CN112746582A

CN112746582A - Highway isolation guardrail installation device

Info

Publication number: CN112746582A
Application number: CN202110021748.XA
Authority: CN
Inventors: 高本玉
Original assignee: Individual
Current assignee: Guangxi'an Tongbao Construction Engineering Group Co ltd
Priority date: 2021-01-08
Filing date: 2021-01-08
Publication date: 2021-05-04
Anticipated expiration: 2041-01-08
Also published as: CN112746582B

Abstract

The invention relates to a mounting device, in particular to a mounting device for an isolation guardrail of a highway. The technical problem that solves is to provide an automatic lifting division board, conveniently takes off the division board, and the automatic clamping division board is transported to the highway isolation barrier installation device that accomplishes the installation above the guardrail frame. The invention has the technical scheme that the mounting device for the isolation guardrail of the highway comprises: the two sides of the lower part of the supporting plate are symmetrically and rotatably connected with universal wheels; the upper part of the supporting plate is provided with a driving component; the lifting assembly is arranged on one side of the upper part of the supporting plate. According to the invention, the second sliding groove block is pushed to move outwards, then the first sliding groove block is pushed to move forwards, the clamping block is driven to move outwards and forwards, and finally, after the isolation plate is clamped, the reset motion is generated, the isolation plate is driven to move backwards, so that the effect of clamping the top of the isolation plate and transporting the top of the isolation plate to the position between the guardrail frames at two sides is achieved through simple operation, and the device is more convenient and saves trouble.

Description

Highway isolation guardrail installation device

Technical Field

The invention relates to a mounting device, in particular to a mounting device for an isolation guardrail of a highway.

Background

The expressway is an important passage for transporting articles and going out, so that guardrails are arranged on two sides of the expressway to avoid traffic accidents and protect vehicles and drivers and passengers.

The guardrail has guardrail frame and division board assembly to form, current highway isolation guardrail installation, it is with high back to guardrail frame with rising through current equipment drive division board, take off the division board, it is manual again to insert it between the guardrail frame, this kind of technique, at first when the division board is taken off to needs, equipment can continue the function, the operation is inconvenient, secondly after the division board rises, still need manually to install it between the guardrail frame, consume a large amount of manpowers, the installation effectiveness is low.

How to develop an automatic lifting division board, conveniently take off the division board, the highway isolation barrier installation device who accomplishes the installation above the self-holding division board transports it to the guardrail frame becomes the problem that needs to solve.

Disclosure of Invention

In order to overcome the inconvenience of taking off the division board among the prior art, still need manually insert the division board between the guardrail frame, consume the shortcoming of manpower, the technical problem that solves is: the utility model provides an automatic lifting division board conveniently takes off the division board, and self-holding division board and transport it to the highway isolation barrier installation device that guardrail frame top was accomplished the installation with it.

The technical scheme of the invention is as follows: a highway isolation barrier installation device comprises: the two sides of the lower part of the supporting plate are symmetrically and rotatably connected with universal wheels; the upper part of the supporting plate is provided with a driving component; the lifting assembly is arranged on one side of the upper part of the supporting plate.

Further, the driving assembly comprises: the servo motor is arranged on the upper side of the supporting plate; the middle part of the upper side of the supporting plate is symmetrically connected with the supporting rods; the upper side and the lower side between the support rods are rotatably connected with the rotating shafts; the transmission assembly is connected between one side of the lower rotating shaft and one side of the output shaft of the servo motor; the two sides of the rotating shaft are connected with chain wheels; the chain is connected between the chain wheels at the two sides; a push rod is connected between one side of the lower part of the chain.

Further, the lifting assembly comprises: the supporting slide rods are symmetrically connected to one side of the upper part of the supporting plate; the supporting slide rods are connected with the placing blocks in a sliding manner; the first springs are connected between the placing blocks and the upper parts of the supporting slide rods and sleeved on the supporting slide rods; one side of the placing block is rotatably connected with the rotating block; torsion springs are symmetrically connected between the rotating block and the placing block; the connecting rod is connected with the connecting rod between placing the piece lower part, and the connecting rod is mutually supported with the push rod.

Further, still including locking Assembly, locking Assembly includes: one side of the upper part of each support rod is connected with a first support block; the upper part of one side of the first supporting block is connected with a first clamping block in a sliding way; the second springs are connected between the first clamping blocks and the first supporting blocks and sleeved on the first clamping blocks; the special-shaped frame is connected between one sides of the first clamping blocks; the dog, dysmorphism frame middle part one side is connected with the dog, and the dog is mutually supported with the push rod.

Further, still including transporting the subassembly, transporting the subassembly including: the upper parts of the supporting sliding rods are connected with supporting groove rods; the inner parts of two sides of the support slot rod are connected with the first sliding slot block in a sliding way; the third springs are connected between one side of the first sliding groove block and the supporting groove rod; the first guide rod is connected between the two sides of the interior of the first sliding groove block; the first guide rod is connected with a first sliding groove block in a sliding manner; the fourth spring is connected between the outer side of the upper part of the second sliding groove block and the first sliding groove block and sleeved on the first guide rod; the clamping blocks are connected with the inner parts of the lower sides of the second sliding groove blocks in a sliding mode; and fifth springs are connected between the outer sides of the clamping blocks and the second sliding groove blocks.

Further, still including the chucking subassembly, the chucking subassembly is including: one side of the upper part of the supporting groove rod is symmetrically connected with a second supporting block; the outer sides of the upper parts of the second supporting blocks are connected with second clamping blocks in a sliding mode, and the second clamping blocks are matched with the first sliding groove blocks; the sixth springs are connected between the second clamping block and the second supporting block and sleeved on the second clamping block; the lower parts of one sides of the first wedge-shaped rod and the second clamping block are connected with the first wedge-shaped rod; the outer side of one part of the support groove rod is symmetrically connected with the guide block; the guide block is internally and all connected with a first slide bar in a sliding manner, the first slide bar is matched with the first slide groove block in a sliding manner, and the first slide bar is matched with the second slide groove block and the first wedge-shaped rod.

Further, still including the separation element, the separation element includes: the second guide rods are connected to one sides of the upper parts of the supporting sliding rods in a sliding mode; the ejector rod is connected between the upper sides of the second guide rods and matched with the connecting rod; the seventh spring is connected between the lower part of the second guide rod and the ejector rod and sleeved on the second guide rod; one side of the supporting groove rod is symmetrically connected with the supporting groove block; the inner parts of the supporting groove blocks are connected with movable wedge-shaped rods in a sliding manner, and the lower parts of the inner sides of the movable wedge-shaped rods are connected with the ejector rods; the eighth spring is connected between the upper part of the inner side of the movable wedge-shaped rod and the supporting groove block; the two sides of the middle part of the second sliding groove block are both connected with second sliding rods, and the second sliding rods on one side are matched with the movable wedge-shaped rods; and one side of the lower part of the outer side of the supporting groove rod is connected with the fixed wedge rod, and a second sliding rod on one side is matched with the fixed wedge rod.

Further, still including pulling the subassembly, pulling the subassembly including: one side of the lower part of the support sliding rod is connected with a third guide rod; the connecting groove rods are connected between the third guide rods in a sliding manner and are matched with the connecting rods; ninth springs are connected between the connecting groove rods and the lower parts of the third guide rods and sleeved on the third guide rods; the two sides of one part of the connecting groove rod are both connected with the ratchet bar in a sliding way; a tenth spring, wherein seven tenth springs are uniformly connected between one side of the ratchet bar and the connecting groove rod at intervals; the outer sides of the upper parts of the supporting rods are connected with third supporting blocks; the outer sides of the lower parts of the third supporting blocks are rotatably connected with a ratchet gear, and the ratchet gear is meshed with a ratchet bar; the outer sides of the ratchet gear transmission shafts are connected with the reels; the pulley is symmetrically and rotatably connected to one side of the supporting groove rod; stay cords are connected between the inner side of one part of the first sliding groove block and the reel on the same side, and the stay cords wind around the pulleys.

The invention has the following advantages: 1. according to the invention, the servo motor is started to drive the chain and the push rod to rotate, so that the connecting rod and the placing block are pushed to move upwards, the isolation plate is lifted to a proper height, the effect of automatically transporting and conveying the isolation plate is achieved, and the isolation guardrail is convenient to mount.

2. According to the invention, the connecting rod is propped against the first clamping block through the matching of the connecting rod and the first clamping block, then the push rod rotates to push the baffle plate to move forwards, the first clamping block is driven to move forwards, the connecting rod is loosened, the effect of automatically propping against and fixing the isolation plate is achieved, and the isolation plate is convenient to take down.

3. According to the invention, the second sliding groove block is pushed to move outwards, then the first sliding groove block is pushed to move forwards, the clamping block is driven to move outwards and forwards, and finally, after the isolation plate is clamped, the reset motion is generated, the isolation plate is driven to move backwards, so that the effect of clamping the top of the isolation plate and transporting the top of the isolation plate to the position between the guardrail frames at two sides is achieved through simple operation, and the device is more convenient and saves trouble.

4. According to the invention, the first sliding groove block is fixed through the mutual matching of the first sliding groove block and the second clamping block, the second sliding groove block moves towards the inner side, the first sliding rod is pushed to move towards the inner side, the second clamping block is pushed to move upwards, and the second sliding groove rod is loosened, so that the effects of automatically clamping and fixing and unlocking the first sliding groove block are achieved.

5. According to the invention, the movable wedge rod is pushed to move upwards through the connecting rod, the second sliding groove block is loosened, the second sliding groove block drives the rear side second sliding rod to move backwards, the second sliding groove block is matched with the fixed wedge rod, the second sliding groove rod is pushed to move outwards, the isolation plate is loosened, the effect of automatically propping against and fixing and unlocking the second sliding groove block is achieved, and the installation efficiency is improved.

6. According to the invention, the connecting groove rod is pushed by the connecting plate to move downwards to drive the ratchet bar to move downwards, so that the ratchet wheel and the reel are driven to rotate, the first sliding groove block is pulled to move forwards by the pull rope, the effect of automatically driving the first sliding groove block to move forwards is achieved, the first sliding groove block does not need to be pulled by hands, and the labor is saved.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of another angle according to the present invention.

FIG. 3 is a schematic diagram of a first partial structure according to the present invention.

FIG. 4 is a second partial structure diagram of the present invention.

FIG. 5 is a third partial structural diagram of the present invention.

FIG. 6 is a schematic diagram of a fourth partial structure of the present invention.

Fig. 7 is a schematic structural view and a sectional view of a fifth part of the present invention.

Fig. 8 is a schematic structural view and a sectional view of a sixth portion of the present invention.

FIG. 9 is a schematic diagram of a seventh partial structure according to the present invention.

Fig. 10 is a schematic diagram of an eighth partial structure of the present invention.

Number designation in the figures: 1-support plate, 2-universal wheel, 3-drive assembly, 301-servo motor, 302-drive assembly, 303-support bar, 304-rotation axis, 305-sprocket, 306-chain, 307-push bar, 4-lifting assembly, 401-support slide bar, 402-placement block, 403-first spring, 404-rotation block, 405-torsion spring, 406-connection bar, 5-locking assembly, 501-first support block, 502-first fixture block, 503-second spring, 504-stop block, 505-profile frame, 6-transport assembly, 601-support grooved bar, 602-first grooved block, 603-third spring, 604-first guide bar, 605-fourth spring, 606-second grooved block, 607-clamp block, 608-fifth spring, 7-clamping component, 701-second supporting block, 702-second clamping block, 703-sixth spring, 704-first wedge bar, 705-guide block, 706-first slide bar, 8-separating component, 801-second guide bar, 802-seventh spring, 803-top bar, 804-supporting groove block, 805-movable wedge bar, 806-eighth spring, 807-second slide bar, 808-fixed wedge bar, 9-pulling component, 901-third guide bar, 902-ninth spring, 903-connecting groove bar, 904-ratchet bar, 905-tenth spring, 906-third supporting block, 907-ratchet wheel, 908-reel, 909-pulley, 910-pulling rope.

Detailed Description

The following further describes the technical solution with reference to specific embodiments, and it should be noted that: the words upper, lower, left, right, and the like used herein to indicate orientation are merely for the location of the illustrated structure in the corresponding figures. The serial numbers of the parts are themselves numbered herein, for example: first, second, etc. are used solely to distinguish one from another as to objects described herein, and do not have any sequential or technical meaning. The application states that: the connection and coupling, unless otherwise indicated, include both direct and indirect connections (couplings).

Example 1

The utility model provides a highway isolation barrier installation device, as shown in fig. 1, fig. 2, fig. 3, fig. 4 and fig. 5, including backup pad 1, universal wheel 2, drive assembly 3 and lifting subassembly 4, the equal bilateral symmetry rotary type in both sides is connected with universal wheel 2 around backup pad 1 lower part, and 1 upper portion of backup pad is equipped with drive assembly 3, and 1 upper portion rear side of backup pad is equipped with lifting subassembly 4.

Drive assembly 3 is including servo motor 301, transmission assembly 302, bracing piece 303, rotation axis 304, sprocket 305, chain 306 and push rod 307, servo motor 301 is installed to the left front side in backup pad 1 upper portion, 1 upside middle part bilateral symmetry of backup pad is connected with bracing piece 303, the equal rotary type in both sides about between the bracing piece 303 is connected with rotation axis 304, be connected with transmission assembly 302 between downside rotation axis 304 left side and the servo motor 301 output shaft left side, the rotation axis 304 left and right sides all is connected with sprocket 305, all be connected with chain 306 between the left and right sides sprocket 305, be connected with push rod 307 between the chain 306 lower part rear side.

Lifting subassembly 4 is including supporting slide bar 401, place piece 402, first spring 403, rotatory piece 404, torsion spring 405 and connecting rod 406, the left and right symmetry of support plate 1 upper portion rear side is connected with supporting slide bar 401, it places piece 402 all to be connected with on the supporting slide bar 401 to support, it all is connected with first spring 403 to place between piece 402 and the supporting slide bar 401 upper portion, first spring 403 overlaps on supporting slide bar 401, it is connected with rotatory piece 404 to place the equal rotary type in piece 402 rear side, rotatory piece 404 and place and all left and right symmetry are connected with torsion spring 405 between the piece 402, it is connected with connecting rod 406 to place between the piece 402 lower part, connecting rod 406 and push rod 307 mutually support.

When a user needs to install the isolation board between the guardrail frames at the side of the highway, firstly, the driving device is driven by the driving device to move to a proper position under the rolling action of the universal wheel 2, the isolation board is placed between the upper parts of the two side placing blocks 402 and is blocked by the rotating block 404, the isolation board is fixed, the servo motor 301 is started to drive the transmission component 302 to rotate, so as to drive the lower side rotating shaft 304 and the chain wheel 305 to rotate, the upper side rotating shaft 304 and the chain wheel 305 are driven by the chain 306 to rotate, and further drive the push rod 307 to rotate, the connecting rod 406 is driven to move upwards by the counterclockwise rotation of the push rod 307, the placing block 402 and the isolation board are driven to move upwards, the first spring 403 is compressed, after the isolation board is lifted to a proper position, the isolation board is taken down and is inserted between the guardrail frames at the two sides to complete installation, and then, after the push rod 307 rotates counterclockwise and is far, promote connecting rod 406 and place piece 402 downstream, resume to original state, so reciprocal, reach the effect of automatic transportation conveying division board, conveniently keep apart the installation of guardrail.

Example 2

On the basis of embodiment 1, as shown in fig. 1, fig. 2, fig. 6, fig. 7, fig. 8, fig. 9 and fig. 10, the locking device further includes a locking assembly 5, the locking assembly 5 includes a first supporting block 501, a first block 502, a second spring 503, a stopper 504 and a special-shaped frame 505, the first supporting block 501 is connected to the rear side of the upper portion of the supporting rod 303, the first block 502 is connected to the upper portion of the rear side of the first supporting block 501 in a sliding manner, the second spring 503 is connected between the first block 502 and the first supporting block 501, the second spring 503 is sleeved on the first block 502, the special-shaped frame 505 is connected between the front sides of the first block 502, the stopper 504 is connected to the rear side of the middle portion of the special-shaped frame 505, and the stopper 504 and the push rod 307 are.

After the connecting rod 406 moves upwards to contact with the first fixture 502, the first fixture 502 is pushed to move forwards, the second spring 503 is compressed, after the connecting rod 406 passes through the first fixture 502, the first fixture 502 is pushed to move backwards under the action of the second spring 503, so that the first fixture 502 abuts against the connecting rod 406, the placing block 402 and the isolating plate are fixed, the isolating plate can be taken down, then the push rod 307 rotates anticlockwise continuously to contact with the stop 504, the push stop 504 moves forwards, the special-shaped frame 505 and the first fixture 502 are driven to move forwards, the second spring 503 is compressed, the connecting rod 406 is no longer stopped by the first fixture 502, under the resetting action of the first spring 403, the connecting rod 406 and the placing block 402 move downwards to restore the original state, after the connecting rod 406 is far away from the stop 504, the first fixture 502, the special-shaped frame 505 and the stop 504 are pushed to move backwards under the action of the second spring 503, the original state is recovered, and the reciprocating operation is performed, so that the effect of automatically propping the fixed isolation plate is achieved, and the isolation plate is convenient to take down.

Also comprises a transport assembly 6, the transport assembly 6 comprises a support slot rod 601, a first sliding slot block 602, a third spring 603 and a first guide rod 604, the sliding mechanism comprises a fourth spring 605, a second sliding groove block 606, a clamping block 607 and a fifth spring 608, a supporting groove rod 601 is connected between the upper parts of the supporting sliding rods 401, first sliding groove blocks 602 are connected inside the left and right sides of the supporting groove rod 601 in a sliding manner, a third spring 603 is connected between the rear side of each first sliding groove block 602 and the supporting groove rod 601, first guide rods 604 are connected between the left and right sides inside the first sliding groove blocks 602, second sliding groove blocks 606 are connected on the first guide rods 604 in a sliding manner, a fourth spring 605 is connected between the outer side of the upper part of each second sliding groove block 606 and the corresponding first sliding groove block 602, the fourth spring 605 is sleeved on the first guide rods 604, the clamping block 607 is connected inside the lower side of each second sliding groove block 606 in a sliding manner, and the fifth spring 608 is connected between the outer side of each clamping block 607 and the corresponding second sliding groove block 606.

The second sliding groove block 606 is pushed to move outwards, the fourth spring 605 is compressed to drive the clamping block 607 to move outwards, then the first sliding groove block 602 is pulled to move forwards, the third spring 603 is stretched to drive the second sliding groove block 606 and the clamping block 607 to move forwards, after the first clamping block 502 abuts against the connecting rod 406 to fix the isolation board, the second sliding groove block 606 is released, under the action of the fourth spring 605, the second sliding groove block 606 and the clamping block 607 are pushed to move inwards, after the clamping block 607 contacts the isolation board, the clamping block is pushed to move outwards, the fifth spring 608 is compressed, after the clamping block 607 clamps the isolation board, the first sliding groove block 602 is released, under the action of the third spring 603, the first sliding groove block 602 is pushed to move backwards, the second sliding groove block 606 and the clamping block 607 are driven to move backwards, the rotating block 404 is pushed to rotate clockwise, the torsion spring 405 deforms, thereby driving the isolation board to move backwards to the upper part between the two side racks, after the division board is far away from the rotation block 404, under the effect of torsion spring 405, promote rotation block 404 anticlockwise rotation, resume the original state, promote second spout piece 606 and move to the outside again afterwards, fourth spring 605 is compressed, drive clamp splice 607 and move to the outside, loosen the division board, the division board drops downwards to between the both sides guardrail frame, accomplish the installation, the division board falls behind down, under the effect of fifth spring 608, promote clamp splice 607 and move to the inside, loosen second spout piece 606, under the effect of fourth spring 605, promote second spout piece 606 and clamp splice 607 and move to the outside, resume to the original state, so reciprocal, reach the effect that simple operation realizes pressing from both sides tight division board top and transport it to between the both sides guardrail frame, it is more convenient save trouble.

Also comprises a clamping component 7, the clamping component 7 comprises a second supporting block 701, a second clamping block 702 and a sixth spring 703, the device comprises a first wedge-shaped rod 704, a guide block 705 and a first sliding rod 706, wherein a second supporting block 701 is symmetrically connected to the left and right of the front side of the upper portion of a supporting groove rod 601, a second fixture block 702 is connected to the outer side of the upper portion of the second supporting block 701 in a sliding mode, the second fixture block 702 is matched with the first sliding groove block 602 in a mutual mode, a sixth spring 703 is connected between the second fixture block 702 and the second supporting block 701, the sixth spring 703 is sleeved on the second fixture block 702 in a sliding mode, the lower portion of the front side of the second fixture block 702 is connected with the first wedge-shaped rod 704, the guide block 705 is symmetrically connected to the left and right of the outer side of the front portion of the supporting groove rod 601, a first sliding rod 706 is connected to the inner portion of the guide block 705 in a sliding mode, the first sliding rod 706 is matched.

When the first sliding groove block 602 is pulled to move forward to contact with the second clamping block 702, the second clamping block 702 is pushed to move upward, the sixth spring 703 is compressed, after the first sliding groove block 602 passes through the second clamping block 702, under the action of the sixth spring 703, the second clamping block 702 moves downward, the second clamping block 702 blocks the first sliding groove block 602, the second sliding groove block 606 and the clamping block 607 are fixed, and then when the second sliding groove block 606 moves inward under the resetting action of the fourth spring 605, the first sliding rod 706 is pushed to move inward, so that the first wedge rod 704 is pushed to move upward, the second clamping block 702 is driven to move upward, the sixth spring 703 is compressed, the second clamping block 702 does not block the first sliding groove block 602 any longer, at this time, the clamping block 607 clamps the isolation plate, and under the resetting action of the third spring 603, the first sliding groove block 602, the second sliding groove block 606 and the clamping block 607 are pushed to move backward, finally, the isolation plate falls between the guardrail frames on the two sides, and after the first chute block 602 is far away from the second fixture block 702, the second fixture block 702 is pushed to move downwards under the action of the sixth spring 703, so that the first wedge-shaped rod 704 is driven to move downwards, the first sliding rod 706 is pushed to move outwards to return to the original state, and the reciprocating operation is carried out, so that the effects of automatically clamping, fixing and unlocking the first chute block 602 are achieved.

The separation component 8 comprises a second guide rod 801, a seventh spring 802, a top rod 803, a support groove block 804, a movable wedge-shaped rod 805, an eighth spring 806, a second sliding rod 807 and a fixed wedge-shaped rod 808, wherein the front side of the upper part of the support sliding rod 401 is connected with the second guide rod 801 in a sliding manner, the top rod 803 is connected between the upper sides of the second guide rod 801, the top rod 803 is matched with the connecting rod 406, the seventh spring 802 is connected between the lower part of the second guide rod 801 and the top rod 803, the seventh spring 802 is sleeved on the second guide rod 801, the support groove block 804 is symmetrically connected with the front side and the rear side of the front side of the support groove rod 601, the movable wedge-shaped rod 805 is connected inside the support groove block 804 in a sliding manner, the lower part of the inner side of the movable wedge-shaped rod 805 is connected with the top rod 803, the eighth spring 806 is connected between the upper part of the inner side of the movable wedge-shaped rod 805 and, the front second sliding bar 807 is matched with the movable wedge bar 805, the rear sides of the lower parts of the outer sides of the supporting groove bars 601 are connected with fixed wedge bars 808, and the rear second sliding bar 807 is matched with the fixed wedge bars 808.

In the starting state, the movable wedge 805 abuts against the front second sliding bar 807, the fourth spring 605 is compressed, the connecting bar 406 moves upwards to contact with the top bar 803, the top bar 803 is pushed to move upwards, the seventh spring 802 is compressed, the movable wedge 805 is driven to move upwards to be far away from the front second sliding bar 807, the eighth spring 806 is compressed, under the reset action of the fourth spring 605, the second sliding groove block 606 and the clamping block 607 are pushed to move inwards, after the isolation board is clamped, the second sliding groove block 606 moves backwards along with the reset motion of the first sliding groove block 602, the second sliding bar 807 is driven to move backwards, then the connecting bar 406 moves downwards to be far away from the top bar 803, under the action of the seventh spring 802, the top bar 803 is pushed to move downwards, the movable wedge 805 is driven to move downwards, the eighth spring 806 extends backwards to recover the original state, and simultaneously the rear second sliding bar 807 moves backwards to contact with the fixed wedge 808, the rear second sliding bar 807 is pushed to move outwards to drive the second sliding groove block 606 and the clamping block 607 to move outwards, the fourth spring 605 is compressed to loosen the isolation board, when the isolation board is installed next time, the first sliding groove block 602 is pushed to drive the second sliding groove block 606 to move forwards, so that the rear second sliding bar 807 is driven to move forwards to be far away from the fixed wedge-shaped bar 808, under the action of the fourth spring 605, the second sliding groove block 606 is pushed to move inwards, meanwhile, the second sliding groove block 606 drives the front second sliding bar 807 to move forwards to be in contact with the movable wedge-shaped bar 805, the front second sliding bar and the second sliding groove block 606 are pushed to move outwards, the fourth spring 605 is compressed to be restored to the original state, and the reciprocating is carried out, the effect of automatically propping against the fixed and unlocked second sliding groove block 606 is achieved, and the installation efficiency is improved.

The device also comprises a pulling component 9, the pulling component 9 comprises a third guide rod 901, a ninth spring 902, a connecting groove rod 903, a ratchet bar 904, a tenth spring 905, a third supporting block 906, a ratchet wheel 907, a reel 908, a pulley 909 and a pull rope 910, the front side of the lower part of the supporting slide bar 401 is connected with the third guide rod 901, the connecting groove rod 903 is connected between the third guide rods 901 in a sliding way, the connecting groove rod 903 is matched with the connecting rod 406, the ninth spring 902 is connected between the connecting groove rod 903 and the lower part of the third guide rod 901, the ninth spring 902 is sleeved on the third guide rod 901, the left side and the right side of the front part of the connecting groove rod 903 are connected with the ratchet bar 904 in a sliding way, seven tenth springs 905 are evenly connected between the rear side of the ratchet bar 904 and the connecting groove rod 903 at intervals, the outer side of the upper part of the supporting rod 303 is connected with the third supporting block 906, the outer side of, the ratchet wheel 907 is meshed with the ratchet bar 904, the outer sides of transmission shafts of the ratchet wheel 907 are connected with reels 908, the front side of the support groove rod 601 is connected with pulleys 909 in a left-right symmetrical rotating mode, pull ropes 910 are connected between the inner side of the front portion of the first sliding groove block 602 and the reels 908 on the same side, and the pull ropes 910 pass around the pulleys 909.

In the starting state, the connecting rod 406 presses the connecting slot rod 903, the ninth spring 902 is compressed, after the connecting rod 406 moves upwards and away from the connecting slot rod 903, the connecting slot rod 903 is pushed to move upwards under the action of the ninth spring 902, the ratchet rack 904 does not drive the ratchet wheel 907 to move upwards under the action of the tenth spring 905, after the spacer plate is clamped away by the clamping block 607, the connecting rod 406 moves downwards, after the connecting rod 406 contacts the connecting slot rod 903, the connecting slot rod 903 is pushed to move downwards, the ninth spring 902 is compressed and returns to the original state, the ratchet rack 904 is driven to move downwards, the ratchet wheel 907 and the reel 908 are driven to rotate, at the moment, the previous spacer plate falls, the first sliding slot block 602 returns to the original position, the first sliding slot block 602 is pulled to move towards the front side through the pull rope 910, a new spacer plate is transported, and the process is repeated, the effect of automatically driving the first chute block 602 to move forward is achieved, no manual pulling is needed, and manpower is saved.

The above description is only an example of the present invention and is not intended to limit the present invention. All equivalents which come within the spirit of the invention are therefore intended to be embraced therein. Details not described herein are well within the skill of those in the art.

Claims

1. The utility model provides a highway isolation barrier installation device which characterized in that: comprises the following steps:

the two sides of the lower part of the supporting plate (1) are symmetrically and rotatably connected with universal wheels (2);

the driving component (3) is arranged at the upper part of the supporting plate (1);

the lifting component (4) is arranged on one side of the upper part of the supporting plate (1).

2. A highway barrier fence mounting device as recited in claim 1 wherein: the drive assembly (3) comprises:

the servo motor (301) is installed on the upper side of the support plate (1);

the middle part of the upper side of the supporting plate (1) is symmetrically connected with the supporting rods (303);

the upper side and the lower side of the support rod (303) are rotatably connected with the rotating shaft (304);

the transmission assembly (302) is connected between one side of the lower rotating shaft (304) and one side of the output shaft of the servo motor (301);

the chain wheel (305) is connected to both sides of the rotating shaft (304);

the chain (306) is connected between the chain wheels (305) at the two sides;

a push rod (307) is connected between one side of the lower part of the chain (306).

3. A highway barrier fence mounting device as recited in claim 2 wherein: the lifting assembly (4) comprises:

the supporting slide bar (401) is supported, and one side of the upper part of the supporting plate (1) is symmetrically connected with the supporting slide bar (401);

the placing blocks (402) are connected to the supporting sliding rods (401) in a sliding mode;

the first springs (403) are connected between the placing block (402) and the upper parts of the supporting sliding rods (401), and the first springs (403) are sleeved on the supporting sliding rods (401);

the rotating block (404) is rotatably connected to one side of the placing block (402);

the torsion springs (405) are symmetrically connected between the rotating block (404) and the placing block (402);

the connecting rod (406) is connected between the lower parts of the placing blocks (402), and the connecting rod (406) is matched with the push rod (307).

4. A highway barrier fence mounting device as claimed in claim 3 wherein: still including locking Assembly (5), locking Assembly (5) including:

one side of the upper part of each support rod (303) is connected with a first support block (501);

the upper part of one side of the first clamping block (502) of the first supporting block (501) is connected with the first clamping block (502) in a sliding manner;

the second springs (503) are connected between the first fixture blocks (502) and the first supporting blocks (501), and the second springs (503) are sleeved on the first fixture blocks (502);

the special-shaped frame (505) is connected between one sides of the first clamping blocks (502);

the stop block (504) is connected to one side of the middle part of the special-shaped frame (505), and the stop block (504) is matched with the push rod (307).

5. A highway isolation barrier installation device as claimed in claim 4 wherein: still including transportation subassembly (6), transportation subassembly (6) including:

the supporting groove rods (601) are connected between the upper parts of the supporting sliding rods (401);

the inner parts of two sides of the support groove rod (601) are connected with the first sliding groove blocks (602) in a sliding manner;

the third spring (603) is connected between one side of the first sliding groove block (602) and the supporting groove rod (601);

the first guide rod (604) is connected between two sides of the interior of the first sliding groove block (602);

the first guide rod (604) is connected with a first sliding groove block (606) in a sliding manner;

the fourth spring (605) is connected between the outer side of the upper part of the second sliding groove block (606) and the first sliding groove block (602), and the fourth spring (605) is sleeved on the first guide rod (604);

the clamping blocks (607) are connected with the inner parts of the lower sides of the second sliding groove blocks (606) in a sliding manner;

and a fifth spring (608) is connected between the outer side of the clamping block (607) and the second sliding groove block (606).

6. A highway isolation barrier installation device as claimed in claim 5, wherein: still including chucking subassembly (7), chucking subassembly (7) including:

a second supporting block (701) is symmetrically connected to one side of the upper part of the supporting groove rod (601);

the outer sides of the upper parts of the second supporting blocks (701) are both connected with a second clamping block (702) in a sliding mode, and the second clamping block (702) is matched with the first sliding groove block (602) mutually;

the sixth spring (703) is connected between the second clamping block (702) and the second supporting block (701), and the sixth spring (703) is sleeved on the second clamping block (702);

the lower part of one side of the second clamping block (702) is connected with the first wedge-shaped rod (704);

the guide block (705) is symmetrically connected to the outer side of one part of the support groove rod (601);

the guide block (705) is internally and slidably connected with a first sliding rod (706), the first sliding rod (706) is in sliding fit with the first sliding groove block (602), and the first sliding rod (706), the second sliding groove block (606) and the first wedge rod (704) are mutually matched.

7. A highway barrier fence mounting device as recited in claim 6 wherein: still including separator assembly (8), separator assembly (8) including:

the second guide rods (801) are connected to one side of the upper part of the support sliding rod (401) in a sliding mode;

the ejector rod (803) is connected between the upper sides of the second guide rods (801), and the ejector rod (803) is matched with the connecting rod (406);

seventh springs (802) are connected between the lower parts of the second guide rods (801) and the top rods (803), and the seventh springs (802) are sleeved on the second guide rods (801);

the supporting groove blocks (804) are symmetrically connected to one side of the supporting groove rod (601);

the inner parts of the supporting groove blocks (804) are all connected with movable wedge-shaped rods (805) in a sliding manner, and the lower parts of the inner sides of the movable wedge-shaped rods (805) are connected with the top rods (803);

the eighth spring (806) is connected between the upper part of the inner side of the movable wedge-shaped rod (805) and the supporting groove block (804);

the two sides of the middle part of the second sliding groove block (606) are both connected with second sliding rods (807), and the second sliding rods (807) on one side are matched with the movable wedge-shaped rods (805);

and one side of the lower part of the outer side of the supporting groove rod (601) is connected with a fixed wedge rod (808), and a second sliding rod (807) at one side is matched with the fixed wedge rod (808).

8. A highway barrier fence mounting device as recited in claim 7 wherein: still including pulling subassembly (9), pulling subassembly (9) including:

one side of the lower part of the support sliding rod (401) is connected with a third guide rod (901);

the connecting groove rods (903) are connected between the third guide rods (901) in a sliding mode, and the connecting groove rods (903) are matched with the connecting rods (406);

ninth springs (902) are connected between the connecting groove rod (903) and the lower part of the third guide rod (901), and the ninth springs (902) are sleeved on the third guide rod (901);

two sides of one part of the connecting groove rod (903) are both connected with the ratchet bar (904) in a sliding way;

a tenth spring (905), wherein seven tenth springs (905) are uniformly connected between one side of the ratchet bar (904) and the connecting groove rod (903) at intervals;

the outer sides of the upper parts of the support rods (303) are connected with third support blocks (906);

the outer side of the lower part of the third supporting block (906) is rotatably connected with the ratchet gear (907), and the ratchet gear (907) is meshed with the ratchet bar (904);

the outer sides of the transmission shafts of the ratchet gears (907) are connected with the reels (908);

the pulley (909) is connected with one side of the supporting groove rod (601) in a symmetrical and rotating way;

the pulling ropes (910) are connected between the inner side of one part of the first sliding groove block (602) and the reel (908) on the same side, and the pulling ropes (910) are wound around the pulleys (909).