CN111762990A

CN111762990A - Automatic conveying system for sludge recycling treatment

Info

Publication number: CN111762990A
Application number: CN202010652220.8A
Authority: CN
Inventors: 徐香庭; 尹荣庆
Original assignee: Individual
Current assignee: Ganzhou Kepa Electromechanical Automation Co ltd
Priority date: 2020-07-08
Filing date: 2020-07-08
Publication date: 2020-10-13
Anticipated expiration: 2040-07-08
Also published as: CN111762990B

Abstract

The invention provides an automatic conveying system for sludge recycling treatment, which comprises a water filtering mechanism, a pumping mechanism and a filtering mechanism, wherein the pumping mechanism is arranged on the water filtering mechanism, the pumping mechanism is positioned right in front of the water filtering mechanism, the filtering mechanism is arranged on the water filtering mechanism, and the filtering mechanism is positioned right behind the water filtering mechanism; the invention can solve the problem that a large amount of river and lake water forms a lot of silt through the deposition for many years, the river bottom mud is used for replacing clay, the ceramsite prepared by dredging, naturally drying, balling raw materials, preheating, roasting and cooling is called as the river bottom mud ceramsite, and the river bottom mud is used for preparing the ceramsite, so that the soil contention between the building material manufacturing industry and the agricultural land can be reduced, a reasonable way is found for the river bottom mud, the problem of secondary pollution of the river bottom mud is solved, and the purpose of recycling waste is achieved.

Description

Automatic conveying system for sludge recycling treatment

Technical Field

The invention relates to the technical field of sludge regeneration resource recovery, in particular to an automatic conveying system for sludge recycling treatment.

Background

With the annual improvement of the sewage treatment rate in China, the sludge yield is continuously increased, and how to treat the sludge in a harmless, quantitative-reducing, stabilizing and recycling way becomes a new problem; the method mainly adopts various sludge treatment modes such as landfill, carbonization, sea filling, drying and the like for the sludge, the modes have the problems of secondary pollution, energy consumption and space occupation, the resource is the best mode for sludge treatment, the secondary pollution is effectively avoided, and the double cost of resource consumption and high economic expenditure caused by sludge treatment directly can be avoided;

a large amount of river and lake water forms a lot of silt through the sedimentation of many years, utilize the river bottom mud to replace clay, the haydite made by dredging, natural drying, raw material balling, preheating, roasting, cooling is called the haydite of river bottom mud, utilize the river bottom mud to make haydite, not only will reduce building materials manufacturing industry and agricultural land to fight against the soil, but also find the rational way out for the river bottom mud, has solved the secondary pollution problem of the river bottom mud, have achieved the goal of waste reclamation;

therefore, the invention provides an automatic conveying system for sludge recycling treatment, which aims to reasonably solve the problems of extraction and conveying of river bottom sludge and achieve the aim of recycling the river bottom sludge.

Disclosure of Invention

In order to achieve the above object, the present invention adopts the following technical solutions, wherein the automatic sludge recycling and processing conveying system comprises a water filtering mechanism, a pumping and conveying mechanism and a filtering mechanism, the pumping and conveying mechanism is mounted on the water filtering mechanism, the pumping and conveying mechanism is located right in front of the water filtering mechanism, the filtering mechanism is mounted on the water filtering mechanism, and the filtering mechanism is located right behind the water filtering mechanism, wherein:

the water filtering mechanism comprises a bottom plate base frame, an execution cylinder, a chain ring frame, a pushing plate, a sliding guide vertical plate, a shaft lever bracket, a crank connecting rod, a lifting sliding plate, a water filtering transfer frame, a flow guide frame and wheels; the chain link frame is arranged on the bottom plate base frame in a sliding fit mode, the push plates are symmetrically arranged on the bottom plate base frame in a sliding fit mode, the push plates and the chain link frame are mutually connected in a rolling mode through cam followers, the sliding guide vertical plates are arranged on the push plates, the shaft lever supports are arranged on the bottom plate base frame, the crank connecting rods are symmetrically arranged on the shaft lever supports through bearings, shaft heads at two ends of the crank connecting rods are respectively connected with the sliding guide vertical plates and the lifting sliding plates in a rolling mode through the cam followers, the lifting sliding plates are symmetrically arranged on the bottom plate base frame in a sliding fit mode, and the top end faces of the lifting sliding plates are provided with a water filtering transfer frame in a hinged rotation mode, the guide frame is arranged on the base plate frame, and the wheels are uniformly arranged on the base plate frame through bearings; promote chain link frame translation through executing the cylinder and slide, remove through chain link frame linkage thrust plate, drive through the thrust plate and lead smooth riser and remove in step, the rethread is led smooth riser and is slided push-and-pull crank connecting rod and rotate around the axostylus axostyle support to the removal of falling of rise of synchronous realization lift slide, rethread filtration water switching frame and the mutual butt of water conservancy diversion frame have realized the upset conveying of drainage switching frame.

The rotary pumping unit comprises a conveying pipeline, a spiral shaft rod, an execution motor, a gear, a transmission chain, a pressing push block and a sliding sleeve shaft rod; the conveying pipeline is arranged on the pumping mechanism, a spiral shaft rod is arranged in the conveying pipeline through a bearing, an actuating motor is arranged on the conveying pipeline through a motor base, gears are respectively arranged on the spiral shaft rod and the output shaft end of the actuating motor, the spiral shaft rod and the output shaft end of the actuating motor are rotationally connected with each other through a transmission chain meshed with the gears, a pressure applying push block is arranged on the spiral shaft rod in a sliding fit mode, the sliding sleeve shaft rods are symmetrically arranged on the pressure applying push block, and the sliding sleeve shaft rods are connected with the conveying pipeline in a sliding fit mode; drive gear meshing through actuating motor and rotate drive chain, through the rotatory work of drive chain drive helical shaft pole, rethread sliding sleeve axostylus axostyle butt ejector pad of exerting pressure extrudees with mud.

The pumping mechanism comprises a fixed frame, a guide sliding rod, a lead screw, an electric motor, a lifting seat and a rotary pumping unit; the water filter device comprises a fixed frame, a screw rod, an electric motor, a coupler, a lifting seat, rotary drawing units and a water filtering mechanism, wherein the fixed frame is installed on the water filtering mechanism, a guide slide rod is installed on the fixed frame, the screw rod is installed on the fixed frame through a bearing, the electric motor is installed on the fixed frame through a motor seat, an output shaft of the electric motor is mutually connected with the screw rod through the coupler, a shaft head at one end of the lifting seat is installed on the screw rod in a spiral matching mode, the other end of the lifting seat is mutually connected with the guide slide rod in a sliding matching mode, the lifting seat is symmetrically provided with the rotary drawing units, and the; the lead screw is driven to rotate by the electric motor, and the lifting seat is controlled to move on the guide slide rod, so that the rotary drawing unit can rotate and adjust the angle around the fixed frame.

The filtering mechanism comprises a main beam bracket, a motor, a swing cam, a swing arm, a lifting frame, a reciprocating slide block, a filtering screen frame, a sliding frame and a collecting frame; the main beam support is arranged on the water filtering mechanism, the motor is arranged on the main beam support through the motor base, the output shaft of the motor is provided with the swing cam through the flange, the swing cam is in rotary butt joint with the swing arm, the swing arm is arranged on the main beam support through a movable hinge joint mode, the lifting frame is arranged on the main beam support, the lifting frame is provided with the reciprocating slide block through a sliding fit mode, one side end face of the reciprocating slide block is connected with the main beam support through a sliding fit mode, one end shaft head of the swing arm is connected with the reciprocating slide block through a hinge joint mode, the filtering screen frame is arranged on the reciprocating slide block, the outer walls of two sides of the filtering screen frame are connected with the main beam support through a sliding fit mode, the sliding frame is arranged under the filtering screen frame, and the collecting frame is arranged on the water filtering mechanism, the aggregate frame is positioned right below the sliding frame; the swing cam and the swing arm are driven to be in rolling butt joint through the motor, the reciprocating slide block is linked to move on the lifting frame, the filtering screen frame is vertically and reciprocally moved to screen, and then the sliding frame guides sludge to the collecting frame

Preferably; the stop pins are symmetrically arranged on the base plate frame, so that the chain frame can conveniently perform the abutting limiting effect when reciprocating, and the executing element is protected from abutting interference with other working components when moving to cause the damage of the working components, thereby causing the movement fault of machinery.

Preferably; be provided with the clamp plate on the diapire of water conservancy diversion frame, will be provided with the clamp plate on the diapire of water conservancy diversion frame, be convenient for convert the rising movement of drainage switching frame into the upset action through the clamp plate, support the pressure to drainage switching frame through the clamp plate for drainage switching frame revolutes, realizes the upset conveying, and rethread spring resets.

Preferably; the swing arm is provided with a rolling pulley, the swing arm is provided with the rolling pulley, the reciprocating motion continuity of the swing arm is convenient to improve, the friction resistance between machines is reduced by mutual abutting of the rolling pulley and the swing cam, and the service life of the machines realizing reciprocating lifting motion is prolonged.

Advantageous effects

The spiral shaft rod is used for rotationally discharging sludge in a river channel, the spring on the sliding sleeve shaft rod pushes the pressing push block to be mutually abutted against the sludge, and water in the sludge is discharged outwards through pressure, so that the time for the subsequent drying process of the sludge is shortened, and the cost for sludge recovery treatment is reduced.

Secondly, the water filtering and transferring frame is uniformly provided with the leakage holes to filter the sludge discharged by the rotary pumping unit, discharge redundant water, and finally turn over and transfer the filtered sludge, so that the quality of sludge recovery treatment is improved.

The swinging cam is in rolling contact with the swinging arm to realize vertical reciprocating motion, the swinging arm is pulled by the spring to improve the vertical swinging amplitude, the gravity screening of the filtering screen frame on the sludge is enhanced, the sludge is screened from the filtering screen frame onto the sliding frame and is discharged onto the collecting frame through vertical swinging, other impurity garbage in the sludge is screened out, and the overall purity of sludge recovery is improved.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a perspective view of the present invention in a primary viewing position;

FIG. 2 is a perspective view of the present invention in a rear-view position;

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

FIG. 4 is a schematic view of a cut-away perspective structure of the spin-draw unit of the present invention;

FIG. 5 is an enlarged view of a portion of the invention at A in FIG. 1;

FIG. 6 is an enlarged view of a portion of the invention at B in FIG. 3;

FIG. 7 is an enlarged view of a portion of the invention at C of FIG. 4;

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways as defined and covered by the claims.

As shown in fig. 1 to 7, an automatic conveying system for sludge recycling treatment includes a water filtering mechanism 1, a pumping mechanism 2 and a filtering mechanism 3, wherein the pumping mechanism 2 is installed on the water filtering mechanism 1, the pumping mechanism 2 is located right in front of the water filtering mechanism 1, the filtering mechanism 3 is installed on the water filtering mechanism 1, and the filtering mechanism 3 is located right behind the water filtering mechanism 1, wherein:

the water filtering mechanism 1 comprises a bottom plate base frame 10, an execution cylinder 11, a chain link frame 12, a pushing plate 13, a sliding guide vertical plate 14, a shaft rod support 15, a crank connecting rod 16, a lifting sliding plate 17, a water filtering transfer frame 18, a flow guide frame 19 and wheels 19A; the base plate base frame 10 is provided with an execution cylinder 11 through a cylinder seat, an output shaft of the execution cylinder 11 is connected with a chain ring frame 12 through a coupler, the chain ring frame 12 is arranged on the base plate base frame 10 in a sliding fit mode, the base plate base frame 10 is symmetrically provided with stop pins, the stop pins are symmetrically arranged on the base plate base frame 10, the chain ring frame 12 can conveniently perform an abutting limiting effect during reciprocating movement, and the executing element is also protected from abutting interference with other working components during movement, so that the working components are damaged, and mechanical movement faults are caused; the pushing plate 13 is symmetrically arranged on the bottom plate base frame 10 in a sliding fit manner, the pushing plate 13 and the chain ring frame 12 are connected with each other in a rolling manner through a cam follower, the sliding guide vertical plate 14 is arranged on the pushing plate 13, the shaft rod support 15 is arranged on the bottom plate base frame 10, the crank connecting rod 16 is symmetrically arranged on the shaft rod support 15 through a bearing, two end shaft heads of the crank connecting rod 16 are respectively connected with the sliding guide vertical plate 14 and the lifting sliding plate 17 in a rolling manner through cam followers, the lifting sliding plate 17 is symmetrically arranged on the bottom plate base frame 10 in a sliding fit manner, the top end surface of the lifting sliding plate 17 is provided with a water filtering transfer frame 18 in a hinged rotation manner, the flow guide frame 19 is arranged on the bottom plate base frame 10, the bottom wall of the flow guide frame 19 is provided with a pressing plate, and the bottom wall of the flow guide frame 19 is provided with a, the lifting movement of the water filtering transfer frame 18 is conveniently converted into the turning action through the pressing plate, the water filtering transfer frame 18 is pressed through the pressing plate, so that the water filtering transfer frame 18 rotates, the turning transmission is realized, and the resetting is realized through the spring; the wheels 19A are uniformly arranged on the base plate frame 10 through bearings; promote the translation of chain ring frame 12 through carrying out cylinder 11 and slide, remove through chain ring frame 12 linkage thrust plate 13, drive through thrust plate 13 and lead smooth riser 14 and remove in step, the rethread is led smooth riser 14 and is slided push-and-pull crank connecting rod 16 and rotate around axostylus axostyle support 15 to realize the lift of lift slide 17 and fall the removal in step, rethread filtration water switching frame 18 and the mutual butt of water conservancy diversion frame 19, realized the upset conveying of filtration water switching frame 18.

The pumping mechanism 2 comprises a fixed frame 20, a guide slide rod 21, a lead screw 22, an electric motor 23, a lifting seat 24 and a rotary pumping unit 25; the water filter device is characterized in that the fixed frame 20 is mounted on the water filter mechanism 1, the fixed frame 20 is provided with a guide slide bar 21, the lead screw 22 is mounted on the fixed frame 20 through a bearing, the electric motor 23 is mounted on the fixed frame 20 through a motor base, an output shaft of the electric motor 23 is connected with the lead screw 22 through a coupler, a shaft head at one end of the lifting seat 24 is mounted on the lead screw 22 in a spiral matching mode, the other end of the lifting seat 24 is connected with the guide slide bar 21 in a sliding matching mode, the lifting seat 24 is symmetrically provided with rotary pumping units 25, and the rotary pumping units 25 are connected with the fixed frame 20 in a movable switching mode; the electric motor 23 drives the lead screw 22 to rotate and controls the lifting seat 24 to move on the guide slide rod 21, so that the rotary drawing unit 25 can rotate and adjust the angle around the fixed frame 20.

The rotary pumping unit 25 comprises a conveying pipeline 251, a spiral shaft rod 252, an execution motor 253, a gear 254, a transmission chain 255, a pressing push block 256 and a sliding sleeve shaft rod 257; the conveying pipeline 251 is installed on the pumping mechanism 2, the conveying pipeline 251 is internally provided with a screw shaft rod 252 through a bearing, the actuating motor 253 is installed on the conveying pipeline 251 through a motor base, the gear 254 is respectively installed on the screw shaft rod 252 and the output shaft end of the actuating motor 253, the screw shaft rod 252 and the output shaft end of the actuating motor 253 are rotationally connected with each other by a transmission chain 255 meshed with the gear 254, the pressing push block 256 is installed on the screw shaft rod 252 through a sliding fit mode, the sliding sleeve shaft rods 257 are symmetrically installed on the pressing push block 256, and the sliding sleeve shaft rods 257 and the conveying pipeline 251 are connected with each other through a sliding fit mode; the gear 254 is engaged with the transmission chain 255 through the actuator motor 253, the screw shaft 252 is driven to rotate through the transmission chain 255, and the pressing push block 256 is abutted against the sliding sleeve shaft 257 to extrude the sludge.

The filtering mechanism 3 comprises a main beam bracket 30, a motor 31, a swing cam 32, a swing arm 33, a lifting frame 34, a reciprocating slide block 35, a filtering screen frame 36, a sliding frame 37 and a collecting frame 38; the main beam support 30 is installed on the water filtering mechanism 1, the motor 31 is installed on the main beam support 30 through a motor base, the swing cam 32 is installed on an output shaft of the motor 31 through a flange, the swing cam 32 is in rotary abutting joint with the swing arm 33, the swing arm 33 is installed on the main beam support 30 through a movable hinge mode, the swing arm 33 is provided with a rolling pulley, the swing arm 33 is provided with the rolling pulley, the continuity of the reciprocating action of the swing arm 33 is improved conveniently, the friction resistance between machines is reduced through the abutting joint of the rolling pulley and the swing cam 32, and the service life of the machines for realizing the reciprocating lifting action is prolonged; the lifting frame 34 is installed on the main beam support 30, the reciprocating slide block 35 is installed on the lifting frame 34 in a sliding fit mode, one side end face of the reciprocating slide block 35 is connected with the main beam support 30 in a sliding fit mode, a shaft head at one end of the swing arm 33 is connected with the reciprocating slide block 35 in a hinged mode, the filtering screen frame 36 is installed on the reciprocating slide block 35, outer walls of two sides of the filtering screen frame 36 are connected with the main beam support 30 in a sliding fit mode, the sliding frame 37 is installed right below the filtering screen frame 36, the collecting frame 38 is installed on the water filtering mechanism 1, and the collecting frame 38 is located right below the sliding frame 37; the swing cam 32 is driven by the motor 31 to be in rolling contact with the swing arm 33, the reciprocating slide block 35 is linked to move on the lifting frame 34, the filtering screen frame 36 reciprocates up and down to perform screening, and then the sludge is guided into the collecting frame 38 through the sliding frame 37.

In the process of automatic sludge conveying treatment, the method comprises the following steps:

firstly, the electric motor 23 drives the lead screw 22 to rotate, and controls the lifting seat 24 to move on the guide slide rod 21, so that the rotary drawing unit 25 can rotate and adjust the angle around the fixed frame 20; then the sludge is discharged through the rotary pumping unit 25;

then, the actuating cylinder 11 pushes the chain ring frame 12 to slide in a translation manner, the chain ring frame 12 is linked with the pushing plate 13 to move, the pushing plate 13 drives the sliding guide vertical plate 14 to move synchronously, the sliding guide vertical plate 14 slides to push and pull the crank connecting rod 16 to rotate around the shaft rod bracket 15, the lifting and falling movement of the lifting sliding plate 17 is synchronously realized, and the filtered water transfer frame 18 is abutted against the flow guide frame 19, so that the overturning and conveying of the filtered water transfer frame 18 are realized; then the motor 31 drives the swing cam 32 to be in rolling contact with the swing arm 33, and the reciprocating slide block 35 is linked to move on the lifting frame 34, and the filtering screen frame 36 reciprocates up and down to perform screening;

finally, the sludge is guided into an aggregate frame 38 through a slide-down frame 37 and is transported to subsequent treatment.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides a mud is recycled and is handled automatic conveying system, includes drainage mechanism (1), pump send mechanism (2) and filtering mechanism (3), its characterized in that: pumping mechanism (2) install on water filtering mechanism (1), pumping mechanism (2) be located water filtering mechanism's (1) dead ahead, filtering mechanism (3) install on water filtering mechanism (1), filtering mechanism (3) be located water filtering mechanism's (1) dead behind, wherein:

the water filtering mechanism (1) comprises a bottom plate base frame (10), an execution cylinder (11), a chain link frame (12), a pushing plate (13), a sliding guide vertical plate (14), a shaft rod support (15), a crank connecting rod (16), a lifting sliding plate (17), a water filtering transfer frame (18), a flow guide frame (19) and wheels (19A); the chain ring frame is characterized in that an execution cylinder (11) is installed on the bottom plate base frame (10) through a cylinder seat, an output shaft of the execution cylinder (11) is connected with a chain ring frame (12) through a coupler, the chain ring frame (12) is installed on the bottom plate base frame (10) in a sliding fit mode, a pushing plate (13) is symmetrically installed on the bottom plate base frame (10) in a sliding fit mode, the pushing plate (13) and the chain ring frame (12) are connected with each other in a rolling mode through a cam follower, a sliding guide vertical plate (14) is installed on the pushing plate (13), a shaft rod support (15) is installed on the bottom plate base frame (10), crank connecting rods (16) are symmetrically installed on the shaft rod support (15) through bearings, shaft heads at two ends of the crank connecting rods (16) are respectively connected with the sliding guide vertical plate (14) and a lifting sliding plate (17) in a rolling mode through the cam followers, the lifting sliding plate (17) is symmetrically arranged on the bottom plate base frame (10) in a sliding fit mode, a water filtering transfer frame (18) is arranged on the top end face of the lifting sliding plate (17) in a hinged rotation mode, the flow guide frame (19) is arranged on the bottom plate base frame (10), and the wheels (19A) are uniformly arranged on the bottom plate base frame (10) through bearings;

the rotary pumping unit (25) comprises a conveying pipeline (251), a spiral shaft rod (252), an execution motor (253), a gear (254), a transmission chain (255), a pressing push block (256) and a sliding sleeve shaft rod (257); the conveying pipeline (251) is installed on the pumping mechanism (2), a spiral shaft rod (252) is installed in the conveying pipeline (251) through a bearing, an execution motor (253) is installed on the conveying pipeline (251) through a motor base, gears (254) are installed on output shafts of the spiral shaft rod (252) and the execution motor (253) respectively, the output shafts of the spiral shaft rod (252) and the execution motor (253) are connected with each other in a rotating mode through a transmission chain (255) and meshed with the gears (254), a pressure applying push block (256) is installed on the spiral shaft rod (252) in a sliding fit mode, a sliding sleeve shaft rod (257) is symmetrically installed on the pressure applying push block (256), and the sliding sleeve shaft rod (257) and the conveying pipeline (251) are connected with each other in a sliding fit mode.

2. The automatic conveying system for sludge recycling treatment according to claim 1, wherein: the pumping mechanism (2) comprises a fixed frame (20), a guide sliding rod (21), a lead screw (22), an electric motor (23), a lifting seat (24) and a rotary pumping unit (25); mount (20) install on drainage mechanism (1), mount (20) on install direction slide bar (21), lead screw (22) install on mount (20) through the bearing, electric motor (23) install on mount (20) through the motor cabinet, electric motor's (23) output shaft passes through shaft coupling and lead screw (22) interconnect, the one end spindle nose of lifting seat (24) is installed on lead screw (22) through spiral cooperation mode, the other end of lifting seat (24) passes through sliding fit mode and direction slide bar (21) interconnect, lifting seat (24) on the symmetry be provided with and draw unit (25) soon, draw unit (25) soon through activity switching mode and mount (20) interconnect.

3. The automatic conveying system for sludge recycling treatment according to claim 1, wherein: the filtering mechanism (3) comprises a main beam bracket (30), a motor (31), a swing cam (32), a swing arm (33), a lifting frame (34), a reciprocating slide block (35), a filtering screen frame (36), a sliding frame (37) and a collecting frame (38); the water filter is characterized in that the main beam support (30) is installed on the water filter mechanism (1), the main beam support (30) is provided with an electric motor (31) through a motor base, an output shaft of the electric motor (31) is provided with a swing cam (32) through a flange, the swing cam (32) is in rotary butt joint with the swing arm (33), the swing arm (33) is installed on the main beam support (30) through a movable hinge mode, the lifting frame (34) is installed on the main beam support (30), the lifting frame (34) is provided with a reciprocating slide block (35) through a sliding fit mode, one side end face of the reciprocating slide block (35) is connected with the main beam support (30) through a sliding fit mode, one end shaft head of the swing arm (33) is connected with the reciprocating slide block (35) through a hinge mode, and the filter screen frame (36) is installed on the reciprocating slide block (35), the utility model discloses a water filter screen frame, including filtration reel (36), landing frame (37) are installed to the both sides outer wall of filtration reel (36) through sliding fit mode and girder support (30) interconnect, install landing frame (37) under filtration reel (36), collection frame (38) install on drainage mechanism (1), collection frame (38) be located landing frame (37) under.

4. The automatic conveying system for sludge recycling treatment according to claim 1, wherein: the bottom plate base frame (10) is symmetrically provided with stop pins.

5. The automatic conveying system for sludge recycling treatment according to claim 1, wherein: and a pressing plate is arranged on the bottom wall of the flow guide frame (19).

6. The automatic conveying system for sludge recycling treatment according to claim 3, wherein: the swing arm (33) is provided with a rolling pulley.