CN109208436B

CN109208436B - Ground multistage adjustment type embossing device for road construction

Info

Publication number: CN109208436B
Application number: CN201811141343.4A
Authority: CN
Inventors: 洪文敬
Original assignee: Quanzhou Taiwanese Investment Zone Jiashang Network Technology Co ltd
Current assignee: QUANZHOU TAIWANESE INVESTMENT ZONE JIASHANG NETWORK TECHNOLOGY Co.,Ltd.
Priority date: 2018-09-28
Filing date: 2018-09-28
Publication date: 2020-12-04
Anticipated expiration: 2038-09-28
Also published as: CN109208436A

Abstract

The invention provides a ground multistage adjustment type embossing conversion device for road construction, which structurally comprises a pole-changing adjusting handle, a water valve mechanism, a ground multistage adjustment type embossing conversion device, a power connecting rod, a cleaning power handle and a fixed connecting cylinder, wherein the power connecting rod is provided with two parts which are fixedly arranged on the left side and the right side of the fixed connecting cylinder and mechanically connected with the axes of the fixed connecting cylinder, a press wheel is designed to be smooth and can be freely adjusted by adopting four embossing patterns with different intervals, all operations of embossing and rolling can be finished only through a road roller without additional secondary processing, the roller is in a hollow state, water is added into the roller to increase the weight of the roller during working, the bearing weight of a vehicle is greatly reduced, the kinetic energy required during the pushing process of the road roller is reduced, so that the oil consumption is reduced, and the roller is cleaned through the water in the roller during the cleaning process after the working of the road roller is finished, and cleaning can be completed during the process.

Description

Ground multistage adjustment type embossing device for road construction

Technical Field

The invention belongs to the field of road construction, and particularly relates to a ground multistage adjusting type embossing device for road construction.

Background

The road roller is a road repairing device for road construction, the pressing surface of the pressing wheel of the road roller is in a smooth state, the road roller needs to be compacted by a certain weight when rolling the road, so the roller is in a solid state, the working state of the press machine is in a moving process, the bearing weight of a vehicle is large, the road roller needs to generate larger pushing kinetic energy in the advancing process, the roller needs to be stopped for cleaning in the cleaning process after the work of the road roller is finished, and the roller is washed and cleaned by an external water source.

Based on the above description, the inventor finds that the existing ground multistage adjustment type embossing device for road construction mainly has the following defects, such as:

1. after the construction of the road is completed, the molecular arrangement inside the concrete in the drying process becomes dense, so that the embossing treatment needs to be carried out on the road to prevent the road from cracking in the drying process, and the design of the pressing wheel of the road roller is generally smooth and has no embossing function, so that secondary processing needs to be carried out by external equipment.

2. The roller is in a solid state and is heavy, and the bearing weight of a vehicle is large in the process of moving outside the working state of the press, so that the road roller needs to consume more oil to generate larger pushing kinetic energy in the advancing process, and the oil consumption is increased.

3. After the roller is cleaned, the roller needs to be stopped for cleaning in the cleaning process, and the roller needs to be washed and cleaned by an external water source, so that certain time is consumed.

Disclosure of Invention

In order to solve the technical problems, the invention provides a ground multistage adjustment type embossing device for road construction, which aims to solve the problems that after the construction of the existing road is finished, the molecular arrangement of the interior of concrete in the drying process becomes dense, so that the road needs to be embossed, and the road is prevented from cracking in the drying process, the design of a press wheel of a road roller is generally smooth and has no embossing function, so that external equipment is needed for secondary processing, the roller is too heavy due to the solid state of the roller, and the bearing weight of a vehicle is larger in the moving process of the working state of a press machine, so that more oil is consumed in the advancing process of the road roller to generate larger pushing kinetic energy, so that the oil consumption is increased, the roller needs to be stopped for cleaning in the cleaning process of the roller after the work is finished, and the roller is washed and cleaned by an external water source, the problem of consuming a certain amount of time.

Aiming at the defects of the prior art, the purpose and the effect of the ground multistage adjusting type embossing device for road construction are achieved by the following specific technical means: the utility model provides a ground multistage regulation formula embossing apparatus that road construction used, its structure includes utmost point regulation handle, water valve mechanism, ground multistage regulation formula embossing conversion equipment, power connecting rod, washing power handle, fixed connection section of thick bamboo, the power connecting rod is equipped with two and fixed mounting altogether and is in the same place rather than axle center mechanical connection in the fixed connection section of thick bamboo left and right sides, it installs left end power connecting rod left surface through the mode of embedding to wash the power handle, utmost point regulation handle installs right-hand member power connecting rod right flank through the mode of embedding, ground multistage regulation formula embossing conversion equipment installs inside fixed connection section of thick bamboo through the mode of embedding, water valve mechanism is whole to be installed at fixed connection section of thick bamboo right flank axle center through the mode of inlaying and leans on the upper position.

The ground multistage adjustment type embossing conversion device comprises a rotary stain removing mechanism, a brake push rod, a bidirectional supporting mechanism, a multistage conversion mechanism, a sealing ring, a trigger embossing ejector block, multistage embossing, a one-way pressurizing mechanism and a reset frame, wherein the multistage embossing is installed on the outer surface of a fixed connecting cylinder in an embedding mode, the rotary stain removing mechanism is provided with ten or five groups and respectively fixed at the upper end and the lower end in the fixed connecting cylinder, one end, close to the axis of the fixed connecting cylinder, of the rotary stain removing mechanism is movably connected with one end, far away from the axis of the fixed connecting cylinder, of the brake push rod through a pin, the left end of the bidirectional supporting mechanism penetrates through the axis position of the sealing ring, the right end of the bidirectional supporting mechanism is fixedly connected with the multistage conversion mechanism, the trigger embossing ejector block is provided with four parts, the lower end of the bidirectional pressure mechanism is attached to the inner surface of the reset frame, and the unidirectional pressure mechanism is arranged at the right end of the multistage switching mechanism and is installed at the right end of the bidirectional supporting mechanism in an embedded mode.

As preferred, rotatory spot clearance mechanism includes ejector pin, uide bushing, lock pin, return extension spring, elastic line, shrouding, shower nozzle, output tube, the ejector pin top runs through in return extension spring and uide bushing axle center position and adopts the mode fixed connection of electric welding in the output tube bottom, the shower nozzle bottom is installed on the output tube top through the mode of embedding, both ends are in the same place through pin and fixed connection section of thick bamboo swing joint about the shrouding, lock pin and fixed connection section of thick bamboo structure as an organic whole, the lock pin passes through elastic line and shrouding bottom fixed connection together, elastic line can be in the washing power handle after reseing, and the shrouding is sealed afterwards after the shower nozzle pulls it back through the return extension spring, prevents the entering of outside dust.

Preferably, the bidirectional support mechanism comprises an extended power rod, a rotary shaft and a bearing cylinder, the left end of the extended power rod penetrates through the sealing ring and is installed at the axis position of the right end of the cleaning power handle in an embedded mode, the right end of the extended power rod is installed at the axis position of the rotary shaft in an embedded mode, the outer surface of the extended power rod is attached to the inner annular surface of the bearing cylinder, the outer annular surface of the bearing cylinder is installed at the inner annular surface of the rotary shaft in an embedded mode and is the same axis, the rotary shaft is fixedly connected with the multi-stage conversion mechanism, the rotary shaft is fixedly connected with the unidirectional pressurizing mechanism, the power rod is embedded in the rotary shaft, the lengths of the power rod and the rotary shaft are not as long as that of the fixed connection cylinder, the power rod and the rotary shaft are crossed with each other by the lengths of the two movable connection.

Preferably, the multistage switching mechanism comprises a first-stage switching convex plate, a second-stage switching convex plate, a third-stage switching convex plate and a fourth-stage switching convex plate, wherein the first-stage switching convex plate, the second-stage switching convex plate, the third-stage switching convex plate and the fourth-stage switching convex plate are sequentially penetrated through by a rotating shaft, the first-stage switching convex plate is arranged at the rightmost end, the fourth-stage switching convex plate is arranged at the leftmost end, the third-stage switching convex plate is arranged at one end close to the second-stage switching convex plate, the second-stage switching convex plate is arranged at one end close to the first-stage switching convex plate, the switching wheels of the total four stages of the multistage switching mechanism can correspond to different embossing patterns, the embossing patterns are fixed after being ejected by the corresponding switching wheels, and regular patterns can be.

Preferably, the one-way pressurizing mechanism comprises a hollow outer cylinder, a torsion spring, a lifting plate, supporting blocks, a pressurizing pipe and a traction line, the hollow outer cylinder, the torsion spring, the lifting plate and the supporting blocks are respectively provided with two groups and are respectively and fixedly installed at the upper end and the lower end of the pressurizing pipe, the torsion spring is fixedly installed inside the hollow outer cylinder, the torsion spring is connected with the lifting plate through the traction line, the supporting blocks are welded with the inner ring surface of the hollow outer cylinder, the lifting plate is closed and reset through pulling of the traction line after pressurization is finished, and when the lifting plate is close to the supporting blocks, the groove rings are transversely embedded into the top ends of the supporting blocks to isolate external water from.

Preferably, the water valve mechanism comprises a rubber plate, a sealing block, a limiting soft rubber head and a fixing rubber head, the top end of the rubber plate and the fixing rubber head are of an integrated structure, the fixing rubber head is installed on the right side of the fixed connecting cylinder in an embedding mode, the sealing block is installed on the right side of the fixed connecting cylinder in an embedding mode, the limiting soft rubber heads are provided with two limiting soft rubber heads and are respectively arranged at the upper end and the lower end of the outer ring surface of the sealing block, the fixed connecting cylinder is in a hollow state and can be filled with adjustable water, a common road roller is generally in a solid state and is excessively heavy, and the oil consumption required in the advancing process of the common road roller is increased due to the increase of the bearing weight of a vehicle in the moving process.

Compared with the prior art, the invention has the following beneficial effects:

the elastic line can be reset after the cleaning power handle, the sealing plate is sealed after the spray head is pulled back through the return tension spring, so that external dust is prevented from entering, the common road roller needs to be stopped for cleaning in the cleaning process, the common road roller is flushed and cleaned through an external water source, and the device is provided with the rotary stain removing mechanism which can finish cleaning in the advancing process after being started.

According to the invention, the multistage switching mechanism is provided with four stages of switching wheels, each stage can correspond to different embossing, the embossing is fixed after being ejected by the corresponding switching wheel, regular grains can be formed by extrusion while the road is rolled by the fixed connecting cylinder, the pressing surface of a common road roller is smooth, and the embossing can be formed only by secondary rolling through an additional machine.

According to the invention, the lifting plate is closed and reset by pulling the traction line after pressurization is finished, and when the lifting plate is close to the supporting block, the lifting plate is transversely embedded into the groove ring at the top end of the supporting block to isolate external water from the internal cavity, and meanwhile, the external acting force of the supporting block is in accordance with the pulling force of the supporting block.

The invention can add adjustable water quantity into the roller because the fixed connecting cylinder is in a hollow state, the common roller is generally in a solid state and is too heavy, the oil consumption required in the advancing process is increased due to the increase of the bearing weight of the vehicle in the moving process, the water quantity which can be filled into the roller can adjust the internal weight, the internal water can be discharged after the work is finished so as to reduce the weight, the design of the pressing wheel adopts smooth embossing with four different intervals to be freely adjusted, all the operations of embossing and rolling can be finished only by the roller without additional secondary processing, the roller is in a hollow state, the water is added into the roller to increase the weight when the roller works, the bearing weight of the vehicle is greatly reduced, the kinetic energy required in the propelling process of the roller is reduced, the roller is in the cleaning process after the work is finished, the drum is cleaned by water inside the drum and can be cleaned while in motion.

Drawings

Fig. 1 is a schematic structural view of a ground multistage adjustment type embossing device for road construction.

Fig. 2 is a schematic view of an internal structure of a ground multistage adjustment type embossing device for road construction according to the present invention.

Fig. 3 is a schematic structural view of a rotary stain removing mechanism inside the ground multi-stage adjustable embossing conversion device.

Fig. 4 is a schematic structural view of a multistage conversion mechanism inside the floor multistage adjustment type embossing conversion device.

Fig. 5 is a schematic structural view of a bidirectional supporting mechanism inside the ground multistage adjustment type embossing conversion device.

Fig. 6 is a schematic structural diagram of a water valve mechanism at a position a in the ground multi-stage adjustment type embossing conversion device.

Fig. 7 is a schematic structural view of a one-way pressing mechanism inside the ground multi-stage adjustment type embossing conversion device.

In the figure: a pole-changing adjusting handle-1, a water valve mechanism-2, a ground multistage adjusting type embossing conversion device-3, a power connecting rod-4, a cleaning power handle-5, a fixed connecting cylinder-6, a rotary stain removing mechanism-31, a brake push rod-32, a bidirectional supporting mechanism-33, a multistage conversion mechanism-34, a sealing ring-35, a trigger embossing top block-36, a multistage embossing-37, a unidirectional pressurizing mechanism-38, a reset frame-39, a push rod-311, a guide sleeve-312, a lock pin-313, a return tension spring-314, an elastic line-315, a sealing plate-316, a spray head-317, an output pipe-318, a push rod-311, a guide sleeve-312, a lock pin-313, a return tension spring-314, an elastic line-315, a seal ring-35, A sealing plate-316, a spray head-317, an output pipe-318, a first-level conversion convex plate-341, a second-level conversion convex plate-342, a third-level conversion convex plate-343, a fourth-level conversion convex plate-344, a hollow outer cylinder-381, a torsion spring-382, a lifting plate-383, a supporting block-384, a pressurizing pipe-385, a traction line-386, a toilet paper-pulling rubber plate-21, a sealing block-22, a limiting soft rubber head-23 and a fixing rubber head-24.

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like 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 "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Examples

As shown in figures 1 to 7:

the invention provides a ground multistage adjustment type embossing device for road construction, which structurally comprises a pole-changing adjusting handle 1, a water valve mechanism 2, a ground multistage adjustment type embossing conversion device 3, a power connecting rod 4, a cleaning power handle 5 and a fixed connecting cylinder 6, wherein the power connecting rod 4 is provided with two poles, the two poles are fixedly arranged on the left side and the right side of the fixed connecting cylinder 6 and mechanically connected with the axes of the two poles, the cleaning power handle 5 is arranged on the left side surface of the left power connecting rod 4 in an embedding mode, the pole-changing adjusting handle 1 is arranged on the right side surface of the right power connecting rod 4 in an embedding mode, the ground multistage adjustment type embossing conversion device 3 is arranged inside the fixed connecting cylinder 6 in an embedding mode, the whole water valve mechanism 2 is arranged on the upper position of the axis of the right side surface of the fixed connecting cylinder 6 in an embedding mode, and the ground multistage adjustment type embossing conversion device 3 comprises a rotary cleaning, The device comprises a brake push rod 32, a bidirectional support mechanism 33, a multi-stage conversion mechanism 34, a sealing ring 35, a trigger embossing top block 36, multi-stage embossing 37, a one-way pressurizing mechanism 38 and a reset frame 39, wherein the multi-stage embossing 37 is installed on the outer surface of a fixed connecting cylinder 6 in an embedded mode, ten or five rotary stain removing mechanisms 31 are arranged and respectively fixed at the upper end and the lower end in the fixed connecting cylinder 6 in a group, one end, close to the axis of the fixed connecting cylinder 6, of each rotary stain removing mechanism 31 is movably connected with one end, far away from the axis of the fixed connecting cylinder 6, of the brake push rod 32 through a pin, the left end of each bidirectional support mechanism 33 penetrates through the axis of the sealing ring 35, the right end of each bidirectional support mechanism 33 is fixedly connected with the multi-stage conversion mechanism 34, the trigger embossing top block 36 is provided with four parts, the one-way pressurizing mechanism 38 is provided at the right end of the multistage switching mechanism 34 and is fitted to the right end of the bidirectional supporting mechanism 33.

Wherein, rotatory dirt is clear away mechanism 31 and is included ejector pin 311, uide bushing 312, lock pin 313, return extension spring 314, elastic line 315, shrouding 316, shower nozzle 317, output tube 318, ejector pin 311 top is run through in return extension spring 314 and uide bushing 312 axle center position and is adopted electric welding's mode fixed connection in output tube 318 bottom, the output tube 318 top is installed through the mode of embedding in shower nozzle 317 bottom, both ends are in the same place through pin and fixed connection section of thick bamboo 6 swing joint about shrouding 316, lock pin 313 and fixed connection section of thick bamboo 6 are integrated structure, lock pin 313 is in the same place through elastic line 315 and shrouding 316 bottom fixed connection, elastic line 315 can be in the washing power handle 5 back of reseing, seals shrouding 316 afterwards when the shower nozzle pulls it back through return extension spring 314, prevents the entering of outside dust, and ordinary road roller is when abluent process, the device needs to be stopped for cleaning, and is washed and cleaned by an external water source, and the device is provided with a rotary stain removing mechanism 31 which can finish cleaning in the process of moving after being started.

Wherein, the bidirectional supporting mechanism 33 comprises a protrusion power rod 331, a rotating shaft 332 and a bearing cylinder 333, the left end of the protrusion power rod 331 penetrates through the sealing ring 35 and is installed at the right end axial center position of the cleaning power handle 5 in an embedding manner, the right end of the protrusion power rod 331 is installed at the axial center position of the rotating shaft 332 in an embedding manner, the outer surface of the protrusion power rod 331 is attached to the inner annular surface of the bearing cylinder 333, the outer annular surface of the bearing cylinder 333 is installed at the inner annular surface of the rotating shaft 332 in an embedding manner and is the same axial center, the rotating shaft 332 is fixedly connected with the multistage switching mechanism 34, the rotating shaft 332 is fixedly connected with the unidirectional pressurizing mechanism 38, the protrusion power rod 331 is embedded in the rotating shaft 332, the lengths of the protrusion power rod 331 and the rotating shaft 332 are not as long as the length of the fixed connecting cylinder 6, but the lengths of the protrusion power rod 331 and the rotating, the two transverse supporting forces form a balanced state, so that the extending power rod 331 and the rotating shaft 332 are positioned on the same horizontal line, balance is kept, an important connecting function is played for braking the cleaning power handle 5 and the pole-changing adjusting handle 1, and the device is a core component of the whole device.

Wherein, the multi-stage conversion mechanism 34 comprises a first-stage conversion convex plate 341, a second-stage conversion convex plate 342, a third-stage conversion convex plate 343 and a fourth-stage conversion convex plate 344, the first-stage conversion convex plate 341, the second-stage conversion convex plate 342, the third-stage conversion convex plate 343 and the fourth-stage conversion convex plate 344 are sequentially penetrated by a rotating shaft 332, the first-stage conversion convex plate 341 is arranged at the rightmost end, the fourth-stage conversion convex plate 344 is arranged at the leftmost end, the third-stage conversion convex plate 343 is arranged at one end close to the second-stage conversion convex plate 342, the second-stage conversion convex plate 342 is arranged at one end close to the first-stage conversion convex plate 341, the multi-stage conversion mechanism 34 has four stages of conversion wheels, each stage can correspond to different embossments, the embossments are fixed after being ejected by the corresponding conversion wheels, regular lines can be formed by extrusion while the fixed connecting, embossing requires a secondary rolling by an additional machine to be formed.

Wherein, the one-way pressurizing mechanism 38 comprises a hollow outer cylinder 381, a torsion spring 382, a lifting plate 383, a supporting block 384, a pressurizing pipe 385 and a traction wire 386, two sets of the hollow outer cylinder 381, the torsion spring 382, the lifting plate 383 and the supporting block 384 are respectively arranged and are respectively and fixedly arranged at the upper end and the lower end of the pressurizing pipe 385, the torsion spring 382 is fixedly installed inside the hollow outer cylinder 381, the torsion spring 382 is connected with the lift plate 383 through a traction wire 386, the supporting block 384 is welded with the inner ring surface of the hollow outer cylinder 381, the lifting plate 383 is closed and reset by pulling the traction line 386 after the pressurization is finished, when it is proximate to the support block 384, it is laterally embedded in a groove ring at the top end of the support block 384, isolating the external water from the internal cavity, meanwhile, the outward acting force of the supporting block 384 and the pulling force of the supporting block 384 are relatively balanced, so that the joint state of the lifting plate 383 and the supporting block 384 is maintained, and the internal cavity is in an isolated state.

Wherein, the water valve mechanism 2 comprises a rubber plate 21, a sealing block 22, a limiting soft rubber head 23 and a fixing rubber head 24, the top end of the rubber plate 21 and the fixing rubber head 24 are integrated, the fixing rubber head 24 is arranged at the right side of a fixed connecting cylinder 6 in an embedding manner, the sealing block 22 is arranged at the right side of the fixed connecting cylinder 6 in an embedding manner, the limiting soft rubber heads 23 are totally provided with two rubber heads which are respectively arranged at the upper end and the lower end of the outer ring surface of the sealing block 22, the fixed connecting cylinder 6 is in a hollow state and can be filled with adjustable water quantity inside, a common road roller is generally in a solid state and is too heavy, the oil consumption required in the advancing process is increased due to the increase of the bearing weight of a vehicle in the moving process, the internal weight of the water valve mechanism can be adjusted, and the internal water can be discharged after the work is finished, to reduce weight.

The specific use mode and function of the embodiment are as follows:

when the device is in an adjusting state, the pole-changing adjusting handle 1 is pulled out to be in the adjusting state, when the pole-changing adjusting handle 1 is manually acted to force the pole-changing adjusting handle 1 to rotate, the pole-changing adjusting handle 1 and four adjusting wheels in the multi-stage conversion mechanism 34 are connected through the rotating shaft 332 to synchronously rotate along with the pole-changing adjusting handle 1 in the same direction, because the four adjusting wheels inside are in a relatively fixed angle state, when the pole-changing adjusting handle 1 can observe the state of the multi-stage embossing 37 through the outside in the adjusting process, because the first-stage conversion convex plate 341, the second-stage conversion convex plate 342, the third-stage conversion convex plate 343 and the fourth-stage conversion convex plate 344 are all provided with corresponding trigger embossing top blocks 36, when the fourth-stage conversion convex plate 344 reaches a limit value below the trigger embossing top blocks 36, the trigger embossing top blocks 36 can be pushed to extend outwards, so that the embossing multi-stage embossing 37 is pushed to separate from the outer surface of the fixed connecting cylinder 6 to form a, and in the process that the four-stage conversion convex plate 344 continues to rotate, the embossing top block 36 is triggered to reset under the pulling of the reset frame 39 matched with the four-stage conversion convex plate, the multi-stage embossing 37 retracts towards the inside of the fixed connecting cylinder 6, if the ground is rolled and rolled after adjustment, a plurality of concrete adheres to the embossing, the fixed connecting cylinder 6 is pushed and is fixed in a rotating way, because the extension power rod 331 is connected with the fixed connecting cylinder 6 and the rotating shaft 332, when the fixed connecting cylinder 6 is pushed to the maximum value and the limit is finished, the brake push rod 32 and the extension power rod 331 are in a 90-degree right angle shape, the ejector rod 311 connected with the brake push rod 32 through a pin is moved outwards by the pushing force, the sealing plate 316 is pushed open, so that the spray head 317 extends out of the outer surface of the fixed connecting cylinder 6, meanwhile, the external input strong pressure is received through the pressurizing pipe 385, the lifting plate 383 is flushed and then enters the inside of the fixed connecting cylinder, because the inside of the fixed connecting cylinder 6 is filled with water through the water valve mechanism 2 in advance, when the outside is forced to enter, the inside water enters the spray head 317 through the output pipe 318 to be sprayed outwards, and the embossing is converted after being cleaned.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims

1. The utility model provides a ground multistage regulation formula embossing apparatus of road construction usefulness, its structure includes change utmost point regulating handle (1), water valve mechanism (2), ground multistage regulation formula impressed watermark conversion equipment (3), power connecting rod (4), washing power handle (5), fixed connection section of thick bamboo (6), its characterized in that:

the washing machine is characterized in that the power connecting rods (4) are provided with two power handles (5) which are fixedly arranged on the left side and the right side of the fixed connecting cylinder (6) and mechanically connected with the axes of the power connecting rods, the washing power handles (5) are arranged on the left side surface of the power connecting rod (4) at the left end in an embedding mode, the pole-changing adjusting handles (1) are arranged on the right side surface of the power connecting rod (4) at the right end in an embedding mode, the ground multi-stage adjusting type embossing conversion device (3) is arranged in the fixed connecting cylinder (6) in an embedding mode, and the water valve mechanism (2) is integrally arranged on the upper position of the axis of the right side surface of the;

the ground multistage adjustment type embossing conversion device (3) comprises a rotary stain removing mechanism (31), a brake push rod (32), a bidirectional supporting mechanism (33), a multistage conversion mechanism (34), a sealing ring (35), a trigger embossing top block (36), multistage embossing (37), a one-way pressurizing mechanism (38) and a reset frame (39), wherein the multistage embossing (37) is installed on the outer surface of a fixed connecting cylinder (6) in an embedding mode, the rotary stain removing mechanism (31) is provided with ten and five groups which are respectively fixed at the upper end and the lower end inside the fixed connecting cylinder (6), one end, close to the axis of the fixed connecting cylinder (6), of the rotary stain removing mechanism (31) is movably connected with one end, far away from the axis of the fixed connecting cylinder (6), of the brake push rod (32) through a pin, the left end of the bidirectional supporting mechanism (33) penetrates through the axis position of the sealing ring (, the right end of the bidirectional supporting mechanism (33) is fixedly connected with the multistage conversion mechanism (34), the triggering embossing ejector block (36) is provided with four parts, the upper end of the triggering embossing ejector block is matched with the four multistage embossing (37) to be installed, the lower end of the triggering embossing ejector block is attached to the inner surface of the reset frame (39), and the one-way pressurizing mechanism (38) is arranged at the right end of the multistage conversion mechanism (34) and is installed at the right end of the bidirectional supporting mechanism (33) in an embedding mode.

2. The ground multistage adjustment type embossing device for road construction according to claim 1, characterized in that: rotatory spot clearance mechanism (31) include ejector pin (311), uide bushing (312), lock pin (313), return extension spring (314), elastic wire (315), shrouding (316), shower nozzle (317), output tube (318), ejector pin (311) top is run through in return extension spring (314) and uide bushing (312) axle center position and is adopted mode fixed connection in output tube (318) bottom of electric welding, output tube (318) top is installed through the mode of embedding in shower nozzle (317) bottom, both ends are in the same place through pin and fixed connection section of thick bamboo (6) swing joint about shrouding (316), lock pin (313) and fixed connection section of thick bamboo (6) are integrated structure, lock pin (313) are in the same place through elastic wire (315) and shrouding (316) bottom fixed connection.

3. The ground multistage adjustment type embossing device for road construction according to claim 1, characterized in that: the bidirectional support mechanism (33) comprises an extension power rod (331), a rotating shaft (332) and a bearing cylinder (333), wherein the left end of the extension power rod (331) penetrates through the sealing ring (35) and is installed at the axis position of the right end of the cleaning power handle (5) in an embedding mode, the right end of the extension power rod (331) is installed at the axis position of the rotating shaft (332) in an embedding mode, the outer surface of the extension power rod is attached to the inner annular surface of the bearing cylinder (333), the outer annular surface of the bearing cylinder (333) is installed at the inner annular surface of the rotating shaft (332) in an embedding mode and is the same axis, the rotating shaft (332) is fixedly connected with the multistage conversion mechanism (34), and the rotating shaft (332) is fixedly connected with the unidirectional pressurizing mechanism (38).

4. The ground multistage adjustment type embossing device for road construction as claimed in claim 1 or 3, wherein: the multistage switching mechanism (34) comprises a first-stage switching convex plate (341), a second-stage switching convex plate (342), a third-stage switching convex plate (343) and a fourth-stage switching convex plate (344), wherein the first-stage switching convex plate (341), the second-stage switching convex plate (342), the third-stage switching convex plate (343) and the fourth-stage switching convex plate (344) are sequentially penetrated through by a rotating shaft (332), the first-stage switching convex plate (341) is installed at the rightmost end, the fourth-stage switching convex plate (344) is installed at the leftmost end, the third-stage switching convex plate (343) is installed at one end close to the second-stage switching convex plate (342), and the second-stage switching convex plate (342) is installed at one end close to the first-stage switching convex.

5. The ground multistage adjustment type embossing device for road construction as claimed in claim 1 or 3, wherein: the unidirectional pressurizing mechanism (38) comprises a hollow outer cylinder (381), a torsion spring (382), a lifting plate (383), a supporting block (384), a pressurizing pipe (385) and a traction line (386), the hollow outer cylinder (381), the torsion spring (382), the lifting plate (383) and the supporting block (384) are respectively provided with two sets of pressurizing pipes and are respectively fixedly installed at the upper end and the lower end of the pressurizing pipe (385), the torsion spring (382) is fixedly installed inside the hollow outer cylinder (381), the torsion spring (382) is connected with the lifting plate (383) through the traction line (386), and the supporting block (384) is welded with the inner ring surface of the hollow outer cylinder (381).

6. The ground multistage adjustment type embossing device for road construction according to claim 1, characterized in that: the water valve mechanism (2) comprises a conveniently-pulled rubber plate (21), a sealing block (22), a limiting soft rubber head (23) and a fixing rubber head (24), the top end of the conveniently-pulled rubber plate (21) and the fixing rubber head (24) are of an integrated structure, the fixing rubber head (24) is installed on the right side of the fixing connecting cylinder (6) in an embedding mode, the sealing block (22) is installed on the right side of the fixing connecting cylinder (6) in an embedding mode, and the limiting soft rubber head (23) is provided with two parts which are respectively arranged at the upper end and the lower end of the outer ring surface of the sealing block (22).