SU1051006A1 - Vibratory feeder - Google Patents

Abstract

I. VIBRATION FEEDER, containing an elastic working platform with a vibrator attached under it, in the case of which a reactive element is placed with a cuff valve communicated through an inlet device with a source of energy carrier and a base that is characterized in that in order to increase productivity and reduce energy consumption The reactive element of the vibrator is made in the form of an anvil plate mounted by means of a height adjuster on the base. 2. A feeder according to claim 1, characterized in that the thrust plate height regulator is made in the form of a spring-loaded beam and a screw mechanism. 3. A feeder according to claim I, characterized in that the thrust plate height adjuster is made in the form of elastic elements. 4. The feeder according to claim 1, which differs in that the vibrator is made of two chambers with forward and backward move power chambers. 5. The feeder according to claim 1, differing from the fact that the body of the vibrator is attached to the platform by means of elastic elements, the total stiffness of which is higher than the rigidity, up§. Another working platform at the point of application to it of the resultant perturbing (L vibrator forces. 6. Pietztel according to paragraphs I and 3, characterized in that the total stiffness of the elastic elements of the support plate is higher than the rigidity of the working platform at the point of application of the resulting perturbing vibrator forces to it. O1 ABOUT)

Description

 The t-batch relates to a hoisting machine for sports engineering, namely, mobile feeders for transporting bulk materials, and can be used in the mining industry for the production and loading of broken ore in blocks. Vibratory feeders are known - delivery installations that enclose a working platform laid on 2-3 rigid supports, the front end of which goes to the haulage output and is unloading, and the unbalanced vibrator with the drive 1. The disadvantage of this device is that the installation It works in a resonance mode and may be damaged if accidentally hit in a resonance mode. The vibratory feeder, including an elastic working platform with a vibrator attached under it, is located in the building. The mustache of which is located a reactive element with a man-valve, connected through an inlet device with a source of energy carrier, and a base 2J. A disadvantage of the known vibrating feeder is the increased power of the pneumatic vibrator due to the need to work in the resonance mode, and the considerable useless consumption of energy carrier, which leads to reduced performance and waste of energy. The purpose of the invention is to increase the performance of the vibrating feeder and reduce the consumption of energy carrier. This goal is achieved by the fact that in a vibrating feeder containing an elastic working platform with a vibrator attached under it, in the case of which a reacting element is placed with a cuff-valve communicated through the inlet device with a source of energy carrier, and the base, the vibrator reactive element is designed as a thrust plate installed by means of the height adjustment on the center. The height adjuster, thrust plate is made in the form of a spring-loaded beam and a screw mechanism. The thrust plate height regulator can be made in the form of elastic elements. The vibrator can be made double-chamber with power chambers of the forward and backward passages. The body of the vibrator is attached to the surface by means of elastic elements, the total stiffness of which is higher than the rigidity of the elastic working platform at the point of application to it of the resultant vibration of the vibrator. The total stiffness of the elastic elements of the thrust plate is higher than the rigidity of the working pad at the point of application to it of the resulting vibrating forces of the vibrator. FIG. 1 shows a diagram of a vibrating feeder; in fig. 2 shows section A-A in FIG. one; in fig. 3 - regulator mounting height of the support plate; pas figs. 4 - vibrating feeder with two-chamber vibrator, transverse, | th cut; in fig. 5 - the same, with independent power supply of the power chambers of the vibrator. The vibrating feeder consists of an elastic working platform 1 with an iripreplein below it on the connections x 2 with the case 3 of the vibrator, above which is placed a reactive element (drummer), B1 made in the form of an anvil plate 4, having, for example; U-shaped and fixed on the base 5 (Fig. I and 2). Between the housing 3 of the vibrator and the support plate 4 is placed a cuff-valve 6, periodically sealing the power cam, measure 7, connected through the inlet device and the sleeve 8 to the source of energy carrier. In order to adjust the mode of operation of the vibrator and its synchronization with the period of natural oscillations of the elastic working platform 1 with the load, ensuring minimal energy costs with maximum performance, i.e. the operation of the vibrating feeder in resonance.M mode, the height of installation of the support plate 4. can be changed with the help of elastic elements MeiTTOB 9. The same goal, but with greater convenience, can be achieved by installing the support plate on a spring-loaded beam 10 fixed to the hinge 11 on the base 5, with the possibility of raising and lowering its other mine with the help of a screw mechanism 12 and a spring 13 (Fig. 3). The stiffness of the spring 13 is chosen so that it provides a constant preload of the free end of the beam I) to the adjusting nut of the screw mechanism 12, regardless of the vibrations of the loads. The vibrator can also be made in two chambers (Fig. 4), which provides a more light start at full power and a quick buildup of the elastic working platform I. With this implementation of the vibrator between the thrust plate 4 and the elastic work platform 1, the cuff-valve 14 is periodically sealing force the chamber 15 is forward, and between the support plate of the housing 3 there is a cuff-valve 16, which is periodically sealed with the power supply chamber 17 of the reversible stroke, both of which are alternately connected with the source of energy carrier a.ly 18 and klapa) 19 double-acting. On the fireplate 4 1I) IK) lines are the upper 20 and lower 21, with the possibility of their contacting respectively with the working platform 1 and the vibrator body 3, which provides the vibro-impact mode of the feeder, especially advantageous when the working platform is in the bulk material block. In this case, installation of the support plate 4 on the base 5 with the help of elastic elements 22 and connection of the housing 3 with the elastic working platform I with elastic elements 23 can be provided, which informs the system of subsidence and ensures the start of the vibrator when there is large bulk material on the working platform those. during blockages. However, in case of very large overloads and, accordingly, deflections of the elastic working platform, the double-acting valve 19 may not work (do not transfer to another position), and the start of the vibrator is very difficult. For such cases, i.e. For operation in particularly difficult conditions, an independent and separate supply of the vibrator power chambers with energy carrier is effective, for which (Fig. 5) the inlet device is made with valves with push pins and forward-travel valve 24 and with reverse-travel valve 25. Vibrating feeder works as follows. The energy carrier (compressed air) is supplied through the sleeve 8 through the inlet device into the power chamber 7 and creates in it. the pressure acting on the casing 3, as well as the reactive element — is the thrust plate 4. Since the latter is rigidly attached to the base 5, it cannot rise upwards and therefore the housing 3 drops downwards, 2 to the elastic work platform 1, bending it down. The downward movement of the housing 3 continues until the structural base is exceeded constructively. A predetermined prediction from the cuff edge of the cuff-valve 6, 35 is definable ogre; 1 Hitat 1 and its bend (not shown), (which creates a gap between the cuff-face , 1pan () m 6 and casing 3. Compressed air from chamber 7 is exhausted, pressure is in, it drops sharply, yJIpyga working platform - I, because of its elasticity, takes initial (kktozhenie.and the cycle repeats. Since force chamber 7 is sealed by a cuff - valve 6 only when approaching the housing 3, attached perturbation of their efforts to the elastic working platform will occur strictly synchronously with its own oscillations, i.e. the system will work in the autoresolating mode. The elements 9 allow, in the nerves, during the installation of the vibration nitrate to set the thrust plate 4 parallel to the housing plate 3, secondly, to set the thrust plate 4 at a height that provides for the necessary scope of the working plunger “ B out of you Cells for mounting the support plate 4 with the help of elastic elements 9 as follows) (do not change the high vibrations of the elastic working platform to adjust to the specific and changing conditions of work. And at the Heko, during long-term operation. The spur of the working platform and its supports may be somewhat deformed and sag, which will cause a change in the mode of operation. In this case, the elastic elements 9 can make the necessary adjustment of the installation height of the support plate and restore the specified mode of operation. It is more convenient to change the mounting height of the support plate 4 with the sloping-regulation of the height shown in fig. 3. When rotating the screw nut of the screw mechanism 2, the beam 10 either rises under the influence of the spring 13 or lowers, rotating with one end in the hinge 11 attached to the base 5, respectively, raising or lowering the stop plate 4, which causes the required Effective - change in the amplitude of oscillations of the elastic working strain 1.. In an emergency. Describing the work of an oscillating power supply with frequent overloads, it is advisable to use a two-way vibrator to ensure the performance of both forward and reverse strokes of the working plane - (4), for which the compressed E air enters. Alternately, the force chambers 15 are direct and the return of the first 17 strokes, through the valve and double action), the operation of which proceeds in the following order. Assume that K. an; i1 19 occupies the position indicated in FIG. 4. At the same time, the compressed air is supplied to the power chamber 15 and creates pressure in it. under the action of the .ro resistant plate 4 could fall down, but elastic elements 22 prevent this, the total stiffness of which is higher than that of the working platform at the point of application to it of the resultant vibrator disturbing forces, therefore the elastic working surface of 1 is rising. its rise comes from the sealing edge of the cuff valve 14, the compressed air from the chamber 15 is exhausted, the pressure in it is sharply injected, as a result of which the compressed air enters the chamber, creates a pressure difference above the valve 19 and below it, One action, by which the valve 19 is moved to the up position and opens up access to compressed air into the return chamber 17. The return stroke takes place, at the end of which the cuff-valve 16 is detached from the housing 3, the air from the chamber 17 is exhausted, the pressure drops, and the valve 19 is moved again to the lower position, and the spring-loaded valves 24 and 25 can work only alternately because

in contact with the casing -3 in this togchSNT

time, only one of the thickeners of these gapans can enter and the compressed air can flow at this moment of time only into one of the force chambers. When poloxi:.: Shown in FIG. 5, in contact with l-ori; Catfish 3 is a pusher valve) 25, and air enters the chamber 15 back1 o ho (a. It creates a pressure that, in the event of a delay with start-up, reaches the network and the force developed is sufficient to bend the working platform in the appropriate direction, but at the same time; the contact stops, the air in the power chamber ceases to flow, the valve tappet 24 n begins to contact with the housing 3. The compressed air enters the chamber 17. forward stroke, the vibrator is put into operation.

The availability of the vibrator in particular conditions is facilitated by the presence of yripyriix elements 22. If in the force chamber, which is currently communicated with the source of energy carrier, even when the network reaches the developed force, it will not be enough to re-create yiipyrofi of the working platform (its height), then the elastic elements 22 sozhmuts, yiiopnaji plate 4 will move a little and exhaust will come from the power chamber, and then its filling with compressed air, etc.

Thus, only one vibrator chamber with independent operation will work at the limit values of the compressed air pressure.

With our inlet device, as a result of which the blockage will be eliminated, the load on the working platform will be normal and the second force chamber will take effect, i.e. the normal bulk material handling process will be restored.

A similar effect is achieved by attaching the housing 3 to the working platform 1 with the help of elastic elements 23. Only in this case will the housing 3 be mixed due to the deformation of the elastic elements 23, which ensures that one power chamber operates at full network pressure and gradually eliminates the elastic working platform (liquidation is simple), after which both force chambers come into operation.

As the goal :: the blockage is eliminated and both vibrator chambers come into operation, the elastic elements 22 and 23 stop working, because their total stiffness is higher than the rigidity of the working platform at the point where the resulting vibrator forces are disturbed.

If necessary, the presence of the strikers 20 and 21, made on the support plate 4 (Fig. 4), allows the percussion mode of the elastic working platform to be carried out, for which the amplitude of oscillations should be varied by the indicated methods.

The invention makes it possible to increase productivity and reduce energy consumption due to the possibility of adjusting the operating mode of the vibrator and tuning it to the autoresonance mode.

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Claims (6)

1. VIBRATION FEEDER, comprising an elastic working platform with a vibrator attached underneath, in the housing of which there is a reactive element with a cuff-valve communicated through an intake device with an energy source, and a base, characterized in that, in order to increase productivity and reduce energy consumption , the vibrator reactive element is made in the form of a thrust plate installed by means of a height adjuster on the base. 2. Feeder by π. 1, characterized in that the height regulator of the thrust plate is made in the form of a spring-loaded beam and a screw mechanism. 3. Feeder by π. 1, characterized in that the height regulator of the thrust plate is made in the form of elastic elements. 4. Feeder by π. 1, characterized in that the vibrator is made two-chamber with power chambers of direct and obobatnyh moves. 5. Feeder by π. 1, characterized in that the vibrator body is attached to the platform by means of elastic elements, the total rigidity of which is higher than the stiffness, _{with a} different working platform at the point of application of the resultant disturbing forces of the vibrator to it. . V 6. Feeder 1 and 3, characterized in that the total stiffness of the elastic elements of the thrust plate is higher than the stiffness _{from the} working platform at the point of application of the resulting disturbing forces of the vibrator I to it. | 1051