CN210713022U - Auxiliary device of building site silt clear away equipment - Google Patents

Abstract

The utility model discloses an auxiliary device of a construction site sludge removal device, which comprises a frame and a transportation frame, wherein the transportation frame is fixed on one side of the frame; the front end and the rear end of the transport frame respectively protrude out of the front end and the rear end of the frame, the two ends of the transport frame are respectively provided with a first rotary driving cylinder, a rotating part of each first rotary driving cylinder is provided with a cross beam, one end of each cross beam is provided with a vertical driving cylinder, a piston rod of each vertical driving cylinder is fixedly provided with a second rotary driving cylinder, a long-strip stop block is arranged on the rotating part of each second rotary driving cylinder, the transport frame is also provided with a first motor and a transport crawler driven by the first motor, and the transport crawler is provided with an avoidance groove; the transportation frame is provided with a baffle plate used for blocking the slot cover. The auxiliary device of the construction site sludge removing equipment can realize automatic cover lifting and covering.

Description

Auxiliary device of building site silt clear away equipment

Technical Field

The utility model relates to an environmental protection blowdown mechanical equipment technical field in construction place specifically says to a building site silt clears away auxiliary device of equipment.

Background

In order to meet the requirements of energy conservation, environmental protection and green construction, a drainage channel for discharging sewage is generally arranged at the periphery of the current construction site. In the work progress, especially the in-process of foundation ditch excavation, along with the increase of the volume of unearthing, the hack and the impurity that flow into water drainage tank also obviously increase, need wash the surperficial silt of car before driving out the building site like the fortune native car, building site personnel can regularly wash the raise dust hack etc. on ground with the water pipe in addition, these hack silt finally all can get into water drainage tank along with sewage, and constantly silts in water drainage tank, make water drainage tank passageway sectional area constantly reduce, cause the jam even. Therefore, the drainage groove needs to be periodically desilted in a construction site, and smooth drainage is ensured.

The whole process of desilting of prior art generally relies on the manual work to go on, and the manual work is opened the capping promptly, and reuse shovel digs out the interior silt of water drainage tank, and the manual work is covered back the capping again.

According to the dredging mode, a large amount of work such as cover lifting, dredging and covering is completed manually, the labor intensity is high, the labor cost is high, the working efficiency is low, and time and labor are wasted; moreover, the excavated sludge is often stacked on two sides of the drainage channel, and is required to be specially stored and cleaned, so that the labor cost and the labor intensity are further increased.

Therefore, automated dredging equipment is designed, and people hope to replace manual dredging. However, the dredging equipment in the prior art is lack of auxiliary equipment, has incomplete functions and cannot automatically lift and cover; moreover, the dug sludge is accumulated on both banks of the drainage channel, and the secondary cleaning is required.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide an auxiliary device of building site silt clear away equipment that can realize automatic lifting lid and cover.

The technical solution of the utility model is to provide an auxiliary device of a construction site sludge removing device, which comprises a frame and a transportation frame, wherein the transportation frame is fixed on one side of the frame; the front end and the rear end of the transport frame protrude out of the front end and the rear end of the frame respectively, two ends of the transport frame are provided with a first rotary driving cylinder respectively, a horizontal cross beam is arranged on a rotating part of each first rotary driving cylinder, one end of each cross beam is provided with a vertical driving cylinder, a piston rod of each vertical driving cylinder is fixedly provided with a second rotary driving cylinder, a long-strip stop block used for being in contact with the bottom surface of the groove cover is arranged on the rotating part of each second rotary driving cylinder, a first motor and a transport crawler driven by the first motor are further arranged on the transport frame, an avoidance groove used for accommodating the long-strip stop block to transversely rotate 90 degrees is arranged on the transport crawler, and the avoidance groove extends for a; the transportation frame is provided with a baffle plate for blocking the slot cover to limit the position of the slot cover at the rear limit of the transportation crawler.

Compared with the prior art, the auxiliary device of the construction site sludge removal equipment has the following advantages.

The long-strip stop block is rotated to hook or release the drainage tank cover, and the vertical driving cylinder is used for lifting or putting down the tank cover; the cross beam is rotated through the first rotary driving cylinder, so that the trough cover is switched over the drainage trough or the conveying crawler; transferring the slot cover from the cover lifting station to the covering station through the conveying crawler; the trough cover is left at the covering station of the transport track by a baffle plate suspended on the transport track by a transverse resistance. The vertical driving cylinder, the second rotary driving cylinder and the long-strip stop block positioned in front of the frame form a first mechanical arm, and the vertical driving cylinder, the second rotary driving cylinder and the long-strip stop block positioned behind the frame form a second mechanical arm; the automatic cover lifting or covering of the drainage channel is realized through the mechanical arm, manual operation is not needed, and the labor intensity is reduced; the lifting cover covering and the dredging process are combined in order, the front lifting cover, the middle dredging and the rear covering are adopted, the whole process is high in continuity and not interfered with each other, and the functions of full-automatic dredging are realized together; and the existence of the avoiding groove does not influence the normal functions of conveying the conveying crawler belt and supporting the groove cover, and can provide accommodating space for the long check block below the groove cover to accommodate the waist hole which rotates to just face the groove cover, so that the groove cover is convenient to separate.

Preferably, the contact part of the long stop block and the bottom surface of the slot cover is provided with a wear-resistant piece, so that the friction force between the long stop block and the bottom surface of the slot cover is increased by the wear-resistant piece, the long stop block is hooked on the slot cover more stably and powerfully, and the long stop block and the slot cover slide mutually when the second rotary driving cylinder is prevented from rotating, so that the slot cover of the long stop block is ensured to rotate.

Preferably, the bottom end of the transportation frame is also provided with a plurality of auxiliary rollers, so that the transportation frame is in rolling friction with the ground through the rollers, the self weight of the transportation frame acts on the rollers and does not need to be hung on the frame, the balance of the frame is ensured, and the unstable eccentric motion of the frame is prevented.

As preferred again, the one end of keeping away from vertical actuating cylinder on the crossbeam is equipped with the balancing weight, and like this, the balancing weight makes the both ends of crossbeam balanced to guarantee that the arm can be accurate and stable lift the lid or cover.

Still further preferably, the frame is provided with a storage box for storing sludge shoveled from the bottom of the tank by the sludge removal equipment, the frame is also provided with a second motor, and an output shaft of the second motor is suspended with a stirring wheel positioned in the storage box; the storage box is communicated with the silt outlet pipe and the water inlet pipe, so that the storage box receives silt shoveled out from the bottom of the tank, and the problem that the silt dug by silt removing equipment in the prior art needs to be stacked on two sides of the drainage tank in an unordered mode and needs to be cleaned for the second time is solved; the existence of the stirring wheel promotes the diffusion of the sludge in the containing box, avoids the accumulation of the sludge at the inlet of the containing box and ensures that the sludge discharging process is smoother; moreover, what is more critical is that the stirring wheel is combined with the water inlet pipe, the slurry is generated through stirring, and the slurry is automatically discharged into a slurry storage pool of a construction site through the sludge outlet pipe for subsequent construction such as drilling and wall protection, so that the storage and storage problems of the excavated sludge are solved, the waste is changed into valuable, and the environment is protected and the energy is saved; and the slurry is automatically conveyed without manual hauling, so that the labor intensity is low.

Drawings

Fig. 1 is a schematic structural diagram of a visual angle of the auxiliary device of the construction site sludge removing equipment.

Fig. 2 is a schematic structural diagram of another view angle of the auxiliary device of the construction site sludge removing equipment of the utility model.

Fig. 3 is the utility model discloses building site silt scavenging apparatus's auxiliary device still a visual angle part cuts open the schematic structure diagram.

Fig. 4 is a schematic structural diagram of the cover lifting and covering device of the auxiliary device of the construction site sludge removing equipment.

Fig. 5 is the structure diagram of the utility model of the auxiliary device of the construction site sludge removing device with the cover-lifting covering device partially enlarged.

Fig. 6 is a schematic structural view of the auxiliary device of the construction site sludge removing device of the present invention covered with the cover.

The transport frame comprises a frame 1, a frame 2, a transport frame 3, a first rotary driving cylinder 4, a cross beam 5, a vertical driving cylinder 6, a second rotary driving cylinder 7, a groove cover 8, a strip stop dog 9, a first motor 10, a transport crawler belt 11, an avoiding groove 12, a baffle 13, a wear-resistant sheet 14, an auxiliary roller 15, a balancing weight 16, a second motor 17, a containing box 18, a stirring wheel 19, a silt discharging pipe 20, a water inlet pipe 21, a drainage groove 22 and a waist hole.

Detailed Description

The invention will be further explained with reference to the drawings and the specific embodiments.

Discuss the utility model discloses before building site silt clears away equipment's auxiliary device, the earlier clear concept, silt clear away equipment includes automatic desilting device and auxiliary device, and wherein, automatic desilting device belongs to prior art, like the desilting equipment of the waterwheel formula structure that has the bucket, it integrates on frame 1, and is equipped with diesel power drive part on frame 1, provides the power that gos forward for automatic desilting device and the auxiliary device of this application, and auxiliary device is the content of this application.

As shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5 and fig. 6, the auxiliary device of the construction site sludge removing apparatus of the present invention comprises a frame 1 and a transportation frame 2, wherein the frame 1 is actually the frame 1 of the sludge removing apparatus of the prior art, but since the auxiliary device of the present invention is mounted and supported on the frame 1, the frame 1 can also be understood as a part of the present invention.

This transportation frame 2 is fixed in one side of frame 1, both ends protrusion both ends around the transportation frame 2 in the front and back of frame 1 respectively, both ends are equipped with a first rotatory actuating cylinder 3 respectively around the transportation frame 2, be equipped with a horizontally crossbeam 4 on the rotating part of every first rotatory actuating cylinder 3, the one end of every crossbeam 4 is equipped with vertical actuating cylinder 5, the other end of every crossbeam 4 is equipped with balancing weight 15, be fixed with the rotatory actuating cylinder 6 of second on the piston rod of every vertical actuating cylinder 5, be equipped with on the rotating part of every second rotatory actuating cylinder 6 and be used for the rectangular dog 8 with the contact of capping 7 bottom surfaces, and the contact site of rectangular dog 8 and capping 7 bottom surfaces is equipped with wear pad 13. The vertical driving cylinder 5, the second rotary driving cylinder 6 and the long stop block 8 which are positioned in front of the frame 1 form a first mechanical arm, and the vertical driving cylinder 5, the second rotary driving cylinder 6 and the long stop block 8 which are positioned behind the frame 1 form a second mechanical arm.

The conveying frame 2 is rotatably provided with a guide wheel, the conveying frame 2 is also provided with a first motor 9 for driving the guide wheel, a conveying crawler 10 is sleeved on the guide wheel, an avoidance groove 11 for accommodating a long-strip stop block 8 to transversely rotate by 90 degrees is formed in the conveying crawler 10, and the avoidance groove 11 extends for a circle along the conveying crawler 10; the transport frame 2 is provided with a barrier 12 for blocking the slot covers 7 to define the rear limit positions, i.e., rear end limit positions, of the slot covers 7 in the transport caterpillars 10, and the bottom end of the transport frame 2 is provided with a plurality of auxiliary rollers 14.

The frame 1 is provided with a storage box 17 for storing sludge shoveled from the bottom of the tank by the sludge removing equipment in the prior art, the frame 1 is also provided with a second motor 16, and an output shaft of the second motor 16 is suspended with a stirring wheel 18 positioned in the storage box 17; the storage tank 17 is connected to a sludge discharge pipe 19 for connection to a slurry reservoir and to a water inlet pipe 20.

As shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5 and fig. 6, the method for lifting cover of drainage groove of construction site, storing and covering sludge by using the auxiliary device of the construction site sludge removing equipment of the invention comprises the following steps.

The sludge storage process is as follows:

silt in the water drainage tank 21 is shoveled into the containing box 17 by a dredging device of the silt removing equipment, the second motor 16 is driven to rotate the stirring wheel 18, meanwhile, the water inlet pipe 20 is used for injecting water into the containing box 17, so that the silt in the containing box 17 is stirred with the water to form mud, and finally the mud is discharged to a mud storage pool through the silt outlet pipe 19.

The cover lifting process is as follows:

a long-strip stop block 8 of a first mechanical arm of the sludge removing equipment is aligned to a waist hole 22 in the middle of a slot cover 7 in parallel, a vertical driving cylinder 5 lowers the long-strip stop block 8 to enable the long-strip stop block 8 to penetrate through the waist hole 22 and reach the lower part of the slot cover 7, a second rotary driving cylinder 6 is driven to enable the long-strip stop block 8 to rotate 90 degrees, the vertical driving cylinder 5 is driven to lift the long-strip stop block 8 upwards to enable the long-strip stop block 8 to be hooked with the slot cover 7 and then continuously lift the slot cover 7 upwards, a first rotary driving cylinder 3 is driven to rotate a cross beam 4 90 degrees, the slot cover 7 is located right above the front end of a transportation crawler 10, the second rotary driving cylinder 6 is driven synchronously to rotate the slot cover 7 90 degrees, the length direction of the slot cover 7 is consistent with the length direction of the transportation crawler 10, the vertical driving cylinder 5 is driven to lower the slot cover 7 onto the transportation crawler 10 and enable the long-strip stop block 8 to descend into a concession slot, rotating the long check block 8 by 90 degrees in the avoiding groove 11 to enable the long check block 8 to be parallel to the waist hole 22 of the groove cover 7 again, and then lifting the long check block 8 to enable the long check block 8 to be separated from the groove cover 7 through the waist hole 22; the first rotary driving cylinder 3 is driven to rotate the cross beam 4 for 90 degrees to reset, and the second rotary driving cylinder 6 is synchronously driven to rotate the long-strip stop block 8 for 90 degrees to reset.

The covering process is as follows:

after the slot cover 7 is conveyed to the baffle 12 by the conveying crawler 10 and stops, the long baffle block 8 of the second mechanical arm is aligned to the waist hole 2 in the middle of the slot cover 7 in parallel, the vertical driving cylinder 5 is driven to lower the long baffle block 5 to enable the long baffle block 5 to pass through the waist hole 22 and reach the avoidance groove 11 below the slot cover 7, the second rotary driving cylinder 6 is driven to enable the long baffle block 8 to rotate for 90 degrees and then to be hooked with the slot cover 7, then the slot cover 7 is lifted, the first rotary driving cylinder 3 is driven to rotate the cross beam 4 anticlockwise for 90 degrees to enable the slot cover 7 to be aligned to the vacant position of the drainage slot 21, the second rotary driving cylinder 6 is synchronously driven to rotate the slot cover 7 for 90 degrees, the slot cover 7 is placed back to the vacant position opposite to the slot cover 7, the long baffle block 8 is continuously driven to enable the long baffle block 8 to be separated from the bottom surface of the slot cover 7, the second rotary driving cylinder 6 is driven to enable the long baffle block 8 to rotate for 90 degrees to be aligned to be parallel to the waist hole 22 of the, and reversely driving the vertical driving cylinder 5 to withdraw the long-strip stop dog 8, driving the first rotary driving cylinder 3 to rotate the cross beam 4 for 90 degrees to reset, and synchronously driving the second rotary driving cylinder 6 to rotate the long-strip stop dog 8 for 90 degrees to reset.

Claims (5)

1. The utility model provides a building site silt removes auxiliary device of equipment which characterized in that: the transportation frame comprises a frame (1) and a transportation frame (2), wherein the transportation frame (2) is fixed on one side of the frame (1); the front end and the rear end of a transport frame (2) protrude out of the front end and the rear end of a frame (1) respectively, two ends of the transport frame (2) are provided with a first rotary driving cylinder (3) respectively, a horizontal cross beam (4) is arranged on a rotating part of each first rotary driving cylinder (3), one end of each cross beam (4) is provided with a vertical driving cylinder (5), a second rotary driving cylinder (6) is fixed on a piston rod of each vertical driving cylinder (5), a long check block (8) used for being in contact with the bottom surface of a groove cover (7) is arranged on the rotating part of each second rotary driving cylinder (6), the transport frame (2) is further provided with a first motor (9) and a transport crawler (10) driven by the first motor (9), the transport crawler (10) is provided with an avoiding groove (11) for accommodating the long check block (8) to transversely rotate for 90 degrees, and the avoiding groove (11) extends for a circle along the transport crawler (10; the transportation frame (2) is provided with a baffle (12) used for blocking the slot cover (7) to limit the rear limit position of the slot cover (7) on the transportation crawler (10).

2. The auxiliary device of a worksite sludge removal apparatus as defined in claim 1, wherein: the contact part of the long block (8) and the bottom surface of the groove cover (7) is provided with a wear-resistant sheet (13).

3. The auxiliary device of a worksite sludge removal apparatus as defined in claim 1, wherein: the bottom end of the transportation frame (2) is also provided with a plurality of auxiliary rollers (14).

4. The auxiliary device of a worksite sludge removal apparatus as defined in claim 1, wherein: and a balancing weight (15) is arranged at one end of the cross beam (4) far away from the vertical driving cylinder (5).

5. The auxiliary device of a worksite sludge removal apparatus as defined in claim 1, wherein: a containing box (17) for containing sludge shoveled from the bottom of the tank by sludge removing equipment is arranged on the vehicle frame (1), a second motor (16) is further arranged on the vehicle frame (1), and a stirring wheel (18) positioned in the containing box (17) is hung on an output shaft of the second motor (16); the storage box (17) is communicated with a silt outlet pipe (19) and a water inlet pipe (20).

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