CN105823321A - Drying device - Google Patents

Abstract

The invention relates to a drying device which comprises a drying box, and further comprises a vibrating screen mechanism, wherein a stirring shaft is arranged inside the drying box; stirring blades and a stirring shaft driving device are arranged on the stirring shaft; a plurality resistor heating plates are sequentially arranged inside the drying box at intervals in the axial direction of the stirring shaft; the plurality of resistor heating plates divide the drying box into a plurality of independent drying chambers; a material adding hopper is arranged above each independent drying chamber; a material discharge hopper is arranged below each independent drying chamber; and the vibrating screen mechanism is arranged below the plurality of material discharge hoppers. According to the novel drying device, the multi-chamber distributed drying can be achieved, the design is scientific and reasonable, the structure is simple, and the utilization is convenient.

Description

A kind of drying plant

Technical field

The present invention relates to a kind of drying plant, belong to drying field of mechanical technique.

Background technology

Dry machinery and be mainly used in department's certain humidity of drying or the materials of granularity such as ore dressing, building materials, metallurgy, chemical industry.Existing its structure of machinery of drying is complicated, and maintenance and repair is inconvenient and drying efficiency is low, in drying course, concentrating due to material or stir uneven causes drying materials the most thorough, and existing drying machinery can not mechanical grading, accordingly, it would be desirable to a kind of multi-cavity distributing is dried and screening machinery.

Summary of the invention

For above-mentioned technical problem, the present invention proposes a kind of new drying plant, it is possible to realizing multi-cavity distributing and dry, design science is reasonable, and simple in construction is easy to use.

In order to realize above-mentioned technical purpose: the present invention by the following technical solutions:

A kind of drying plant, including: dry casing, it is provided with shaft in described drying baker body, shaft is provided with stirring vane and shaft driving means, being spaced the most successively along shaft in drying baker body and be disposed with some resistance heating plates, drying casing is divided into several independent drying cavities by some resistance heating plates；The material that is arranged over of each independent drying cavity adds bucket, and lower section is provided with material and discharges bucket；Also include that being arranged at multiple material discharges the vibrosieve mechanism below bucket；Described vibration screening mechanism includes: bracing frame, mesh screen, gripper shoe, vibration electromagnetic core, solenoid, vibrating spring, circuit, alternating current power supply, moveable hinge and soft iron block, wherein, described bracing frame is arranged on the left of drying casing on outer wall, gripper shoe is arranged in the outer right wall drying casing, described mesh screen is arranged on bracing frame by moveable hinge, the right-hand member of mesh screen installs soft iron block, described vibration electromagnetic core fixedly mounts on the supporting plate, vibration electromagnetic core is arranged on the surface of soft iron block, solenoid is wrapped on vibration electromagnetic core, solenoid is connected with alternating current power supply by circuit；It is connected by vibrating spring between described mesh screen with the bottom drying casing；And an alternating current power supply current control system, including at least one force transducer, described force transducer is for detecting the weight of net on-the-sieve material, and detection signal is transferred to a control system, and described control system controls described alternating current power supply and exports electric current；Described mesh screen includes screen body and screen cloth lower frame, and described screen cloth is arranged on orifice plate by screw, and the both sides of described orifice plate are provided with slide block, and the upper end of screen cloth lower frame both sides is correspondingly provided with guide rail.

Further, described force transducer is to be arranged on the pressure transducer between bracing frame and drying baker body sidewall or between bracing frame and mesh screen.

Further, described resistance heating plate includes three, it is the first resistance heating plate respectively, second resistance heating plate and the 3rd resistance heating plate, wherein, the first described resistance heating plate is arranged on the left side drying box house, second resistance heating plate is arranged on the central authorities drying box house, 3rd resistance heating plate is arranged on the right side drying box house, first resistance heating plate, second resistance heating plate, drying baker internal body portion is slit into the first drying cavity by the 3rd resistance heating plate, second drying cavity, 3rd drying cavity and the 4th drying cavity four part, described shaft is arranged on left side wall and the right side wall of drying casing by bearing, shaft passes the first resistance heating plate, second resistance heating plate, 3rd resistance heating plate；Material adds bucket four, it is separately positioned on the first drying cavity, the second drying cavity, the 3rd drying cavity and the surface of the 4th drying cavity, bucket discharged by material four, is separately positioned on the first drying cavity, the second drying cavity, the 3rd drying cavity and the underface of the 4th drying cavity.

Further, described stirring vane is arranged on shaft, and stirring vane is separately positioned in the first drying cavity, the second drying cavity, the 3rd drying cavity and the 4th drying cavity, and described driving means is arranged on the right-hand member of shaft.

Further, described driving means is motor.

The invention has the beneficial effects as follows:

The present invention uses some pieces of resistance heating plates drying baker internal body portion to be slit into and some independently does chamber, it is achieved multi-cavity distributing is dried, and uses mesh screen to screen simultaneously, and its design science is reasonable, and simple in construction is easy to use.

Accompanying drawing explanation

Fig. 1 is the structural representation of the present invention；

Fig. 2 is the structural representation of mesh screen；

Wherein: 1-dries casing；2-the first resistance heating plate；3-the second resistance heating plate；4-the 3rd resistance heating plate；5-shaft；6-motor；7-material adds bucket；Bucket discharged by 8-material；9-bracing frame；10-mesh screen；11-gripper shoe；12-vibrates electromagnetic core；13-solenoid；14-vibrating spring；15-stirring vane；16-circuit；17-alternating current power supply；18-moveable hinge；19-bearing；20-the first drying cavity；21-the second drying cavity；22-the 3rd drying cavity；23-the 4th drying cavity；24-soft iron block；101-mesh screen body；102-screen cloth lower frame；104-orifice plate；105-slide block；106-guide rail.

Detailed description of the invention

For making the object, technical solutions and advantages of the present invention of greater clarity, below by the specific embodiment shown in accompanying drawing, the present invention is described.However, it should be understood that these describe the most exemplary, and it is not intended to limit the scope of the present invention.Additionally, in the following description, the description to known features and technology is eliminated, to avoid unnecessarily obscuring idea of the invention.

Embodiment 1

nullAs shown in Figure 1，A kind of drying plant，Its structure includes: dry casing 1、First resistance heating plate 2、Second resistance heating plate 3、3rd resistance heating plate 4、Shaft 5、Motor 6、Material adds bucket 7、Bucket 8 discharged by material、Bracing frame 9、Mesh screen 10、Gripper shoe 11、Vibration electromagnetic core 12、Solenoid 13、Vibrating spring 14、Stirring vane 15、Circuit 16、Alternating current power supply 17、Moveable hinge 18、Bearing 19、Soft iron block 20，The first described resistance heating plate 2 is arranged on the left side dried within casing 1，Second resistance heating plate 3 is arranged on the central authorities dried within casing 1，3rd resistance heating plate 4 is arranged on the right side dried within casing 1，First resistance heating plate 2、Second resistance heating plate 3、Drying casing 1 inside division is become the first drying cavity 20 by the 3rd resistance heating plate 4、Second drying cavity 21、3rd drying cavity 22 and the 4th drying cavity 23 4 part，Described shaft 5 is arranged on left side wall and the right side wall of drying casing 1 by bearing 19，Shaft 5 is through the first resistance heating plate 2、Second resistance heating plate 3、3rd resistance heating plate 4；nullDescribed material adds bucket 7 and is arranged on the top drying casing 1，Material adds bucket 7 four，It is separately positioned on the first drying cavity 20、Second drying cavity 21、3rd drying cavity 22 and the surface of the 4th drying cavity 23，Described material is discharged bucket 8 and is arranged on the bottom drying casing 1，Bucket 8 discharged by material four，It is separately positioned on the first drying cavity 20、Second drying cavity 21、3rd drying cavity 22 and the underface of the 4th drying cavity 23，Described bracing frame 9 is arranged on the left side drying casing 1，Gripper shoe 11 is arranged on the right side drying casing 1，Described mesh screen 10 is arranged on bracing frame 9 by moveable hinge 18，The right-hand member of mesh screen 10 installs soft iron block 24，Described vibration electromagnetic core 12 is fixedly mounted in gripper shoe 11，Vibration electromagnetic core 12 is arranged on the surface of soft iron block 24，It is connected by vibrating spring 14 between described mesh screen 10 with the bottom drying casing 1.And an alternating current power supply current control system, including at least one force transducer, described force transducer is for detecting the weight of net on-the-sieve material, and detection signal is transferred to a control system, and described control system controls described alternating current power supply and exports electric current；Described mesh screen includes screen body and screen cloth lower frame, and described screen cloth is arranged on orifice plate by screw, and the both sides of described orifice plate are provided with slide block, and the upper end of screen cloth lower frame both sides is correspondingly provided with guide rail.The mesh screen of this kind of structure is difficult to because the sand lump under being dropped by top and ferrous contaminants collision deformation are damaged, the most reliability and durability, slide block and the corresponding slide rail of the upper end setting of screen cloth lower frame both sides that orifice plate both sides are arranged make the installation of screen body and cleaning the most convenient, directly coordinate extraction screen body both can to clear up and changed by slide block and guide rail.

Further, described force transducer is to be arranged on the pressure transducer between bracing frame and drying baker body sidewall or between bracing frame and mesh screen.

As a further improvement on the present invention, described stirring vane is arranged on shaft, stirring vane is separately positioned in the first drying cavity, the second drying cavity, the 3rd drying cavity and the 4th drying cavity, described motor is arranged on the right-hand member of shaft, described solenoid is wrapped on vibration electromagnetic core, and solenoid is connected with alternating current power supply by circuit.Vibration electromagnetic core 12 and solenoid 13 are charged after being energized, soft iron block 24 is produced suction, one alternating current power supply current control system, pressure transducer between bracing frame and drying baker body sidewall or between bracing frame and mesh screen, described force transducer is for detecting the weight of net on-the-sieve material, and detection signal is transferred to a control system, described control system controls, according to the force signal that force transducer detects, the electric current that the output of described alternating current power supply is correspondingly sized, can be controlled the amplitude of mesh screen 10 vibration by the control of electric current.

The ultimate principle of the present invention and principal character and advantages of the present invention have more than been shown and described.Skilled person will appreciate that of the industry; the present invention is not restricted to the described embodiments; the principle that the present invention is simply described described in above-described embodiment and description; without departing from the spirit and scope of the present invention; the present invention also has various changes and modifications, and these changes and improvements both fall within scope of the claimed invention.Claimed scope is defined by appending claims and equivalent thereof.

Claims (5)

1. a drying plant, including: dry casing, it is provided with shaft in described drying baker body, shaft is provided with stirring vane and shaft driving means, it is characterized in that, being spaced the most successively along shaft in drying baker body and be disposed with some resistance heating plates, drying casing is divided into several independent drying cavities by some resistance heating plates；The material that is arranged over of each independent drying cavity adds bucket, and lower section is provided with material and discharges bucket；Also include that being arranged at multiple material discharges the vibrosieve mechanism below bucket；Described vibration screening mechanism includes: bracing frame, mesh screen, gripper shoe, vibration electromagnetic core, solenoid, vibrating spring, circuit, alternating current power supply, moveable hinge and soft iron block, wherein, described bracing frame is arranged on the left of drying casing on outer wall, gripper shoe is arranged in the outer right wall drying casing, described mesh screen is arranged on bracing frame by moveable hinge, the right-hand member of mesh screen installs soft iron block, described vibration electromagnetic core fixedly mounts on the supporting plate, vibration electromagnetic core is arranged on the surface of soft iron block, solenoid is wrapped on vibration electromagnetic core, solenoid is connected with alternating current power supply by circuit；It is connected by vibrating spring between described mesh screen with the bottom drying casing；And an alternating current power supply current control system, including at least one force transducer, described force transducer is for detecting the weight of net on-the-sieve material, and detection signal is transferred to a control system, and described control system controls described alternating current power supply and exports electric current；Described mesh screen includes screen body and screen cloth lower frame, and described screen cloth is arranged on orifice plate by screw, and the both sides of described orifice plate are provided with slide block, and the upper end of screen cloth lower frame both sides is correspondingly provided with guide rail.

Drying plant the most according to claim 1, it is characterised in that described force transducer is to be arranged on the pressure transducer between bracing frame and drying baker body sidewall or between bracing frame and mesh screen.

Drying plant the most according to claim 1, it is characterized in that, described resistance heating plate includes three, it is the first resistance heating plate respectively, second resistance heating plate and the 3rd resistance heating plate, wherein, the first described resistance heating plate is arranged on the left side drying box house, second resistance heating plate is arranged on the central authorities drying box house, 3rd resistance heating plate is arranged on the right side drying box house, first resistance heating plate, second resistance heating plate, drying baker internal body portion is slit into the first drying cavity by the 3rd resistance heating plate, second drying cavity, 3rd drying cavity and the 4th drying cavity four part, described shaft is arranged on left side wall and the right side wall of drying casing by bearing, shaft passes the first resistance heating plate, second resistance heating plate, 3rd resistance heating plate；Material adds bucket four, it is separately positioned on the first drying cavity, the second drying cavity, the 3rd drying cavity and the surface of the 4th drying cavity, bucket discharged by material four, is separately positioned on the first drying cavity, the second drying cavity, the 3rd drying cavity and the underface of the 4th drying cavity.

Drying plant the most according to claim 1, it is characterized in that, described stirring vane is arranged on shaft, and stirring vane is separately positioned in the first drying cavity, the second drying cavity, the 3rd drying cavity and the 4th drying cavity, and described driving means is arranged on the right-hand member of shaft.

Drying plant the most according to claim 1, it is characterised in that described driving means is motor.