CN215728132U - Safety drill rod inserting device for water and soil conservation monitoring - Google Patents

Abstract

The utility model belongs to the field of water and soil conservation, and particularly relates to a water and soil conservation monitoring safety drill rod inserting device, which comprises: fixing a bracket; the lifting assembly is positioned on the fixed bracket; the pressing block is positioned on the lifting assembly; the driving assembly is positioned on the fixed bracket; the lifting assembly comprises a fixed pulley and is positioned on the fixed support; the movable pulley is positioned below the fixed pulley and is used for connecting the pressing block; one end of the rope is connected with the movable pulley, sequentially passes through the fixed pulley and the movable pulley, and the other end of the rope extends to the driving assembly; the driving assembly is suitable for driving the movable pulley to ascend through the rope so as to lift the pressing block, realize free falling after the pressing block is lifted to the topmost end, smash the inserting drill rod at the bottom into the ground, and can save labor and realize monitoring of water and soil conservation more safely and accurately.

Description

Safety drill rod inserting device for water and soil conservation monitoring

Technical Field

The utility model relates to the field of water and soil conservation, in particular to a safe drill rod inserting device for monitoring water and soil conservation.

Background

The inserted drill rod is a device for water and soil monitoring, the inserted drill rod is inserted into soil of a ground to be monitored, marks are made at the position where the inserted drill rod and the soil are leveled, the marks serve as an initial height point, after a period of time, the thickness of a soil layer is observed, and the water and soil loss is calculated by the initial point. During monitoring, if hard soil is met, the heavy hammer is needed to be used manually to smash the inserted drill into the ground, but the heavy hammer is used to smash the inserted drill, so that the following defects are caused: (1) the inserted drill rod is inclined, and the measuring accuracy is influenced; (2) potential safety hazards can be brought, and workers can be injured due to negligence for a while; (3) the heavy hammer is hard to use when meeting hard soil.

SUMMERY OF THE UTILITY MODEL

The technical problem to be solved by the utility model is as follows: the utility model provides a borer device is inserted to soil and water conservation monitoring safety utilizes the rope to drive the movable pulley through drive assembly and rises, and then promotes the briquetting for pound down and insert the borer, insert the borer with safe accurate form.

The technical scheme adopted by the utility model for solving the technical problems is as follows: the utility model provides a borer device is inserted to soil and water conservation monitoring safety includes: fixing a bracket; the lifting assembly is positioned on the fixed bracket; the pressing block is positioned on the lifting assembly; the driving assembly is positioned on the fixed bracket; the lifting assembly comprises a fixed pulley and is positioned on the fixed support; the movable pulley is positioned below the fixed pulley and is used for connecting the pressing block; one end of the rope is connected with the movable pulley, sequentially passes through the fixed pulley and the movable pulley, and the other end of the rope extends to the driving assembly; the driving component is suitable for driving the movable pulley to ascend through the rope so as to lift the pressing block.

Further, the fixed support comprises a sleeve and a plurality of support rods positioned on the outer side of the sleeve; the upper part of the sleeve is suitable for mounting a fixed pulley; the inner side wall of the sleeve is provided with a sliding rail so as to be suitable for the movable pulley to slide in the sleeve; and the outer side wall of the sleeve is suitable for being connected with the supporting rod so as to support the fixing bracket.

Furthermore, the support rod comprises a support plate detachably mounted with the sleeve and a fixed rod mounted on the support plate; the supporting plates are respectively movably connected with the fixed rods so as to adjust the height of the sleeve,

furthermore, the upper end of the slide rail is flush with the lower end of the fixed pulley, and the lower end of the slide rail extends to the bottom of the sleeve.

Further, the movable pulley comprises a movable pulley bracket and a movable pulley wheel body positioned on the movable pulley bracket; the movable pulley body is connected with the movable pulley bracket through a bearing; the upper end of the movable pulley support is connected with the initial end of the rope, and the lower end of the movable pulley support is connected with the pressing block.

Furthermore, the wheel body of the movable pulley is in a round cake shape, the side surface of the wheel body is a concave arc surface, the arc bottom of the concave arc surface is suitable for a rope to pass through, and two arc tops of the concave arc surface are suitable for being clamped at two sides of the sliding rail so as to guide the movable pulley to slide along the sliding rail; and the arc depth of the concave arc surface is greater than the height of the sliding rail.

Further, the fixed pulley includes: the fixed pulley support is fixed at the top of the sleeve, and the fixed pulley body is arranged on the fixed pulley support; a first slideway and a second slideway are arranged on the fixed pulley body; wherein the first slideway is adapted to introduce an initial end of an incoming rope into the fixed pulley and through the first slideway into the movable pulley; the second runner is adapted to direct the end of the rope onto the drive assembly.

Furthermore, the driving assembly comprises a hand wheel erected at the top of the sleeve, the hand wheel is suitable for tensioning or loosening the tail end of the rope when rotating, and the movable pulley is pulled to move through the rope so as to lift the pressing block and be used for smashing down and inserting the drill rod.

Furthermore, the bottom of the sleeve is provided with a mounting hole suitable for inserting an inserting drill rod; and fixing plates are arranged on two sides of the mounting hole.

Furthermore, the bottom of the pressing block is provided with a flaring-shaped pressing groove so as to be matched with the top end of the inserted drill rod.

The utility model has the beneficial effects that: according to the water and soil conservation monitoring safety drill rod inserting device, the movable pulley block and the fixed pulley block are adopted in the lifting assembly, the movable pulley is driven to ascend through the driving assembly by using the rope, so that the pressing block is lifted for downwards smashing the drill rod to insert the drill rod in a safe and accurate mode, the labor can be saved for operators to insert the drill rod, and the operation is more convenient; the lifting assembly of the device is arranged inside the sleeve, so that the device is safer for operators and is not easy to damage.

Drawings

The utility model is further illustrated by the following figures and examples.

FIG. 1 is a schematic structural diagram of a safety plug-in drill rod device for monitoring soil and water conservation;

FIG. 2 is a side view of the traveling block;

FIG. 3 is a side view of the crown block;

FIG. 4 is a side view of the assembly of the movable pulley and the slide rail;

FIG. 5 is a top view of the assembly of the movable pulley and the slide rail;

in the figure:

the fixing device comprises a fixing support 1, a sleeve 11, a slide rail 111, grooves 112 on two sides of the slide rail 111, a support rod 12, a supporting plate 121, a fixing rod 122 and a mounting hole 13;

the lifting component 2, the fixed pulley 21, the fixed pulley support 211, the fixed pulley wheel body 212, the first slideway 213, the second slideway 214, the fixed pulley bearing 215, the middle cross rod 216 of the fixed pulley support 211, the movable pulley 22, the movable pulley support 221, the movable pulley wheel body 222, the movable pulley bearing 223, the concave cambered surface 224, two cambered tops 225 of the concave cambered surface 224, a hook 226, the middle cross rod 227 of the movable pulley support 221, the rope 23, the initial end 231 of the rope 23, the tail end 232 of the rope 23, the pressing block 24 and the pressing groove 241;

the driving component 3, the hand wheel 31;

a fixed plate 4;

and inserting a drill rod 5.

Detailed Description

To make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the present invention will now be described in detail with reference to the accompanying drawings. This figure is a simplified schematic diagram, and merely illustrates the basic structure of the present invention in a schematic manner, and therefore it shows only the constitution related to the present invention. It is to be understood that the embodiments described are only a few embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1 to 4, the present embodiment provides a safety drill rod inserting device for soil and water conservation monitoring, including: a fixed bracket 1; the lifting component 2 is positioned on the fixed bracket 1; a pressing block 24 positioned on the lifting assembly 2; the driving assembly 3 is positioned on the fixed bracket 1; the lifting assembly 2 comprises a fixed pulley 21 which is positioned on the fixed bracket 1; the movable pulley 22 is positioned below the fixed pulley 21 and is used for connecting a pressing block 24; a rope 23, one end of which is connected with the movable pulley 22 and passes through the fixed pulley 21 and the movable pulley 22 in sequence, and the other end of which extends to the driving component 3; the driving assembly 3 is suitable for driving the movable pulley 22 to ascend through a rope 23 so as to lift the pressing block 24 for smashing the inserted drill rod 5 downwards. Specifically, referring to fig. 1, the connection trajectory of the ropes is as follows: the initial end 231 of the rope 23 is connected to the pressing block 24 by connecting the fixed sheave 21, the rope 23 enters the fixed sheave 21 from the right side surface of the fixed sheave 21, and is wound around the fixed sheave 21 in the counterclockwise direction for about 3/4 turns, and is drawn to the left side surface of the movable sheave 22, and is wound around the movable sheave 22 in the counterclockwise direction for about 3/4 turns, and the right side surface of the driven sheave 22 is drawn to the right side surface of the fixed sheave 21, and the terminal end 232 of the rope 23 enters the driving unit 3 through the right side surface of the fixed sheave 21. After the pressing block 24 crushes the inserted drill rods 5, the pressing block 24 is located at the lowest end of the fixed support 1, the driving assembly 3 is utilized to pull the tail end 231 of the rope 23, the movable pulley 22 and the pressing block 24 are lifted to the top of the fixed support 1 through the rope 23, then the driving assembly 3 is loosened, the tensile force of the rope 23 disappears, the fixed pulley 21 and the pressing block 24 freely fall together, and the inserted drill rods 5 at the bottom of the fixed support 1 are crushed through the pressing block 24.

Alternatively, the rope is for example, but not limited to, a steel rope.

In this embodiment, the structure and the specific connection relationship of each component of the soil and water conservation monitoring safety drill rod inserting device are as follows:

as an alternative embodiment of the fixing bracket, see fig. 1, the fixing bracket 1 includes a sleeve 11 and a plurality of support rods 12 located outside the sleeve 11; the sleeve 11 is a barrel-shaped structure, and the fixed pulley 21 can be fixedly installed on the side wall of the upper part of the sleeve 11 through a bolt or a pin shaft or hung at the top of the sleeve 11 through a hook. Referring to fig. 2, the inner side wall of the sleeve 11 is provided with a sliding rail 111 to enable the movable pulley 22 to slide inside the sleeve 11; and the outer side wall of the sleeve 11 is suitable for connecting the support rod 12 to support the fixing bracket 1. Specifically, the upper end of the slide rail 111 is flush with the lower end of the fixed pulley 21, and the lower end of the slide rail 111 extends to the bottom of the sleeve 11.

Optionally, the supporting rod 12 includes a supporting plate 121 detachably mounted with the sleeve 11 and a fixing rod 122 mounted on the supporting plate 121; the supporting plates 121 are movably connected with the fixing rods 122 respectively to adjust the height of the sleeve 11. Of course, the supporting plate 121 can be installed on the sleeve through a connecting member such as a bolt or a hinge, the lower end of the fixing rod 122 is inserted into the ground when the device is used to fix the sleeve 11, the supporting plate 121 is detached from the sleeve 11 after the device is used, the fixing rod 122 is retracted, and the device is convenient to carry and saves storage space.

As an alternative embodiment of the lifting assembly, see fig. 1, the movable pulley 22 includes a movable pulley bracket 221, a movable pulley wheel body 222 located on the movable pulley bracket 221; the movable pulley body 222 is connected with the movable pulley bracket 221 through a movable pulley bearing 223; the movable pulley bracket 221 is in a square frame shape, the upper end of the movable pulley bracket 221 is connected with the initial end 231 of the rope 23 through a hook 226 or a connector, and the lower end of the movable pulley bracket 221 can be welded on the top of the pressing block 24 or connected with the pressing block 24 through a movable connector; the middle cross bar 227 of the movable pulley bracket 221 is adapted to mount a movable pulley bearing 223.

As shown in fig. 2, the movable pulley body 222 is a circular cake shape, the side surface of the movable pulley body is a concave arc surface 224, the arc bottom of the concave arc surface 224 is suitable for passing the rope 23, and two arc tops 225 of the concave arc surface 224 are clamped in the grooves 112 at two sides of the sliding rail 111 to guide the movable pulley 22 to slide along the sliding rail 111; and the arc depth of the concave arc surface 224 is larger than the height of the groove 112, so that when the sliding rail 111 and the movable pulley body 222 are matched and slide, the extra space is reserved for passing through the rope 23.

As shown in fig. 3, the fixed sheave 21 includes: a fixed pulley support 211 fixed on the top of the sleeve 11, wherein the fixed pulley support 211 is in a square frame shape, and a fixed pulley bearing 215 is arranged through a middle cross bar 216 of the fixed pulley support 211; a fixed pulley body 212 mounted on the fixed pulley holder 211 through a fixed pulley bearing 215; a first slide way 213 and a second slide way 214 are arranged on the fixed pulley body 212; wherein said first slideway 213 is adapted to introduce the initial end 231 of the introduction rope 23 into the fixed pulley 21 and through the first slideway 213 into the movable pulley 22; the second slideway 214 is adapted to lead the end 232 of the rope 23 out onto the drive assembly 3.

As an alternative embodiment of the drive assembly, see fig. 1, the drive assembly 3 comprises a hand wheel 31 mounted on top of the casing. The hand wheel 31 is suitable for tightening or loosening the tail end 232 of the rope 23 when rotating, and the movable pulley 22 is pulled to move through the rope 23 so as to drive the pressing block 24. Specifically, as shown in fig. 1, the hand wheel 31 can be manually rotated counterclockwise to tighten the end 232 of the rope 23, and the movable pulley 22 slides up along the sliding rail 111 and drives the pressing block 24 connected below the movable pulley to move up; when the movable pulley 22 moves up to the bottom end of the fixed pulley bracket 211, the hand wheel 31 can be loosened, the pressing block 24 falls freely under the action of the self gravity to drive the movable pulley 22 to fall down together and smash the inserted drill rod 5, and the hand wheel 31 is driven by the rope 23 to rotate clockwise; after the pressing block 24 and the movable pulley 22 fall into the bottom of the sleeve 11, the hand wheel 31 is rotated anticlockwise again, the rope 23 is tensioned, the pressing block 24 and the movable pulley 22 are lifted to move upwards, and the operation is repeated for a plurality of times until the inserted drill rod 5 is inserted into the ground.

In the present case, the movable pulley 22 and the pressing block 24 fall together, and the falling gravity is increased compared with the single falling of the pressing block 24, so that the pressure applied to the inserted drill rod is larger.

Further, as shown in fig. 1, a mounting hole 13 suitable for the insertion of the drill rod 5 to pass through is formed in the bottom of the sleeve 11, and the caliber of the mounting hole 13 is larger than the diameter of the insertion of the drill rod 5 and suitable for the insertion of the drill rod 5 into the ground; and the fixing plates 4 are arranged above two sides of the mounting hole 13 and are used for limiting the inserted drill rod 5 by matching with the mounting hole 13, so that the inserted drill rod 5 does not shake or incline left and right.

Further, as shown in fig. 1, a flared pressing groove 241 is formed at the bottom of the pressing block 24 to fit the top end of the inserted pin 5. When the pressing block 24 smashes the inserted drill rod 5, the top end of the inserted drill rod 5 can extend into the pressing groove 241, and the flaring design can avoid the matching deviation between the pressing block 24 and the inserted drill rod 5. In the present embodiment, the fixing plate 4 and the pressing groove 241 of the pressing block 24 are combined to prevent the insertion rod 5 from tilting and ensure that the insertion rod 5 is inserted vertically as much as possible when inserted into the ground.

In conclusion, the water and soil conservation monitoring safety drill rod inserting device adopts the combination of the movable pulley 22 and the fixed pulley 21 in the lifting assembly 2, the hand wheel 31 is rotated to utilize the rope 23 to pull the movable pulley 22 to ascend, so as to lift the pressing block 24 arranged on the movable pulley 22, and the pressing block 24 falls to smash the drill rod 5 into the ground, so that an operator can insert the drill rod 5 in a labor-saving manner, and the operation is more convenient; meanwhile, the lifting assembly 2 is arranged inside the sleeve 11, so that the lifting assembly is safer for operators and is not easy to damage the device; the fixing plate 4 at the bottom of the sleeve 11 is matched with the pressing groove 241 to insert the inserted drill rod 5, so that the inserted drill rod 5 is not inclined when entering the ground and is hammered into the ground at a vertical angle, and the measured data is more accurate; after use, the sleeve 11 can be drawn out from the top of the plug pin 5, and the device can be disassembled and reused. In addition, the fixing rod 122 is movably connected with the sleeve 11 through the supporting plate 121, especially in a detachable connection mode, so that the fixing rod 122 is convenient to fold or unfold, and the device has the advantages of being convenient to carry and saving storage space.

In the description of the embodiments of the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; 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 meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the several embodiments provided in the present application, it should be understood that the disclosed system, apparatus and method may be implemented in other ways. The above-described embodiments of the apparatus are merely illustrative, and for example, the division of the units is only one logical division, and there may be other divisions when actually implemented, and for example, a plurality of units or components may be combined or integrated into another system, or some features may be omitted, or not executed.

In light of the foregoing description of preferred embodiments in accordance with the utility model, it is to be understood that numerous changes and modifications may be made by those skilled in the art without departing from the scope of the utility model. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (10)

1. The utility model provides a water and soil conservation monitoring safety inserts borer device which characterized in that includes: fixing a bracket; the lifting assembly is positioned on the fixed bracket; the pressing block is positioned on the lifting assembly; the driving assembly is positioned on the fixed bracket; the lifting assembly comprises a fixed pulley and is positioned on the fixed support; the movable pulley is positioned below the fixed pulley and is used for connecting the pressing block; one end of the rope is connected with the movable pulley, sequentially passes through the fixed pulley and the movable pulley, and the other end of the rope extends to the driving assembly; the driving assembly is suitable for driving the movable pulley to ascend through the rope, and then the pressing block is lifted for smashing the inserted drill rod downwards.

2. The soil and water conservation monitoring safety drill rod inserting device as claimed in claim 1, wherein the fixing bracket comprises a sleeve and a plurality of support rods positioned outside the sleeve; the upper part of the sleeve is suitable for mounting a fixed pulley; the inner side wall of the sleeve is provided with a sliding rail so as to be suitable for the movable pulley to slide in the sleeve; and the outer side wall of the sleeve is suitable for being connected with the supporting rod so as to support the fixing bracket.

3. The soil and water conservation monitoring safety drill rod inserting device as claimed in claim 2, wherein the support rod comprises a support plate detachably mounted with the casing and a fixing rod mounted on the support plate; the supporting plates are respectively movably connected with the fixing rods so as to adjust the height of the sleeve.

4. The soil and water conservation monitoring safety drill rod inserting device as claimed in claim 2, wherein the upper end of the slide rail is flush with the lower end of the fixed pulley and the lower end of the slide rail extends to the bottom of the sleeve.

5. The soil and water conservation monitoring safety drill rod inserting device as claimed in claim 2, wherein the movable pulley comprises a movable pulley bracket, a movable pulley wheel body positioned on the movable pulley bracket; the movable pulley body is connected with the movable pulley bracket through a bearing; the upper end of the movable pulley support is connected with the initial end of the rope, and the lower end of the movable pulley support is connected with the pressing block.

6. The soil and water conservation monitoring safety drill rod inserting device as claimed in claim 5, wherein the wheel body of the movable pulley is in a round cake shape, the side surface of the wheel body is a concave arc surface, the arc bottom of the concave arc surface is suitable for being passed through a rope, and two arc tops of the concave arc surface are suitable for being clamped on two sides of the sliding rail so as to guide the movable pulley to slide along the sliding rail; and the arc depth of the concave arc surface is greater than the height of the sliding rail.

7. The soil and water conservation monitoring safety plug pin device of claim 5, wherein the fixed pulley comprises: the fixed pulley support is fixed at the top of the sleeve, and the fixed pulley body is arranged on the fixed pulley support; a first slideway and a second slideway are arranged on the fixed pulley body; wherein the first slideway is adapted to introduce an initial end of an incoming rope into the fixed pulley and through the first slideway into the movable pulley; the second runner is adapted to direct the end of the rope onto the drive assembly.

8. The soil and water conservation monitoring safety drill rod inserting device as claimed in claim 1, wherein the driving assembly comprises a hand wheel erected on the top of the sleeve, the hand wheel is suitable for tightening or loosening the tail end of the rope when being rotated, and the movable pulley is pulled by the rope to move so as to lift the pressing block.

9. The soil and water conservation monitoring safety drill rod inserting device as claimed in claim 2, wherein the bottom of the sleeve is provided with a mounting hole suitable for inserting a drill rod; and fixing plates are arranged on two sides of the mounting hole.

10. The soil and water conservation monitoring safety drill rod inserting device as claimed in claim 1, wherein the bottom of the pressing block is provided with a flaring-shaped pressing groove to be matched with the top end of the drill rod.

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