RU36391U1 - Distributor of deicing materials - Google Patents

Description

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Distributor of anti-icing materials,

The utility model relates to machines for the distribution of anti-icing materials used in the winter maintenance of road surfaces. Liquid and bulk reagents for melting snow and ice are used as materials for distribution

Already known; a distributor of anti-icing materials, comprising a vehicle with an output shaft of a gearbox, connected by fasteners to a drive shaft of a drive axle of a vehicle mounted on a vehicle, containers for distributed materials, a dispensing device for dispersing anti-icing materials on the road surface, metering devices for supplying deicing materials from tanks to a dispensing device, hydraulic water of metering devices with a hydraulic pump driven by the output shaft of the gearbox, and hydraulic motors of the metering device drive (see RF patent for utility model No. 31794 of 04.23.2003 according to Cl. E 01Н 3/02). According to the indicated signs, the known machine coincides with the claimed utility model. To drive the hydraulic pump from the output shaft of the gearbox in a known machine, a power take-off can be used, installed between the output shaft of the gearbox and the flange of the driveshaft of the drive wheels of the vehicle. Installing a power take-off requires changes to the design of the drive wheels (a significant reduction in the length of the driveshaft, a change in the elastic characteristics

IPC E01H 10/00

E01H 3/02

E01C 19/20

drive wheels), which adversely affect the dynamic qualities of the drive wheels of the vehicle. For a distributor of anti-icing materials, which uses 4 as a vehicle chassis of the car for transportation of ordinary goods, this installation reduces the reliability of the drive.

The problem to which the claimed utility model is directed is to ensure that the distributor of anti-icing materials can be used as a vehicle vehicle chassis for the transport of conventional goods without significant changes to the chassis design. The technical result achieved in this case is to reduce the adverse effects of the distributor equipment on the vehicle.

In the claimed: utility model, the anti-icing material distributor comprises a vehicle with an output shaft of the gearbox, connected by fasteners to the drive shaft of the drive axle of the vehicle, containers for distributed materials mounted on the vehicle, a dispensing device for dispersing anti-icing materials on the road surface, dosing devices for supplying anti-icing materials from containers to a distribution device, hydra an influential metering device drive with a hydraulic pump driven by the output shaft of the gearbox and metering device hydraulic motors, and a pulley mounted on the fasteners at the junction of the gearbox output shaft with a cardan shaft is connected by a flexible belt to another pulley mounted on the hydraulic pump shaft drive metering device. Pulleys and a flexible belt can be made with meshing teeth. A pulley mounted on the pump shaft can be connected to the pump shaft using a remote controlled clutch. Tanks for anti-icing materials can be made in the form of tanks for liquids, and the dosing device in the form of a volumetric type of liquid pump connected to the tanks. One of the containers can be made in the form of a hopper for bulk materials, in which a metering device is placed in the form of a conveyor.

The features distinguishing the claimed utility model from the well-known machine are characterized by the fact that a pulley is mounted on the fasteners at the junction of the output shaft of the gearbox with a cardan shaft, connected by a flexible belt to another pulley mounted on the pump shaft of the metering device drive. In particular cases of the implementation of the claimed utility model, the presence of the following distinctive features is also possible: the pulleys and the flexible belt can be made with meshing teeth; a pulley mounted on the pump shaft can be connected to the pump shaft using a remote controlled clutch; containers for anti-icing materials can be made in the form of tanks for liquids, and a metering device in the form of a volumetric type of liquid pump connected to the tanks; one of the containers can be made in the form of a hopper for bulk materials, in which a dosing device in the form of a conveyor is placed.

Installing at the junction of the output shaft of the gearbox with a pulley propeller shaft connected by a flexible belt to another pulley on the shaft of the hydraulic pump of the metering device drive practically does not change the characteristics of the drive wheels of the vehicle. The implementation of the pulleys and the flexible belt with the teeth being in meshing ensures the operation of the drive without slipping, due to which exact dispensing of the distributed material on the coating is carried out regardless of the speed of movement of the distributor. The connection of the pulley mounted on the pump shaft with the pump shaft using a clutch with remote control for its inclusion allows you to disable the metering device drive during transport runs and unload the vehicle transmission. The execution of containers for deicing materials in the form of tanks for liquids, and the metering device in the form of a volumetric type of liquid pump connected to the tanks and the execution of one of the containers in the form of a hopper for bulk materials, in which a metering device is placed in the form of a conveyor, provides

both separate and joint distribution of liquid and bulk deicing materials in the claimed utility model.

In FIG. 1 shows a distributor of anti-icing materials with equipment installed on the vehicle, FIG. 2 shows a diagram of a metering device for supplying liquid deicing material from containers to a dispensing device, FIG. 3 is a diagram of a metering device for supplying bulk deicing material from a hopper to a dispensing device, and in FIG. 4 shows the design of the drive shaft of a pump for a hydraulic drive of metering devices.

The anti-icing material distributor comprises (Fig. 1) a vehicle 1 on which containers for anti-icing materials are mounted in the form of tanks 2 and 3 for liquid and a hopper 4 for bulk material, a dispensing device 5 for dispersing anti-icing materials on the road surface, metering devices b and 7 for supplying anti-icing materials from containers to a dispensing device and a hydraulic drive of metering devices with a hydraulic pump 8. The metering device b (Fig. 2) is made in the form of connected to the suction line 9 to the tanks 2 and 3

liquid pump 10 volumetric type with the drive of the latter from

hydraulic motor 11. fljbyroe metering device 7 (Fig. 3) is made in the form of a conveyor 12 located in the hopper 4. The conveyor 12 is driven from the hydraulic motor 13 through a gearbox 14 and a drive drum 15. The output shaft 16 of the gearbox 17 of the vehicle (FIG. 4) is connected by fasteners 18 to the driveshaft 19 of the drive axle 20 of the vehicle. At the junction of the output shaft 16 with the driveshaft 19, a pulley 21 is mounted on the fastening elements 18, connected by a flexible belt 22 to another pulley 23 mounted on the shaft 24 of the hydraulic pump 8 of the metering device drive. The pulleys 21 and 23 and the flexible belt 22 are made with mesh teeth I. The pulley 23 is connected to the shaft 24 of the hydraulic pump 8 by means of a coupling 25 with remote control of its inclusion. The coupling is made with a housing 26, to the ends of which a hydraulic pump housing 8 is attached: and a housing of a bearing-mounted support 27. Housing 26

the clutch is mounted on the housing of the gearbox 17 of the vehicle. A shaft 28 is mounted in the bearing support 27, at one end 29; of which a pulley 23 is mounted on the key 30. The other end 31 28 and the hydraulic pump shaft 24 are located coaxially in the coupling housing 26. The end 31 of the shaft 27 is made with teeth forming a gear coupling half connected to the pulley 23, and another gear coupling 32 is mounted on the shaft 24 of the hydraulic pump 8. The gear cage 33 is mounted on the teeth of the couplings to move the coupling half to each other. A groove 34 is made on the outer surface of the coupling half 33, in which the ends of the fork 35 are located, having a drive for moving it from the pneumatic cylinder 36. The pneumatic cylinder 36 has a remote control for turning the coupling 25 on and off.

Distributor deicing materials works as follows. When transporting without distribution of anti-icing materials, the coupling 25 is in a position where the pulley shaft 23 and the hydraulic pump shaft 24 are disconnected, the metering device hydraulic drive is disconnected and anti-icing materials do not enter the distributing device 5. For distributing anti-icing materials, the coupling 25 is located in a position in which the pulley shaft 23 and the hydraulic pump shaft 8 are connected and thus the hydraulic drive of the metering devices is switched on, with which you can odachu icing material to the dispensing device 5. In this case hydraulically dispensing devices can be carried out jointly or separately de-icing liquid feed materials from the tanks 2, 3 and granular material from the icing vessel 4. 5

Claims (5)

1. A distributor of anti-icing materials, comprising a vehicle with an output shaft of a gearbox, connected by fasteners to a drive shaft of a drive axle of a vehicle mounted on a vehicle, containers for distributed materials, a dispensing device for dispersing anti-icing materials on the road surface, metering devices for supply of anti-icing materials from the tanks to the dispensing device, dosing the hydraulic drive devices with a hydraulic pump driven by the output shaft of the gearbox and metering drive hydraulic motors, characterized in that a pulley is mounted on the fasteners at the junction of the output shaft of the gearbox with a cardan shaft and connected by a flexible belt to another pulley mounted on the shaft hydraulic pump drive metering devices. 2. The distributor of anti-icing materials according to claim 1, characterized in that the pulleys and the flexible belt are made with meshing teeth. 3. The distributor of anti-icing materials according to claim 1, characterized in that the pulley mounted on the shaft of the hydraulic pump is connected to the pump shaft using a clutch with remote control for its inclusion. 4. The distributor of deicing materials according to claim 1, characterized in that the containers for deicing materials are made in the form of tanks for liquid, and the metering device is made in the form of a volumetric type liquid pump connected to the tanks. 5. The distributor of anti-icing materials according to claim 1, characterized in that one of the containers is made in the form of a hopper for bulk materials, in which a metering device in the form of a conveyor is placed.