CN201825518U - K-P vibrating feeder of soil dregs conveying device for cement production technology - Google Patents

Abstract

The utility model discloses a K-P vibrating feeder of a soil dregs conveying device for a cement production technology, which comprises a device body conveying trough (10), two vibration motors (4), a vibration motor base (8), a feeding trough (1) and a discharging trough (7) which are arranged along the horizontal direction, wherein the vibration motors (4) are fixedly connected onto the vibration motor base (8), the two vibration motors (4) take the longitudinal vertical central plane of the device body conveying trough (10) as the symmetrical plane to be installed on the two sides of the vibration motor base (8), and the axes of the vibration motors (4) are obliquely arranged relative to the device body conveying trough (10). By adopting the technical scheme, the service life of the vibrating feeder can be prolonged, and the environment can be protected; and the utility model has reasonable structure and convenience in processing, and can effectively reduce the production and operation costs.

Description

Native slag feedway K-P vibrating feeder in the cement production process

Technical field

The utility model belongs to the technical field of building materials production technology equipment, relates to the process equipment of cement producing line, and more particularly, the utility model relates to the native slag feedway K-P vibrating feeder in a kind of cement production process.

Background technology

In order to satisfy the needs of the defeated material of CK-450 Vertical Mill, cement production enterprise generally uses the vibrating feeder that overlaps with the grinding-in of ATOX50 raw material at present.Under the reverse stress effect, crackle appears in the housing weld seam of vibrating feeder, especially near the vibrating motor.Therefore, need frequent repair welding, the maintenance cumulative hours is long, even the phenomenon that material fortune is not walked occurs.

The utility model content

Problem to be solved in the utility model provides the native slag feedway K-P vibrating feeder in a kind of cement production process, its objective is that the disturbance force with vibrating motor rationally distributes, and avoids casing to ftracture because of vibration.

To achieve these goals, the technical scheme taked of the utility model is:

Native slag feedway K-P vibrating feeder in the cement production process provided by the utility model, comprise body delivery chute, vibrating motor, vibrating motor base, charging scraper-trough conveyer, discharging scraper-trough conveyer that horizontal direction is provided with, described vibrating motor is fixedly connected on the described vibrating motor base, described vibrating motor is two, vertically vertical centre plane with described body delivery chute is the plane of symmetry, be installed on the two sides of described vibrating motor base, the axis of described vibrating motor is obliquely installed with respect to described body delivery chute.

Described bevelled angle is 30 °.

Establish the motor base gusset in the middle of the described vibrating motor base.

Be connected by strengthening gusset between described vibrating motor base and the described body delivery chute, described reinforcement gusset is identical being obliquely installed with the axis of described vibrating motor.

Described charging scraper-trough conveyer and delivery chute adopt the charging flexible connection structure, and described charging flexible connection structure is uncharged enclosed construction, and its material is a flexible material.

Described discharging scraper-trough conveyer and bucket are carried and are adopted the discharging access node structure that is flexible coupling, and described discharging flexible connection structure is uncharged enclosed construction, and the flexible connection structure material is a flexible material.

Described body delivery chute is installed on the ground by shock bracket, between described body delivery chute and the shock bracket, establishes complex spring.

Described body delivery chute is whole airtight trench structure.

The amplitude of described two vibrating motors is identical, and synchronous reverse running.

The utility model adopts technique scheme, the service life that can improve the K-P vibrating feeder, and can play the effect of protecting environment; Of the present utility model rational in infrastructure, easy to process, can effectively reduce and make and operating cost.

Description of drawings

Below expressed content of each width of cloth accompanying drawing of this specification sheets and the mark among the figure are made brief description:

Fig. 1 is the integral structure figure of the K-P vibrating feeder in the utility model;

Fig. 2 looks scheme drawing for the right side of structure shown in Figure 1;

Fig. 3 is the structural representation of the vibrating motor base in the utility model;

Fig. 4 looks scheme drawing for the right side of structure shown in Figure 3;

Fig. 5 is the schematic top plan view of structure shown in Figure 3.

Be labeled as among the figure:

1, charging scraper-trough conveyer, 2, the charging flexible connection structure, 3, strengthen gusset, 4, vibrating motor, 5, shock bracket, 6, complex spring, 7, the discharging scraper-trough conveyer, 8, motor base, 9, the motor base gusset, 10, the body delivery chute.

The specific embodiment

Contrast accompanying drawing below, by description to embodiment, to effect and principle of work, the manufacturing process of the mutual alignment between the shape of the specific embodiment of the present utility model such as related each member, structure, the each several part and annexation, each several part and manipulate method etc., be described in further detail, inventive concept of the present utility model, technical scheme had more complete, accurate and deep understanding to help those skilled in the art.

The of the present utility model structure expressed as Fig. 1～Fig. 5, K-P vibrating feeder for the native slag feedway in a kind of cement production process, comprise body delivery chute 10, vibrating motor 4, vibrating motor base 8, charging scraper-trough conveyer 1, discharging scraper-trough conveyer 7 that horizontal direction is provided with, described vibrating motor 4 is fixedly connected on the described vibrating motor base 8.Vibrating motor 4 is an exciting source.

In order to solve the problem that exists at the described present known technology of this specification sheets background technology part and to overcome its defective, realization rationally distributes the disturbance force of vibrating motor, avoid the goal of the invention of casing because of vibration generation cracking, the technical scheme that the utility model is taked is:

Native slag feedway K-P vibrating feeder in the cement production process provided by the utility model, wherein, described vibrating motor 4 is two, vertically vertical centre plane with described body delivery chute 10 is the plane of symmetry, be installed on the two sides of described vibrating motor base 8, the axis of described vibrating motor 4 is obliquely installed with respect to described body delivery chute 10.

The utility model is considered to satisfy the in-use performance requirement and can play environment protecting by the design of globality; Vibrating motor 4 is to customize through calculating, and can adjust amplitude, the frequency of disturbance force; Steady, the reliable operation of vibration when adopting structure to make the complete machine running with performance through the vibrating motor of optimizing, life-span are long, and its disturbance force can regulate, and can change at any time and dominant discharge, easy to adjust stable, noise is low, and power consumption is little, adjusting function is good, does not have the material of dashing phenomenon; Avoid in the process of long-term operation, the complete machine performance being impacted, saved cost.

The feedback of result of trial operation on the spot by strict design calculating and model machine has proved the rational in infrastructure of K-P vibrating feeder of the present utility model, and is reliable, regulates and installs simply, and maintaining conveniently.

The amplitude of two vibrating motors 4 described in the utility model is identical, and synchronous reverse running.During the work of K-P vibrating feeder, two vibrating motor 4 synchronous reverse runnings, the disturbance force equal and opposite in direction, the direction symmetry is opposite.

The angle of the axis tilt of vibrating motor 4 described in the utility model is 30 °.

In vertical plane, be on the direction of 30 ° of angles, make a concerted effort to be sinusoidal alternating stress,, arrange its additional strengthening, can transmit disturbance force effectively, reduce internal stress according to the character of power with body delivery chute 10 line of centerss.

As Fig. 3, Fig. 4 and shown in Figure 5, establish motor base gusset 9 in the middle of the vibrating motor base 8 described in the utility model.

Under the manufacture craft and quality control of strictness, the intensity that vibrating motor base 8 is reached satisfies designing requirement fully, even when the machine overload operation, also can satisfy requirement of strength, safety with durability and structure, can from the raw material mill, be given to bucket to block, granular material evenly, regularly, continuously and go in carrying, and material is carried out coarse fraction.

Be connected by strengthening gusset 3 between vibrating motor base 8 described in the utility model and the described body delivery chute 10, described reinforcement gusset 3 is identical being obliquely installed with the axis of described vibrating motor 4.

As shown in Figure 1, the utility model adopts above-mentioned novel frame additional strengthening, and make additional strengthening extend to K-P vibrating feeder each several part, make its each several part with identical amplitude operation, thereby residual stress relieving, crackle appears in the housing weld seam near preventing motor, has changed old-fashioned K-P vibrating feeder drives the complete machine operation with the part phenomenon.

K-P vibrating feeder of the present utility model adopts vibrating motor base 8 to be connected with the general frame of body delivery chute 10 with reinforcement gusset 3, the weight of vibrating motor 4 is transferred on the supporting leg of body delivery chute 10, avoid mono-to rely near vibrating motor 4 housings to carry the phenomenon of motor weight, also just avoid it to produce the phenomenon of cracking.

Charging scraper-trough conveyer 1 described in the utility model adopts charging flexible connection structure 2 with delivery chute 10, and described charging flexible connection structure 2 is uncharged enclosed construction, and its material is a flexible material.Seamlessly be flexible coupling with adopting being connected of grinding machine scum mouth, avoided the conveying of interference effect that machine produces because of collision in operational process to material.

The anti-gray flexible connection structure is set below charging flexible connection structure 1.Its effect is identical with technique scheme

Discharging scraper-trough conveyer described in the utility model 7 and bucket are carried and are adopted the discharging access node structure that is flexible coupling, and described discharging flexible connection structure is uncharged enclosed construction, and the flexible connection structure material is a flexible material.

Adopt said structure, make the utility model can not produce interference and collision in that complete machine is in service, thereby guaranteed vibratory magnitude.

Thereby charging scraper-trough conveyer, discharging scraper-trough conveyer and body delivery chute 10 are formed the single-piece feedway by bolted connection together.

Body delivery chute 10 described in the utility model is installed on the ground by shock bracket 5, between described body delivery chute 10 and the shock bracket 5, establishes complex spring 6.

Shock absorption device and complex spring are that the type selecting order of damping spring domesticizes, and original setting angle is optimized and revised again.

Body delivery chute 10 described in the utility model is whole airtight trench structure.The utility model adopts the enclosed construction fuselage can prevent dust pollution.

Have destructive characteristics in conjunction with vibratory equipment, when processing and manufacturing, chamfered welding has been proposed strict demand, and selected suitable wlding for use at the concrete use location of different plates thickness and weld seam, manufacturing process is carried out according to standard, makes the soldering reliability of complete machine be guaranteed.

In conjunction with the accompanying drawings the utility model has been carried out exemplary description above; obviously the utility model specific implementation is not subjected to the restriction of aforesaid way; as long as adopted the improvement of the various unsubstantialities that method of the present utility model design and technical scheme carry out; or design of the present utility model and technical scheme are directly applied to other occasion without improving, all within protection domain of the present utility model.

Claims (9)

1. the native slag feedway K-P vibrating feeder in the cement production process, comprise the body delivery chute (10) that horizontal direction is provided with, vibrating motor (4), vibrating motor base (8), charging scraper-trough conveyer (1), discharging scraper-trough conveyer (7), described vibrating motor (4) is fixedly connected on the described vibrating motor base (8), it is characterized in that: described vibrating motor (4) is two, vertically vertical centre plane with described body delivery chute (10) is the plane of symmetry, be installed on the two sides of described vibrating motor base (8), the axis of described vibrating motor (4) is obliquely installed with respect to described body delivery chute (10).

2. according to the native slag feedway K-P vibrating feeder in the described cement production process of claim 1, it is characterized in that: described bevelled angle is 30 °.

3. according to the native slag feedway K-P vibrating feeder in the described cement production process of claim 1, it is characterized in that: establish motor base gusset (9) in the middle of the described vibrating motor base (8).

4. according to the native slag feedway K-P vibrating feeder in the described cement production process of claim 1, it is characterized in that: be connected by strengthening gusset (3) between described vibrating motor base (8) and the described body delivery chute (10), described reinforcement gusset (3) is identical being obliquely installed with the axis of described vibrating motor (4).

5. according to the native slag feedway K-P vibrating feeder in claim 1 or 2 or the 3 or 4 described cement production process, it is characterized in that: described charging scraper-trough conveyer (1) adopts charging flexible connection structure (2) with delivery chute (10), described charging flexible connection structure (2) is uncharged enclosed construction, and its material is a flexible material.

6. according to the native slag feedway K-P vibrating feeder in claim 1 or 2 or the 3 or 4 described cement production process, it is characterized in that: described discharging scraper-trough conveyer (7) and bucket are carried and are adopted the discharging access node structure that is flexible coupling, described discharging flexible connection structure is uncharged enclosed construction, and the flexible connection structure material is a flexible material.

7. according to the native slag feedway K-P vibrating feeder in claim 1 or 2 or the 3 or 4 described cement production process, it is characterized in that: described body delivery chute (10) is installed on the ground by shock bracket (5), between described body delivery chute (10) and the shock bracket (5), establish complex spring (6).

8. according to the native slag feedway K-P vibrating feeder in claim 1 or 2 or the 3 or 4 described cement production process, it is characterized in that: described body delivery chute (10) is whole airtight trench structure.

9. according to the native slag feedway K-P vibrating feeder in claim 1 or 2 or the 3 or 4 described cement production process, it is characterized in that: the amplitude of described two vibrating motors (4) is identical, and synchronous reverse running.

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