RU82488U1 - DEVICE FOR DOSING VISCOUS MATERIALS (OPTIONS) - Google Patents

Abstract

1. A device for dispensing viscous materials, including a reservoir of material, a metering cylinder connected to it with a pneumatic piston drive, including a pneumatic cylinder, a nozzle for the outlet of the metered material, an air supply system to the pneumatic cylinder and a three-way valve connected to the air supply system and the atmosphere, characterized in that the piston rod of the pneumatic cylinder is parallel to the piston rod of the metering cylinder and is rigidly connected with it, the device contains a second three-way valve connected with the air supply system and the atmosphere, moreover, the first three-way valve is connected to the upper cavities of the metering cylinder and the pneumatic cylinder, and the second three-way valve is connected to the lower cavity of the pneumatic cylinder, the device further comprises a third three-way valve connected to the reservoir, the lower cavity of the metering cylinder and the outlet of the dosing material, and the rods of all three-way valves are connected between each other means for ensuring their synchronous rotation. ! 2. The device according to claim 1, characterized in that it contains two pneumatic cylinders symmetrically located on both sides of the metering cylinder. ! 3. The device according to claim 1, characterized in that the tank contains means for mixing the material! 4. A device for dispensing viscous materials, including a reservoir of material, a metering cylinder connected to it with a pneumatic piston drive, including a pneumatic cylinder, the piston rod of which is located coaxially with the piston rod of the metering cylinder, a nozzle for the outlet of the metering material, an air supply system to the pneumatic cylinder and a three-way valve connected with air supply system and atmosphere, characterized in that the stem

Description

A utility model relates to equipment for the dosed supply of viscous materials, for example, grease, from a reservoir to receiving containers, pallets, etc.

There are various devices for dosing grease using a pneumatic actuator (SU 521467, G01F 11/38, 1976; SU 688759, F16N 19/00, 1979; SU 1571356, F16N 27/00, 1990; RU 2169879, F16N 11/10, 2001 )

Closest to the proposed is a known device for dispensing viscous materials, in particular, grease, including a reservoir of material (cylinder with a piston), a metering cylinder (pressure sleeve) connected to it with a pneumatic plunger drive, including a pneumatic cylinder, the piston of which is coaxial with the metering plunger a cylinder, an air supply system, a three-way valve connected to the air supply system, a pneumatic cylinder and the atmosphere, and a plunger control mechanism consisting of a spring-loaded gear erni, fastened to the crane axis, and the toothed rack rigidly connected to the plunger (SU 126694, F16N 11/10, 1960).

The known device is characterized by a complex and insufficiently reliable mechanism for controlling the dosing system.

The technical problem that is solved by the proposed utility model is the creation of a new design of a device for dispensing viscous materials.

To solve this problem, the proposed device for dispensing viscous materials

In the first embodiment, a device for dispensing viscous materials is proposed, including a material reservoir, a metering cylinder connected to it with a pneumatic piston drive, including a pneumatic cylinder, a nozzle for the outlet of the metered material, an air supply system to the pneumatic cylinder and a three-way valve connected to the air supply system, the pneumatic cylinder and the atmosphere, characterized in that the piston rod of the pneumatic cylinder is parallel to the piston rod of the metering cylinder and is rigidly connected to it, the device contains a second three-way valve connected minutes with the air supply system and the atmosphere, the first three-way valve connected to the upper cavities of the dosing cylinder and air cylinder, and the second

a three-way valve is connected to the lower cavity of the pneumatic cylinder, the device further comprises a third three-way valve connected to the reservoir, the lower cavity of the metering cylinder and the outlet of the metered material, and the rods of all three-way valves are interconnected by means for ensuring their synchronous rotation.

It is preferable to use in this embodiment of the device not one but two pneumatic cylinders symmetrically located on both sides of the metering cylinder. This allows you to avoid asymmetric loads during operation of the device, which can lead to distortions and jamming of moving parts.

In the second embodiment, a device for dispensing viscous materials is proposed, including a material tank, a metering cylinder connected to it with a pneumatic piston drive, including a pneumatic cylinder, the piston rod of which is located coaxially with the piston rod of the metering cylinder, a nozzle for the outlet of the metering material, an air supply system to the pneumatic cylinder and a three-way valve associated with the air supply system and with the atmosphere, characterized in that the piston rod of the pneumatic cylinder is rigidly connected to the piston rod of the metering cylinder, the device contains there is a second three-way valve connected to the air supply system and the atmosphere, the first three-way valve connected to the upper cavities of the metering cylinder and the pneumatic cylinder, and the second three-way valve connected to the lower cavity of the pneumatic cylinder, the device further comprises a third three-way valve connected to the reservoir, the lower cavity the dosing cylinder and the outlet fitting of the dosed material, and the rods of all three-way valves are interconnected by means for ensuring their synchronous rotation.

The technical result achieved by using the proposed utility model is to create a design that provides a rigid connection between the air supply and exhaust system and the material supply system from the tank to the dosing cylinder and the dispensing of the dosed material, which ensures ease of operation of the device.

To ensure the homogeneity of the dosed material, the tank may contain means for mixing it.

The essence of the utility model is illustrated in figures 1-4. Figure 1 presents a General view of a specific implementation of the device for dispensing a viscous material (grease), figure 2 is a view of the first variant of this device in arrow A

figure 1, figure 3 is a control diagram of the pneumatic actuator of the first variant of the device, figure 4 is a view of a second variant of this device in arrow A in figure 1

In accordance with figures 1, 2 and 3, the device in the first embodiment includes a lubricant reservoir 1 with a mixing device, which is driven by a gear motor 2 mounted on the end cap of the reservoir, using a starter 3, and a hatch 4 for loading material. The tank 1 is mounted on the frame 5. On the other end cover of the tank there is a metering device 6, consisting of a metering cylinder 7, two pneumatic cylinders 8 and 9, the rods of which are parallel to the rods of the metering cylinder 7, the air supply unit 10 with a fitting 11 for connecting to the compressed network air from an external source, three-way valves 12 and 13, connecting the cavity of the cylinders with the air supply system and the atmosphere, a three-way valve 14 (not visible in FIGS. 1 and 2, since it is closed by the metering cylinder 7), connecting the lower cavity dosing cylinder 7 with a reservoir 1 and a lubricant outlet fitting 15, a plate 16, rigidly connecting the rods of the cylinders 7, 8 and 9, the handle 17, which is a means of ensuring simultaneous rotation of the three-way valves 12, 13 and 15, the stroke limiter of the cylinders 18, the receiving tray 19.

The device operates as follows. Grease is loaded into the tank 1 through the hatch 4 and a gear motor 2 is turned on to mix the grease, while continuing to mix throughout the dosing process. Set the stroke limiter of the cylinders 18 to a position corresponding to the desired dose size, and connect the fitting 11 of the compressed air supply 10 to the compressed air network. Turn the handle 17 in a horizontal position. In this case, the valve 12 connects the lower cavities of the cylinders 8 and 9 with the air supply unit 10, the valve 13 connects the upper cavities of the cylinders 7, 8 and 9 with the atmosphere, the valve 14 connects the lower cavity of the cylinder 7 with the reservoir 1. Under the influence of air pressure on the pistons of the cylinders 8 and 9 the rods of these cylinders and the rod of the cylinder 7 connected to them by the plate 16, move up to the stop of the plate 16 into the stroke limiter of the cylinders 18, and the lubricant is sucked from the reservoir 1 into the cylinder 7. After that, the handle 17 is turned into a vertical position. In this position, the valve 13 connects the upper cavities of the cylinders 8 and 9 with the air supply unit 10, the valve 12 connects the lower cavities of the cylinders 8 and 9 with the atmosphere, the valve 14 connects the lower cavity of the cylinder 7 with the lubricant outlet fitting 15. Under the influence of air pressure, the pistons of the cylinders 8 and 9 and associated with their rods by a plate 16, the rod and piston of the cylinder 7 move down to

the piston stops in the bottoms of the cylinders 8 and 9, and the dose of lubricant is pushed out of the cylinder 7 through the outlet fitting of the lubricant 14 to the receiving tray 19.

In accordance with figures 1 and 4, the device in the second embodiment differs from the device in the first embodiment only in that instead of two pneumatic cylinders it contains only one pneumatic cylinder 8, the rod of which is coaxial with the rod of the metering cylinder and is rigidly connected to it, for example, by a coupling, on which the plate 16 is fixed, serving in this embodiment of the device only to stop the stroke of the cylinders when it rests on the stop of the stroke of the cylinders. The pneumatic actuator control circuit of this embodiment of the device is completely similar to that shown in FIG. 3 with the above difference. The operation of the device in this embodiment is also similar to that described above for the first embodiment.

Claims (5)

1. A device for dispensing viscous materials, including a reservoir of material, a metering cylinder connected to it with a pneumatic piston drive, including a pneumatic cylinder, a nozzle for the outlet of the metered material, an air supply system to the pneumatic cylinder and a three-way valve connected to the air supply system and the atmosphere, characterized in that the piston rod of the pneumatic cylinder is parallel to the piston rod of the metering cylinder and is rigidly connected with it, the device contains a second three-way valve connected with the air supply system and the atmosphere, moreover, the first three-way valve is connected to the upper cavities of the metering cylinder and the pneumatic cylinder, and the second three-way valve is connected to the lower cavity of the pneumatic cylinder, the device further comprises a third three-way valve connected to the reservoir, the lower cavity of the metering cylinder and the outlet of the dosing material, and the rods of all three-way valves are connected between each other means for ensuring their synchronous rotation. 2. The device according to claim 1, characterized in that it contains two pneumatic cylinders symmetrically located on both sides of the metering cylinder. 3. The device according to claim 1, characterized in that the reservoir contains means for mixing the material 4. A device for dispensing viscous materials, including a reservoir of material, a metering cylinder connected to it with a pneumatic piston actuator, including a pneumatic cylinder, the piston rod of which is located coaxially with the piston rod of the metering cylinder, an outlet for the metering material, an air supply system to the pneumatic cylinder and a three-way valve connected with an air supply system and with the atmosphere, characterized in that the piston rod of the pneumatic cylinder is rigidly connected to the piston rod of the metering cylinder, the device contains a second three-way valve, with knitted with an air supply system and with the atmosphere, the first three-way valve connected to the upper cavities of the metering cylinder and the pneumatic cylinder, and the second three-way valve connected to the lower cavity of the pneumatic cylinder, the device further comprises a third three-way valve connected to the reservoir, the lower cavity of the metering cylinder and the outlet fitting the dosed material, and the rods of all three-way valves are interconnected by means for ensuring their synchronous rotation. 5. The device according to claim 4, characterized in that the reservoir contains means for mixing the material.