CN101863370B - Automatic feeding device for stacked porous material - Google Patents

Abstract

The invention discloses an automatic feeding device for a stacked porous material. The automatic feeding device comprises at least one core rod for matching the section of a certain pore of the porous material; at least two controlled clamping bar mechanisms are arranged along the axis of the core rod; and the controlled clamping bar mechanisms always ensure that at least one clamping bar mechanism clamps the core rod at any moment. The feeding device has a simple structure and low cost, can be widely applied to various types of porous materials and is suitable for popularization and use.

Description

A kind of automatic feeding device for stacked porous material

Technical field

The present invention relates to the material conveying device that uses on a kind of manufacturing line, more particularly, relate to a kind of stackable automatic feeding device for stacked porous material.

Background technology

Progress along with society, in order to enhance productivity and to save human cost, industrial percent of automatization is more and more higher, people have developed various automatic manufacturing devices for this reason, the transmission of the stackable material that for example has, generally be that material is stacked up, being placed on one cooperates in the container of material profile with certain several point location of material profile, one side at container, corresponding last of the material that stacks up, be provided with flexible ejecting mechanism in case with material from the opening of container one by one pushing tow come out to enter into subsequent processing; Or adopt mechanical grip material periphery, cooperate control system to realize transmitting.

Because the peripheral shape of material is different, difference is very big, so a certain material conveying device that designs is difficult to be applied to the transmission of other shape material, need be at different material configuration designs different container or mechanical grip mechanism, design cost, manufacturing cost are all very high.

For of the transmission of some inconvenience with the stackable porous material of material profile location, if pass the words that transmit in the hole of the porous material that stacks up with core bar, because material will pierce into from the front end of core bar, be ejected from the rear end, can't design support around the core bar, be irrealizable.So, still often adopt at present deliver to by conveyor line after, manually it is sent into position to be processed again, there is restriction in this raising to the production efficiency of whole production line.

Summary of the invention

Purpose of the present invention just is to provide a kind of automatic feeding device for stacked porous material that can realize the full automaticity transmission of porous material, and this feeder structure is simply with low cost, can be widely used in various types of porous materials, is fit to promote the use of.

Purpose of the present invention can be realized by following technological means:

A kind of automatic feeding device for stacked porous material, it is characterized in that: at least one core bar that cooperates cross section, porous material hole, along described core bar axis direction, be furnished with at least 2 controlled clamping bar mechanisms, described all controlled clamping bar mechanism always is retained to a rare clamping bar mechanisms grip core bar at any time.

During work, the pay-off of a last operation is inserted in porous material from the core bar front end, make core bar pass the hole of porous material, design is in the state of clamping core bar this moment near the clamping bar mechanism of core bar rear end, when porose material movement when clamping bar mechanism locates owing to stopped and stop motion, then near clamping bar mechanism clamping core bar under the control system effect of front end, last clamping bar mechanism near the core bar rear end decontrols core bar, and porous material continues motion and can deviate from from the core bar rear end and advance subsequent processing to process material by the pushing hands or the mechanical grip mechanism that are arranged near the core bar rear end.

Generally be exactly to change hands back and forth in order to allow porous material pass core bar to hold unsettled core bar.

On the basis of the above, the present invention can have many forms:

In order to reach grip preferably, described controlled clamping bar mechanism can be set to 3, and each controlled clamping bar mechanism is made of a pair of corresponding in opposite directions cylinder of arranging.

Described core bar can be designed as iron, and described controlled clamping bar mechanism can all be provided with the controlled expansion link of electromagnet for each rod end.

Described controlled clamping bar mechanism is a controlled mechanical clamp, and the core bar of this moment can be for arbitrarily can be by the shape of mechanical clamp clamping.

Described core bar is the compound rod of being made up of a plurality of poles, and pole can be combined into the compound rod of various cross sectional shapes as required.

Described controlled expansion link is cylinder or hydraulic actuating cylinder.

Beneficial effect of the present invention is: (1) can realize that the full automaticity of porous material transmits; (2) simple in structure, with low cost; (3) can be widely used in the porous material of various external forms, various passes, be fit to batch manufacturing and promote the use of.

Description of drawings

The present invention is described in further detail for the set the drawings and specific embodiments below.

Fig. 1 is the structural representation (first pair of clamping bar decontroled) of specific embodiment one;

Fig. 2 is the structural representation (second pair of clamping bar decontroled) of specific embodiment one;

Fig. 3 is the structural representation (the 3rd pair of clamping bar decontroled) of specific embodiment one;

Fig. 4 is the structural representation of specific embodiment two;

Fig. 5 is the A-A section-drawing of specific embodiment two;

Fig. 6 is the B-B section-drawing of specific embodiment two;

Fig. 7 is the structural representation of specific embodiment three;

Fig. 8 is the core bar section-drawing of specific embodiment four;

Fig. 9 is that the core bar of specific embodiment four cooperates scheme drawing with the polygonal hole of material.

The specific embodiment

Specific embodiment one as shown in Figures 1 to 3, comprise a core bar 1 that cooperates porous material centre hole cross section and vertically place, along core bar 1 axis direction, be evenly equipped with three controlled clamping bar mechanisms 2, each controlled clamping bar mechanism 2 is made of a pair of corresponding in opposite directions cylinder of arranging.

During work, the pay-off of a last operation is inserted in porous material from core bar 1 front end, make core bar 1 pass the hole of porous material, material falls under the self gravitation effect, this moment is near the piston rod withdrawal of the cylinder of the clamping bar mechanism 21 of front end, and the piston rod of the cylinder of the clamping bar mechanism 23 of clamping bar mechanism 22 in the middle of being positioned at and close rear end stretches out, and is in the state of clamping core bar 1, is stopped to fall owing to stopping when porose material is fallen clamping bar mechanism 22 places that are positioned at the centre; Under the control system effect, stretch out the piston rod and the clamping core bar of cylinder then near the clamping bar mechanism 21 on top, clamping bar mechanism 22 in the middle of being positioned at simultaneously unclamps, be positioned at adding of core bar 1 rear end and hold the state that mechanism 23 still is in clamping core bar 1 this moment, the material by gravity continues to fall, the pushing hands 3 that is arranged on core bar 1 below pushes away core bar 1 below (lower end of core bar and the distance of work top is slightly larger than the thickness of material and will be positioned at the material in pushing hands 3 the place aheads, also be that core bar is to be suspended on the work top), when falling clamping bar mechanism 23 places that are positioned at the rear end, material stopped to fall owing to stopping; The clamping bar mechanism that is positioned at core bar 1 rear end at last decontrols core bar 1, and porous material continues motion and deviates from from core bar 1 rear end and advance subsequent processing to process material by pushing hands 3 is set.

Implement one difference and be that it comprises two controlled clamping bar mechanisms 2 with concrete to specific embodiment shown in Figure 6 two as Fig. 4, its controlled clamping bar mechanism 2 is controlled mechanical clamp, the controlled folder of mechanical clamp can be put, this technical personnel to mechanical field designs very easily, here casehistory not just.

Specific embodiment three as shown in Figure 7 is that with the difference of specific embodiment one its core bar 1 is an iron, and controlled clamping bar mechanism 2 is controlled expansion links that each rod end all is provided with electromagnet, and controlled expansion link is cylinder or hydraulic actuating cylinder.

The controlled expansion link of embodiment 3 is cylinder or hydraulic actuating cylinder, also can be rack-and-gear or the like physical construction in fact.

As Fig. 8 and specific embodiment four shown in Figure 9, be the compound rod of core bar 1 with the difference of above-mentioned specific embodiment, to adapt to the polygon endoporus of porous material for forming by a plurality of poles.The controlled clamping bar mechanism of present embodiment can be in the above-mentioned specific embodiment any one.

Claims (5)

1. automatic feeding device for stacked porous material, it is characterized in that: at least one unsettled core bar that cooperates cross section, porous material hole, along described core bar axis direction, be furnished with at least 2 controlled clamping bar mechanisms, described all controlled clamping bar mechanism always is retained to rare one controlled clamping bar mechanisms grip core bar at any time;

During work, the pay-off of a last operation is inserted in porous material from the core bar front end, make core bar pass the described hole of porous material, be in design at this moment the state of clamping core bar near the controlled clamping bar mechanism of core bar rear end, when porose material movement near the controlled clamping bar mechanism place of core bar rear end the time owing to stopped and stop motion, then near controlled clamping bar mechanism clamping core bar under the control system effect of front end, last controlled clamping bar mechanism near the core bar rear end decontrols core bar, and porous material continues motion and deviates from from the core bar rear end and advance subsequent processing to process material by the pushing hands or the mechanical grip mechanism that are arranged near the core bar rear end.

2. automatic feeding device for stacked porous material according to claim 1 is characterized in that: described controlled clamping bar mechanism has 3, and each controlled clamping bar mechanism is made of a pair of corresponding in opposite directions cylinder of arranging.

3. automatic feeding device for stacked porous material according to claim 1 is characterized in that: described core bar is an iron, and described controlled clamping bar mechanism comprises a controlled expansion link, and rod end is provided with electromagnet.

4. automatic feeding device for stacked porous material according to claim 1 is characterized in that: described controlled clamping bar mechanism is a controlled mechanical clamp.

5. automatic feeding device for stacked porous material according to claim 1 is characterized in that: described core bar is a compound rod.

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