CN110004833A - A kind of civil engineering bridge construction prevents device for plugging - Google Patents

Abstract

The present invention relates to equipment for bridge construction technical fields, and disclose a kind of civil engineering bridge construction prevents device for plugging, including support column, the quantity of the support column is four, the bottom of four support columns is fixedly installed with damping, the surface activity of four support columns is connected with support plate, the support plate is fixedly connected with discharge bucket far from the side of slide plate, the bottom of the discharge bucket is communicated with lower feed box, the bottom of the lower feed box is fixedly installed with screening mechanism, power mechanism is fixedly installed with above the discharge bucket inner cavity, the bottom of the power mechanism is fixedly installed with anti-jamming mechanism, the bottom on four support column surfaces is fixedly connected with fixed plate.The problem of present invention passes through the cooperation of damping 2, screening mechanism 6, power mechanism 7, anti-jamming mechanism 8 and vibrating mechanism 9, can be effectively solved since funnel bottom openning becomes smaller, leads to concrete crushing failure at high speed, is easy to happen blocking funnel.

Description

A kind of civil engineering bridge construction prevents device for plugging

Technical field

The present invention relates to equipment for bridge construction technical field, specially a kind of civil engineering bridge construction prevents leak stopping Device.

Background technique

Bridge construction builds the process of bridge according to design content；Refer mainly to bridge Construction Technology and construction organization, construction The contents such as management, construction quality.

It needs to be poured using concrete in bridge construction process, be poured and meeting in operation process in concrete It is transported and is poured by funnel, since funnel bottom openning becomes smaller, lead to concrete crushing failure at high speed, be easy to happen blocking leakage The situation of bucket, to influence bridge construction process.

Summary of the invention

(1) the technical issues of solving

In order to solve the above problem of the prior art, what the present invention provided a kind of civil engineering bridge construction prevents leak stopping Device.

(2) technical solution

In order to achieve the above object, the main technical schemes that the present invention uses include:

A kind of civil engineering bridge construction prevents device for plugging, including support column, and the quantity of the support column is four A, the bottom of four support columns is fixedly installed with damping, and the surface activity of four support columns is connected with support Plate, the support plate are fixedly connected with discharge bucket far from the side of slide plate, and the bottom of the discharge bucket is communicated with lower feed box, described The bottom of lower feed box is fixedly installed with screening mechanism, and power mechanism is fixedly installed with above the discharge bucket inner cavity, described dynamic The bottom of force mechanisms is fixedly installed with anti-jamming mechanism, and the bottom on four support column surfaces is fixedly connected with fixed plate, described Lower feed box is socketed in the inside of fixed plate, is provided with vibrating mechanism between the fixed plate and support plate.

Preferably, the damping includes backing plate, and the backing plate is socketed in the bottom end of support column, the bottom of the support column Portion is fixedly connected with connecting plate, link block is fixedly connected at left and right sides of the connecting plate, the link block is far from connection One end of plate is connected with ball, and the left and right sides inner wall of the backing plate is fixedly connected to ball groove plate, and the ball groove plate is remote Side from inner wall at left and right sides of backing plate offers ball groove, and the surface of the ball and the side of ball groove inner wall fit closely, institute The bottom for stating connecting plate is fixedly connected with damping spring, the bottom of the damping spring one end far from connecting plate and backing plate inner wall It is fixedly connected.

Preferably, the link block offers ball grooves far from one end of support column, and ball grooves are arranged in the ball Inside, and the ball is in the roll inside of ball grooves.

Preferably, the screening mechanism includes support, and the support is fixedly connected with the left-hand face of lower feed box bottom, institute It states the one end of support far from lower feed box and sieving plate, and the bottom of the top surface of the sieving plate and lower feed box is hinged with by shaft Portion fits closely, and the bottom of the lower feed box right lateral surface is fixedly connected with fixed block, is hinged with and turns in the middle part of the fixed block Dynamic handle, and the bottom end of the swing handle and sieving plate are clamped.

Preferably, the surface of the sieving plate offers mesh, and the lumen width of the width of the mesh and lower feed box Size is identical.

Preferably, first sliding groove is offered at the top of the support column surface, the first sliding groove is internally provided with One slide plate, and first slide plate is in the internal slide of first sliding groove, side and support of first slide plate far from support column Plate is fixedly connected.

Preferably, the power mechanism includes first partition and second partition, and the first partition and second partition are solid Surely it is connected to the inside of discharge bucket, and the first partition is located at the top of second partition, the middle part on the first partition surface It is fixedly installed with the first driving motor by mounting base, the output shaft fixing sleeve of first driving motor is connected to the first cam, The surface of the second partition is fixedly connected with supporting block, and the inside of the supporting block is socketed with first support bar, and described first The top of support rod is hinged with the first idler wheel by shaft, and the surface of first idler wheel and the surface of the first cam overlap, institute The top fixing sleeve for stating first support bar surface is connected to the first snap ring, and is fixedly connected between first snap ring and supporting block One reset spring, and the first back-moving spring is socketed in the surface of first support bar.

Preferably, the anti-jamming mechanism includes the first cage plate and the second cage plate, and second cage plate is socketed in the first cage plate Inside, the top of first cage plate is fixedly connected with the bottom end of first support bar, inner wall at left and right sides of the discharge bucket Bottom is fixedly connected to coulisse, and the coulisse offers second sliding slot far from the side of inner wall at left and right sides of discharge bucket, The second sliding slot is internally provided with the second slide plate, two second slide plates respectively with the left-hand face of the first cage plate and The right lateral surface of two cage plates is fixedly connected, and the top and bottom of first cage plate and the top and bottom of the second cage plate are fixed It is connected with baffle, is fixedly connected with telescopic rod between two baffles, the surface of the telescopic rod is fixedly attached that there are two the Two snap rings are fixedly connected with second back-moving spring between two second snap rings, and the second back-moving spring is socketed in and stretches The bottom surface on the surface of contracting bar, first cage plate is fixedly connected with the second driving motor by mounting base, and described second drives The output shaft of dynamic motor is fixedly connected with rotation axis by shaft coupling, and the surface fixing sleeve of the rotation axis is connected to stirring block, and The junction of the stirring block and rotation axis is located at the edge of stirring block, the one end of the rotation axis far from the second driving motor It is fixedly connected with briquetting.

Preferably, the vibrating mechanism includes third driving motor, and the third driving motor is pacified by the way that mounting base is fixed Mounted in the top of fixed plate, the output shaft fixing sleeve of the third driving motor is connected to the second cam, described discharge bucket or so two The surface of collateral dagger is fixedly connected to stiffening plate, and the inside of the stiffening plate is socketed with second support bar, and described second The bottom end of strut is hinged with the second idler wheel by shaft, and the surface of second idler wheel and the surface of the second cam overlap, described The top of second support bar is fixedly connected with the bottom of support plate, and the top fixing sleeve on the second support bar surface is connected to third Snap ring is fixedly connected with third reset spring between the third snap ring and stiffening plate, and third reset spring socket exists The surface of second support bar.

(3) beneficial effect

Device for plugging is prevented the present invention provides a kind of civil engineering bridge construction.Have it is following the utility model has the advantages that

(1), the civil engineering bridge construction prevents device for plugging, under the effect of vibration of vibrating mechanism, will lead to Whole device seismaesthesia is stronger, to influence the service life of whole device, by setting backing plate, connecting plate, link block, ball, Ball groove plate, ball groove, damping spring and ball grooves, when support column vibrates, support column moves up and down in backing plate, to compress Damping spring to effectively slow down the seismaesthesia of whole device, while passing through ball and ball by the cushioning effect of damping spring The cooperation of frid move up and down support column can only in backing plate, to avoid support column from tilting and be stuck in the inside of backing plate.

(2), the civil engineering bridge construction prevents device for plugging, during blanking due to some in concrete The stone of larger particles usually blocks feed opening, and inconvenience is cleared up, thus by setting support, sieving plate, fixed block, Swing handle and mesh, the mesh by sieving plate surface screen stone, when stone accumulation is more, then by turning The rotation of dynamic handle, separates the bottom end of swing handle with sieving plate, and then under the action of support, sieving plate is rotated down, It is cleaned up to make to sieve the stone in plate surface, so as to effectively avoid the stone of larger particles from blocking the shape of feed opening Condition.

(3), the civil engineering bridge construction prevents device for plugging, passes through setting first partition, second partition, first Driving motor, the first cam, supporting block, first support bar, the first idler wheel, the first snap ring and first back-moving spring, pass through first The rotation of driving motor drives the first cam to rotate together, since the surface of the first cam and the first idler wheel overlap, first The rotation of cam drives the first idler wheel to rotate together, while the rotation of the first cam drives the first idler wheel to move down, due to the One idler wheel and first support bar are hinged, therefore the first idler wheel moves down and first support bar is driven to move down, and multiple first Under the elastic reaction of position spring, first support bar can be moved up and down, to provide the power moved up and down to anti-jamming mechanism.

(4), the civil engineering bridge construction prevents device for plugging, passes through setting the first cage plate, the second cage plate, sliding slot Plate, the second slide plate, baffle, telescopic rod, the second snap ring, second back-moving spring, the second driving motor, rotation axis, stirs second sliding slot Block and briquetting are mixed, since the top of the first cage plate is fixedly connected with the bottom end of first support bar, is moved down in first support bar It is dynamic that the first cage plate and the second cage plate is driven to move up and down together, when the first cage plate and the second cage plate move up and down, the second cage plate It stretches in the first cage plate, while the first cage plate and the second cage plate are slided in coulisse by the second slide plate, and the first cage plate It stretching with the telescopic rod at the top and bottom of the second cage plate, simultaneous retractable bar is that the first cage plate and the second cage plate increase intensity, When the first cage plate and the second cage plate are moved downward to maximum, rotation axis is driven to turn together by the rotation of the second driving motor Dynamic, since stirring block is fixedly attached to the surface of rotation axis, the rotation of rotation axis drives stirring block to rotate together, to make Stirring block is stirred the concrete blocked in lower feed box, can efficiently solve the shape of lower feed box inner concrete blocking Condition, while concrete is with being pressed down against by the briquetting of rotation axis bottom end when the first cage plate and the second cage plate move down, thus The situation for further avoiding lower feed box inner concrete from blocking.

(5), the civil engineering bridge construction prevents device for plugging, by setting third driving motor, second cam, Stiffening plate, second support bar, the second idler wheel, third snap ring, third reset spring, fixed plate, first sliding groove, the first slide plate lead to The rotation for crossing third driving motor drives the second cam to rotate together, since the surface of the second cam and the second idler wheel overlaps, because The rotation of this second cam drives the second idler wheel to rotate together, while the rotation of the second cam drives the second idler wheel to move up, Since the second idler wheel and second support bar are hinged, and the top of second support bar is fixedly connected with support plate, and sliding first Under the action of plate, the second idler wheel, which moves up, drives support plate to move up, under the elastic reaction of third reset spring, support Plate moves up and down, since support plate is fixedly connected with discharge bucket, support plate move up and down drive discharge bucket together on Lower movement shakes the concrete inside discharge bucket up and down, so that the concrete inside discharge bucket be avoided to block in lower feed box.

(6), the civil engineering bridge construction prevents device for plugging, passes through damping, screening mechanism, engine The cooperation of structure, anti-jamming mechanism and vibrating mechanism can be effectively solved since funnel bottom openning becomes smaller, cause concrete quick The problem of squeezing, being easy to happen blocking funnel.

Detailed description of the invention

Fig. 1 is schematic structural view of the invention；

Fig. 2 is the structural schematic diagram of anti-jamming mechanism of the present invention；

Fig. 3 is the structural schematic diagram of screening mechanism of the present invention；

Fig. 4 is the structural schematic diagram of damping of the present invention；

Fig. 5 is the top view of the first cage plate and the second cage plate of the invention；

Fig. 6 is the top cross-sectional view of support column of the present invention.

[description of symbols]

In figure: 1 support column, 2 dampings, 201 backing plates, 202 connecting plates, 203 link blocks, 204 balls, 205 ball groove plates, 206 ball grooves, 207 damping springs, 208 ball grooves, 3 support plates, 4 discharge buckets, 5 lower feed boxs, 6 screening mechanisms, 601 supports, 602 sieves Scoreboard, 603 fixed blocks, 604 swing handles, 605 mesh, 7 power mechanisms, 701 first partitions, 702 second partitions, 703 first Driving motor, 704 first cams, 705 supporting blocks, 706 first support bars, 707 first idler wheels, 708 first snap rings, 709 first Reset spring, 8 anti-jamming mechanisms, 801 first cage plates, 802 second cage plates, 803 coulisses, 804 second sliding slots, 805 second slide plates, 806 baffles, 807 telescopic rods, 808 second snap rings, 809 second back-moving springs, 810 second driving motors, 811 rotation axis, 812 are stirred Mix block, 813 briquettings, 9 vibrating mechanisms, 901 third driving motors, 902 second cams, 903 stiffening plates, 904 second support bars, 905 second idler wheels, 906 third snap rings, 907 third reset springs, 10 fixed plates, 11 first sliding grooves, 12 first slide plates.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

As shown in figures 1 to 6, the present invention provides a kind of technical solution: a kind of civil engineering bridge construction prevents leak stopping from filling It sets, including support column 1, the quantity of support column 1 is four, and the bottom of four support columns 1 is fixedly installed with damping 2, four The surface activity of support column 1 is connected with support plate 3, and first sliding groove 11 is offered at the top of 1 surface of support column, first sliding groove 11 It is internally provided with the first slide plate 12, and the first slide plate 12, in the internal slide of first sliding groove 11, the first slide plate 12 is far from support column 1 Side be fixedly connected with support plate 3, support plate 3 is fixedly connected with discharge bucket 4, the bottom of discharge bucket 4 far from the side of slide plate It is communicated with lower feed box 5, the bottom of lower feed box 5 is fixedly installed with screening mechanism 6, is fixedly installed with above 4 inner cavity of discharge bucket dynamic Force mechanisms 7, the bottom of power mechanism 7 are fixedly installed with anti-jamming mechanism 8, and the bottom on four 1 surfaces of support column is fixedly connected with Fixed board 10, lower feed box 5 are socketed in the inside of fixed plate 10, vibrating mechanism 9 are provided between fixed plate 10 and support plate 3.

As also shown in fig. 4, damping 2 includes backing plate 201, and backing plate 201 is socketed in the bottom end of support column 1, support column 1 Bottom is fixedly connected with connecting plate 202, and the left and right sides of connecting plate 202 is fixedly connected to link block 203, and link block 203 is remote One end from connecting plate 202 is connected with ball 204, and link block 203 offers ball grooves 208 far from one end of support column 1, The inside of ball grooves 208 is arranged in ball 204, and ball 204 is in the roll inside of ball grooves 208, the left and right sides of backing plate 201 Inner wall is fixedly connected to ball groove plate 205, and ball groove plate 205 offers ball groove far from the side of 201 left and right sides inner wall of backing plate 206, the surface of ball 204 and the side of 206 inner wall of ball groove fit closely, and the bottom of connecting plate 202 is fixedly connected with damping bullet Spring 207, the one end of damping spring 207 far from connecting plate 202 are fixedly connected with the bottom of 201 inner wall of backing plate, by the way that backing plate is arranged 201, connecting plate 202, link block 203, ball 204, ball groove plate 205, ball groove 206, damping spring 207 and ball grooves 208, support When column 1 vibrates, support column 1 moves up and down in backing plate 201, so that compression shock absorption spring 207, passes through damping spring 207 Cushioning effect, to effectively slow down the seismaesthesia of whole device, while passing through the cooperation of ball 204 and ball groove plate 205, make to prop up Dagger 1 can only move up and down in backing plate 201, to avoid support column 1 from tilting and be stuck in the inside of backing plate 201.

As also shown in fig. 3, screening mechanism 6 includes support 601, the fixed company of the left-hand face of support 601 and 5 bottom of lower feed box It connects, the one end of support 601 far from lower feed box 5 is hinged with sieving plate 602 by shaft, and the top surface of sieving plate 602 is under The bottom of hopper 5 fits closely, and the surface of sieving plate 602 offers mesh 605, and the width of mesh 605 and lower feed box 5 is interior Chamber width size is identical, and the bottom of 5 right lateral surface of lower feed box is fixedly connected with fixed block 603, and the middle part of fixed block 603 is hinged with Swing handle 604, and the bottom end of swing handle 604 and sieving plate 602 are clamped, and by setting support 601, sieving plate 602, are fixed Block 603, swing handle 604 and mesh 605 screen stone by the mesh 605 on 602 surface of sieving plate, when stone product When tiring out more, then passes through the rotation of swing handle 604, separate the bottom end of swing handle 604 with sieving plate 602, then exist Under the action of support 601, sieving plate 602 is rotated down, so that the stone on 602 surface of sieving plate is cleaned up, so as to The stone of larger particles is effectively avoided to block the situation of feed opening.

It is as also shown in fig. 1, power mechanism 7 include first partition 701 and second partition 702, first partition 701 and second every Plate 702 is fixedly connected in the inside of discharge bucket 4, and first partition 701 is located at the top of second partition 702, first partition 701 The middle part on surface is fixedly installed with the first driving motor 703 by mounting base, and the output shaft of the first driving motor 703 is fixedly attached There is the first cam 704, the surface of second partition 702 is fixedly connected with supporting block 705, and the inside of supporting block 705 is socketed with first Support rod 706, the top of first support bar 706 are hinged with the first idler wheel 707 by shaft, the surface of the first idler wheel 707 and the The surface of one cam 704 overlaps, and the top fixing sleeve on 706 surface of first support bar is connected to the first snap ring 708, the first snap ring 708 First back-moving spring 709 is fixedly connected between supporting block 705, and first back-moving spring 709 is socketed in first support bar 706 Surface, by setting first partition 701, second partition 702, the first driving motor 703, the first cam 704, supporting block 705, First support bar 706, the first idler wheel 707, the first snap ring 708 and first back-moving spring 709, pass through the first driving motor 703 Rotation drives the first cam 704 to rotate together, and since the surface of the first cam 704 and the first idler wheel 707 overlap, first is convex The rotation of wheel 704 drives the first idler wheel 707 to rotate together, while the rotation of the first cam 704 drives the first idler wheel 707 to moving down Dynamic, since the first idler wheel 707 is hinged with first support bar 706, the first idler wheel 707 moves down drive first support bar 706 move down, and under the elastic reaction of first back-moving spring 709, first support bar 706 can be moved up and down, to give Anti-jamming mechanism 8 provides the power moved up and down.

As also shown in fig. 2, anti-jamming mechanism 8 includes the first cage plate 801 and the second cage plate 802, and the second cage plate 802 is socketed in the The top of the inside of one cage plate 801, the first cage plate 801 is fixedly connected with the bottom end of first support bar 706, discharge bucket 4 or so two The bottom of side inner wall is fixedly connected to coulisse 803, and coulisse 803 is opened up far from the side of 4 left and right sides inner wall of discharge bucket Have a second sliding slot 804, second sliding slot 804 is internally provided with the second slide plate 805, two the second slide plates 805 respectively with first set The left-hand face of plate 801 is fixedly connected with the right lateral surface of the second cage plate 802, the top and bottom and second of the first cage plate 801 The top and bottom of cage plate 802 are fixedly connected to baffle 806, are fixedly connected with telescopic rod 807 between two baffles 806, stretch The surface of contracting bar 807 is fixedly attached there are two the second snap ring 808, is fixedly connected with the second reset between two the second snap rings 808 Spring 809, and second back-moving spring 809 is socketed in the surface of telescopic rod 807, the bottom surface of the first cage plate 801 passes through installation Seat is fixedly connected with the second driving motor 810, and the output shaft of the second driving motor 810 is fixedly connected with rotation axis by shaft coupling 811, the surface fixing sleeve of rotation axis 811 is connected to stirring block 812, and the junction of stirring block 812 and rotation axis 811 is located at stirring The edge of block 812, rotation axis 811 are fixedly connected with briquetting 813 far from one end of the second driving motor 810, pass through setting the One cage plate 801, the second cage plate 802, coulisse 803, second sliding slot 804, the second slide plate 805, baffle 806, telescopic rod 807, Two snap rings 808, second back-moving spring 809, the second driving motor 810, rotation axis 811, stirring block 812 and briquetting 813, due to The top of one cage plate 801 is fixedly connected with the bottom end of first support bar 706, therefore first support bar 706 moves up and down drive One cage plate 801 and the second cage plate 802 move up and down together, when the first cage plate 801 and the second cage plate 802 move up and down, second Cage plate 802 stretches in the first cage plate 801, while the first cage plate 801 and the second cage plate 802 pass through the second slide plate 805 in sliding slot Sliding in plate 803, and the telescopic rod 807 of 802 top and bottom of the first cage plate 801 and the second cage plate stretches, simultaneous retractable Bar 807 is that the first cage plate 801 and the second cage plate 802 increase intensity, when the first cage plate 801 and the second cage plate 802 are moved downward to When maximum, rotation axis 811 is driven to rotate together by the rotation of the second driving motor 810, since stirring block 812 is fixedly attached to The surface of rotation axis 811, therefore the rotation of rotation axis 811 drives stirring block 812 to rotate together, to make stirring block 812 under The concrete blocked in hopper 5 is stirred, and can be efficiently solved the situation of 5 inner concrete of lower feed box blocking, be turned simultaneously The briquetting 813 of 811 bottom end of moving axis with concrete is pressed down against when the first cage plate 801 and the second cage plate 802 move down, from And the situation for further avoiding 5 inner concrete of lower feed box from blocking.

As also shown in fig. 1, vibrating mechanism 9 includes third driving motor 901, and third driving motor 901 is solid by mounting base Dingan County is mounted in the top of fixed plate 10, and the output shaft fixing sleeve of third driving motor 901 is connected to the second cam 902, and discharge bucket 4 is left The surface of right column 1 supported on both sides is fixedly connected to stiffening plate 903, and the inside of stiffening plate 903 is socketed with second support bar 904, The bottom end of second support bar 904 is hinged with the second idler wheel 905, the surface of the second idler wheel 905 and the second cam 902 by shaft Surface overlap joint, the top of second support bar 904 are fixedly connected with the bottom of support plate 3, and the top on 904 surface of second support bar is solid Surely it is socketed with third snap ring 906, third reset spring 907, and are fixedly connected between third snap ring 906 and stiffening plate 903 Three reset springs 907 are socketed in the surface of second support bar 904, by setting third driving motor 901, the second cam 902, add Strong plate 903, second support bar 904, the second idler wheel 905, third snap ring 906, third reset spring 907, fixed plate 10, first are sliding Slot 11, the first slide plate 12 drive the second cam 902 to rotate together, due to the second cam by the rotation of third driving motor 901 902 and second idler wheel 905 surface overlap, therefore the second cam 902 rotation drive the second idler wheel 905 rotate together, simultaneously The rotation of second cam 902 drives the second idler wheel 905 to move up, since the second idler wheel 905 and second support bar 904 are hinged, And the top of second support bar 904 is fixedly connected with support plate 3, and under the action of the first slide plate 12, the second idler wheel 905 to Upper mobile drive support plate 3 moves up, and under the elastic reaction of third reset spring 907, support plate 3 moves up and down, Since support plate 3 is fixedly connected with discharge bucket 4, support plate 3, which moves up and down, drives discharge bucket 4 to move up and down together, uses Concrete inside hopper 4 shakes up and down, so that the concrete inside discharge bucket 4 be avoided to block in lower feed box 5.

Working principle: driving the first cam 704 to rotate together by the rotation of the first driving motor 703, due to first convex The surface of wheel 704 and the first idler wheel 707 overlap, therefore the rotation of the first cam 704 drives the first idler wheel 707 to rotate together, together When the first cam 704 rotation drive the first idler wheel 707 to move down, since the first idler wheel 707 and first support bar 706 are cut with scissors It connects, therefore the first idler wheel 707 moves down and first support bar 706 is driven to move down, and in the elasticity of first back-moving spring 709 Under effect, first support bar 706 can be moved up and down, since the top of the first cage plate 801 and the bottom end of first support bar 706 are solid Fixed connection, therefore first support bar 706 moves up and down and the first cage plate 801 and the second cage plate 802 is driven to move up and down together, when the When one cage plate 801 and the second cage plate 802 move up and down, the second cage plate 802 stretches in the first cage plate 801, while the first cage plate 801 and second cage plate 802 slided in coulisse 803 by the second slide plate 805, and the first cage plate 801 and the second cage plate 802 top The telescopic rod 807 of portion and bottom stretches, and simultaneous retractable bar 807 is that the first cage plate 801 and the second cage plate 802 increase intensity, When the first cage plate 801 and the second cage plate 802 are moved downward to maximum, rotation is driven by the rotation of the second driving motor 810 Axis 811 rotates together, and since stirring block 812 is fixedly attached to the surface of rotation axis 811, the rotation of rotation axis 811 is driven Stirring block 812 rotates together, so that stirring block 812 be made to be stirred the concrete blocked in lower feed box 5, can effectively solve The certainly situation of 5 inner concrete of lower feed box blocking, while the briquetting 813 of 811 bottom end of rotation axis is with the first cage plate 801 and second Concrete is pressed down against by cage plate 802 when moving down, thus the shape for further avoiding 5 inner concrete of lower feed box from blocking Condition, then stone is screened by the mesh 605 on 602 surface of sieving plate, when stone accumulation is more, then pass through turning handle The rotation of hand 604 separates the bottom end of swing handle 604 with sieving plate 602, then under the action of support 601, sieving plate 602 rotate down, to make the stone on 602 surface of sieving plate clean up, so as to effectively avoid the stone of larger particles Son blocks the situation of feed opening, while driving the second cam 902 to rotate together by the rotation of third driving motor 901, due to The surface of second cam 902 and the second idler wheel 905 overlap joint, therefore the rotation of the second cam 902 drives the second idler wheel 905 to turn together It is dynamic, while the rotation of the second cam 902 drives the second idler wheel 905 to move up, due to the second idler wheel 905 and second support bar 904 is hinged, and the top of second support bar 904 is fixedly connected with support plate 3, and under the action of the first slide plate 12, and second Idler wheel 905, which moves up, drives support plate 3 to move up, and under the elastic reaction of third reset spring 907, support plate 3 is carried out It moves up and down, since support plate 3 is fixedly connected with discharge bucket 4, support plate 3 moves up and down drive discharge bucket 4 together up and down Movement shakes the concrete inside discharge bucket 4 up and down, so that the concrete inside discharge bucket 4 be avoided to block up in lower feed box 5 Plug, and under the effect of vibration of vibrating mechanism 9, support column 1 vibrates, and support column 1 moves up and down in backing plate 201, thus Compression shock absorption spring 207, to effectively slow down the seismaesthesia of whole device, is led to simultaneously by the cushioning effect of damping spring 207 The cooperation for crossing ball 204 Yu ball groove plate 205 move up and down support column 1 can only in backing plate 201, so that support column 1 be avoided to incline Tiltedly it is stuck in the inside of backing plate 201.

It can to sum up obtain, which prevents device for plugging, under the effect of vibration of vibrating mechanism 9, Will lead to that whole device seismaesthesia is stronger, to influence the service life of whole device, by setting backing plate 201, connecting plate 202, Link block 203, ball 204, ball groove plate 205, ball groove 206, damping spring 207 and ball grooves 208, when support column 1 vibrates, Support column 1 moves up and down in backing plate 201, thus compression shock absorption spring 207, by the cushioning effect of damping spring 207, thus Effectively slow down the seismaesthesia of whole device, while passing through the cooperation of ball 204 and ball groove plate 205, makes support column 1 in backing plate 201 It is interior to move up and down, to avoid support column 1 from tilting and be stuck in the inside of backing plate 201.

Meanwhile since the stone of larger particles some in concrete usually blocks feed opening during blanking, and Inconvenience is cleared up, therefore by setting support 601, sieving plate 602, fixed block 603, swing handle 604 and mesh 605, is led to The mesh 605 for crossing 602 surface of sieving plate screens stone, when stone accumulation is more, then passes through swing handle 604 Rotation, separates the bottom end of swing handle 604 with sieving plate 602, and then under the action of support 601, sieving plate 602 turns downwards It is dynamic, to make the stone on 602 surface of sieving plate clean up, so as to effectively avoid the stone of larger particles from blocking blanking The situation of mouth.

Colleague passes through setting first partition 701, second partition 702, the first driving motor 703, the first cam 704, support Block 705, first support bar 706, the first idler wheel 707, the first snap ring 708 and first back-moving spring 709, pass through the first driving motor 703 rotation drives the first cam 704 to rotate together, since the surface of the first cam 704 and the first idler wheel 707 overlap, The rotation of first cam 704 drives the first idler wheel 707 to rotate together, while the rotation of the first cam 704 drives the first idler wheel 707 It moves down, since the first idler wheel 707 is hinged with first support bar 706, the first idler wheel 707 moves down drive first Strut 706 moves down, and under the elastic reaction of first back-moving spring 709, first support bar 706 can be moved up and down, from And the power moved up and down is provided to anti-jamming mechanism 8.

Meanwhile by the way that the first cage plate 801, the second cage plate 802, coulisse 803, second sliding slot 804, the second slide plate is arranged 805, baffle 806, telescopic rod 807, the second snap ring 808, second back-moving spring 809, the second driving motor 810, rotation axis 811, Stirring block 812 and briquetting 813, since the top of the first cage plate 801 is fixedly connected with the bottom end of first support bar 706, the One support rod 706, which moves up and down, drives the first cage plate 801 and the second cage plate 802 to move up and down together, when the first cage plate 801 and the When two cage plates 802 move up and down, the second cage plate 802 stretches in the first cage plate 801, while the first cage plate 801 and the second cage plate 802 are slided in coulisse 803 by the second slide plate 805, and the first cage plate 801 and 802 top and bottom of the second cage plate are stretched Contracting bar 807 stretches, and simultaneous retractable bar 807 is that the first cage plate 801 and the second cage plate 802 increase intensity, when the first cage plate 801 When being moved downward to maximum with the second cage plate 802, rotation axis 811 is driven to rotate together by the rotation of the second driving motor 810, Since stirring block 812 is fixedly attached to the surface of rotation axis 811, the rotation of rotation axis 811 drives stirring block 812 to turn together It is dynamic, so that stirring block 812 be made to be stirred the concrete blocked in lower feed box 5, it can efficiently solve and be mixed inside lower feed box 5 The situation of solidifying soil blocking, while the briquetting 813 of 811 bottom end of rotation axis is moved down with the first cage plate 801 and the second cage plate 802 When concrete is pressed down against, thus further avoid 5 inner concrete of lower feed box block situation.

Meanwhile by the way that third driving motor 901, the second cam 902, stiffening plate 903, second support bar 904, second is arranged Idler wheel 905, third snap ring 906, third reset spring 907, fixed plate 10, first sliding groove 11, the first slide plate 12, are driven by third The rotation of dynamic motor 901 drives the second cam 902 to rotate together, since the surface of the second cam 902 and the second idler wheel 905 is taken It connects, therefore the rotation of the second cam 902 drives the second idler wheel 905 to rotate together, while the rotation of the second cam 902 drives second Idler wheel 905 moves up, since the second idler wheel 905 and second support bar 904 are hinged, and the top of second support bar 904 and branch Fagging 3 is fixedly connected, and under the action of the first slide plate 12, and the second idler wheel 905, which moves up, drives support plate 3 to moving up Dynamic, under the elastic reaction of third reset spring 907, support plate 3 moves up and down, since support plate 3 and discharge bucket 4 are fixed Connection, therefore support plate 3 moves up and down and discharge bucket 4 is driven to move up and down together, shakes the concrete inside discharge bucket 4 up and down It swings, so that the concrete inside discharge bucket 4 be avoided to block in lower feed box 5.

Also, pass through the cooperation of damping 2, screening mechanism 6, power mechanism 7, anti-jamming mechanism 8 and vibrating mechanism 9, energy Enough effective solutions are since funnel bottom openning becomes smaller, the problem of leading to concrete crushing failure at high speed, be easy to happen blocking funnel.

It should be noted that, in this document, relational terms such as first and second and the like are used merely to a reality Body or operation are distinguished with another entity or operation, are deposited without necessarily requiring or implying between these entities or operation In any actual relationship or order or sequence.Moreover, the terms "include", "comprise" or its any other variant are intended to Non-exclusive inclusion, so that the process, method, article or equipment including a series of elements is not only wanted including those Element, but also including other elements that are not explicitly listed, or further include for this process, method, article or equipment Intrinsic element.In the absence of more restrictions, the element limited by sentence " including a reference structure ", is not arranged Except there is also other identical elements in the process, method, article or apparatus that includes the element.

It although an embodiment of the present invention has been shown and described, for the ordinary skill in the art, can be with A variety of variations, modification, replacement can be carried out to these embodiments without departing from the principles and spirit of the present invention by understanding And modification, the scope of the present invention is defined by the appended.

Claims (9)

1. a kind of civil engineering bridge construction prevents device for plugging, including support column (1), it is characterised in that: the support The quantity of column (1) is four, and the bottom of four support columns (1) is fixedly installed with damping (2), four support columns (1) surface activity is connected with support plate (3), and the support plate (3) is fixedly connected with discharge bucket (4) far from the side of slide plate, The bottom of the discharge bucket (4) is communicated with lower feed box (5), and the bottom of the lower feed box (5) is fixedly installed with screening mechanism (6), It is fixedly installed with power mechanism (7) above discharge bucket (4) inner cavity, the bottom of the power mechanism (7) is fixedly installed with The bottom of anti-jamming mechanism (8), four support column (1) surfaces is fixedly connected with fixed plate (10), lower feed box (5) socket Vibrating mechanism (9) are provided between the inside of fixed plate (10), the fixed plate (10) and support plate (3).

2. a kind of civil engineering bridge construction according to claim 1 prevents device for plugging, it is characterised in that: described Damping (2) includes backing plate (201), and the backing plate (201) is socketed in the bottom end of support column (1), the bottom of the support column (1) Portion is fixedly connected with connecting plate (202), is fixedly connected to link block (203) at left and right sides of the connecting plate (202), described Link block (203) is connected with ball (204) far from the one end of connecting plate (202), in the left and right sides of the backing plate (201) Wall is fixedly connected to ball groove plate (205), and the ball groove plate (205) opens up far from the side of inner wall at left and right sides of backing plate (201) Have ball groove (206), the surface of the ball (204) and the side of ball groove (206) inner wall fit closely, the connecting plate (202) Bottom be fixedly connected with damping spring (207), the damping spring (207) far from connecting plate (202) one end and backing plate (201) bottom of inner wall is fixedly connected.

3. a kind of civil engineering bridge construction according to claim 2 prevents device for plugging, it is characterised in that: described Link block (203) offers ball grooves (208) far from the one end of support column (1), and the ball (204) is arranged in ball grooves (208) inside, and the ball (204) is in the roll inside of ball grooves (208).

4. a kind of civil engineering bridge construction according to claim 1 prevents device for plugging, it is characterised in that: described Screening mechanism (6) includes support (601), and the support (601) is fixedly connected with the left-hand face of lower feed box (5) bottom, described Support (601) is hinged with sieving plate (602) far from the one end of lower feed box (5) by shaft, and the top of the sieving plate (602) The bottom on surface and lower feed box (5) fits closely, and the bottom of lower feed box (5) right lateral surface is fixedly connected with fixed block (603), it is hinged with swing handle (604) in the middle part of the fixed block (603), and the bottom end of the swing handle (604) and sieve Scoreboard (602) clamping.

5. a kind of civil engineering bridge construction according to claim 4 prevents device for plugging, it is characterised in that: described The surface of sieving plate (602) offers mesh (605), and the width of the mesh (605) and the lumen width of lower feed box (5) are big It is small identical.

6. a kind of civil engineering bridge construction according to claim 1 prevents device for plugging, it is characterised in that: described It is offered first sliding groove (11) at the top of support column (1) surface, the first sliding groove (11) is internally provided with the first slide plate (12), and first slide plate (12) is in the internal slide of first sliding groove (11), and first slide plate (12) is far from support column (1) Side be fixedly connected with support plate (3).

7. a kind of civil engineering bridge construction according to claim 1 prevents device for plugging, it is characterised in that: described Power mechanism (7) includes first partition (701) and second partition (702), the first partition (701) and second partition (702) It is fixedly connected with the inside in discharge bucket (4), and the first partition (701) is located at the top of second partition (702), described The middle part on one partition (701) surface is fixedly installed with the first driving motor (703) by mounting base, first driving motor (703) output shaft fixing sleeve is connected to the first cam (704), and the surface of the second partition (702) is fixedly connected with supporting block (705), the inside of the supporting block (705) is socketed with first support bar (706), and the top of the first support bar (706) is logical It crosses shaft to be hinged with the first idler wheel (707), the surface of first idler wheel (707) and the surface of the first cam (704) overlap, institute The top fixing sleeve for stating first support bar (706) surface is connected to the first snap ring (708), first snap ring (708) and supporting block (705) it is fixedly connected between first back-moving spring (709), and the first back-moving spring (709) is socketed in first support bar (706) surface.

8. a kind of civil engineering bridge construction according to claim 1 prevents device for plugging, it is characterised in that: described Anti-jamming mechanism (8) includes the first cage plate (801) and the second cage plate (802), and second cage plate (802) is socketed in the first cage plate (801) top of inside, first cage plate (801) is fixedly connected with the bottom end of first support bar (706), the discharge bucket (4) bottom of left and right sides inner wall is fixedly connected to coulisse (803), and the coulisse (803) is far from discharge bucket (4) left and right The side of two sides inner wall offers second sliding slot (804), and the second sliding slot (804) is internally provided with the second slide plate (805), Two second slide plates (805) are solid with the left-hand face of the first cage plate (801) and the right lateral surface of the second cage plate (802) respectively It is fixed to connect, gear is fixedly connected at the top and bottom of the top and bottom and the second cage plate (802) of first cage plate (801) Plate (806) is fixedly connected with telescopic rod (807) between two baffles (806), and the surface of the telescopic rod (807) is fixed There are two sockets the second snap ring (808), is fixedly connected with second back-moving spring (809) between two second snap rings (808), And the second back-moving spring (809) is socketed in the surface of telescopic rod (807), the bottom surface of first cage plate (801) is logical It crosses mounting base to be fixedly connected with the second driving motor (810), the output shaft of second driving motor (810) is solid by shaft coupling Surely it is connected with rotation axis (811), the surface fixing sleeve of the rotation axis (811) is connected to stirring block (812), and the stirring block (812) it is located at the edge of stirring block (812) with the junction of rotation axis (811), the rotation axis (811) is far from the second driving One end of motor (810) is fixedly connected with briquetting (813).

9. a kind of civil engineering bridge construction according to claim 1 prevents device for plugging, it is characterised in that: described Vibrating mechanism (9) includes third driving motor (901), and the third driving motor (901) is fixedly mounted on by mounting base The output shaft fixing sleeve at the top of fixed board (10), the third driving motor (901) is connected to the second cam (902), the discharging The surface of support column (1) is fixedly connected to stiffening plate (903) at left and right sides of bucket (4), the inside socket of the stiffening plate (903) Having second support bar (904), the bottom end of the second support bar (904) is hinged with the second idler wheel (905) by shaft, and described The surface of second wheel (905) and the surface of the second cam (902) overlap, the top of the second support bar (904) and support plate (3) bottom is fixedly connected, and the top fixing sleeve on second support bar (904) surface is connected to third snap ring (906), and described It is fixedly connected between three snap rings (906) and stiffening plate (903) third reset spring (907), and the third reset spring (907) it is socketed in the surface of second support bar (904).