CN105000392A - Disc conveying device and method - Google Patents

Abstract

The invention discloses a disc conveying device. The disc conveying device comprises a feed port, a conveying pipeline and a discharge port. An electromagnet is arranged at the top end of the middle of the conveying pipeline. An armature matched with the electromagnet is arranged at the bottom of the conveying pipeline. The electromagnet can attract the armature when powered on. A fixed shaft is arranged on the upper surface of the armature. The axis of the fixed shaft coincides with the axial direction of the conveying pipeline. The feed port is located in one side of the conveying pipeline. When the armature is located at the lower end of the conveying pipeline, the height of the feed port is larger than that of the upper end face of the armature. The discharge port is located in one side of the conveying pipeline. When the armature is located at the upper end of the conveying pipeline, the height of the discharge port is smaller than that of the lower end face of the armature. The disc conveying device has the beneficial effects of being compact in structure and convenient to operate.

Description

A kind of carousel conveyor and carrying method

Technical field

The present invention relates to a kind of carousel conveyor and carrying method.

Background technology

In schistose texture course of conveying, usually adopt the modes such as belt-conveying to carry out, because schistose texture is being carried out in vertical direction transportation, Belt Conveying floor area is large, and be inconvenient to promote, meanwhile, this structure wastes energy very much, and transport efficiency is low.

Summary of the invention

The object of the present invention is to provide a kind of carousel conveyor and carrying method, prior art Problems existing can be improved, there is compact conformation, easy to operate feature.

The present invention is achieved through the following technical solutions:

A kind of carousel conveyor, comprises pan feeding, delivery duct and discharging opening;

In the middle part of described delivery duct, top is provided with electromagnet, is provided with the armature matched with electromagnet bottom described delivery duct, can adsorb described armature during electromagnet energising;

The upper surface of described armature is provided with anchor shaft, and the axis of described anchor shaft overlaps with the axis of described delivery duct;

Described feeding mouth is positioned at described delivery duct side, and when described armature is positioned at delivery duct lower end, the height of described feeding mouth is higher than the upper surface height of described armature;

Described discharging opening is positioned at described delivery duct side, and when described armature is positioned at delivery duct upper end, the height of described discharging opening is lower than the lower surface height of described armature;

Described conveying pipeline inner wall is provided with holding flange, described holding flange is disposed on described delivery duct along described delivery duct circumference, when described armature is positioned at described delivery duct upper end, the height of described holding flange is lower than the height of described armature lower surface, and described holding flange is fixed on described delivery duct sidewall by spring.

The present invention can the delivery duct of vertical transport by arranging, and adopts electromagnet to be energized the mode of absorption armature, is placed on by disk above armature, only needs to start electromagnet during use, structure is simply, easy to operate;

The present invention is by arranging holding flange, can circular ring plate be fixed on above holding flange, because holding flange adopts spring to connect, therefore when armature falls, it only needs to overcome spring force and it can be made naturally to fall under gravity, while facilitating clamping rings sheet, armature is playbacked.

Further, for realizing the present invention better, described conveying pipeline inner wall is provided with slide rail, and described armature sidewall is provided with the slide block that can slide along slide rail.

Further, for realizing the present invention better, described slider side wall is provided with ball, described slide block is slided by the relative slide rail of ball.

Further, for realizing the present invention better, described delivery duct sidewall is provided with cylinder, the axes normal of described cylinder is in the axis of described delivery duct, the axis being parallel of described cylinder is in described discharging opening, and described cylinder and described discharging opening are positioned in same level.

The invention also discloses a kind of disk carrying method, comprise the following steps:

S1: circular ring plate put on the anchor shaft being arranged on armature upper surface by feeding mouth, make circular ring plate be embedded on anchor shaft;

S2: electromagnet is energized, electromagnet absorption armature, armature moves up along delivery duct, and the relative delivery duct of the ball on armature sidewall rolls and makes the circular ring plate be placed on above armature follow armature to move up;

S3: in armature upward movement process, armature sidewall overcomes the elastic force of the spring on holding flange, when armature is adsorbed on electromagnet, the height of circular ring plate is higher than above described holding flange;

S4: taken out by circular ring plate from discharging opening, makes electromagnet power-off, and armature drops to bottom delivery duct under gravity.

Accompanying drawing explanation

In order to be illustrated more clearly in the technical scheme of the embodiment of the present invention, be briefly described to the accompanying drawing used required in embodiment below, be to be understood that, the following drawings illustrate only some embodiment of the present invention, therefore the restriction to scope should be counted as, for those of ordinary skill in the art, under the prerequisite not paying creative work, other relevant accompanying drawings can also be obtained according to these accompanying drawings.

Fig. 1 is integral structure schematic diagram of the present invention.

Wherein: 101. feeding mouths, 102. discharging openings, 103. delivery ducts, 104. electromagnet, 105. armature, 106. anchor shafts, 107. cylinders, 108. holding flanges.

Detailed description of the invention

Below in conjunction with specific embodiment, the present invention is described in further detail, but embodiments of the present invention are not limited thereto.

Embodiment 1:

As shown in Figure 1, a kind of carousel conveyor, comprises feeding mouth 101, delivery duct 103 and discharging opening 102;

In the middle part of described delivery duct 103, top is provided with electromagnet 104, is provided with the armature 105 matched with electromagnet 104 bottom described delivery duct 103, can adsorb described armature 105 during electromagnet energising;

The upper surface of described armature 105 is provided with anchor shaft 106, and the axis of described anchor shaft 106 overlaps with the axis of described delivery duct 103;

Described feeding mouth 101 is positioned at described delivery duct 103 side, and when described armature 105 is positioned at delivery duct 103 lower end, the height of described feeding mouth 101 is higher than the upper surface height of described armature 105;

Described discharging opening 102 is positioned at described delivery duct 103 side, and when described armature 105 is positioned at delivery duct 103 upper end, the height of described discharging opening 102 is lower than the lower surface height of described armature 105;

Described delivery duct 103 inwall is provided with holding flange 108, described holding flange 108 is disposed on described delivery duct 103 along described delivery duct 103 circumference, when described armature 105 is positioned at described delivery duct 103 upper end, the height of described holding flange 108 is lower than the height of described armature 105 lower surface, and described holding flange 108 is fixed on described delivery duct 103 sidewall by spring.

Circular ring plate is put into anchor shaft 106, start electromagnet 104 and make electromagnet 104 adsorb armature 105, namely drive the circular ring plate of side disposed thereon to vertically move by armature.

In order to limit the path of motion of described armature, in the present embodiment, preferably, described delivery duct 103 inwall is provided with slide rail, and described armature 105 sidewall is provided with the slide block that can slide along slide rail.

In order to avoid the Relative friction between slide block and slide rail causes affecting operating efficiency, in the present embodiment, preferably, described slider side wall is provided with ball, described slide block is slided by the relative slide rail of ball.

Conveniently circular ring plate is released delivery duct 103 from holding flange, in the present embodiment, preferably, described delivery duct 103 sidewall is provided with cylinder 107, the axes normal of described cylinder 107 is in the axis of described delivery duct 103, the axis being parallel of described cylinder 107 is in described discharging opening 102, and described cylinder 107 is positioned in same level with described discharging opening 102.When needed, start cylinder, promote the side of circular ring plate, it is released from discharging opening 102.

Embodiment 2:

The present invention, on the basis of embodiment 1, also discloses a kind of disk carrying method, comprises the following steps:

S1: circular ring plate put on the anchor shaft 106 being arranged on armature 105 upper surface by feeding mouth 101, make circular ring plate be embedded on anchor shaft 106;

S2: electromagnet 104 is energized, and electromagnet 104 adsorbs armature 105, and armature 105 moves up along delivery duct 103, the relative delivery duct 103 of the ball on armature 105 sidewall rolls and makes the circular ring plate be placed on above armature 105 follow armature 105 to move up;

S3: in armature 105 upward movement process, armature 105 sidewall overcomes the elastic force of the spring on holding flange 108, when armature 105 is adsorbed on electromagnet 104, the height of circular ring plate is higher than above described holding flange 108;

S4: taken out by circular ring plate from discharging opening 103, make electromagnet 104 power-off, armature 105 drops to bottom delivery duct 103 under gravity.

The foregoing is only the preferred embodiments of the present invention, be not limited to the present invention, for a person skilled in the art, the present invention can have various modifications and variations.Within the spirit and principles in the present invention all, any amendment done, equivalent replacement, improvement etc., all should be included within protection scope of the present invention.

Claims (5)

1. a carousel conveyor, is characterized in that: comprise feeding mouth (101), delivery duct (103) and discharging opening (102);

Top, described delivery duct (103) middle part is provided with electromagnet (104), described delivery duct (103) bottom is provided with the armature (105) matched with electromagnet (104), during electromagnet energising, described armature (105) can be adsorbed;

The upper surface of described armature (105) is provided with anchor shaft (106), and the axis of described anchor shaft (106) overlaps with the axis of described delivery duct (103);

Described feeding mouth (101) is positioned at described delivery duct (103) side, and when described armature (105) is positioned at delivery duct (103) lower end, the height of described feeding mouth (101) is higher than the upper surface height of described armature (105);

Described discharging opening (102) is positioned at described delivery duct (103) side, and when described armature (105) is positioned at delivery duct (103) upper end, the height of described discharging opening (102) is lower than the lower surface height of described armature (105);

Described delivery duct (103) inwall is provided with holding flange (108), described holding flange (108) is disposed on described delivery duct (103) along described delivery duct (103) circumference, when described armature (105) is positioned at described delivery duct (103) upper end, the height of described holding flange (108) is lower than the height of described armature (105) lower surface, and described holding flange (108) is fixed on described delivery duct (103) sidewall by spring.

2. a kind of carousel conveyor according to claim 1, is characterized in that: described delivery duct (103) inwall is provided with slide rail, and described armature (105) sidewall is provided with the slide block that can slide along slide rail.

3. a kind of carousel conveyor according to claim 2, is characterized in that: on described slider side wall, be provided with ball, and described slide block is slided by the relative slide rail of ball.

4. a kind of carousel conveyor according to claim 1 or 2 or 3, it is characterized in that: on described delivery duct (103) sidewall, be provided with cylinder (107), the axes normal of described cylinder (107) is in the axis of described delivery duct (103), the axis being parallel of described cylinder (107) is in described discharging opening (102), and described cylinder (107) and described discharging opening (102) are positioned in same level.

5. a disk carrying method, is characterized in that: comprise the following steps:

S1: by feeding mouth (101) circular ring plate put into and be arranged on the anchor shaft (106) of armature (105) upper surface, make circular ring plate be embedded on anchor shaft (106);

S2: electromagnet (104) is energized, electromagnet (104) absorption armature (105), armature (105) moves up along delivery duct (103), and the relative delivery duct of ball (103) on armature (105) sidewall rolls and makes the circular ring plate being placed on armature (105) top follow armature (105) to move up;

S3: in armature (105) upward movement process, armature (105) sidewall overcomes the elastic force of the spring on holding flange (108), when armature (105) is adsorbed on electromagnet (104), the height of circular ring plate is higher than described holding flange (108) top;

S4: taken out by circular ring plate from discharging opening (103), make electromagnet (104) power-off, armature (105) drops to delivery duct (103) bottom under gravity.