RU2036601C1 - Jet-ejecting nozzle - Google Patents

Abstract

FIELD: dusting of hard-to-get-at zones. SUBSTANCE: nozzle comprises channel for air supply to treated surface, and suction pipe. Air supply channel has the form of Laval nozzle installed in mixing chamber, diffuser, filter and converging tube, all of these being installed in succession on one and the same axis along the air flow. Diffuser, filter and converging tube are accommodated in suction pipe which has the form of a truncated cone connected by its smaller base to side surfaces of mixing chamber. EFFECT: improved design. 1 dwg

Description

 The invention relates to household appliances.

 A vacuum cleaner nozzle is known comprising a suction and discharge nozzle connected to a hollow triangular prism, the nozzles being placed at the tops of its base, the axis of the discharge nozzles being parallel to the base and side walls of the nozzle, and their outlet openings directed towards the suction nozzle.

 The disadvantage of this device is that it can be used to clean only smooth surfaces (for example, for cleaning the floor), but when cleaning uneven surfaces, dead ends, etc. the specified nozzles are not suitable, in addition, both pipelines (suction and discharge) are connected to the triangular prism, which makes the nozzles bulky and inconvenient in operation.

 The closest analogue (prototype) is a suction nozzle containing a static twist in the form of a cochlea and a suction nozzle coaxially mounted in it with the possibility of axial movement, while inside the static twist, a guide made in the form of a truncated cone is installed coaxially with the possibility of horizontal movement , the larger base of which is facing the work surface, and the smaller is rigidly connected to the suction pipe.

 The disadvantage of the prototype is that the design of the nozzle is very complicated, has movable parts, and dust is blown along the outer perimeter of the nozzle, and suction along the inner pipe, which can lead to dispersion of the dust around the room.

 The aim of the invention is to eliminate the noted drawbacks, as well as creating a device with which you can remove dust from stagnant zones: dead ends, corners, bumps, etc. In addition, the inlet nozzle is made in the form of a Laval nozzle installed in the mixing chamber along one axis with the outlet diffuser nozzle, filter and confuser nozzle, and a truncated apex of the cone-shaped bell directed toward the confuser nozzle and covering it around the perimeter is supplied to the side surface of the mixing chamber .

 To remove dust from the stagnant zones, it is initially blown out using the reactive force of the air stream, and then suction using a nozzle made in the form of a cone-shaped bell and communicated with the displacement chamber, in which the effect of rarefaction (ejection) is created by using the energy of the air stream, transformed in a Laval nozzle, i.e. only the discharge line of the vacuum cleaner is used.

 The drawing shows the proposed nozzles.

 The device consists of an inlet pipe 1 ending with a Laval nozzle installed in the mixing chamber 2. The diffuser pipe 3 that exits the chamber 2 is connected to the filter 4 and the confuser nozzle 5. A cone-shaped bell 6 is installed coaxially with the inlet pipe 1 and the outlet pipe 3, which is led to the side surfaces of the chamber 2 and is directed towards the confuser nozzle 5, covering it around the perimeter.

 The device operates as follows.

Air from the discharge pipe of the vacuum cleaner is fed into the inlet pipe 1 and, accelerating in the Laval nozzle, is fed into the chamber 2, creating a vacuum in it. Next, the air flow passes through the diffuser pipe 3, filter 4 and, increasing its kinetic energy in the confuser nozzle 5, is supplied to the surface to be treated (hard-to-reach dusty areas), from which it blows off the dust and simultaneously sucks it through the cone-shaped bell 6, since the atmospheric pressure is P _atm > P _cameras . Dust through the bell 6 along with the air stream enters the mixing chamber 2 and from there is ejected by the air stream into the diffuser pipe 3, and then deposited on the filter 4.

 Thus, dust blowing and trapping is carried out only due to the energy of the air stream, which makes it possible to use a fan instead of a vacuum cleaner in the presence of a jet-ejector nozzle, while the design as a whole is greatly simplified.

Claims (1)

 Jet jet nozzle containing a channel for supplying air to the surface to be treated and a suction pipe, characterized in that the channel for supplying air to the surface to be machined is made in the form of Laval nozzles installed in the chamber in series located on the same axis along the air flow and communicating with each other displacement, diffuser, filter and confuser, while the diffuser, filter and confuser are placed inside the suction pipe, which is connected with its smaller base to the side rhnostyam displacement chamber truncated cone.