CN222025469U - Vibration type strickling device for concrete slope - Google Patents

Abstract

The utility model discloses a concrete slope vibrating type scraping device, which belongs to the technical field of civil engineering and comprises a movable frame, rollers, a support frame A, a sliding groove A, an adjusting frame, a telescopic rod, a support frame B and a scraping frame A, wherein the rollers are rotatably arranged at four corners below the movable frame through bearings, the support frame A is fixedly arranged above the movable frame, the sliding groove A is embedded in the side of the support frame A, the adjusting frame is arranged in the sliding groove A in a sliding manner, and the telescopic rod is relatively fixedly arranged in the front and rear of the inner wall of the adjusting frame. According to the utility model, a worker pushes the movable frame to move on the ground through the roller wheels, the rapidly vibrating scraping frame B and the rapidly vibrating scraping frame A are driven to move above the slope surface filled with concrete, redundant concrete is pushed away through the front and rear inclined surfaces of the scraping frame B and the scraping frame A, the concrete slope surface is scraped, the worker can conveniently and freely adjust the extending length of the scraping frame B, and the effect of scraping the concrete slope surfaces with various specifications is achieved.

Description

Vibration type strickling device for concrete slope

Technical Field

The utility model belongs to the technical field of civil engineering, and particularly relates to a concrete slope vibrating type strickling device.

Background

The civil engineering is to design an economical and reasonable construction scheme according to functional requirements, environmental conditions, service life and other factors of engineering facilities by appointing to build and maintain various buildings and structures including roads, railways, tunnels, bridges, canals, dams, power stations and the like, and to perform construction pouring treatment on the structures by utilizing various construction equipment according to the design requirements.

According to the searching, the application number is CN202022541846.X, and the post-pouring concrete scraping device is provided with a lifting bracket, and the height of the scraping plate is adjusted by utilizing the cooperation between a cross lifting groove and a cross sliding block, so that the application range of the scraping plate is enlarged, and the scraping precision is greatly improved; the disadvantages are as follows:

When the worker uses the concrete screeding device after pouring, when screeding the concrete road surface, utilize the cooperation of T shape slot and cutting, realize the slip grafting installation between scraper blade and the crossbeam, utilize set screw to realize the fixed mounting of scraper blade on the crossbeam, the cross slider slides and pegs graft in the inner chamber of cross lift groove, thereby realize that both ends slidable mounting is in the inner chamber of cross lift groove about the crossbeam, reach the purpose of adjusting the scraper blade height, and because the scraper blade itself can not free adjustment length, but need the frequent screwing of staff to move the locking bolt and carry out the dismouting to the scraper blade and just can adjust the length of scraper blade, the mode that makes frequent screwing of locking bolt change the scraper blade can waste too much time, when causing the influence to the construction progress, the regulation of scraper blade also shows inconveniently slightly.

Disclosure of utility model

The utility model aims at: in order to solve the problem that the scraping plate of the concrete scraping device cannot freely adjust the length after pouring, the vibration type concrete slope scraping device is provided.

The technical scheme adopted by the utility model is as follows: the utility model provides a concrete slope vibrating type strickle device, includes removes frame, gyro wheel, support frame A, spout A, alignment jig, telescopic link, support frame B and strickle frame A, remove frame below four corners and be provided with the gyro wheel through the bearing rotation, remove frame top fixed mounting and have support frame A, support frame A side embedding is provided with spout A, the inside side slip of spout A is provided with the alignment jig, the relative fixed mounting in alignment jig inner wall front and back has the telescopic link, and the telescopic link outside is provided with the spring in a supporting way, fixed mounting has support frame B between the telescopic link tip, support frame B below is provided with strickle frame A through the pivot rotation, strickle frame A inboard is provided with the strickle length adjustment mechanism that can strickle the concrete slope of multiple specification, support frame B side is provided with the angle modulation strickle mechanism that can freely adjust strickle frame A angle, the alignment jig side is provided with the height adjustment mechanism that can strickle the concrete of multiple height position.

The utility model provides a flat length adjustment mechanism, including flat frame B, limit draw-in groove A, spacing fixture block, servo motor and eccentric wheel, flat frame A inside side slip is provided with and scrapes flat frame B, and scrapes flat frame B and the front and back of flat frame A and all be the relative slope form setting, the embedding of the front and back of flat frame B top is provided with limit draw-in groove A, limit draw-in groove A has a plurality of, and is arc form equidistance and sets up side by side, the front and back of flat frame A side is close to and scrapes flat frame B top and rotate through pivot and torsional spring and be provided with spacing fixture block, and spacing fixture block is the arc form setting, and spacing fixture block fit slip sets up in spacing draw-in groove A inboard, the alignment jig inner wall below is close to support frame B the place ahead fixed mounting servo motor, servo motor has the eccentric wheel through output shaft.

The angle adjusting and leveling mechanism comprises a sliding chute C, an adjusting plate, a damping telescopic rod, a limiting block and a limiting groove, wherein the sliding chute C is embedded in the rear of the leveling frame A near a supporting frame B, the adjusting plate is slidably arranged in the rear of the sliding chute C, the damping telescopic rod is fixedly installed between the front of the adjusting plate and the rear of the inner wall of the sliding chute C, a spring is arranged on the outer side of the damping telescopic rod in a matched mode, the limiting block is fixedly installed around the front of the adjusting plate, the limiting groove is embedded in the rear of the supporting frame B near the front of the adjusting plate, a plurality of limiting grooves are formed, the limiting grooves are arranged in an equidistance encircling mode, and the limiting block is matched with the inner side of the limiting groove in a sliding mode.

The height adjusting mechanism is composed of a limiting clamping groove B, a sliding groove B and a limiting clamping frame, wherein the limiting clamping groove B is embedded in the side of the supporting frame A, close to the front of the sliding groove A, a plurality of limiting clamping grooves B are formed in parallel in an L-shaped equidistant mode, the sliding groove B is embedded in the side of the adjusting frame, the limiting clamping frame is arranged between the sliding groove B and the inner side of the limiting clamping groove B in a sliding mode, and the limiting clamping frame is arranged in an L-shaped mode.

In summary, due to the adoption of the technical scheme, the beneficial effects of the utility model are as follows:

1. this kind of concrete slope vibrating strickle device is through being provided with strickle length adjustment mechanism, can make the staff pass through strickle frame B, spacing draw-in groove A, spacing fixture block, cooperation between servo motor and the eccentric wheel, it is spacing to utilize spacing fixture block freedom in the inboard slip of spacing draw-in groove A, make strickle frame B free in strickle frame A inside side slip carry out length adjustment's mode, make things convenient for the staff to freely adjust strickle frame B length that stretches out, strickle the effect of handling to multiple specification concrete slope.

2. This kind of concrete slope vibrating strickle device is through being provided with angle modulation strickle mechanism, can make the staff pass through spout C, regulating plate, damping telescopic link, stopper and spacing groove between the cooperation, utilize the regulating plate to drive the stopper freedom through damping telescopic link and outside spring and slide spacing mode in a plurality of spacing inslot sides, make things convenient for the staff to freely adjust strickle frame A's angle and strickle effect to multiple slope concrete slope.

3. This kind of concrete slope vibrating strickle device is through being provided with high adjustment mechanism, can make the staff pass through spacing draw-in groove B, spout B and spacing card frame between the cooperation, utilizes spacing card frame freedom to slide spacing mode between spacing draw-in groove B and spout B inboard, makes things convenient for the staff to adjust freely strickle frame A to strickle effect to the concrete slope of multiple high position.

Drawings

FIG. 1 is a schematic diagram showing a front perspective view of a strickle device according to the present utility model;

FIG. 2 is a schematic diagram showing a schematic cross-sectional front view of the screeding device of the present utility model;

FIG. 3 is a schematic diagram showing a sectional side structure of the strickle stand A according to the present utility model;

FIG. 4 is a schematic diagram of the enlarged construction of FIG. 2 at A in accordance with the present utility model;

FIG. 5 is a schematic diagram of the enlarged structure of FIG. 3B in accordance with the present utility model;

FIG. 6 is a schematic diagram of a second enlarged construction of the embodiment A of FIG. 2 according to the present utility model.

The marks in the figure: 1. a moving rack; 101. a roller; 102. a supporting frame A; 103. a chute A; 104. an adjusting frame; 105. a telescopic rod; 106. a support B; 107. a strickling frame A; 108. a strickling frame B; 109. a limit clamping groove A; 2. a limit clamping block; 3. a servo motor; 301. an eccentric wheel; 4. a limit clamping groove B; 5. a chute B; 501. a limit clamping frame; 6. a chute C; 601. an adjusting plate; 602. damping telescopic rod; 603. a limiting block; 604. and a limit groove.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In the utility model, the following components are added:

embodiment one: referring to fig. 1-5, a concrete slope vibrating type screeding device comprises a movable frame 1, a roller 101, a support frame a102, a chute a103, an adjusting frame 104, a telescopic rod 105, a support frame B106 and a screeding frame a107, wherein the roller 101 is rotatably arranged at four corners below the movable frame 1 through bearings, the support frame a102 is fixedly arranged above the movable frame 1, the chute a103 is embedded in the side of the support frame a102, the adjusting frame 104 is slidably arranged at the side inside the chute a103, the telescopic rod 105 is fixedly arranged at the front and back of the inner wall of the adjusting frame 104 relatively, a spring is arranged outside the telescopic rod 105 in a matching manner, the support frame B106 is fixedly arranged between the end parts of the telescopic rod 105, the screeding frame a107 is rotatably arranged below the support frame B106 through a rotating shaft, the screeding length adjusting mechanism capable of screeding concrete slopes of various specifications is arranged at the inner side of the screeding frame a freely adjustable angle of the support frame a 106, and the height adjusting mechanism capable of screeding concrete slopes of various high positions is arranged at the side of the adjusting frame B104.

Referring to fig. 1 to 5, further, the strickling length adjusting mechanism is composed of a strickling frame B108, a limit clamping groove a109, a limit clamping block 2, a servo motor 3 and an eccentric wheel 301;

The side of the interior of the scraping frame A107 is provided with a scraping frame B108 in a sliding manner, the front and rear sides of the scraping frame B108 and the scraping frame A107 are respectively arranged in a relatively inclined manner, a limit clamping groove A109 is embedded in the front and rear sides of the upper part of the scraping frame B108, a plurality of limit clamping grooves A109 are arranged in parallel at equal intervals in an arc shape, a limit clamping block 2 is arranged on the front and rear sides of the side of the scraping frame A107 close to the upper part of the scraping frame B108 through rotation of a rotating shaft and a torsion spring, the limit clamping block 2 is arranged in an arc shape, the limit clamping block 2 is arranged on the inner side of the limit clamping groove A109 in a fitting sliding manner, a servo motor 3 is fixedly arranged on the lower part of the inner wall of the regulating frame 104 close to the front of the supporting frame B106, an eccentric wheel 301 is connected to the servo motor 3 through an output shaft, when workers need to perform the scraping treatment on a slope surface of poured concrete, the movable frame 1 is moved to a construction site through a roller 101 to enable the scraping frame A107 to be contacted with the upper part of the slope surface of the filled concrete and to be parallel, the limiting clamping block 2 is pushed to rotate through the rotating shaft and the torsion spring to slide out of the limiting clamping groove A109, the torsion spring is tightened, the strickling frame B108 is loosened, the staff pushes the strickling frame B108 to slide and spread to a proper length at the inner side of the strickling frame A107, the limiting clamping block 2 is loosened, the torsion spring rebounds to rotate through the rotating shaft, the torsion spring rebounds to slide into the inner side of the opposite limiting clamping groove A109 to limit the strickling frame B108, the staff opens the servo motor 3 to drive the eccentric wheel 301 to rotate fast, the beating support frame B106 continuously stretches and contracts repeatedly through the telescopic rod 105 and the outer side spring, the staff pushes the movable frame 1 to move on the ground through the roller 101 while driving the strickling frame B108 and the strickling frame A107 to vibrate fast and the strickling frame B108 to move above the slope surface filled with concrete, the superfluous concrete is pushed away through the strickling frame B108 and the front and back slope of the strickling frame A107, the concrete slope is scraped, so that staff can conveniently and freely adjust the extending length of the scraping frame B108, and the effect of scraping various specifications of concrete slopes is achieved.

Referring to fig. 3, further, the angle adjusting and strickling mechanism is composed of a chute C6, an adjusting plate 601, a damping telescopic rod 602, a limiting block 603 and a limiting groove 604;

The rear of the scraping frame A107 is close to the rear of the supporting frame B106 and embedded to be provided with a chute C6, an adjusting disc 601 is slidably arranged at the rear inside the chute C6, a damping telescopic rod 602 is fixedly arranged between the front of the adjusting disc 601 and the rear of the inner wall of the chute C6, a spring is arranged on the outer side of the damping telescopic rod 602 in a matching mode, a limiting block 603 is fixedly arranged around the front of the adjusting disc 601, a limiting groove 604 is embedded in the rear of the supporting frame B106 and is close to the front of the adjusting disc 601, a plurality of limiting grooves 604 are formed in an equidistant encircling mode, the limiting block 603 is slidably arranged on the inner side of the limiting groove 604, when a worker moves the movable frame 1 to a construction site through the roller 101 and needs to adjust the angle of the scraping frame A107, the adjusting disc 601 is pushed to drive the damping telescopic rod 602 and the outer side spring to be unfolded, the limiting block 603 is driven to slide out of the limiting groove 604, the scraping frame A107 is pushed to rotate through a bearing to be adjusted to a proper angle, the adjusting disc 601 is loosened, the damping telescopic rod 602 and the outer side spring contracts the limiting block 603 to slide into the inner side of the corresponding limiting groove 604, the limiting frame A107 is fixed, the limiting frame A is fixed, the angle is matched, the slope is adjusted to be the angle A is adjusted, and the slope of the slope is adjusted to be convenient, and the slope can be adjusted to the slope A conveniently.

Referring to fig. 1 to 4, further, the height adjusting mechanism is composed of a limit clamping groove B4, a sliding groove B5 and a limit clamping frame 501;

The side of the supporting frame A102 is provided with a plurality of limit clamping grooves B4 close to the front of the sliding groove A103 in an embedded manner, the limit clamping grooves B4 are equidistantly arranged in parallel in an L shape, the side of the adjusting frame 104 is provided with a sliding groove B5 in an embedded manner, a limit clamping frame 501 is arranged between the sliding groove B5 and the inner side of the limit clamping groove B4 in a sliding manner, the limit clamping frame 501 is arranged in an L shape, when the angle and the length of the leveling frame A107 are adjusted by a worker, the adjusting frame 104 is pushed to slide in the inner side direction of the sliding groove A103 by a small distance upwards, the limit clamping groove B4 and the sliding groove B5 are opposite, the limit clamping frame 501 is pushed to slide out of the limit clamping groove B4 and the sliding groove B5 after the inner side of the limit clamping groove B4 is loosened, after the adjusting frame 104 is loosened and the adjusting frame 104 is pushed to slide to a designated height position in the inner side direction of the sliding groove A103 or downwards, and the limiting clamping frame 501 is slid between the opposite limiting clamping groove B4 and the inner side of the sliding groove B5, the adjusting frame 104 is loosened to slide downwards for a small distance in the inner side direction of the sliding groove A103, the limiting clamping frame 501 is extruded to be completely clamped and limited with the limiting clamping groove B4, the leveling frame A107 is driven to be contacted with the surface of the slope of the designated filling concrete, the designated height of the leveling frame A107 is adjusted, and the operator can conveniently and freely adjust the effect of the leveling frame A107 on the leveling treatment of the concrete slopes at various height positions.

Embodiment two:

As shown in fig. 4 and 6, in the utility model, a plurality of limit clamping grooves B4 are embedded and arranged near the front of a chute a103 on the side of a support frame a102, and are equidistantly and parallelly arranged in an 'L' shape, a chute B5 is embedded and arranged on the side of an adjusting frame 104, a limit clamping frame 501 is arranged between the chute B5 and the inner side of the limit clamping groove B4 in a sliding manner, and besides the embodiment that the limit clamping frame 501 is arranged in an 'L' shape, another embodiment exists that a plurality of limit clamping grooves B4 are embedded and arranged near the front of the chute a103 on the side of the support frame a102, and are equidistantly and parallelly arranged in an 'J' shape, a chute B5 is embedded and arranged on the side of the adjusting frame 104, the sliding groove B5 and the inner side of the limiting clamping groove B4 are provided with the limiting clamping frame 501 in a sliding manner, the limiting clamping frame 501 is arranged in a J shape, when a worker pushes the adjusting frame 104 to slide to a designated height position in the inner side direction of the sliding groove A103 or downwards, and after the limiting clamping frame 501 slides into the space between the opposite limiting clamping groove B4 and the inner side of the sliding groove B5, the adjusting frame 104 is loosened to slide downwards for a small distance in the inner side direction of the sliding groove A103, the limiting clamping frame 501 is pushed to be clamped with the limiting clamping groove B4 in a reverse direction, the scraping frame A107 is driven to contact with the slope surface of designated filling concrete, and the designated height of the scraping frame A107 is adjusted.

Working principle: firstly, staff needs to carry out strickling treatment on a slope surface poured with concrete, the movable frame 1 moves to a construction site through the idler wheels 101, the adjusting disk 601 is pushed to drive the damping telescopic rod 602 and the outer spring to be unfolded, the limiting block 603 is driven to slide out of the limiting groove 604 to loosen the strickling frame A107, after the strickling frame A107 is pushed to rotate and adjust to a proper angle through a bearing, the adjusting disk 601 is released to enable the damping telescopic rod 602 and the outer spring shrinkage limiting block 603 to slide into the inner side of the opposite limiting groove 604, after the strickling frame A107 is limited and fixed, the adjustment of a designated angle of the strickling frame A107 is completed, then the limiting clamping block 2 is pushed to rotate and slide out of the limiting clamping groove A109 through the rotating shaft and the torsion spring, the strickling frame B108 is released while the torsion spring is stretched, after the staff pushes the strickling frame B108 to slide and unfold to a proper length in the inner side of the strickling frame A107, the limiting clamping block 2 is released, the torsion spring rebound limiting clamping block 2 is rotated through the rotating, sliding into the inner side of the opposite limit clamping groove A109 to limit the scraping frame B108, finally, a worker pushes the adjusting frame 104 to slide in the inner side direction of the sliding groove A103 by a small distance upwards to enable the limit clamping groove B4 to be opposite to the sliding groove B5, after the inner side of the limit clamping groove B4 is loosened, the limit clamping frame 501 is pushed to slide out of the limit clamping groove B4 and the sliding groove B5, the adjusting frame 104 is loosened and pushed again to slide to a designated height position in the inner side direction of the sliding groove A103 or downwards, after the limit clamping frame 501 is slid between the inner side of the opposite limit clamping groove B4 and the inner side of the sliding groove B5, the adjusting frame 104 is loosened to slide downwards by a small distance in the inner side direction of the sliding groove A103, after the limit clamping frame 501 is completely clamped and limited with the limit clamping groove B4, the scraping frame A107 is driven to contact with the surface of a designated concrete filling slope, and after the designated height of the scraping frame A107 is adjusted, the servo motor 3 is opened to the staff and drives eccentric wheel 301 fast rotation, constantly hits support frame B106 and stretches out and draws back repeatedly through telescopic link 105 and outside spring, drives support frame B106 below and stricks flat frame B108 and strickle frame A107 and shake around fast, and the staff promotes and removes frame 1 and remove on the ground through gyro wheel 101, drives quick vibration strickle frame B108 and strickle frame A107 and removes on the domatic top of filling concrete, pushes away unnecessary concrete through strickle frame B108 and strickle frame A107 front and back inclined plane, strives to smooth the domatic processing of carrying out of concrete.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (7)

1. The utility model provides a concrete slope vibrating type strickle device, includes removes frame (1), gyro wheel (101), support frame A (102), spout A (103), alignment jig (104), telescopic link (105), support frame B (106) and strickle frame A (107), it is provided with gyro wheel (101) to remove frame (1) below four corners through the bearing rotation, remove frame (1) top fixed mounting and have support frame A (102), support frame A (102) side embedding is provided with spout A (103), inside side slip of spout A (103) is provided with alignment jig (104), alignment jig (104) inner wall front and back fixed mounting has telescopic link (105), and the supporting spring that is provided with in telescopic link (105) outside, fixed mounting has support frame B (106) between telescopic link (105) tip, support frame B (106) below is provided with strickle frame A (107) through the pivot rotation, its characterized in that: the utility model discloses a concrete slope leveling device, including support frame B (106), leveling frame A (107), supporting frame B (104), leveling frame A (107) inboard is provided with the length adjustment mechanism that strives for of concrete slope of multiple specification, support frame B (106) side is provided with the angle modulation mechanism that strives for of angle of the free adjustment leveling frame A, adjusting frame (104) side is provided with the height adjustment mechanism that can strives for the concrete slope of multiple altitude mixture position.

2. A concrete slope vibrating screeding device as claimed in claim 1 and wherein: the scraping length adjusting mechanism consists of a scraping frame B (108), a limiting clamping groove A (109), a limiting clamping block (2), a servo motor (3) and an eccentric wheel (301);

A strickle B (108) is arranged in the strickle A (107) in a sliding way, a limit clamping groove A (109) is embedded in the front and the rear of the upper part of the strickle B (108), a limit clamping block (2) is arranged in the front and the rear of the side of the strickle A (107) close to the upper part of the strickle B (108) through a rotating shaft and a torsion spring, and limit clamping block (2) fit sliding arrangement is in limit clamping groove A (109) inboard, the servo motor (3) is close to support frame B (106) the place ahead fixed mounting in adjustment frame (104) inner wall below, servo motor (3) have eccentric wheel (301) through output shaft.

3. A concrete slope vibrating screeding device as claimed in claim 1 and wherein: the angle adjusting and strickling mechanism consists of a chute C (6), an adjusting disc (601), a damping telescopic rod (602), a limiting block (603) and a limiting groove (604);

The utility model discloses a scraper blade, including support frame B (106) and support frame B (106), scrape flat frame A (107) rear and be close to support frame B (106) rear embedding and be provided with spout C (6), inside rear slip of spout C (6) is provided with regulating plate (601), and fixed mounting has damping telescopic link (602) between regulating plate (601) the place ahead and spout C (6) inner wall rear, and damping telescopic link (602) outside is supporting to be provided with the spring, fixed mounting has stopper (603) all around in regulating plate (601) the place ahead, support frame B (106) rear is close to regulating plate (601) the place ahead embedding and is provided with spacing groove (604), and stopper (603) agree with the slip and set up in spacing groove (604) inboard.

4. A concrete slope vibrating screeding device as claimed in claim 1 and wherein: the height adjusting mechanism consists of a limiting clamping groove B (4), a sliding groove B (5) and a limiting clamping frame (501);

The adjustable support is characterized in that a limit clamping groove B (4) is embedded in the side of the support frame A (102) close to the front of the chute A (103), a chute B (5) is embedded in the side of the adjusting frame (104), and a limit clamping frame (501) is arranged between the chute B (5) and the inner side of the limit clamping groove B (4) in a sliding mode.

5. A concrete slope vibrating screeding device as claimed in claim 2 and wherein: the utility model discloses a scraper blade, including scraper blade B (108) and scraper blade A (107), scraper blade B (108) and scraper blade A (107) the place ahead and behind are the relative slope form setting, spacing draw-in groove A (109) have a plurality of, and are arc form equidistance side by side, spacing fixture block (2) are the arc form setting.

6. A concrete slope vibrating screeding device as claimed in claim 3 and wherein: the limiting grooves (604) are arranged in a plurality of equidistant surrounding mode.

7. A concrete slope vibrating screed apparatus according to claim 4, wherein: the limiting clamping grooves B (4) are arranged in a plurality of L-shaped equidistant parallel manner, and the limiting clamping frames (501) are arranged in an L-shaped manner.