CN211337266U

CN211337266U - Anti-blocking stock bin vibration mechanism

Info

Publication number: CN211337266U
Application number: CN201922289610.9U
Authority: CN
Inventors: 王进贤; 陈宗育; 卢园头; 苏伟民; 帅学涛
Original assignee: Fujian Nonnon Technology Co ltd
Current assignee: Fujian Nonnon Technology Co ltd
Priority date: 2019-12-18
Filing date: 2019-12-18
Publication date: 2020-08-25
Anticipated expiration: 2029-12-18

Abstract

The utility model relates to a vibration mechanism field of feed bin specifically is to disclose a feed bin vibration mechanism of anti-blocking material, including feed bin and the vibration mechanism of having last feed inlet and bottom discharge mouth, vibration mechanism includes vibrator and vertical mounting bracket, the upper end of vertical mounting bracket is connected at last feed inlet border, the vibrator sets up the lower tip at vertical mounting bracket, the vibrator is hung through vertical mounting bracket and is established outside feed bin and through the transmission of vertical mounting bracket with the vibration power transmission feed inlet of vibrator in to feed bin. The feed bin vibration mechanism of this structure, its vibrator are through vertical mounting bracket interval connection and driven, and the direction about going up through the vibrational force that this mounting structure vibrator produced, the vibrational force of transmission to feed bin also can the thrust arch material about the direction, and the vibrator does not have the contact with feed bin lateral wall, consequently this structure setting can reach better vibration unloading effect and the effect of making an uproar of falling.

Description

Anti-blocking stock bin vibration mechanism

Technical Field

The utility model relates to a vibration mechanism field especially relates to a vibration mechanism that feed bin used.

Background

The vibration mechanism of the storage bin is used for solving the problem that the materials are piled up and not discharged smoothly in the storage bin when the materials are discharged, the vibration of the existing storage bin which is common in aggregate sand making equipment is vibration force which penetrates into the periphery of the storage bin in a straight line (namely, the vibration force is transmitted into the radial direction), and the vibrators are arranged on two side panels of the storage bin, so that the following common problems exist in the vibration discharging process, 1, the vibration noise caused by the mounting of the vibrators and the side panels of the storage bin is larger, the noise pollution of the surrounding environment is increased, 2, the vibration force transmitted into the periphery is straight line, the vibration force depth of the material body transmitted into the storage bin is not large, 3, the vibration force transmission mode can generate resonance defect when the vibration force is transmitted into a certain depth, the defect can cause the arch defect to obtain the releasing effect in time, namely, the arch problem can not be solved in time, the material is accumulated and blocked in the blanking bin, the material is difficult to fall off, and no material is blanked below, so that the production efficiency and the energy consumption of the waste equipment are reduced. In view of the above problems, the present inventors have conducted a detailed analysis of the reasons for the above problems of the conventional silo vibration mechanism, and have conducted an improvement based on the analysis and study of characteristics.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a can separate to dash to encircle the material and reach better vibration unloading effect than current product structure, effectively solve a feed bin vibration mechanism of anti-blocking of above-mentioned problem.

In order to achieve the above purpose, the technical scheme of the utility model is that: the utility model provides a feed bin vibration mechanism of anti-blocking, is including feed bin and the vibration mechanism of having last feed inlet and bottom discharge mouth, vibration mechanism includes vibrator and vertical mounting bracket, the upper end of vertical mounting bracket is connected at last feed inlet border, the vibrator sets up the lower tip at vertical mounting bracket, the vibrator hangs through vertical mounting bracket and establishes outside the feed bin and through vertical mounting bracket with the vibration power transmission feed inlet of vibrator on the feed bin under the transmission.

The vibrating mechanisms are respectively arranged on two opposite side edges of the lower storage bin.

The upper end of the vertical mounting rack is connected with the edge of the upper feed inlet at intervals through an elastic transmission part.

The elastic transmission component is a rubber spring component.

The vertical mounting bracket comprises a connecting beam, a vertical rod and a mounting beam, the connecting beam is connected at the edge of an upper feed inlet, the mounting beam corresponds to the interval and is arranged below the connecting beam, the two ends of the mounting beam are respectively connected with the connecting beam through the vertical rod, and the vibrator is arranged on the mounting beam.

And two ends of the connecting beam are respectively connected with the edge of the upper feed inlet at intervals through elastic transmission parts.

The upper feed inlet is square structure, the elastic transmission part is correspondingly arranged at two ends of the edge of the upper feed inlet.

The elastic transmission component comprises an upper connecting plate, a lower connecting plate and a rubber spring arranged between the upper connecting plate and the lower connecting plate.

By adopting the technical scheme, the beneficial effects of the utility model are that: in the bin vibration mechanism with the structure, the vibrators are connected at intervals through the vertical mounting rack and are not in direct contact with the side wall of the lower bin, thus, the vibration force generated by the vibrator is transmitted to the blanking bin at intervals through the mounting rack, the vertical mounting rack is also adopted, the vibrator is arranged at the lower end part of the vibrator, the upper end part of the mounting frame is connected with the edge of the upper feed port, so that after the upper end part is fixedly connected, the vibrator is equivalently hung upside down on the upper feed port, the vibration force generated after the vibration is radiated on the mounting rack is different from the vibration direction of the prior art in the vertical direction, therefore, the vibration force transmitted to the blanking bin is transmitted downwards and vibrates up and down, the radiation of the vibration force is deeper, the blanking can be effectively carried out, and the condition of resonance and material arching can be effectively avoided by the aid of the de-impacting, so that the problem that the blocked material is difficult to de-impact and fall automatically is solved.

In addition, the structure is arranged because the vibrator is arranged on the lower end part of the mounting frame, the upper end part of the mounting frame is fixedly connected with the edge of the upper feeding hole, and the vibrator is not in direct contact with the side wall of the lower feed bin.

Drawings

Fig. 1 is a schematic structural diagram of a bin vibration mechanism for preventing material blockage according to the present invention;

fig. 2 is another angle structure schematic diagram of the bin vibration mechanism for preventing material blockage of the utility model.

In the figure:

a discharging bin 1; an upper feed port 11; a lower discharge port 12;

a vibration mechanism 2; a vibrator 21; a vertical mounting 22; a connecting beam 221;

a vertical rod 222; a mounting beam 223; an elastic transmission member 224; an upper connecting plate 2241;

a lower connecting plate 2242; a rubber spring 2243.

Detailed Description

In order to further explain the technical solution of the present invention, the present invention is explained in detail by the following embodiments.

The utility model discloses a feed bin vibration mechanism of anti-blocking, as shown in fig. 1 and fig. 2, establish feed bin 1 and set up the vibration mechanism 2 of connecting on feed bin 1 down including fixed mounting bracket, the utility model discloses with current feed bin vibration mechanism's improvement part lie in vibration mechanism's structure and its and the position mounting structure between feed bin 1 down, follow through combining concrete structure of attached drawing detailed description and position relation of connection.

As shown in the figure, the blanking bin 1 is generally a funnel-shaped structure with an upper opening and a lower opening, and the upper opening is larger than the lower opening, so as to control the blanking speed and amount.

Vibration mechanism 2, as shown in the figure, including vibrator 21 and vertical mounting bracket 22, the upper end of vertical mounting bracket 22 is connected at last feed inlet 11 border, vibrator 21 sets up the lower tip at vertical mounting bracket 22, vibrator 21 hangs through vertical mounting bracket 22 and establishes outside feed bin 1 down and through vertical mounting bracket 22 with the transmission of the vibrating force transmission feed inlet 11 of vibrator 21 in feed bin 1 down, notice here vibrator 21 be through feed bin 1 under vertical mounting bracket 22 interval connection and vibrator 21 and feed bin 1 lateral wall do not have direct contact down, the vibrating effect that consequently the vibrating force direction that the vibration produced and the vibrating effect that reaches can be different from the vibrating effect that the mode of setting in the above-mentioned background art produced, thereby reach the utility model discloses the beneficial effect that the above-mentioned beneficial effect part mentioned.

In this embodiment, the structure of vertical mounting bracket 22 is such, including tie-beam 221, montant 222 and installation roof beam 223, tie-beam 21 is connected at last feed inlet 11 border, installation roof beam 223 corresponds the interval and sets up the below at tie-beam 221, the both ends of installation roof beam 223 are respectively through montant 222 connection tie-beam 221, vibrator 21 sets up on the installation roof beam, the length of tie-beam 221 can be corresponding with the last feed inlet 11 border length of corresponding being connected, and installation roof beam 223 corresponds tie-beam 221 and sets up in the centre, and vibrator 21 fixed mounting is on the interlude of installation roof beam 223, and such structure sets up the installation of the vertical mounting bracket 22 of balance that can be better, also is favorable to the balanced transmission of vibrational force in the vibration unloading working process. For further reaching better vibrating force transmission balanced effect here, vibration mechanism 2 should set up respectively at the relative both sides limit of feed bin 1 down, and the realization that can be better in the course of the work can be whole about the even vibration of feed bin 1 down like this, promotes the vibrating force radiation depth, promotes vibration unloading effect.

Great for the noise that the structure produced in the use of solving among the above-mentioned background art, reach the utility model discloses the effect of making an uproar falls, in this embodiment the both ends of tie-beam 221 respectively with go up between feed inlet 1 border through elastic drive part 224 interval connection, through elastic buffer of elastic drive part 224 come the transmission noise of buffering vibrating force on the solid to reach above-mentioned required effect. On the basis of the structure setting of the above-mentioned vertical mounting frame 22, in this embodiment the elastic transmission component 224 is correspondingly arranged at the two ends of the edge of the upper feeding hole 11, so as to achieve the effects of uniform transmission vibration and noise reduction better. In addition, the embodiment further discloses a specific structural arrangement of the elastic transmission component 224, as shown in the figure, the structural arrangement includes an upper connecting plate 2241, a lower connecting plate 2242 and a rubber spring 2243 arranged between the upper connecting plate 2241 and the lower connecting plate 2242, the structural arrangement is favorable for stable use of the structural arrangement and convenient production, manufacture and installation, the rubber spring 2243 can also adopt other products with equivalent functions, here, a rubber spring is preferably adopted, which is favorable for noise reduction and service life extension, here, one or more rubber springs 2243 of each elastic transmission component 224 can be arranged, as shown in the figure, two rubber springs are arranged, the number of the arranged rubber springs 2243 can be determined according to the self elastic coefficient, for example, a plurality of the arranged elastic coefficients with higher elastic coefficient can reduce the elastic coefficient, the value of the elastic coefficient can achieve better transmission vibration force, avoid the vibration force from being elastically combined to affect the vibration blanking effect, and can achieve a numerical value with better noise reduction effect.

The above embodiments and drawings are not intended to limit the form and style of the present invention, and any suitable changes or modifications made by those skilled in the art should not be construed as departing from the scope of the present invention.

Claims

1. The utility model provides a feed bin vibration mechanism of anti-blocking, is including feed bin and the vibration mechanism that has last feed inlet and bottom discharge mouth, its characterized in that: the vibrating mechanism comprises a vibrator and a vertical mounting frame, the upper end portion of the vertical mounting frame is connected to the edge of an upper feeding port, the vibrator is arranged at the lower end portion of the vertical mounting frame, the vibrator is hung outside a discharging bin through the vertical mounting frame and is driven into the discharging bin through the vertical mounting frame and the vibrating force transmission upper feeding port of the vibrator.

2. The anti-blocking bin vibration mechanism of claim 1, wherein: the vibrating mechanisms are respectively arranged on two opposite side edges of the lower storage bin.

3. The anti-blocking bin vibrating mechanism according to claim 1 or 2, wherein: the upper end of the vertical mounting rack is connected with the edge of the upper feed inlet at intervals through an elastic transmission part.

4. The anti-blocking bin vibrating mechanism according to claim 3, wherein: the elastic transmission component is a rubber spring component.

5. The anti-blocking bin vibrating mechanism according to claim 1 or 2, wherein: the vertical mounting bracket comprises a connecting beam, a vertical rod and a mounting beam, the connecting beam is connected at the edge of an upper feed inlet, the mounting beam corresponds to the interval and is arranged below the connecting beam, the two ends of the mounting beam are respectively connected with the connecting beam through the vertical rod, and the vibrator is arranged on the mounting beam.

6. The anti-blocking bin vibrating mechanism according to claim 5, wherein: and two ends of the connecting beam are respectively connected with the edge of the upper feed inlet at intervals through elastic transmission parts.

7. The anti-blocking bin vibrating mechanism according to claim 6, wherein: the upper feed inlet is square structure, the elastic transmission part is correspondingly arranged at two ends of the edge of the upper feed inlet.

8. The anti-blocking bin vibrating mechanism according to claim 6, wherein: the elastic transmission component comprises an upper connecting plate, a lower connecting plate and a rubber spring arranged between the upper connecting plate and the lower connecting plate.