RU113746U1 - SNOW REMOVING MACHINE - Google Patents

Abstract

1. A snowblower containing a mobile platform, a power plant, an operator's cab with a control panel, a frame with a snow-receiving bunker, characterized in that the snow-receiving bunker is equipped with mesh and perforated partitions and a second mesh bottom, fixed above the bottom of the bunker, emitters are installed in the upper part of the bunker heat, and in the middle part - heat pipes, the cavity of the bunker is also equipped with a ventilation and hydraulic circulation system, while the intake pipe of the hydraulic system is located between the bottom and the mesh bottom of the bunker, and its discharge pipe is connected to a perforated pipe fixed in the upper part of the bunker, while the bottom has a drain pipe. ! 2. Snowblower according to claim 1, characterized in that the snow-receiving hopper has a conveyor for taking and feeding the snow mass into its cavity. ! 3. Snowblower according to claim 1, characterized in that light emitters of the microwave range and heat electric heaters are used as heat emitters, as well as exhaust gases supplied through a pipe laid in the cavity of the bunker above its second mesh bottom, and the outlet of this pipes are connected to the atmosphere.

Description

The proposal relates to snow removal processes in territories, settlements in the winter-spring period of the year.

Snow removal of streets and squares is carried out using various technical means, using mainly snow removal equipment based on self-propelled mobile platforms with power plants, a cabin and a control panel of a driver-operator, a snow collection apparatus with a receiving hopper for accumulating snow masses [RU 40328, 15.05. 2004; RU 2067027, 1995; RU 2008143784, 5.11.2008].

The last of these technical solutions is the closest in structural essence and the achieved positive result.

Having an advantage over other similar snow removal units, these analogues and prototype also have significant and obvious disadvantages, which are significant specific energy costs for the processing of snow mass (snow, firn, ice formations); the process is associated with the duration (in time) of processing firn and ice inclusions in the volume of snow mass. This leads to increased consumption of energy components (fuel, electricity) and - to higher machine and labor costs.

The technical task and the positive result of using the developed snowplow is to reduce the specific energy costs for the process of processing snow mass supplied to the machine's working units, as well as to reduce the time and labor costs for the economic process of cleaning territories from snowfall.

The specified technical task and the result are achieved due to the fact that the snow blower containing a mobile platform, a power plant, an operator's cab with a control panel, a frame with a snow receiving hopper, is characterized in that the snow receiving hopper is equipped with mesh and perforated partitions and a second mesh bottom fixed above the bottom of the hopper, heat emitters are installed in the upper part of the hopper, and heat-conducting pipes are installed in the middle part, the hopper cavity is also equipped with a ventilation and hydraulic circuit ion system, wherein the hydraulic intake pipe located between the bottom of the hopper and mesh bottom, and its expendable tube is connected with a perforated tube attached to the top of the hopper, wherein the bottom has a spout.

The snow removal machine is also characterized in that the snow receiving hopper has a conveyor for collecting and supplying snow mass into its cavity.

A snowplow, characterized in that the microwave emitters and heat electric heaters are used as heat emitters, as well as the exhaust gases supplied through the pipe laid in the cavity of the bunker above its second mesh bottom, and the outlet of this pipe is connected to the atmosphere.

Figure 1 presents a General view of the machine;

figure 2 and 3 - details of the machine of figure 1.

The technical proposal relates to snow removal, mainly in the conditions of a megalopolis and large settlements, when the removal of snow masses requires significant costs. The snowplow has a mobile chassis 1, power units 2, cab 3 of the driver. A significant amount of capacity 4 is placed on the frame of the machine: in the form of a container or a tank having a supply conveyor (conveyor) and a receiving hopper (snow, firn, ice) 5, a pipe 6 for draining melt water into the sewage system (empty in winter). The container 4 is equipped with energy units 7 and 8, respectively, of heat emitters (light or heating elements) and heating tubular lines laid in the cavity of the container, through which heated medium can be supplied, including the exhaust gases of the working engine of the machine. The cavity of the container is also equipped with perforated partitions, mesh (second) bottom 9; equipped with a ventilation system 10, 11; the machine is also equipped with signal beacons 12, mobile radio communications and an auxiliary tool. Such a snowplow can be used at different times of the day, change areas of the city to reduce transport routes for transporting snow masses from the streets to it.

The machine is equipped with a hydraulic circulation system 13 (Fig.2, 3) for more efficient melting of the mass and swelling of water down through the perforated partitions and the bottom 14, which enters under the mesh bottom 9; while part of the melt water is drained through the pipe 6, and part is fed through the hydraulic system 13 to its upper perforated pipes to irrigate the molten mass; the intake pipe of the system 13 is placed below the mesh bottom (figure 2) - between the bottom of the container and this bottom. The supply of snow mass is carried out, for example, by means of a conveyor 15 through a receiving hopper 5, where it is distributed in the form of a complex snow-firn-ice mass 16, the heating and melting of which are carried out by light emitters 7 of the microwave range of waves, and using pipes 8 with heated gases emitted into the atmosphere.

Due to the significant heat capacity and heat transfer of water (compared with gases), the use of melt water pumped through the hydraulic system 13 of the machine allows the mass to be melted due to its heat balance, in which melt water, starting from its temperature +2 + 4 ° C, is effective converts snow-ice mass into melt water due to the specific heat of water of about 1 cal / g versus such an ice index of 0.5 cal / g - this allows using 1 m ^{3 of} melt water at t = 4 ° C to transfer it to melt water about 3.7 m ^{3 of} ice, in its dense monolith, and reduce for the cost of processing the mass to absolutely low, increasing the efficiency of the process by 3.0-4.0 times.

Snowplow works as follows. Car 1 is parked at the sewer hatch on the street (square) or at the waterfront embankment (pond); from the drain pipe 6, the discharge pipe is lowered into the cavity of the drain hatch (or closely connected to its drain grate). If it is possible to discharge melt water into a watercourse, a bypass pipe is fed to this watercourse. The snow mass is fed into the container 4, the energy units 7 and 8 are turned on in the machine container, the snow is melted by thermal radiation (firn, ice); melt water flows down - under the mesh bottom, falls on the main bottom of the container; part of the melt water is fed by the hydraulic system 13 to the upper cavity for more intense melting of snow (by showering). Melt water is discharged from the bottom through the drain pipe 6 into the drainage system. For intensive melting of snow masses in the container, the ventilation system 10, 11 is additionally included in the operation, and the free heat of the engine gases of the machine is also used, passing them through pipes laid in the cavity of the container.

Such technical equipment of the snowplow can significantly reduce the cost of removing snow, reduce the congestion of streets from shuttle flights of dump trucks, reduce machine and labor costs for snow removal, and, thus, raise this process to a higher technological level in accordance with economic requirements.

Claims (3)

1. Snowplow containing a mobile platform, a power unit, an operator's cab with a control panel, a frame with a snow receiving hopper, characterized in that the snow receiving hopper is equipped with mesh and perforated partitions and a second mesh bottom fixed above the bottom of the hopper, emitters are installed at the top of the hopper heat, and in the middle part there are heat-conducting pipes, the bunker cavity is also equipped with a ventilation and hydraulic circulation system, while the intake pipe of the hydraulic system is located between to the bottom and mesh bottom of the hopper, and its consumable pipe is connected to a perforated pipe fixed in the upper part of the hopper, while the bottom has a drain pipe. 2. Snowplow according to claim 1, characterized in that the snow receiving hopper has a conveyor for collecting and supplying snow mass into its cavity. 3. Snowplow according to claim 1, characterized in that the heat emitters used light emitters of the microwave wavelength range and heaters, and also used exhaust gases supplied through a pipe laid in the cavity of the hopper above its second mesh bottom, and the outlet pipes connected to the atmosphere.