CN216155722U

CN216155722U - Swinging mechanism for pushing sludge batching stack

Info

Publication number: CN216155722U
Application number: CN202122149514.1U
Authority: CN
Inventors: 谭微; 白絮飞; 李莉; 罗淑玲; 冯澎
Original assignee: Dalian Qingwu Environmental Protection Technology Co ltd
Current assignee: Dalian Qingwu Environmental Protection Technology Co ltd
Priority date: 2021-09-07
Filing date: 2021-09-07
Publication date: 2022-04-01
Anticipated expiration: 2031-09-07

Abstract

A swinging mechanism for pushing and stacking sludge rolled cloth, which belongs to the field of sludge treatment and aims to solve the problem that the rolled cloth coated with sludge can be uniformly and reciprocally paved, a swinging frame is used for receiving and conveying the rolled cloth when being horizontally pushed by a push rod to reciprocally swing; the track group comprises two track panels, and the two track panels are opposite and fixed on two sides of the rack at the position near the end point of the conveying path of the cloth rolling reciprocating conveying mechanism; and the swinging device is fixedly arranged on the track panel, is matched with the swinging device to form a guide rod of a multi-angle vertical displacement track, and the lower part of the swinging device is fixed on the side plate frame of the swinging frame, so that the swinging frame can swing along with the guide rod due to the fixation of the swinging device on the track panel.

Description

Swinging mechanism for pushing sludge batching stack

Technical Field

The utility model belongs to the field of sludge treatment, and relates to a swinging mechanism for pushing a sludge batching stack of a sludge spreading machine.

Background

The stone material of mud is handled and is conveyed the mud cladding in the batching to pile up the batching of cladding mud and lay flatly in the basket and heavily press by the weight press, chinese utility model patent CN207347377U discloses a material structure and high wet material squeezer are carried in squeezing to high wet material, and disclosed when annotating the material driver drive annotate the material pipe edge during the extending direction reciprocating motion of notes material pipe, the filter cloth also reciprocating motion thereupon, can drive adaptation this moment the filter cloth axle puts down the filter cloth to and the switch of synchronous control discharge gate is in order to realize the ejection of compact, the output is waited to squeeze promptly high wet material to hold in the chamber. In the scheme, the sludge is covered by the filter cloth layer by layer in the accommodating cavity, and the uniformity and the synchronism of the sludge laying are required to be improved.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem that the coiled cloth for coating the sludge can be uniformly spread in a reciprocating way, the utility model provides the following technical scheme: a swinging mechanism for pushing sludge batching to stack comprises

The swinging frame is used for carrying and conveying the batching when the swinging frame is horizontally pushed by the push rod to swing back and forth;

the track group comprises two track panels, and the two track panels are opposite and fixed on two sides of the rack at the position near the end point of the conveying path of the cloth rolling reciprocating conveying mechanism;

and the swinging device is fixedly arranged on the track panel, a guide rod forming a multi-angle vertical displacement track is matched with the swinging device, and the lower part of the swinging device is fixed on a side plate frame of the swinging frame, so that the swinging frame can swing along with the guide rod due to the fixation of the swinging device on the track panel.

As a supplement of the technical scheme, the swing frame is mainly formed by connecting two panel frames which are gradually inclined through a side plate frame, the upper end wide opening is an inlet of a double-layer cloth roll for coating sludge, the lower end narrow opening is an outlet of the double-layer cloth roll for coating sludge, and the double-layer cloth roll for coating sludge can pass through the hollow space with the wide upper end and the narrow lower end of the frame.

In addition to the above-mentioned technical solution, the swing frame comprises

The wheel set comprises two rollers which are oppositely arranged and rotatably connected to two side plate frames of the swing frame, the track hole which is formed in the track panel and used for rolling the rollers is matched with the swing device and fixed on the track panel, so that the swing frame is formed along with the displacement track formed by the swing of the guide rod, and the formed track hole is in a shape with a high middle part and two low ends.

As a supplement of the technical scheme, an included angle formed by a vertical line at the middle high position of the track hole and a track line from the middle high position to the end position of the track hole is 25-35 degrees.

The technical scheme is supplemented that one of the two face plate frames, which is farther away from the push rod, has the upper end extending obliquely in the direction away from the push rod and exceeding the original inclination degree of the face plate frame, and the face plate frame is higher than the other face plate frame.

The guide rod is limited at the end part of the fixing part and fixed with the end part through a clamping plate connected with the end part, so that the lower part of the guide rod is fixed on the fixing part of the side plate frame of the swing frame.

As a supplement to the technical scheme, the push rod is connected with the end part of the swing frame, both sides of the push rod are connected with at least one transverse rod extending transversely, the transverse rod extending transversely is provided with a longitudinal extension rod, and the longitudinal extension rod is connected with the swing frame.

As a supplement to the technical proposal, the fixed plate is connected with both sides of the panel frame of the swing frame or connected with the side panel frame of the swing frame.

As a complement to the solution, the oscillating device is a spherical plain bearing.

As a supplement to the technical solution, the oscillating device includes a connecting portion, a rolling bearing, an installation shaft, and a linear bearing, an outer ring of the rolling bearing is fixedly installed on the connecting portion, the installation shaft is fixed on the linear bearing, a shaft portion of the installation shaft is matched with an inner ring of the rolling bearing, the shaft portion of the installation shaft is fixed in the inner ring of the rolling bearing, a vertical inner hole for installing a guide rod is provided on the linear bearing, the vertical inner hole limits a moving direction of the guide rod, a horizontal traction applied to the guide rod acts on the linear bearing and the installation shaft, the inner ring of the rolling bearing is caused to rotate relative to the outer ring, and the guide rod and the linear bearing generate rotational displacement by using the installation shaft as a rotating shaft.

Has the advantages that: the swinging device of the utility model can allow the guide rod to swing back and forth by taking the guide rod as a swinging base point, so that the swinging frame is pushed forwards or pulled backwards, namely the cloth rolling in the swinging frame can be laid by reciprocating movement. This structure makes mud lay promptly before piling up on the batching, need not to consider the synchronism problem, lays evenly to the basket opening part does not have and shelters from and spatial structure is compact and reasonable, can not hinder the batching conveying, and the swing lays that efficiency is higher.

Drawings

Fig. 1 is a schematic view of a sludge spreader.

Fig. 2 is a schematic view of a swing mechanism of a sludge spreader.

Fig. 3 is a schematic view of a swing device of a sludge spreader.

Fig. 4 is a schematic view of the reciprocating mechanism of the sludge spreader.

1. The automatic cloth rolling machine comprises a machine frame, 2 filter cloth rolling shafts, 3 filter cloth rolling shafts, 4 rolling cloth reciprocating conveying mechanisms, 5 mud outlets, 6 spreading shafts, 7 reciprocating mechanisms, 8 push rods, 9 swinging mechanisms, 10 cloth guide rollers, 11 swinging frames, 12 track panels, 13 swinging devices, 13-1 joint bearings, 13-2 rolling bearings, 13-3 mounting shafts, 13-4 linear bearings, 13-5 first flange joints, 13-6 second flange joints, 13-7 connecting shafts, 14 guide rods, 15 panel frames, 16 side panel frames, 17 rollers, 18 supports, 19 guide rods, 20 connecting plates, 21 driving motors, 22 driving chain wheels, 23 chains, 24 driven chain wheels, 25 micro shafts, 26 bearings and 27 push rod connecting rods.

Detailed Description

In order to facilitate an understanding of the utility model, the utility model will be described in more detail below with reference to the accompanying drawings and specific embodiments. The utility model may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the utility model herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

In one embodiment, FIG. 1 is a schematic view of a sludge spreader according to the present application, including

A frame 1.

Two filter cloth rolling shafts are arranged at different positions of the frame 1 and are wrapped by rolling cloth.

And the batching reciprocating transmission mechanism 4 is arranged on the frame 1, and the transmission surface reciprocates circularly and is used for transmitting two layers of batching which is horizontally unfolded at different horizontal heights. And a sludge outlet 5 for discharging sludge towards the lower-layer coiled cloth.

The flattening shaft 6 is positioned at the lower part of the sludge outlet 5 and is used for tightly coating the upper-layer cloth roll and the lower-layer cloth roll with sludge, namely the sludge is tightly coated by the two layers of cloth rolls below the flattening shaft and the sludge is flattened between the two layers of cloth rolls.

And the reciprocating mechanism 7 is arranged on the frame 1 and horizontally pushes and pulls the push rod 8 in a reciprocating mode. And the push rod 8 is connected between the reciprocating mechanism 7 and the swinging mechanism 9, and pushes the swinging mechanism 9 to swing in a reciprocating mode when the reciprocating mechanism 7 horizontally pushes and pulls the push rod 8 in a reciprocating mode.

And a swinging mechanism 9, the fixed part of which is arranged on the frame 1 at a position near the end point of the conveying path of the cloth rolling reciprocating conveying mechanism 4, and the swinging part takes the fixed part as a swinging reference, receives the horizontally conveyed cloth rolling coated with the sludge when the swinging part is pushed by the push rod 8 to swing in a reciprocating mode horizontally, and changes the received cloth rolling from the horizontal conveying to the downward and reciprocating horizontal conveying due to the reciprocating swinging of the swinging part, so that the cloth rolling is horizontally and repeatedly stacked in the pressure-bearing frame. The filter cloth is not needed to be retreated in the material spreading process, and the stacking efficiency is improved by swinging and stacking. This scheme can be to double-deck filter cloth stone to level and smooth piling up in the pressure-bearing framework.

In one scheme, the pressure-bearing frame body is selected as a basket. As a preferred scheme, the sludge spreading machine shown in figure 1 comprises a frame 1, a first filter cloth rolling shaft 2, a second filter cloth rolling shaft 3, a cloth rolling reciprocating transmission mechanism 4, a sludge outlet 5, a flattening shaft 6, a reciprocating mechanism 7, a push rod 8 and a swinging mechanism 9, wherein the filter cloth rolling shafts are wrapped by rolled cloth, the first filter cloth rolling shaft 2 and the second filter cloth rolling shaft 3 are fixed on the frame 1, the first filter cloth rolling shaft 2 is positioned above the cloth rolling reciprocating transmission mechanism 4, the flattening shaft 6 and a cloth guide roller 10 which are installed on the frame 1 are respectively arranged at two sides of the first filter cloth rolling shaft 2, the cloth guide roller 10 is positioned between the first filter cloth rolling shaft 2 and the second filter cloth rolling shaft 3, the first filter cloth rolling shaft 2 is higher than the second filter cloth rolling shaft 3 in installation position, the sludge outlet 5 is installed on the frame 1 and is positioned above a horizontal transmission terminal at one side of the cloth rolling reciprocating transmission mechanism 4, and a fixing part 9 near the horizontal transmission terminal at the other side of the cloth rolling reciprocating transmission mechanism 4 is fixed on the frame 1 The swinging part of the swinging mechanism 9 extends downwards and is connected with a push rod 8 on the frame 1 below the batching reciprocating conveying mechanism 4, the push rod 8 is connected with a part of the reciprocating mechanism 7 for pushing the push rod 8 to move, and the reciprocating mechanism 7 is arranged on the frame 1 below the batching reciprocating conveying mechanism 4.

In this embodiment, further explaining the implementation of the sludge spreader, the second filter cloth rolling shaft 3 of the sludge spreader is driven to rotate, the filter cloth wrapped by the second filter cloth rolling shaft 3 is horizontally unfolded and horizontally conveyed to a position below the first filter cloth rolling shaft 2 as a lower layer rolling cloth by the rolling cloth reciprocating conveying mechanism 4, the sludge outlet 5 discharges sludge towards the lower layer rolling cloth at the position, the first filter cloth rolling shaft 2 positioned above the lower layer rolling cloth is driven to rotate, under the guiding action of the cloth guide roller 10, the filter cloth wrapped by the first filter cloth rolling shaft 2 is horizontally unfolded and covered on the sludge as an upper layer rolling cloth, the sludge is horizontally conveyed to a position of the flattening shaft 6 by the rolling cloth reciprocating conveying mechanism 4 to be flattened, so that the upper layer rolling cloth and the lower layer rolling cloth are vertically wrapped and flattened, and are horizontally conveyed to one end horizontal conveying terminal point by the rolling cloth reciprocating conveying mechanism 4, the double-layer cloth roll of the coated sludge is received in the swing frame 11 by the swing mechanism 9, and the cloth roll is continuously conveyed downwards along with the swing mechanism 9 in the reciprocating swing process so that the cloth roll is horizontally paved in the frame body in a reciprocating mode layer by layer.

Preferably, the batching reciprocating conveying mechanism 4 is one of a conveying belt or a conveying chain plate, and the end point of the conveying path refers to the position where the horizontal conveying of the batching reciprocating conveying mechanism 4 changes direction, and can be understood as the position where the conveying belt or the conveying chain changes direction from horizontal to downward and returns.

In an embodiment, the difference from the above-mentioned embodiment is that according to the sludge spreader shown in fig. 1, the sludge spreader further includes a cloth guide roller 10 installed on the frame 1 below the filter cloth winding shaft of the upper layer winding cloth, guiding the lower layer winding cloth to be transferred to a corresponding position below the filter cloth winding shaft of the upper layer winding cloth, a sludge discharge port 5 located above the position of the cloth guide roller 10 discharges sludge to the lower layer winding cloth, and the upper layer winding cloth is unwound from the filter cloth winding shaft and covers the sludge.

In an embodiment, according to the schematic diagram of the swing mechanism 9 of the sludge spreader shown in fig. 2, for solving the problem that the rolled cloth coated with the sludge can be evenly spread in a reciprocating manner, the swing mechanism 9 comprises

The swinging frame 11 is used for receiving and conveying the batching when the pushing rod 8 horizontally pushes the reciprocating swinging.

And a track group which comprises two track panels 12, wherein the two track panels 12 are opposite and fixed on two sides of the frame 1 at the position near the end point of the conveying path of the batching reciprocating conveying mechanism 4.

And a swing device fixedly installed on the track panel 12, the lower portion of the guide bar 14, which can have a multi-angle vertical displacement in cooperation with the swing device, being fixed on the side frame 16 of the swing frame 11, so that the swing frame 11 can swing along with the guide bar 14 due to the fixing of the swing device on the track panel 12.

It will be appreciated that the guide bar 14 is fixed to the swing frame 11, and the guide bar 14 is mounted on a swing device, which enables the guide bar 14 to have a multi-angle vertical displacement, i.e. the guide bar 14 forms a swing motion track, and the swing frame fixed to the guide bar 14 is driven to form a swing motion track.

In this embodiment, the swinging manner of the swinging mechanism 9 is further described, the swinging mechanism 9 is horizontally pushed by the push rod 8, the push rod 8 moves forward to push the swinging mechanism 9 to swing forward, and the push rod 8 moves backward to pull the swinging mechanism 9 to swing backward. The push rod 8 moves backwards to pull the swing mechanism 9 to swing backwards, and the push rod 8 moves forwards to push the swing mechanism 9 to swing forwards.

The plane of the swing mechanism 9 is vertical to the horizontal plane, and in the initial position: the push rod 8 moves forward to push the swing mechanism 9 to swing forward, namely, the swing frame 11 is pushed forward, and the guide rod 14 fixed with the swing frame 11 moves forward and downward because the upper end part is restrained by the swing device. The reason for this is that the swing frame 11 tends to move forward when pushed, and since the swing frame 11 is fixed to the guide bar 14, if the guide bar 14 is attached to the track panel 12 and the track panel 12 is fixed to the frame 1, the swing frame 11 is fixed to the frame 1 and cannot be pushed forward. The utility model sets up the upper end of the guide lever 14 to mount inside the swing device, the swing device is fixed on the track panel 12, the track panel 12 is fixed on framework 1, the swing device can allow the guide lever 14 to swing back and forth with it as the swing base point, therefore the swing frame 11 is pushed forward, the guide lever 14 fixed with the swing frame 11 moves forward and downward because of the upper end because of the constraint of the swing device. The push rod 8 moves backwards to pull back the swing mechanism 9 to swing backwards, namely to pull the swing frame 11 backwards, the swing frame 11 is pulled backwards, and the guide rod 14 fixed with the swing frame 11 moves backwards and upwards due to the constraint of the swing device at the upper end part. And restoring the position of the surface of the swing mechanism 9, which is vertical to the horizontal plane.

The swing mechanism 9 is restored to be perpendicular to the horizontal plane, and in the initial position of the position: the push rod 8 moves backwards to pull the swing mechanism 9 to swing backwards, namely to pull the swing frame 11 backwards, the swing frame 11 is pulled backwards, and the guide rod 14 fixed with the swing frame 11 moves backwards and downwards due to the constraint of the swing device at the upper end part. When the push rod 8 moves forward and pushes the swing mechanism 9 to swing forward, that is, pushes the swing frame 11 forward, the swing frame 11 is pushed forward, and the guide rod 14 fixed to the swing frame 11 moves forward and upward due to the constraint of the swing device at the upper end. And restoring the position of the surface of the swing mechanism 9, which is vertical to the horizontal plane.

The swinging device can allow the guide rod 14 to swing back and forth by taking the guide rod as a swinging base point, so that the swinging frame is pushed forwards or pulled backwards, namely, the cloth rolling in the swinging frame can be laid by reciprocating movement. This structure makes pile up preceding mud and lay on the batching promptly, need not to consider the synchronism problem to it is even to lay, and the basket opening part does not shelter from and spatial structure is compact and reasonable, can not hinder the batching conveying, and the swing is laid efficiency height.

Preferably, at least one fixing portion extends from a lower portion of the side plate frame 16 of the swing frame 11 to both sides, and the fixing portion is fixed to the end portion of the fixing portion by limiting the guide rod 14 at the end portion of the fixing portion by a clamp plate connected to the end portion, so that the lower portion of the guide rod 14 is fixed to the fixing portion of the side plate frame 16 of the swing frame 11. The fixing stability of the swing frame 11 and the guide bar 14 can be improved.

Preferably, the swing frame 11 of the swing mechanism 9 is mainly formed by connecting two panel frames 15 which are gradually inclined through side plate frames 16 to form a frame 1 which is wide at the top and narrow at the bottom, the wide opening at the top is an inlet of the double-layer cloth for coating the sludge, the narrow opening at the bottom is an outlet of the double-layer cloth for coating the sludge, and the wide-top and narrow-bottom hollow part of the frame 1 can enable the double-layer cloth for coating the sludge to pass through. The form of the swing frame 11 with wide top and narrow bottom can prevent the rolled cloth from entering the swing frame 11 and achieve the effect of uniform laying after being output from the outlet.

Preferably, one of the two face plate frames 15 which is further away from the push rod 8 has its upper end extending obliquely away from the push rod 8 and beyond the original inclination of the face plate frame, and the face plate frame 15 is made higher than the other face plate frame 15. The cloth rolling inertia can be buffered, and the phenomenon that the cloth is easy to rush out of the panel frame 15 due to the fact that the cloth is conveyed and turned between the cloth rolling reciprocating conveying mechanism 4 and the swing frame 11 is avoided as much as possible.

Preferably, the push rod 8 is connected to the end of the swing frame 11, and both sides of the push rod are connected to at least one transverse rod extending transversely, and the transverse rod is provided with a longitudinally extending rod at the terminal extending transversely, and the longitudinally extending rod is connected to the swing frame 11. In one arrangement, the dead plate is attached to both sides of the panel frame 15 of the swing frame 11 or to the side panel frame 16 of the swing frame 11.

In an embodiment, the difference from the above embodiment is that the swing frame 11 of the swing mechanism 9 further includes a wheel set, in a practical implementation, in order to further stabilize the swing frame 11 and improve the swinging smoothness of the swing frame 11, the wheel set includes two rollers 17, the two rollers 17 are oppositely disposed and rotatably connected to two side frames 16 of the swing frame 11, the track panel 12 is provided with a track hole for rolling the rollers 17, the track hole is formed by matching with a displacement track formed by the swing device fixed on the track panel 12 so that the swing frame 11 swings along with the guide rod 14, and the formed track hole is in a shape with a high middle and low ends. The roller 17 is rolled along the track hole and forms a reciprocating swing track. The shape of the track hole of the rolling wheel 17 is easy to set as a displacement track without considering that the swing device is fixed on the track panel 12 and the swing frame 11 swings with the guide rod 14 to form a displacement track, and the arrangement mode easily causes the problems that the guide rod is broken by stress or the swing device is damaged, and the rotation stability can not be ensured, so the stacking and laying efficiency is reduced. The scheme of the utility model improves the stability of the rotating system and ensures the stacking and laying efficiency.

Preferably, an included angle formed by a vertical line at a middle high position of the track hole and a track line from the middle position to the end position of the track hole is 25-35 degrees.

In one embodiment, the oscillating device is a spherical plain bearing 13-1.

In one embodiment, according to the swing device of the sludge spreader shown in fig. 3, the swing device does not use the knuckle bearing 13-1 because the knuckle bearing 13-1 allows the roller 17 to roll along a track hole having a shape of a high middle and low ends, but in a terminal position where the roller rolls to a low end of the track hole, the guide bar 14 is prevented from moving within the knuckle bearing 13-1, causing a jamming problem, and causing some damage to both the guide bar 14 and the knuckle bearing 13-1. In order to solve the problem, the rotation angle of the joint bearing 13-1 can be increased, and the generation of the shell clamping phenomenon can be avoided, the embodiment provides a new swing device, which comprises a connecting part, a rolling bearing 13-2, a mounting shaft 13-3 and a linear bearing 13-4, wherein the outer ring of the rolling bearing 13-2 is fixedly mounted on the connecting part, the mounting shaft 13-3 is fixed on the linear bearing 13-4, the shaft part of the mounting shaft 13-3 is matched with the inner ring of the rolling bearing 13-2, the shaft part of the mounting shaft 13-3 is fixed in the inner ring of the rolling bearing 13-2, the linear bearing 13-4 is provided with a vertical inner hole for mounting a guide rod 14, the vertical inner hole limits the moving direction of the guide rod 14, and the horizontal traction applied to the guide rod 14 acts on the linear bearing 13-4 and the mounting shaft 13-3, causing the inner race of the rolling bearing 13-2 to rotate relative to the outer race to rotationally displace the guide rod 14 and the linear bearing 13-4 about the mounting shaft 13-3. Utility model's horizontal traction that guide bar 14 received acts on linear bearing 13-4 and installation axle 13-3, arouses that antifriction bearing 13-2's inner circle rotates for the outer lane and makes guide bar 14 and linear bearing 13-4 produce the rotary displacement for the pivot with installation axle 13-3 to through antifriction bearing 13-2's turnability, make the rotation scope increased, when the gyro wheel rolls to the terminal position that the orbit hole both ends are low, guide bar 14's removal probably then no longer is blocked the shell through antifriction bearing 13-2 rotation of the bigger angle.

Preferably, the track panel 12 has the connection portion fixed thereto by a connection shaft 13-7.

Preferably, the connecting part comprises a first flange joint 13-5 and a second flange joint 13-6, the flange joints comprise disk-shaped bodies, holes for fixing are formed on the peripheries of the disk-shaped bodies, hollow bulges are formed in the centers of the disk-shaped bodies, and the top surface of the projection has an inner hole 13, the top surface of the projection of the first flange joint 13-5 has a certain thickness, the inner wall of the hole of the inner hole opened on the flange joint is provided with screw threads which are matched with the screw threads on the circumferential surface of the shaft end part at one end of the connecting shaft 13-7, so that the distance between the connecting shaft 13-7 and the connecting part is adjusted by the screw thread matching, the outer ring of the rolling bearing 13-2 is fixed on the raised inner wall of the second flange joint 13-6, the rolling bearing 13-2 is fixed in the raised hollow, the first flange joint 13-5 and the second flange joint 13-6 are fixed by a connecting piece through holes on the disk-shaped body. The connecting portion of this embodiment can conveniently adjust the distance between connecting piece and track panel 12 through threaded connection for the distance between track panel 12 and guide bar 14 is adjustable, and two-wayly provides hollow structure, installs antifriction bearing in hollow structure and can improve stability.

Preferably, the end face of the other end of the connecting shaft 13-7 is fixed on the track panel 12.

Preferably, the mounting shaft 13-3 includes a flat surface and a shaft portion integrally formed with or separately connected to the flat surface.

Preferably, the rolling bearing 13-2 is a ball bearing.

Preferably, the connecting piece is a bolt connecting piece or a screw connecting piece.

In one embodiment, the reciprocating mechanism 7 of the sludge spreader according to the illustration of fig. 4 comprises

A bracket 18 fixed on the frame 1.

And a guide rod 19 having both ends fixed to the holder 18 and arranged in a horizontal direction in an axial direction.

A connecting plate 20, the connecting plate 20 is connected with the push rod 8, the plate surface of the connecting plate 20 is provided with a vertical long hole and a guide hole for leading the guide rod 19 to pass through for horizontally guiding the connecting plate 20.

And a driving motor 21 fixed to the bracket 18.

And a driving sprocket 22 connected to a rotation shaft of the driving motor 21 and driven to rotate by the driving motor 21.

And a chain 23 connected between the driving sprocket 22 and the driven sprocket 24, wherein the length direction of the chain 23 is configured to be parallel to the axial direction of the guide bar 19, the chain 23 is driven by the driving sprocket 22 and drives the driven sprocket 24 to rotate, the position where the chain 23 meshes with the driving sprocket 22 and the driven sprocket 24 is a direction changing position of the chain 23, and the chain 23 has a vertical displacement in the direction changing position due to the meshing engagement of the chain 23 with the driving chain 23 and the driven chain 23 so that the chain 23 can horizontally reciprocate. The micro shaft 25 includes an insertion portion that is inserted into the chain 23 and serves as a joint of the chain 23 to move the micro shaft 25 along with the chain 23, and a protruding portion that is engaged with the bearing 26.

The bearing 26 is an external bearing 26 of the micro-shaft 25, is sleeved on the periphery of the protruding part of the micro-shaft 25 and is clamped by the vertical long hole on the connecting plate 20, so that the bearing 26 can move horizontally and reciprocally along with the chain 23 along with the micro-shaft 25, and vertically move in the vertical long hole of the connecting plate 20 at the direction changing position of the chain 23 to match the direction changing of the chain 23, so that the connecting plate 20 only has a horizontal reciprocating movement track, and the push rod 8 mounted on the connecting plate 20 is horizontally and reciprocally driven.

In this embodiment, to further explain the reciprocating motion mode of the reciprocating mechanism 7, the driving motor 21 drives the driving sprocket 22 to rotate and the chain 23 disposed between the two sprockets drives the driven sprocket 24 to follow up, so as to implement the horizontal reciprocating motion of the chain 23 with the direction changed by the position of the sprockets, the micro shaft 25 is embedded in the joint of the chain 23, the micro shaft 25 can move along with the chain 23, the connecting plate 20 is connected with the micro shaft 25, so as to implement the horizontal reciprocating motion of the micro shaft 25, and the connecting plate 20 is provided with a vertical elongated hole, so that at the direction changed position, the micro shaft 25 can move vertically in the elongated hole to change the direction, so as to implement the horizontal reciprocating motion of the micro shaft 25, thereby driving the push rod 8 or the push rod connecting rod 27 connected to the connecting plate 20 to reciprocate.

Preferably, the connecting plate 20 of the reciprocating mechanism 7 is connected to the push rod 8 through a push rod connecting rod 27, the push rod connecting rod 27 has a hollow cavity inserted into the push rod 8, the push rod connecting rod 27 has bolt holes thereon for matching with bolts inserted into the hollow cavity for fastening the connecting rod, and the bolt holes are distributed along the axial direction of the push rod connecting rod 27, so that the length of the connecting rod inserted into the hollow cavity is adjustable.

Preferably, the connecting plate 20 of the reciprocating mechanism 7 is provided with a plurality of bolt holes for fixing the push rod connecting rod 27 on the connecting plate 20, and the bolt holes are distributed vertically, so that the push rod connecting rod 27 is vertically arranged on the connecting plate 20 and is adjustable in height.

Preferably, the reciprocating mechanism 7 has two guide rods 19 which are arranged in parallel in the vertical direction, and the two guide rods 19 are respectively guided in the horizontal direction to the connecting plate 20 through an upper guide hole and a lower guide hole of the connecting plate 20.

Preferably, the support 18 of the reciprocating mechanism 7 is fixed to the lower portion of the frame 1 by bolts, such as the reciprocating mechanism 7 is fixed to a sheet metal part or a support frame at the bottom of the frame 1, and such as a back plate of the reciprocating mechanism 7 is fixed to a sheet metal part or a support frame at a side plate of the frame 1. The cooperation that this embodiment passes through connecting plate, chain, micro-shaft, bearing can realize the diversion straight line reciprocating motion of connecting plate to realized can providing the reciprocal driven needs of straight line in mud spreading material, this structure can be fit for the longer transmission distance that mud spreading machine needs.

The above description is only for the purpose of creating a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can substitute or change the technical solution and the inventive concept of the present invention within the technical scope of the present invention.

Claims

1. A swinging mechanism for pushing a sludge batching stack is characterized by comprising

The swinging frame (11) is used for carrying and transmitting the cloth rolls when being horizontally pushed to swing back and forth by the push rod (8);

the track group comprises two track panels (12), and the two track panels (12) are opposite and fixed on two sides of the rack (1) at the position near the end point of the conveying path of the batching reciprocating conveying mechanism (4);

and the swinging device is fixedly arranged on the track panel (12), a guide rod (14) forming a multi-angle vertical displacement track is matched with the swinging device, and the lower part of the swinging device is fixed on a side plate frame (16) of the swinging frame (11), so that the swinging frame (11) can swing along with the guide rod (14) due to the fixation of the swinging device on the track panel (12).

2. The oscillating mechanism of pushing a stack of sludge coils of claim 1,

the swing frame (11) is mainly formed by connecting two panel frames (15) which are gradually inclined through side plate frames (16) to form a machine frame (1) which is wide at the upper end and narrow at the lower end, the wide opening at the upper end is an inlet of a double-layer cloth roll for coating sludge, the narrow opening at the lower end is an outlet of the double-layer cloth roll for coating sludge, and the double-layer cloth roll for coating sludge can pass through the hollow space which is wide at the upper end and narrow at the lower end of the machine frame (1).

3. The oscillating mechanism of pushing a stack of sludge rolls of claim 2,

the swing frame (11) comprises

The wheel set comprises two rollers (17), the two rollers (17) are oppositely arranged and rotatably connected to two side plate frames (16) of the swing frame (11), track holes for the rollers (17) to roll are formed in the track panel (12), the track holes are matched with the swing device and fixed on the track panel (12), so that the swing frame (11) is formed along with the displacement track formed by the swing of the guide rod (14), and the formed track holes are in a shape with a high middle part and low ends.

4. The oscillating mechanism of pushing a stack of sludge coils of claim 3,

the included angle formed by a vertical line at the middle high position of the track hole and a track line from the middle high position to the end position of the track hole is 25-35 degrees.

5. The oscillating mechanism of pushing a stack of sludge rolls of claim 2,

one of the two panel frames (15) is further away from the push rod (8), and the upper end of the panel frame extends obliquely towards the direction away from the push rod (8) and exceeds the original inclination degree of the panel frame plate, and the panel frame (15) is higher than the other panel frame (15).

6. The oscillating mechanism of pushing a stack of sludge rolls of claim 2,

at least one fixing part extends from the lower part of the side plate frame (16) of the swing frame (11) to two sides, the fixing part limits the guide rod (14) at the end part of the fixing part and is fixed with the end part through a clamping plate connected with the end part, and the lower part of the guide rod (14) is fixed on the fixing part of the side plate frame (16) of the swing frame (11).

7. The oscillating mechanism of pushing a stack of sludge coils of claim 1,

the push rod (8) is connected with the end part of the swing frame (11), two sides of the push rod are connected with at least one transverse rod extending transversely, the transverse rod extending transversely is provided with a longitudinal extension rod, and the longitudinal extension rod is connected with the swing frame (11).

8. The oscillating mechanism of pushing a stack of sludge coils of claim 7,

the fixing plate is connected with both sides of a panel frame (15) of the swing frame (11) or connected with a side panel frame (16) of the swing frame (11).

9. The oscillating mechanism of pushing a stack of sludge coils of claim 1,

the oscillating device is a joint bearing (13).

10. The oscillating mechanism of pushing a stack of sludge coils of claim 1,

the swinging device comprises a connecting part, a rolling bearing (13-2), a mounting shaft (13-3) and a linear bearing (13-4), wherein the outer ring of the rolling bearing (13-2) is fixedly arranged on the connecting part, the mounting shaft (13-3) is fixed on the linear bearing (13-4), the shaft part of the mounting shaft (13-3) is matched with the inner ring of the rolling bearing (13-2), the shaft part of the mounting shaft (13-3) is fixed in the inner ring of the rolling bearing (13-2), the linear bearing (13-4) is provided with a vertical inner hole for mounting a guide rod (14), the vertical inner hole limits the moving direction of the guide rod (14), the horizontal traction applied to the guide rod (14) acts on the linear bearing (13-4) and the mounting shaft (13-3), and the inner ring of the rolling bearing (13-2) is caused to rotate relative to the outer ring, the guide rod (14) and the linear bearing (13-4) generate rotary displacement by taking the mounting shaft (13-3) as a rotating shaft.