RU2150992C1 - Feed vibromixer - Google Patents

Abstract

FIELD: equipment for mixing feeds to prepare combined feed in feed preparing plant. SUBSTANCE: feed vibromixer has rigid housing with charging and discharge throats, cylindrical mixing chamber, supporting springs, unbalancing vibratory exciter, and flexible air blower with resonating masses. Housing is provided with windows. Flexible air blower is disposed in mixing chamber so that it adjoins air blower generatrix. Resonating masses are attached in the vicinity of housing windows. EFFECT: increased efficiency, simplified construction and enhanced reliability in operation. 3 dwg

Description

 The invention relates to a device for mixing bulk feed and can be used for the preparation of feed mixtures in feed plants.

 Known vibration mixer for feed, comprising a housing with loading and unloading necks, a cylindrical mixing chamber, support springs, unbalanced vibration exciter. (A.S. N 1556731, B 01 F 11/00, 1990), adopted as the closest analogue. The disadvantage of this device is its relatively large energy intensity of the process and low quality mixing.

 Known vibration mixer for feed, comprising a rigid housing with loading and unloading necks, a cylindrical mixing chamber, support springs, unbalanced vibration exciter, elastic air blower with resonant masses (Positive decision on the application N 97102307/25 (002074), B 01 F 3/18, 10.03 .99). The disadvantages of this device are the low quality of mixing and low productivity. This is due to the fact that the air stream cannot effectively penetrate through a large column of mixed mass.

 The present invention is to improve the quality of mixing and productivity of the device.

 The present problem is solved in that in a feed mixer including a rigid body with loading and unloading necks, a cylindrical mixing chamber, support springs, an unbalanced vibration exciter, an elastic air blower with resonant masses, windows are made in the housing, and an elastic air blower is installed in the mixing chamber along it generatrix, while the resonant masses are mounted in the area of the windows of the case.

 The novelty of the proposed technical solution is achieved by installing an elastic air blower inside the mixing chamber, and the resonant masses are mounted in the area of the case windows.

 In FIG. 1 shows a general diagram of a device.

 In FIG. 2 is a diagram of the effect of additional air flow on the feed in the right position of the exciter unbalances.

 In FIG. 3 - the same with the left position of the vibration exciter unbalances.

 The vibratory mixer consists of a rigid body 1, with a loading 2 and an unloading 3 neck, windows 4 and a mixing chamber 5, along which a flexible air blower 6 is installed. The upper ends 7 and 8 of the air blower 6 are fixed to the housing 1, and on the outer surface in the area where the windows are located 4, the resonant masses are attached 9. The housing 1 is mounted on the support springs 10, and an unbalanced vibration exciter 11 connected to the drive 12 is fixed on its outer side.

 The mixer operates as follows. The material to be mixed is loaded into the cylindrical mixing chamber 5 through the loading neck 2 of the rigid body 1. The maximum filling of the mixing chamber 5 should not exceed 70 ... 80%, otherwise the duration of the mixing process increases significantly. When the drive 12 is turned on, the exciter 11 generates a circular vibration of the rigid housing 1. During the mixing process, the material circulates in the opposite direction to the direction of rotation of the unbalance of the exciter 11, and a certain angle of the overburden surface α to the horizon is established (Fig. 1). The installation of an elastic air blower 6 in the mixing chamber 5 helps to intensify the process of material movement (and, of course, the quality of mixing), since the alternating air flows generated by the air blower 6 are additionally affected by the mixed mass. To ensure the free movement of the resonant masses 9 ends 7 and 8 of the air blower 6 fixed to the housing 1. With the right position of the unbalance of the vibration exciter 11 (Fig. 2), the right and left resonant masses 9 are in the right extreme position and create additionally the airflow penetrating the mixing mass from left to right, providing additional mixing mass. When the unbalances of the vibration exciter 11 go to the left extreme position (Fig. 3), the resonant masses 9 move to the left extreme position, which leads to an additional air flow penetrating the mixed mass from right to left. The alternating air flow created in this way provides enhanced circulation of material particles and thus improves mixing quality. All of the above leads to an increase in mixer performance. The magnitude of the alternating air flow in a wide range is regulated by adding or removing plates in the resonant masses 9. After mixing is completed, the discharge neck 3 opens and the material is brought out.

Claims (1)

 Vibration mixer for feed, comprising a rigid housing with loading and unloading necks, a cylindrical mixing chamber, support springs, an unbalanced vibration exciter, characterized in that the housing is made of windows, and an elastic air blower is installed in the mixing chamber along its generatrix, while the resonant masses are mounted on the external surface of the air blower in the area of the windows of the housing.

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