RU2106917C1 - Vibration exciter - Google Patents

Abstract

FIELD: production of building materials in mining and other industries. SUBSTANCE: vibration exciter has body 1 with channels 2 and 3 for admission and discharge of working medium, respectively, and movably installed core 4. Core 4 is connected with body 1 by means of flexible diaphragm 5 to form chamber 6 of forward motion which is communicated with intake channel, and chamber 7 of reverse motion communicated with discharge channel. Diaphragm 5 is secured to body 1 by its external and internal contours and fastened to core 4 with its middle section. Hollow of chamber 6 may be formed in body 1 or in core 4. Chambers 6 and 7 are interconnected by channel 8 in core 4. Channel 8 accommodates valve 9 for alternating opening of this channel or discharge channel and closing the other channel. EFFECT: simplified design due to formation of chambers of forward and reverse motions with the help of only one diaphragm. 2 dwg

Description

 The invention relates to vibration technology, specifically to devices for exciting vibrations, and can be used in the manufacture of building materials, in the mining industry and other industries where vibration is used.

 Known vibration exciter containing a housing with an inlet channel of the working medium, a core, movably mounted in the housing and elastically connected with it so that they form two chambers - a forward camera connected to the intake channel, and a reverse chamber communicated with the first camera and the atmosphere through channels made in the core, and a reversing valve for alternately opening one of the channels of the core and blocking the other, which is mounted on the core with the possibility of interaction with the body at the end of the direct and return strokes, while the area of the end of the core, which is affected by the pressure of the working medium from the side of the forward chamber, is less than the corresponding area of the opposite end of the core (ed. St. USSR N 722820, class B 65 G 27/22, publ. 25.03.80 )

 Closest to the proposed one is a self-oscillating vibration exciter containing a housing with inlet and outlet channels for the working medium, a core movably mounted in the housing and elastically connected with it using two diaphragms with the formation of two chambers - a forward motion camera connected to the inlet channel and a return chamber a stroke in communication with the atmosphere through the exhaust channel and with the first chamber through a channel made in the core, and a valve freely installed in the core channel with the possibility of interaction with the exhaust channel with axial movement of the core. During operation, the valve alternately opens one of the channels - the exhaust channel or the channel in the core, while blocking the other channel. The vibration exciter core is made with end surfaces of different sizes: the area of the end of the core, which is affected by the pressure of the working medium from the forward-facing chamber, is less than the corresponding area of the opposite end of the core (RF patent N 2004983, class B 06 B 1/18, publ. 30.12 .93).

 A significant drawback of both the analogue and the prototype is a rather complex design associated, in particular, with the presence of two elastic diaphragms.

 Therefore, the basis of the invention is the task of creating a simple technical design of the exciter.

 The problem is solved due to the implementation of the elastic connection of the core with the body using a single diaphragm.

 The proposed vibration exciter, as well as the prototype, contains a housing with inlet and outlet channels of the working medium, a core movably mounted in the housing and elastically connected with it so that they form two chambers - a forward motion chamber connected to the inlet channel and a reverse chamber, an outlet channel connected to the atmosphere and communicated with the first chamber by a channel made in the core, and a valve for alternately opening one of the channels — a channel in the core or an outlet channel and overlapping another that is installed in the core with the possibility of interaction with the exhaust channel with axial movement of the core, while the area of the core end, which is affected by the pressure of the working medium from the side of the forward chamber, is less than the corresponding area of the opposite end of the core.

 In contrast to the prototype, the vibration exciter contains one diaphragm mounted on the housing along its external and internal contours and fastened to the core in its middle section. In this case, the forward motion camera can be formed either in the core or in the housing. The design of the valve and the shape of the channels can also be different.

 In FIG. 1 schematically shows a vibration exciter with a forward motion camera formed in a core; in FIG. 2 - with a forward camera formed in the housing.

 The vibration exciter comprises a housing 1, in which an inlet channel 2 and a working medium outlet channel 3 are made. A core 4 is movably mounted in the housing, elastically connected to it by means of a diaphragm 5 to form a forward chamber 6 in the core (Fig. 1) or in the housing (Fig. 2) and a reverse chamber 7 in the housing. In the core 4, a channel 8 connecting both chambers is made, in which a valve 9 is freely placed, the stroke limiter of which is a ledge 10.

 Vibration exciter works as follows.

 The working medium enters through the channel 2 in the housing 1 into the forward chamber 6 and then through the core channel 8 into the reverse chamber 7, connected by the exhaust channel 3 to the atmosphere. Due to the pressure difference acting on the valve 9, the latter occupies an extremely stable position, abutting against the ledge 10, blocking the channel 8. The pressure in the forward stroke chamber 6 increases, moving the core 4 together with the valve 9 towards the outlet channel 3 until the valve 9 interacts with the last one. The valve stops, blocking the channel 3, and the core continues to move due to inertia forces, while the valve 9 opens the access of the working medium through channel 8. The pressure in the chambers is equalized. Due to the difference in the area of the ends of the core corresponding to the forward and reverse chambers, the force acting on the core 4 changes its direction, the core stops, and then changes its direction of motion. In this case, the valve 9, in contact with the step 10, first closes the channel 8, and then opens the exhaust channel 3. The spent working medium is released into the atmosphere. Next, the cycle repeats.

 Thus, it is seen that the proposed vibration exciter, similar in principle to working with known, is structurally simpler, as it has one elastic diaphragm.

Claims (1)

 A vibration exciter comprising a housing with inlet and outlet channels of the working medium, a core movably mounted in the housing and elastically connected to it so that they form two chambers — a forward-facing camera connected to the inlet channel and a backward chamber connected to the atmosphere by the exhaust channel and with the first chamber, a channel made in the core, and a valve for alternately opening one of the channels — a channel in the core or an exhaust channel and overlapping another, which is arranged to interact with the core channel the exhaust channel with axial movement of the core, while the area of the core end, which is affected by the pressure of the working medium from the side of the forward chamber, is less than the corresponding area of the opposite end of the core, characterized in that the elastic connection of the core with the housing is made using one diaphragm, which is fixed to the housing along its external and internal contours and is bonded to the core in its middle section, while the cavity of the camera for direct travel is formed either in the core or in the housing.

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