CN218255818U - Dual-drive swinging skip car - Google Patents

Abstract

The utility model relates to a building block former field especially relates to a dual drive swing skip, it is complicated that it has mainly solved the structure of swing skip among the prior art, the poor problem of cloth homogeneity, including the cloth frame, the walking wheel, first driving motor and second driving motor, rotationally be equipped with four at least broken arch shafts side by side in the cloth chute along vertical, be broken arch shaft A and broken arch shaft B respectively, each broken arch shaft A's axial one end is equipped with first pendulum rod, the free end of each first pendulum rod articulates there is first swing connecting rod, the free end of first swing connecting rod articulates there is first connecting rod, the free end of first connecting rod is connected with first eccentric disc, each broken arch shaft B's axial other end is equipped with the second pendulum rod, the free end of each second pendulum rod articulates there is second swing connecting rod, the free end of second swing connecting rod articulates there is the second connecting rod, the free end of second connecting rod is connected with the broken dish of second, be equipped with the arch subassembly on the broken arch shaft, the overflow silo that has the material to pass through on the broken arch subassembly.

Description

Dual-drive swinging skip car

Technical Field

The utility model relates to a building block former field especially relates to a dual drive swing skip.

Background

The structure of the existing swinging skip car is as follows: 201621203604.7 discloses a swing type material distribution vehicle, which comprises a vehicle body and a material distribution frame arranged on the vehicle body, wherein the vehicle body is provided with a driving motor and two bearing seats, the two bearing seats are provided with swing arm shafts, the swing arm shafts are provided with swing arm belt pulleys, the driving motor is connected with the swing arm belt pulleys through belts, two ends of the swing arm shafts are respectively provided with eccentric wheels, the eccentric wheels are provided with first connecting rods, the first connecting rods are rotatably connected with the eccentric wheels through bearings, one end of each first connecting rod is hinged with a second connecting rod, the side wall of each second connecting rod is provided with a plurality of rocker arms, the rocker arms are rotatably connected with the second connecting rods through bearings, a plurality of material distribution shafts corresponding to the rocker arms are arranged in the material distribution frame, the lower ends of the material distribution shafts are provided with a plurality of material distribution teeth, two side walls of the material distribution frame are provided with round holes corresponding to the material distribution shafts, and two ends of the material distribution shafts respectively penetrate through the round holes and are fixedly connected with the rocker arms. The driving motor starts, it rotates to drive the swing arm belt pulley through the belt, the swing arm belt pulley is fixed on the swing arm shaft, and then it rotates to drive the swing arm shaft, the eccentric wheel is all installed at the both ends of swing arm shaft, and then it rotates to drive the eccentric wheel, first connecting rod passes through the bearing and is connected with the eccentric wheel rotation, and then the eccentric wheel rotates and drives the swing of first connecting rod, the articulated second connecting rod of one end of first connecting rod, and then it swings around to drive the second connecting rod, the rocker passes through the bearing and is connected with the second connecting rod rotation, the both ends of stirring axle pass round hole and rocker fixed connection respectively, consequently make the stirring axle that the lower extreme has stirring tooth be the periodic reciprocating motion of swaying, the reciprocating motion of stirring tooth, thereby make the material distribute the lower bolster, the cloth resistance is little, and the humidity of bed charge and the granularity requirement of material are not high, the unloading is quick, the cloth is even, improve work efficiency, guarantee the finished product quality of brick.

However, all set up the rocker through the axial both ends of dialling the material axle, and connect the rocker through the second connecting rod of both sides, and then drive the swing of dialling the material axle through eccentric wheel and first connecting rod, can reduce the moment of torsion that first connecting rod, second connecting rod bore, however, this kind of structure is comparatively complicated, it is low to dismantle the maintenance convenience, and, the motion pace of dialling the material axle is unanimous, by the material of the formation arch structure of hopper unloading, be difficult to the cloth in the front and back end of automobile body, reduce the homogeneity of cloth.

SUMMERY OF THE UTILITY MODEL

Therefore, to foretell problem, the utility model provides a dual drive swing skip, it has mainly solved the problem that the structure of swing skip is complicated among the prior art, the cloth homogeneity is poor.

In order to achieve the above purpose, the utility model adopts the following technical proposal:

the utility model provides a dual drive swing skip, includes cloth frame, locates walking wheel, first driving motor and the second driving motor on the cloth frame, the definition extends for vertical direction along cloth frame's walking direction, extends and be located the coplanar with vertical direction and be horizontal direction, the cloth frame includes front bezel, back plate, two curb plates and mounting panel, front bezel, back plate and two curb plates form a cloth groove, the mounting panel is located the vertical one side of cloth groove and with both sides board fixed connection, first driving motor, second driving motor set up respectively in the horizontal both sides of mounting panel, rotationally be equipped with four at least broken arch shafts along vertical side by side in the cloth groove, each broken arch shaft divide into two sets ofly, respectively including the broken arch shaft A who distributes in vertical one side and the broken arch shaft B who distributes in vertical opposite side, each the axial one end of broken arch shaft A just is located the cloth groove and is equipped with first pendulum rod outside, each the free end of first pendulum rod articulates there is first swing connecting rod, the free end of first swing connecting rod articulates there is first connecting rod, the free end of first swing connecting rod is connected with the second swing rod through the eccentric shaft drive assembly the eccentric drive rod, the eccentric shaft drive rod is connected with the eccentric swing rod of second eccentric shaft, and the eccentric shaft drive rod, the eccentric shaft is connected with the eccentric shaft assembly.

Furthermore, first drive assembly, second drive assembly all include through the bearing frame rotationally locate the transmission shaft on the mounting panel, locate drive pulley on first driving motor or second driving motor's the output, locate the epaxial driven pulleys of transmission and twine the belt on drive pulley and driven pulleys, the axial one end of transmission shaft is located to first eccentric disc or second eccentric disc.

Further, broken hunch subassembly is located the epaxial cover body of broken arch including the cover, encircles be equipped with one row at least mounting hole on the cover body, arrange the form the mounting hole distributes along the axial direction of the cover body, each inlay in the mounting hole and be equipped with the mount pad, be equipped with the rake teeth on the mount pad, be in same row form be equipped with broken arch blade on the rake teeth, the discharge chute distributes between broken arch blade and the cover body.

Furthermore, the length dimension of the rake teeth along the radial direction of the sleeve body is larger than the width dimension of the arch breaking blades along the radial direction of the sleeve body.

Furthermore, a brush component is arranged at the upper end of the front plate.

Furthermore, the lower extreme of front bezel is equipped with scrapes the material subassembly.

By adopting the technical scheme, the beneficial effects of the utility model are that: the double-drive swing skip car comprises a first driving motor, a first connecting rod, a first swing rod, a broken arch shaft A, a second driving motor, a second swing rod, a broken arch shaft B, a double-drive motor and a broken arch shaft overflow chute, wherein the first driving motor drives the first eccentric wheel to move through a first transmission assembly, the broken arch shaft A swings through a structure of the first eccentric wheel and the first connecting rod and the first swing connecting rod, the first swing rod drives the broken arch shaft A to swing, meanwhile, the second driving motor drives the second eccentric wheel to move through a second transmission assembly, the broken arch shaft B swings through a structure of the second eccentric wheel and the second connecting rod and the second swing connecting rod, the broken arch shaft A and the broken arch shaft B distributed on one longitudinal side are driven to move separately through the double-drive motor, the moving directions and the speeds of the broken arch shaft A and the broken arch shaft B can be changed, rotation can be realized according to material accumulation of different structures, better broken arch can be realized, the uniformity of cloth can be submitted, the load power of the driving motor can be reduced, the service life of the double-drive motor is prolonged, the structure is convenient to disassemble and maintain, meanwhile, the overflow chute for the broken arch shaft to pass through the overflow chute when the material is pushed out, the overflow chute, the overflow torque of the broken arch assembly is reduced, and the service life of the broken arch shaft is prolonged, thereby the drive motor, the service life of the broken arch shaft is prolonged service life of the broken arch shaft.

Drawings

Fig. 1 is a schematic top view of an embodiment of the present invention;

FIG. 2 is an enlarged view of a portion of FIG. 1;

fig. 3 is a schematic front view of an embodiment of the present invention;

fig. 4 is a schematic rear view structure diagram of an embodiment of the present invention;

fig. 5 is a left side view structure diagram of the embodiment of the present invention;

fig. 6 is an assembly structure diagram of the arch breaking shaft and the arch breaking assembly in the embodiment of the present invention.

Detailed Description

The present invention will now be further described with reference to the accompanying drawings and detailed description.

The embodiment of the utility model provides a do:

referring to fig. 1 to 6, a dual-drive swing skip includes a cloth holder 1, a traveling wheel 2, a first driving motor 3, and a second driving motor 4, which are disposed on the cloth holder 1, and are defined as extending in a longitudinal direction along a traveling direction of the cloth holder 1, and extending in a transverse direction along a same plane as the longitudinal direction, the cloth holder 1 includes a front plate 11, a rear plate 12, two side plates 13, and a mounting plate 14, the front plate 11, the rear plate 12, and the two side plates 13 form a cloth chute 15, the mounting plate 14 is disposed on a longitudinal side of the cloth chute 15 and fixedly connected to the two side plates 13, the first driving motor 3 and the second driving motor 4 are respectively disposed on two lateral sides of the mounting plate 14, five arch breaking shafts 5 are longitudinally and rotatably disposed in parallel in the cloth chute 15, each arch breaking shaft 5 is divided into two groups, and respectively includes an arch breaking shaft a51 disposed on the longitudinal side and an arch breaking shaft B52 disposed on the other longitudinal side, the arch breaking shaft a51 disposed on the longitudinal side and an arch shaft B52 disposed on the longitudinal side, the arch breaking shaft a free end of the arch shaft a first connecting rod 7 is hinged to a free connecting rod 7, the second connecting rod 21 is hinged to the eccentric rod 7, and a free connecting rod 21 of the first eccentric rod 7 connected to the second connecting rod 7 connected to the eccentric rod 9, the second driving motor 4 is connected with the second eccentric disc 24 through the second driving assembly 20, and specifically, the first driving assembly 10 and the second driving assembly 20 respectively include a transmission shaft 102 rotatably arranged on the mounting plate 14 through a bearing seat 101, a driving pulley 103 arranged on the output end of the first driving motor 3 or the second driving motor 4, a driven pulley 104 arranged on the transmission shaft 102, and a belt wound on the driving pulley 103 and the driven pulley 104, the first eccentric disc 9 or the second eccentric disc 24 is arranged at one axial end of the transmission shaft 102, the arch breaking assembly 30 is arranged on the arch breaking shaft 5, a material overflow groove 31 is formed in the arch breaking assembly 30, the material overflow groove 31 is used for passing through materials, the brush assembly 40 is arranged at the upper end of the front plate 11, and the scraping assembly 50 is arranged at the lower end of the front plate 11.

The double-drive swing skip car comprises a first driving motor 3, a first eccentric wheel 9, a first swing connecting rod 7, a first swing rod 6 and a second driving motor 4, wherein the first driving motor drives the first eccentric wheel 9 to move through a first transmission assembly 10, the second driving motor 4 drives a second eccentric wheel 24 to move through a second transmission assembly 20, the broken arch shaft A51 and the broken arch shaft B52 are driven to swing through the structures of the first eccentric wheel 9 and a first connecting rod 8 and the second swing connecting rod 22 and the second swing connecting rod 21, the broken arch shaft A51 and the broken arch shaft B52 are respectively driven to move separately through a double-driving motor, the moving direction speeds of the broken arch shaft A51 and the broken arch shaft B52 can be changed, rotation can be achieved according to material accumulation of different structures, good arch breaking and uniformity of cloth are submitted, the load power of the driving motor can be reduced, the service life of the double-drive skip car is prolonged, the structure is convenient to disassemble and maintain, meanwhile, a material overflow trough 31 for the broken material to pass through when the material is pushed, the overflow trough 30 enters the overflow trough 5, the overflow trough 30, the service life of the overflow trough is prolonged, and the overflow torque of the overflow trough is reduced, and the overflow motor is further reduced.

In this embodiment, the arch breaking assembly 30 includes that the cover body 32 on the arch breaking shaft 5 is located to the cover body, encircles be equipped with two rows of mounting holes 33 on the cover body 32, the row form mounting hole 33 distributes along the axial direction of the cover body 32, each the embedded mount pad 34 that is equipped with of mount hole 33, be equipped with rake teeth 35 on the mount pad 34, be in same row form be equipped with broken arch blade 36 on the rake teeth 35, the discharge chute 31 distributes between broken arch blade 36 and the cover body 32, the length dimension of rake teeth 35 along the radial direction of the cover body 32 is greater than the width dimension of broken arch blade 36 along the radial direction of the cover body 32.

Inlay through mount pad 34 and locate in mounting hole 33 and install on the cover body 32, improve the fastness of connecting to set up on the mount pad 34 on rake teeth 35 and the rake teeth 35 and set up broken arch blade 36, when the material of caking, manage it through rake teeth 35's effect and expect, and dial the material through broken arch blade 36, reduce its initial effort to broken arch blade 36's influence, reduce its dynamics of bearing, its homogeneity that improves the cloth.

The brush assembly 40 is used for removing dust at a discharge port of the hopper and on the pressure head assembly, so that the use safety is improved; the scraping assembly 50 includes a scraping cylinder 501 and a scraping plate 502 disposed on the scraping cylinder 501, and is used for removing redundant materials on the mold frame and assisting in distributing materials, which is the prior art and is not described herein in any more detail.

While the invention has been particularly shown and described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (6)

1. The utility model provides a dual drive swing skip, includes cloth frame, locates walking wheel, first driving motor and the second driving motor on the cloth frame, its characterized in that: the cloth frame comprises a front plate, a rear plate, two side plates and a mounting plate, wherein the front plate, the rear plate and the two side plates form a cloth chute, the mounting plate is arranged on one longitudinal side of the cloth chute and fixedly connected with the two side plates, a first driving motor and a second driving motor are respectively arranged on two transverse sides of the mounting plate, at least four broken arch shafts are longitudinally and rotatably arranged in the cloth chute side by side, each broken arch shaft is divided into two groups and respectively comprises a broken arch shaft A distributed on one longitudinal side and a broken arch shaft B distributed on the other longitudinal side, a first swing rod is arranged at one axial end of each broken arch shaft A and positioned outside the cloth chute, a first swing connecting rod is hinged to the free end of each first swing connecting rod, a first connecting rod is hinged to the free end of the first swing connecting rod, a first eccentric disc is connected to the free end of the first connecting rod, the first driving motor is connected with the first eccentric disc through a first transmission assembly, the other axial end of each broken arch shaft B is hinged to a second swing connecting rod, and the second eccentric disc is connected with a second swing connecting rod through a second swing connecting rod.

2. The dual drive oscillating skip car of claim 1, characterized in that: first drive assembly, second drive assembly all include through the bearing frame rotationally locate the transmission shaft on the mounting panel, locate drive pulley on first driving motor or second driving motor's the output, locate the epaxial driven pulleys of transmission and twine the belt on drive pulley and driven pulleys, the axial one end of transmission shaft is located to first eccentric disc or second eccentric disc.

3. The dual-drive oscillating skip car according to claim 1 or 2, characterized in that: the arch breaking assembly comprises a sleeve body sleeved on an arch breaking shaft, and is surrounded with at least one row of mounting holes arranged on the sleeve body, and the mounting holes are distributed along the axial direction of the sleeve body, each mounting seat is embedded in the mounting holes, rake teeth are arranged on the mounting seats, the rake teeth are arranged in the same row, arch breaking blades are arranged on the rake teeth, and overflow troughs are distributed between the arch breaking blades and the sleeve body.

4. The dual drive oscillating skip car of claim 3, characterized in that: the length dimension of the rake teeth along the radial direction of the sleeve body is larger than the width dimension of the arch breaking blade along the radial direction of the sleeve body.

5. The dual drive oscillating skip car of claim 4, characterized in that: the upper end of the front plate is provided with a brush component.

6. The dual drive oscillating skip car of claim 4, characterized in that: and a scraping component is arranged at the lower end of the front plate.

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