CN112428388B

CN112428388B - Automatic vibrating equipment for concrete in building angle plate combined die

Info

Publication number: CN112428388B
Application number: CN202011326159.4A
Authority: CN
Inventors: 郭卫; 洪文彬
Original assignee: Jiangxi Huaan Construction Group Co ltd
Current assignee: Jiangxi Huaan Construction Group Co ltd
Priority date: 2020-11-24
Filing date: 2020-11-24
Publication date: 2022-05-06
Anticipated expiration: 2040-11-24
Also published as: CN112428388A

Abstract

The invention discloses automatic vibrating equipment for concrete in a building angle plate combined die, which comprises a vibrating table, wherein chamfers at the lower end of the vibrating table are fixedly connected with supporting legs, a first cavity is formed in the vibrating table, a vibrating lug is fixedly arranged in the first cavity, and a vibrating mechanism is movably connected in the first cavity; the fixing mechanism can be used for placing and fixing the combined die body, the transmission mechanism drives the vibrating mechanism to move, the first idler wheel is in contact with the vibrating lug in the moving process, the first idler wheel is enabled to move up and down through the arrangement of the vibrating lug, the first idler wheel is enabled to rebound rapidly through the limiting assembly, the vibrating effect is achieved, vibration is transmitted to the fixing mechanism through the upright post, and therefore the combined die body movably connected inside the fixing mechanism vibrates, the vibrating work of concrete inside the die is facilitated, the die vibrating work is facilitated, and the quick mass production can be achieved.

Description

Automatic vibrating equipment for concrete in building angle plate combined die

Technical Field

The invention relates to the field of prefabricated buildings, in particular to automatic vibrating equipment for concrete in a building angle plate combined die.

Background

Concrete vibrator machines, which utilize the vibratory action of machine parts to tamp concrete, include insertion-type, attachment-type, flat-plate-type, and vibrating tables for vibrating prefabricated concrete parts, and are widely used in construction sites and concrete product factories, such as: in the construction of country roads, when concrete components are poured by the concrete mixer, air bubbles in the concrete components must be removed and tamped to combine the concrete closely and eliminate the phenomena of cellular pitted surface and the like of the concrete so as to improve the strength of the concrete components and ensure the quality of the concrete components.

However, the existing vibrating equipment is usually used when the building angle plate in the prior art is produced, but the thickness of the building angle plate is not large, so that the vibrating work of the building angle plate is very inconvenient, and the yield of the building angle plate is low due to the fact that the existing vibrating equipment is inconvenient to use.

Disclosure of Invention

1. Technical problem to be solved

Aiming at the problems in the prior art, the invention aims to provide automatic vibrating equipment for concrete in a building angle plate combined die, the scheme can place and fix a combined die body through a fixing mechanism, the position of a vibrating mechanism can be stabilized through a positioning assembly, the vibrating mechanism is driven to move through a transmission mechanism, so that a first roller wheel moves in a first cavity, the first roller wheel is contacted with a vibrating lug in the moving process, the first roller wheel moves up and down through the arrangement of the vibrating lug, the first roller wheel is rapidly rebounded through a limiting assembly, the vibrating effect is achieved, the vibration is transmitted to the fixing mechanism through a stand column, so that the combined die body movably connected in the fixing mechanism vibrates, the vibrating work of the concrete in the die is facilitated, and the automatic vibrating equipment not only facilitates the vibrating work of the die, and can be produced quickly and in batch.

2. Technical scheme

In order to solve the above problems, the present invention adopts the following technical solutions.

The automatic vibrating equipment for concrete in the building angle plate combined die comprises a vibrating table, wherein supporting legs are fixedly connected to chamfers at the lower end of the vibrating table, a first cavity is formed in the vibrating table, a vibrating lug is fixedly mounted in the first cavity, a vibrating mechanism is movably connected to the interior of the first cavity, a fixing mechanism is connected to an upper end fixing rod of the vibrating mechanism, a combined die body is movably connected to the interior of the fixing mechanism, and a transmission mechanism is fixedly mounted at the lower end of the vibrating table;

the vibrating mechanism comprises a first roller, an upright post, a limiting assembly and a positioning assembly, the first roller is rotatably connected inside the first cavity, the upright post is fixedly installed at the upper end of the first roller, the upper end of the upright post penetrates through the vibrating table, the limiting assembly is fixedly installed at the lower end of the outer wall of the upright post, and the positioning assembly is fixedly installed at the upper end of the outer wall of the upright post;

drive mechanism is including fixed case, three-phase motor, first gear, bull stick, second gear, drive belt, first receipts line subassembly and second receipts line subassembly, fixed case fixed mounting is at the lower extreme of platform of vibrating, three-phase motor fixed mounting is in the inside of fixed case, first gear fixed mounting is at the output of three-phase motor, the bull stick rotates the inner wall of connecting at fixed case, second gear fixed mounting is at the outer wall of bull stick, the outer wall at first gear and second gear is connected in the drive belt transmission, first receipts line subassembly and the equal fixed mounting of second receipts line subassembly are at the outer wall of bull stick, first receipts line subassembly and second receive line subassembly respectively with locating component fixed connection.

Further, fixed establishment includes brace table, guardrail and fixed subassembly, brace table fixed mounting is in the upper end of stand, guardrail fixed mounting is in the upper end of brace table, fixed subassembly fixed mounting is in the lateral wall of brace table.

Further, fixed subassembly includes second recess, second spring, connecting rod, montant and horizontal pole, the lateral wall at a supporting bench is seted up to the second recess, second spring fixed mounting is in the inside of second recess, connecting rod fixed connection is in the one end of second spring, montant fixed connection is in the upper end of connecting rod, horizontal pole fixed connection is in the upper end of montant lateral wall, the outer wall of montant and horizontal pole all is connected with this body laminating of assembling die.

Further, spacing subassembly includes fixed block, universal pearl, first recess, first spring and second gyro wheel, fixed block fixed mounting is at the lower extreme of stand outer wall, universal pearl inlays the one end at the fixed block, universal pearl is connected with the inner wall laminating of first cavity, the upper end at the fixed block is seted up to first recess, first spring fixed mounting is in the inside of first recess, second gyro wheel fixed mounting is in the upper end of first spring.

Further, locating component includes support, telescopic link, third gyro wheel and second cavity, support fixed mounting is in the upper end of stand outer wall, telescopic link fixed mounting is at the lower extreme of support, the inside at the platform of vibrating is seted up to the second cavity, the lower extreme of telescopic link runs through the inside that the platform of vibrating stretched into the second cavity, third gyro wheel fixed mounting is at the lower extreme of telescopic link.

Furthermore, first receipts line subassembly includes first take-up pulley, first wire rope, first guide pulley, third cavity and first positioning wheel, first take-up pulley fixed mounting is in the one end of bull stick outer wall, first wire rope winds the outer wall at first take-up pulley, the inside at the platform of vibrating is seted up to the third cavity, first guide pulley fixed mounting is in the inside of third cavity, first positioning wheel fixed mounting is in the upper end left side of the platform of vibrating, the inside and the first guide pulley solderless wrapped connection that the fixed case stretched into the third cavity are run through to first wire rope's one end, first wire rope's one end runs through third cavity and first positioning wheel solderless wrapped connection through the first guide pulley of solderless wrapped connection, first positioning wheel and the left side wall fixed connection of support are passed through to first wire rope's one end.

Furthermore, the second wire winding assembly comprises a second wire winding wheel, a second steel wire rope, a second guide wheel, a fourth cavity and a second positioning wheel, the second wire winding wheel is fixedly installed at the other end of the outer wall of the rotating rod, the second steel wire rope is wound on the outer wall of the second wire winding wheel, the fourth cavity is arranged inside the vibrating table, the second guide wheel is fixedly installed inside the fourth cavity, the second positioning wheel is fixedly installed on the right side of the upper end of the vibrating table, one end of the second steel wire rope penetrates through the fixing box and stretches into the inside of the fourth cavity and is wound on the second guide wheel, one end of the second steel wire rope penetrates through the fourth cavity and is wound on the second positioning wheel through the winding second guide wheel, and one end of the first steel wire rope is fixedly connected with the right side wall of the support through the winding second positioning wheel.

3. Advantageous effects

Compared with the prior art, the invention has the advantages that:

(1) according to the scheme, the combined die body can be placed and fixed through the fixing mechanism, the position of the vibration mechanism can be stabilized through the positioning assembly, the transmission mechanism drives the vibration mechanism to move, the first idler wheel moves in the first cavity, the first idler wheel is in contact with the vibration lug in the moving process, the first idler wheel can move up and down through the arrangement of the vibration lug, the first idler wheel can rebound rapidly through the limiting assembly, the vibration effect is achieved, the vibration is transmitted to the fixing mechanism through the stand column, the combined die body movably connected in the fixing mechanism vibrates, and accordingly the vibration work of concrete in the die is facilitated, the die is convenient to vibrate, and the quick and mass production can be realized.

(2) The first spring in the limiting assembly can play a role in rebounding and vibrating, when the first roller moves to the position above the vibrating lug, the first spring is contracted by the rising of the first roller, and when the first rolling path moves out of the upper part of the vibration lug, the first spring rapidly rebounds, thereby leading the first roller wheel to vibrate rapidly, and avoiding the friction between the first spring and the fixed block and the inside of the first cavity through the arrangement of the second roller wheel and the universal ball, thereby affecting the service life of the limiting component, stabilizing the position of the upright post through the positioning component, avoiding the inclination of the upright post, sliding in the second cavity through the third roller, so that the bracket can move along with the upright post, when the upright post rapidly vibrates upwards or downwards, the lower end of the bracket is fixedly connected with the telescopic rod, so that the bracket and the upright post move simultaneously, and the third roller is prevented from being pulled out of the inside of the second cavity.

(3) This scheme fixed establishment can place the assembling die body through a supporting bench, can restrict the both ends position of assembling die body through the guardrail, can fix the other both ends of assembling die body through locating component, thereby fix the assembling die body in a supporting bench's upper end, drive montant and horizontal pole through the pulling connecting rod and remove, thereby with assembling die body joint between montant and horizontal pole, and through the pulling force of second spring, make the connecting rod to the inside removal of second recess, thereby make the montant, the laminating of horizontal pole and assembling die body is inseparabler, thereby it is fixed with the assembling die body.

(4) This scheme drive mechanism drives first receipts line subassembly and second and receives the line subassembly and can make the upper end round trip movement of vibration mechanism at the platform that vibrates, through the positive and negative function of three-phase machine, make first gear can drive the second gear through the drive belt and carry out positive and negative rotation, thereby drive first take-up pulley and second take-up pulley through the bull stick and carry out positive and negative rotation, when three-phase machine corotation, make first take-up pulley when drawing a bunch first wire rope, second wire rope can be loosened to the second take-up pulley, otherwise second wire rope is drawn a bunch to the second take-up pulley, first wire rope is decontroled to first take-up pulley, thereby drive vibration mechanism through first wire rope and second wire rope and make a round trip movement in the upper end of platform that vibrates.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a front view of the present invention;

FIG. 3 is a right side view of the present invention;

FIG. 4 is an enlarged view of portion A of the present invention;

FIG. 5 is a schematic structural view of a spacing assembly of the present invention;

FIG. 6 is a schematic view of the fixing mechanism of the present invention;

FIG. 7 is an enlarged view of the portion B of the present invention.

The reference numbers in the figures illustrate:

1. a vibrating table; 2. a support leg; 3. a first cavity; 4. vibrating the bump; 5. a vibration mechanism; 51. a first roller; 52. a column; 53. a limiting component; 531. a fixed block; 532. a universal bead; 533. a first groove; 534. a first spring; 535. a second roller; 54. a positioning assembly; 541. a support; 542. a telescopic rod; 543. a third roller; 544. a second cavity; 6. a fixing mechanism; 61. a support table; 62. a guardrail; 63. a fixing assembly; 631. a second groove; 632. a second spring; 633. a connecting rod; 634. a vertical rod; 635. a cross bar; 7. a combined die body; 8. a transmission mechanism; 81. a fixed box; 82. a three-phase motor; 83. a first gear; 84. a rotating rod; 85. a second gear; 86. a transmission belt; 87. a first wire take-up assembly; 871. a first take-up pulley; 872. a first wire rope; 873. a first guide wheel; 874. a third cavity; 875. a first positioning wheel; 88. a second wire take-up assembly; 881. a second take-up pulley; 882. a second wire rope; 883. a second guide wheel; 884. a fourth cavity; 885. and a second positioning wheel.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention; it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and all other embodiments obtained by those skilled in the art without any inventive work are within the scope of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "top/bottom", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" 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 should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "sleeved/connected," "connected," and the like are to be construed broadly, e.g., "connected," which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example (b):

referring to fig. 1-7, an automatic vibrating device for concrete in a building corner plate combined die comprises a vibrating table 1, wherein supporting legs 2 are fixedly connected to chamfers at the lower end of the vibrating table 1, a first cavity 3 is formed in the vibrating table 1, a vibrating bump 4 is fixedly mounted in the first cavity 3, a vibrating mechanism 5 is movably connected in the first cavity 3, a fixing rod at the upper end of the vibrating mechanism 5 is connected with a fixing mechanism 6, a combined die body 7 is movably connected in the fixing mechanism 6, and a transmission mechanism 8 is fixedly mounted at the lower end of the vibrating table 1;

the vibrating mechanism 5 comprises a first roller 51, an upright column 52, a limiting component 53 and a positioning component 54, the first roller 51 is rotatably connected inside the first cavity 3, the upright column 52 is fixedly arranged at the upper end of the first roller 51, the upper end of the upright column 52 penetrates through the vibrating table 1, the limiting component 53 is fixedly arranged at the lower end of the outer wall of the upright column 52, and the positioning component 54 is fixedly arranged at the upper end of the outer wall of the upright column 52;

the transmission mechanism 8 comprises a fixed box 81, a three-phase motor 82, a first gear 83, a rotating rod 84, a second gear 85, a transmission belt 86, a first wire collecting assembly 87 and a second wire collecting assembly 88, wherein the fixed box 81 is fixedly arranged at the lower end of the vibrating table 1, the three-phase motor 82 is fixedly arranged in the fixed box 81, the first gear 83 is fixedly arranged at the output end of the three-phase motor 82, the rotating rod 84 is rotatably connected to the inner wall of the fixed box 81, the second gear 85 is fixedly arranged on the outer wall of the rotating rod 84, the transmission belt 86 is in transmission connection with the outer walls of the first gear 83 and the second gear 85, the first wire collecting assembly 87 and the second wire collecting assembly 88 are fixedly arranged on the outer wall of the rotating rod 84, and the first wire collecting assembly 87 and the second wire collecting assembly 88 are respectively and fixedly connected with the positioning assembly 54; the combined mold body 7 can be placed and fixed through the fixing mechanism 6, the position of the vibrating mechanism 5 can be stabilized through the positioning assembly 54, the vibrating mechanism 5 is driven to move through the transmission mechanism 8, the first idler wheel 51 is enabled to move inside the first cavity 3, the first idler wheel 51 is in contact with the vibrating lug 4 in the moving process, through the arrangement of the vibrating lug 4, the first idler wheel 51 is enabled to move up and down, the first idler wheel 51 is enabled to rebound rapidly through the limiting assembly 53, the vibrating effect is achieved, vibration is transmitted to the fixing mechanism 6 through the upright post 52, and the combined mold body 7 movably connected inside the fixing mechanism 6 is enabled to vibrate, so that the vibrating work of concrete inside the mold is facilitated, the combined mold disclosed by the invention is not only convenient for the vibrating work of the mold, but also can be produced rapidly and in batch.

Referring to fig. 6, the fixing mechanism 6 includes a supporting platform 61, a guardrail 62 and a fixing assembly 63, the supporting platform 61 is fixedly mounted at the upper end of the upright column 52, the guardrail 62 is fixedly mounted at the upper end of the supporting platform 61, the fixing assembly 63 is fixedly mounted on the side wall of the supporting platform 61, the fixing assembly 63 includes a second groove 631, a second spring 632, a connecting rod 633, a vertical rod 634 and a cross rod 635, the second groove 631 is formed in the side wall of the supporting platform 61, the second spring 632 is fixedly mounted inside the second groove 631, the connecting rod 633 is fixedly connected to one end of the second spring 632, the vertical rod 634 is fixedly connected to the upper end of the connecting rod 633, the cross rod 635 is fixedly connected to the upper end of the side wall of the vertical rod 634, and the outer walls of the vertical rod 634 and the cross rod 635 are both attached to the assembling die body 7; fixing mechanism 6 can place assembling die body 7 through supporting bench 61, can restrict assembling die body 7's both ends position through guardrail 62, can fix assembling die body 7's other both ends through locating component 54, thereby fix assembling die body 7 in supporting bench 61's upper end, drive montant 634 and horizontal pole 635 through pulling connecting rod 633 and remove, thereby with 7 joints of assembling die body between montant 634 and horizontal pole 635, and through second spring 632's pulling force, make connecting rod 633 to the inside removal of second recess 631, thereby make montant 634, horizontal pole 635 is inseparabler with assembling die body 7's laminating, thereby it is fixed with assembling die body 7.

Referring to fig. 5, the limiting assembly 53 includes a fixing block 531, a universal ball 532, a first groove 533, a first spring 534 and a second roller 535, the fixing block 531 is fixedly installed at the lower end of the outer wall of the upright column 52, the universal ball 532 is embedded at one end of the fixing block 531, the universal ball 532 is attached to the inner wall of the first cavity 3, the first groove 533 is opened at the upper end of the fixing block 531, the first spring 534 is fixedly installed inside the first groove 533, and the second roller 535 is fixedly installed at the upper end of the first spring 534; first spring 534 in spacing subassembly 53 can play the effect of resilience vibration, when first gyro wheel 51 removed the top of vibration lug 4, through the rise of first gyro wheel 51, make first spring 534 shrink, when first track moved out the top of vibration lug 4, first spring 534 kick-backs rapidly, thereby make first gyro wheel 51 vibrate fast, through the setting of second gyro wheel 535 and universal pearl 532, can avoid first spring 534 and fixed block 531 and the inside production friction of first cavity 3, thereby influence the life of spacing subassembly 53.

Referring to fig. 1 to 3, the positioning assembly 54 includes a bracket 541, a telescopic rod 542, a third roller 543, and a second cavity 544, the telescopic rod 542 includes a movable rod and a sleeve, one end of the movable rod is located inside the sleeve, and the size of the movable rod inside the sleeve is changed continuously by pulling the movable rod, so as to achieve expansion and contraction. The bracket 541 is fixedly installed at the upper end of the outer wall of the upright column 52, the telescopic rod 542 is fixedly installed at the lower end of the bracket 541, the second cavity 544 is arranged inside the vibrating table 1, the lower end of the telescopic rod 542 penetrates through the vibrating table 1 and extends into the second cavity 544, and the third roller 543 is fixedly installed at the lower end of the telescopic rod 542; the position of the upright 52 can be stabilized by the positioning component 54, the upright 52 is prevented from tilting, and the third roller 543 slides in the second cavity 544, so that the bracket 541 can move along with the upright 52, when the upright 52 vibrates upwards or downwards rapidly, the telescopic rod 542 is fixedly connected to the lower end of the bracket 541, so that the bracket 541 and the upright 52 move simultaneously, and the third roller 543 is prevented from being pulled out of the second cavity 544.

Referring to fig. 2 to 7, the first wire rewinding assembly 87 includes a first wire rewinding wheel 871, a first wire rope 872, a first guide wheel 873, a third cavity 874 and a first positioning wheel 875, the first wire rewinding wheel 871 is fixedly installed at one end of an outer wall of the rotating rod 84, the first wire rope 872 is wound around the outer wall of the first wire rewinding wheel 871, the third cavity 874 is installed inside the vibrating platform 1, the first guide wheel 873 is fixedly installed inside the third cavity 874, the first positioning wheel 875 is fixedly installed at the left side of the upper end of the vibrating platform 1, one end of the first wire rope 872 penetrates through the fixing box 81 and extends into the inside of the third cavity 874 to be wound around the first guide wheel 873, one end of the first wire rope 872 is wound around the first positioning wheel 875 by winding the first guide wheel 873, one end of the first wire rope 872 is fixedly connected to a left side wall of the bracket 541 by winding the first positioning wheel 875, the second wire take-up assembly 88 comprises a second wire take-up wheel 881, a second wire rope 882, a second guide wheel 883, a fourth cavity 884 and a second positioning wheel 885, the second take-up pulley 881 is fixedly installed at the other end of the outer wall of the rotating rod 84, the second wire rope 882 is wound on the outer wall of the second take-up pulley 881, the fourth cavity 884 is arranged inside the vibrating table 1, the second guide wheel 883 is fixedly arranged inside the fourth cavity 884, the second positioning wheel 885 is fixedly arranged at the right side of the upper end of the vibrating table 1, one end of the second wire rope 882 penetrates through the fixed box 81 and extends into the fourth cavity 884 to be wound and connected with the second guide wheel 883, one end of the second wire rope 882 passes through the fourth cavity 884 by being wound around the second guide wheel 883 and is wound around the second positioning wheel 885, one end of the first wire rope 872 is fixedly connected with the right side wall of the bracket 541 through a second positioning wheel 885 in a winding way; drive mechanism 8 drives first receipts line subassembly 87 and second receipts line subassembly 88 can make vibrating mechanism 5 round trip movement in the upper end of platform 1 that vibrates, through the positive and negative function of three-phase motor 82, make first gear 83 can drive second gear 85 through drive belt 86 and carry out positive and negative rotation, thereby drive first take-up pulley 871 and second take-up pulley 881 through bull stick 84 and carry out positive and negative rotation, when three-phase motor 82 corotation, make first take-up pulley 871 when drawing a bundle first wire rope 872, second wire rope 882 can be loosened to second take-up pulley 881, otherwise second wire rope 882 is drawn a bundle to second take-up pulley 881, first wire rope 872 is puted off to first take-up pulley 871, thereby drive vibrating mechanism 5 round trip movement in the upper end of platform 1 through first wire rope 872 and second wire rope 882.

The supporting legs 2 can support the vibrating table 1, the position of the combined die body 7 can be fixed through the fixing mechanism, the combined die body 7 is placed at the upper end of the supporting table 61, the positions of two ends of the combined die body 7 can be stabilized through the guardrails 62, the positions of the other two ends of the combined die body 7 can be fixed through the fixing assembly 63, the vertical rods 634 are pulled, the connecting rods 633 move in the second grooves 631, the connecting rods 633 drive one ends of the second springs 632 to move, then the vertical rods 634 are loosened, the second springs 632 are contracted, the vertical rods 634 and the cross rods 635 are attached to the combined die body 7, the combined die body 7 is fixed at the upper end of the supporting table 61, the vibrating mechanism 5 can transmit vibration to the fixing mechanism 6, and accordingly concrete obtained in the combined die body 7 is vibrated, the first wire rope 872 is wound on the outer wall of the first wire winding wheel 871 clockwise, the second wire rope 882 is wound on the outer wall of the second wire winding wheel 881 counterclockwise, so that the transmission mechanism 8 enables the vibration mechanism 5 to move back and forth at the upper end of the vibration table 1 through the first wire winding assembly 87 and the second wire winding assembly 88, the three-phase motor 82 fixedly installed inside the fixed box 81 rotates forward, the first gear 83 can drive the second gear 85 to rotate through the transmission belt 86, the rotating rod 84 is driven to rotate through the rotation of the second gear 85, so that the first wire winding wheel 871 collects the first wire rope 872, the second wire rope 881 is loosened by the second wire winding wheel 881, one end of the first wire rope 872 is guided to penetrate through the third cavity 874 through the first guide wheel 873, the bracket 541 can be pulled by winding the first positioning wheel 875, so that the vibration mechanism 5 moves, and the first wire rope 872 is pulled, the first roller 51 is moved in the first cavity 3, when the first roller 51 moves to the upper end of the vibration bump 4, the first roller 51 is rapidly moved upwards, the first spring 534 fixedly installed in the first groove 533 is contracted by the upward movement of the first roller 51, when the first roller 51 leaves the upper end of the vibration bump 4, the first roller 51 is rapidly moved downwards by the elastic force of the first spring 534, so that the first roller 51 generates vibration, the vibration of the first roller 51 is transmitted to the fixing mechanism 6 through the upright post 52, so that the vibration work is performed on the concrete in the assembly mold body 7, the position of the first roller 51 can be limited and stabilized by the limiting component 53, the transverse position of the first roller 51 can be stabilized by the fixing block 531, and the friction between the fixing block 531 and the inner wall of the first cavity 3 can be avoided by the universal bead 532 embedded at one end of the fixing block 531, the second roller 535 fixedly arranged at the upper end of the first spring 534 can prevent the first spring 534 from generating friction with the inner wall of the first cavity 3, the service life is influenced, the position of the upright 52 can be stabilized through the positioning component 54, the inclination of the upright 52 is avoided, the position of the bracket 541 can be fixed through the telescopic rod 542 fixedly connected with the lower end of the bracket 541, the inclination of the upright 52 is avoided, the telescopic rod 542 can move simultaneously with the bracket 541 through the third roller 543 slidably connected with the inner part of the second cavity 544, the bracket 541 can move up and down along with the upright 52 simultaneously when the upright 52 ascends or descends through the telescopic rod 542, when the vibrating strander moves to the left end of the vibrating table 1, the three-phase single machine is stopped, then the three-phase motor 82 rotates reversely, so that the second wire rope 882 is collected by the second wire collecting wheel 881, the second wire 882 is loosened by the first wire collecting wheel 871, second wire rope 882 runs through fourth cavity 884 through round joint second guide pulley 883, second wire rope 882 makes second wire rope 882 can stimulate support 541 through round joint second locating wheel 885, thereby make support 541 move right and vibrate once more, vibrating mechanism 5 return to the normal position after with assembling die body 7 take off can, and is simple in operation, and is convenient, vibrate through the inside concrete of assembling die body 7 fast, thereby promote the production speed of building scute, be favorable to the lifting output.

The foregoing is only a preferred embodiment of the present invention; the scope of the invention is not limited thereto. Any person skilled in the art should be able to cover the technical scope of the present invention by equivalent or modified solutions and modifications within the technical scope of the present invention.

Claims

1. The utility model provides an automatic equipment of vibrating for concrete in building scute assembling die, includes platform (1) of vibrating, its characterized in that: the lower end chamfers of the vibrating table (1) are fixedly connected with supporting legs (2), a first cavity (3) is formed in the vibrating table (1), a vibrating lug (4) is fixedly mounted in the first cavity (3), a vibrating mechanism (5) is movably connected in the first cavity (3), a fixing rod at the upper end of the vibrating mechanism (5) is connected with a fixing mechanism (6), a combined die body (7) is movably connected in the fixing mechanism (6), and a transmission mechanism (8) is fixedly mounted at the lower end of the vibrating table (1);

the vibrating mechanism (5) comprises a first roller (51), an upright post (52), a limiting assembly (53) and a positioning assembly (54), the first roller (51) is rotatably connected inside the first cavity (3), the upright post (52) is fixedly installed at the upper end of the first roller (51), the upper end of the upright post (52) penetrates through the vibrating table (1), the limiting assembly (53) is fixedly installed at the lower end of the outer wall of the upright post (52), and the positioning assembly (54) is fixedly installed at the upper end of the outer wall of the upright post (52);

the transmission mechanism (8) comprises a fixed box (81), a three-phase motor (82), a first gear (83), a rotating rod (84), a second gear (85), a transmission belt (86), a first wire collecting assembly (87) and a second wire collecting assembly (88), the fixed box (81) is fixedly installed at the lower end of the vibrating platform (1), the three-phase motor (82) is fixedly installed inside the fixed box (81), the first gear (83) is fixedly installed at the output end of the three-phase motor (82), the rotating rod (84) is rotatably connected to the inner wall of the fixed box (81), the second gear (85) is fixedly installed on the outer wall of the rotating rod (84), the transmission belt (86) is in transmission connection with the outer walls of the first gear (83) and the second gear (85), and the first wire collecting assembly (87) and the second wire collecting assembly (88) are both fixedly installed on the outer wall of the rotating rod (84), the first wire take-up assembly (87) and the second wire take-up assembly (88) are respectively fixedly connected with the positioning assembly (54);

the limiting assembly (53) comprises a fixing block (531), a universal bead (532), a first groove (533), a first spring (534) and a second roller (535), the fixing block (531) is fixedly installed at the lower end of the outer wall of the upright post (52), the universal bead (532) is embedded at one end of the fixing block (531), the universal bead (532) is attached to the inner wall of the first cavity (3), the first groove (533) is formed in the upper end of the fixing block (531), the first spring (534) is fixedly installed in the first groove (533), and the second roller (535) is fixedly installed at the upper end of the first spring (534); the positioning assembly (54) comprises a bracket (541), an expansion link (542), a third roller (543) and a second cavity (544), the bracket (541) is fixedly installed at the upper end of the outer wall of the upright post (52), the expansion link (542) is fixedly installed at the lower end of the bracket (541), the second cavity (544) is arranged inside the vibrating platform (1), the lower end of the expansion link (542) penetrates through the vibrating platform (1) and extends into the second cavity (544), and the third roller (543) is fixedly installed at the lower end of the expansion link (542); the first wire take-up assembly (87) comprises a first wire take-up wheel (871), a first steel wire rope (872), a first guide wheel (873), a third cavity (874) and a first positioning wheel (875), wherein the first wire take-up wheel (871) is fixedly installed at one end of the outer wall of the rotating rod (84), the first steel wire rope (872) is wound on the outer wall of the first wire take-up wheel (871), the third cavity (874) is arranged in the vibrating table (1), the first guide wheel (873) is fixedly installed in the third cavity (874), the first positioning wheel (875) is fixedly installed on the left side of the upper end of the vibrating table (1), one end of the first steel wire rope (872) penetrates through the fixing box (81) and extends into the third cavity (874) to be wound with the first guide wheel (873), one end of the first steel wire rope (872) penetrates through the third cavity (874) to be wound with the first positioning wheel (875), one end of the first steel wire rope (872) is fixedly connected with the left side wall of the bracket (541) through a first positioning wheel (875) in a winding way; the second wire take-up assembly (88) comprises a second wire take-up pulley (881), a second steel wire rope (882), a second guide wheel (883), a fourth cavity (884) and a second positioning wheel (885), the second wire take-up pulley (881) is fixedly installed at the other end of the outer wall of the rotating rod (84), the second steel wire rope (882) is wound on the outer wall of the second wire take-up pulley (881), the fourth cavity (884) is opened in the vibrating table (1), the second guide wheel (883) is fixedly installed in the fourth cavity (884), the second positioning wheel (885) is fixedly installed at the right side of the upper end of the vibrating table (1), one end of the second steel wire rope (882) penetrates through the fixing box (81) and extends into the fourth cavity (884) to be wound with the second guide wheel (883), one end of the second steel wire rope (882) penetrates through the fourth guide wheel (884) to be wound with the second positioning wheel (885), one end of the first steel wire rope (872) is fixedly connected with the right side wall of the bracket (541) through a second positioning wheel (885).

2. The automatic vibrating apparatus for concrete in a construction gusset combination mold as set forth in claim 1, wherein: fixed establishment (6) are including brace table (61), guardrail (62) and fixed subassembly (63), brace table (61) fixed mounting is in the upper end of stand (52), guardrail (62) fixed mounting is in the upper end of brace table (61), fixed subassembly (63) fixed mounting is in the lateral wall of brace table (61).

3. The automatic vibrating apparatus for concrete in a construction gusset combination mold as set forth in claim 2, wherein: fixed subassembly (63) include second recess (631), second spring (632), connecting rod (633), montant (634) and horizontal pole (635), the lateral wall at a supporting bench (61) is seted up in second recess (631), second spring (632) fixed mounting is in the inside of second recess (631), connecting rod (633) fixed connection is in the one end of second spring (632), montant (634) fixed connection is in the upper end of connecting rod (633), horizontal pole (635) fixed connection is in the upper end of montant (634) lateral wall, montant (634) and the outer wall of horizontal pole (635) all laminate with assembling die body (7) and are connected.