RU2188968C1 - Feed system of high-viscosity materials - Google Patents

Abstract

FIELD: devices for feed of high-viscosity materials at ambient temperatures; applicable in feed of lubricating, impregnating and paint compositions. SUBSTANCE: system has tank with outlet pipe, horizontal auger driven by motor and located in tank lower part, pumping device whose inlet is connected with branch pipe, and outlet is connected to consumer, and return pipeline with distributing device. System has guide shield installed in tank above auger. Guide shield has baffle wall and turning gate. Outlet pipe is located in lower compartment made under tank bottom in zone of action of guide shield and auger. Lower compartment is communicated with tank through grid cover made in its bottom. Return pipeline is communicated with outlet pipe via said lower compartment on side opposite to connection of pumping device inlet. Pumping device and auger are kinematically connected to each other. EFFECT: higher productivity of plant and quality of prepared mixture due to amplification of effect of disaggregation, simplified design and reduced power consumption. 2 dwg

Description

 The invention relates to a device for supplying high viscosity materials at ambient temperature and can be used, for example, for the supply of lubricating, impregnating and colorful compositions.

 A known system for supplying high viscosity materials, containing a tank with an outlet pipe, a horizontal screw driven by an engine, located in the lower compartment of the tank, a pumping device, the input of which is connected to the pipe, and the output is connected to the consumer. U.S. Patent 3,960,368, B 01 F 7/04, 1976.

 The disadvantage of this device is the low productivity of the installation and the quality of preparation of the supplied material.

 The closest in technical essence to the described invention is a system for feeding high viscosity materials at ambient temperature, containing a tank with an outlet pipe, a horizontal screw driven by an engine, located in the lower compartment of the tank, a pumping device, the input of which is connected to the pipe, and the output connected to the consumer and the return pipe with a switchgear. U.S. Patent 3,879,150, F 04 D 3/02, 1975.

 The disadvantage of this device is also the low productivity of the installation and the quality of the preparation of the supplied material, that is, the low efficiency of the disaggregation of the mixture. Another disadvantage of the device is the high power consumption and design complexity due to the presence of three additional pumps.

 The technical problem to which this invention is directed is to increase the productivity of the installation and improve the quality of the prepared mixture by enhancing the effect of disaggregation. Another objective to which this invention is directed, is to simplify the design and reduce energy consumption.

 The problem is solved due to the fact that the supply system of high viscosity materials at ambient temperature, containing a tank with an outlet pipe, a horizontal auger driven by an engine located at the bottom of the tank, a pumping device, the input of which is connected to the pipe, and the output is connected to the consumer and the return pipe with a switchgear according to the invention is additionally equipped with a guide plate mounted in the tank above the screw with a baffle plate and a rotary damper. The outlet pipe is located in the lower compartment, made under the bottom of the tank in the area of operation of the guide plate and the screw. The lower compartment is in communication with the tank through a trellised overlap made in the bottom of the tank. The return pipe is in communication with the outlet pipe through the indicated lower compartment from the side opposite to the input connection of the pumping device, and the pumping device and the screw are kinematically connected to each other.

 Figure 1 shows a schematic diagram of a feed system of high viscosity materials; figure 2 is a section aa in figure 1.

 The feed system of high viscosity materials at ambient temperature contains a tank 1 with an outlet pipe 2, a horizontal screw 3 driven by an engine 4, located in the lower part of the tank 1, a pumping device 5, the input 6 of which is connected to the pipe 2, and the output 7 is connected to consumer 8, for example, made in the form of dispensing spray guns, and a return pipe 9 with a dispenser 10. Moreover, in the tank 1 above the auger 3 there is a guide plate 11 with a baffle plate 12 and a rotary valve 13. Output the pipe 2 is located in the range of the guide plate 11 in the lower compartment 14 of the tank 1 and is communicated with the latter and the screw 3 through the trellised overlap 15 made in the bottom 16 of the tank 1. In this case, the return pipe 9 is in communication with the outlet pipe 2 through the lower compartment 14 of the tank 1 from the side opposite to the input connection 6 of the pumping device 5, and the pumping device 5 and the screw 3 are kinematically connected, for example, by a chain transmission 17.

 The pumping device 5 can be made, for example, in the form of a positive displacement pump and connected to the drive 4 also, for example, by a chain gear 18. Valves 19 serve to flush the tank. The rotary valve 13 is controlled, for example, by the handle 20. The switchgear 10 can be made, for example, in the form of a safety valve 21 and an adjustable valve 22.

 The feed system of high viscosity materials at ambient temperature operates as follows.

 A feed material, for example, a solvent and thick paste, is loaded from above into the tank 1. The drive motor 4 is turned on and the horizontal auger 3 is driven through a chain gear 18 and 17. The damper 13 is moved by the handle 20 to a vertical or inclined position and, thanks to the presence of the guide plate 11 with the baffle plate 12, when the screw 3 is turned on, intensive circulation of the material in the tank 1 along its entire length and height is provided. In this case, the material undergoes shear deformations, as a result of which better destruction of the lumps present in the material is ensured.

 Changing the position of the rotary damper 13 makes it possible to change the cross section of the flow, and therefore, its speed and dispersing ability, which reduces the processing time of the material and reduces energy consumption to ensure uniform consistency of the material. Additionally, the processed material is forced through the grating 15 into the lower compartment 14 of the tank and the pumping device 5 is returned via pipe 9 to the compartment 14 and partially to the tank 1, which enhances the effect of disaggregation. The effect of disaggregation is also enhanced by throttling (wrinkling) of the material flow on the switchgear 10. After the material becomes uniform in consistency, increase the hydraulic resistance of the switchgear 10, increasing the pressure at the outlet of the pumping device 5, and begin to apply by opening the passage channels of the guns 8 material on painted surfaces or feed it into loading containers. Moreover, since the feed of the screw 3 significantly exceeds the flow rate of the pumping device 5, active mixing and disaggregation of the material supplied to the tank 1 is constantly continued in the tank 1. By adjusting the position of the rotary damper 13, the intensity of the disaggregation of the material when throttling it on the damper 13 and the excess pressure created by the screw 3 in the lower compartment 14 of the tank 1 are changed, which ensures an inextricable flow of highly viscous material to the input 6 of the pumping device 5 and reliable operation of the system as a whole.

 After the work is completed, the system, including the pumping device 5, is easily washed with a solvent, for example, water, into the lower compartment 14 of the tank 1 through the valve 19. The valve 19 can also open when the viscosity of the material in the compartment 14 and the pipe 2 is excessive, which greatly simplifies starting the system in work.

Claims (1)

 A system of supplying high viscosity materials at ambient temperature, containing a tank with an outlet pipe, a horizontal screw driven by an engine, located at the bottom of the tank, a pumping device, the input of which is connected to the pipe, and the output is connected to the consumer and the return pipe with a distribution device, characterized in that it is equipped with a guide plate mounted in the tank above the screw with a baffle wall and a rotary damper, and the outlet pipe is located in the lower compartment, made according to the bottom of the tank in the area of operation of the guide plate and the screw and communicated with the tank through the lattice overlap made in its bottom, while the return pipe is in communication with the outlet pipe through the indicated lower compartment from the side opposite to the input connection of the pumping device, and the pumping device and screw are kinematically connected between by myself.

Images