4-4) of the rock sample placing box (4) is made of elastic rubber materials.

6. A rock sampling inspection transport apparatus according to claim 5, wherein: the height of the shock absorption groove (4-4) is lower than that of the sample placing hole (4-3) of the lower box body (4-1).

7. A rock sampling inspection transport apparatus according to claim 6, wherein: the rock sample placing box (4) also comprises a plurality of lifting pockets (4-5), and one lifting pocket (4-5) is placed in each damping groove (4-4).

8. A rock sampling inspection transport apparatus according to claim 7, wherein: the lifting pocket (4-5) is a rectangular lifting pocket, four sides of the upper part of the lifting pocket are non-sewing sides, the four sides of the lifting pocket are outwards turned out and are plugged in a gap of a sample placing hole partition (4-6) of the lower box body (4-1).

9. A rock sampling inspection transport apparatus according to claim 8, wherein: the outside of the lifting pocket (4-5) is provided with a lifting rope (4-7).

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