CN209080281U - A kind of stacking mechanism of glass sliver - Google Patents

Abstract

The utility model belongs to mineral wool processing equipment field, disclose a kind of stacking mechanism of glass sliver, including first conveyer belt and the second conveyer belt that first conveyer belt tail end is arranged in, the first conveyer belt is equipped with extruding fixed cell for making more glass sliver close-packed arrays stratification, and second conveyer belt is equipped with for by the palletized unit of the layer-by-layer stacking of glass sliver on the second conveyer belt；The palletized unit includes the support frame and clamping plate that the second conveyer belt two sides are arranged in, two clamping plates drive synchronization lifting and opposite and counter motion by setting lifting cylinder on the support frame and first level mobile cylinder, and the clamping plate is equipped with multiple air guiding through holes；The height of the clamping plate is at least 4-8 times of glass sliver thickness.The mechanism is lifted by the glass sliver for successively stacking glass sliver and folding heap, and subsequent each layer of glass sliver is allowed to be all placed in below the compound glass sliver of lifting, realizes intelligent stacking.

Description

A kind of stacking mechanism of glass sliver

Technical field

The utility model relates to mineral wool processing equipment field, especially a kind of stacking mechanism of glass sliver.

Background technique

The applicant and a mechanism about block of glass wool stacking, Patent No. ZL are declared within 2017 201720592934.8, a kind of block of glass wool stacking mechanism, including stacking mechanism ontology are disclosed, the stacking mechanism ontology Top is equipped with engine, and the engine is fixed by screws with the stacking mechanism ontology, the engine Side is equipped with longitudinally fed instrument, and the longitudinally fed instrument insertion is arranged in the stacking mechanism ontology, the stacking mechanism The bottom of ontology is equipped with several stress frames, and the side of the stress frame is equipped with slowly landing layer, and the slow landing layer It is welded with the stress frame, the top of the stress frame is equipped with guided way guidance tape, and uses transport platform, in not moving conveyor In the case where, meet the requirement of the flexible heap packet stacking of width direction, and there is preferable impact resistance and compressive property, so that glass Glass cotton plate is not easy, by being equipped with vibrating poker and mechanical arm, to ensure that block of glass wool product by external force environmental damage Normal productive temp.

The stacking of block of glass wool is simply more than the stacking of glass sliver, and each layer has more after mineral wool stacking Glass sliver, how intelligent stacking is those skilled in the art's problem in need of consideration.

Utility model content

The purpose of the utility model is to provide a kind of stacking mechanism of glass sliver, which passes through glass sliver is layer-by-layer It stacks and the glass sliver for folding heap is lifted, subsequent each layer of glass sliver is allowed to be all placed under the compound glass sliver of lifting Side realizes intelligent stacking.

Technical solution provided by the utility model are as follows: a kind of stacking mechanism of glass sliver, including first conveyer belt and set The second conveyer belt in first conveyer belt tail end is set, the first conveyer belt is equipped with for arranging more glass slivers closely The extruding fixed cell of stratification is arranged, second conveyer belt is equipped with for by the layer-by-layer code of glass sliver on the second conveyer belt The palletized unit of pile；

The palletized unit includes the support frame and clamping plate that the second conveyer belt two sides are arranged in, and two clamping plates pass through setting Lifting cylinder and first level mobile cylinder driving synchronization lifting and opposite and counter motion on the support frame, the folder Plate is equipped with multiple air guiding through holes；The height of the clamping plate is at least 4-8 times of glass sliver thickness.

In the stacking mechanism of above-mentioned glass sliver, the side of the support frame is equipped with the guide post being vertically arranged, The back of the clamping plate is equipped with the guide ring of two arranged up and down with guide post cooperation.

In the stacking mechanism of above-mentioned glass sliver, the guide ring is by being arranged in the connecting rods of guide ring two sides It is connect with clamping plate.

In the stacking mechanism of above-mentioned glass sliver, the left and right sides free end of the clamping plate is curved to clamping plate back The curved guiding surface of folding.

In the stacking mechanism of above-mentioned glass sliver, the lifting cylinder is fixed on the support frame, described First level mobile cylinder the power output end of the lifting cylinder is fixed on by fixed block；The back of the clamping plate It is fixed on the power output end of first level mobile cylinder.

In the stacking mechanism of above-mentioned glass sliver, the extruding fixed cell includes being arranged in first conveyer belt two Two fixed frames of side, the fixed frame are equipped with the second horizontal moving cylinder, and second horizontal moving cylinder moves Power output end is connected with clamp bar, and the height of the clamp bar is identical as the thickness of individual glass sliver.

In the stacking mechanism of above-mentioned glass sliver, the clamp bar be hollow cylindricality, the clamp bar perpendicular to The section of the length direction of clamp bar is rectangle.

In the stacking mechanism of above-mentioned glass sliver, the clamp bar is equipped with close to the end of the second conveyer belt for feeling The first sensor for answering glass sliver whether there is；The first sensor is for controlling first conveyer belt start and stop.

In the stacking mechanism of above-mentioned glass sliver, it is fixed on the support frame flat with the second conveyer belt upper surface Neat is used for the second sensor for whether having glass sliver whether there is on the second conveyer belt to be incuded；The second sensor is used In the movement of the start and stop and control upgrading cylinder and first level mobile cylinder that control the second conveyer belt.

The utility model is after adopting the above technical scheme, it has the beneficial effect that

Mechanism in the process of running, is squeezed glass sliver neatly by squeezing fixed cell, will by palletized unit The glass sliver of stratification is successively superimposed the good glass sliver of code at multilayer by clamping plate, is pushed into after the preset height that is added to The equipment for coating film of peripheral hardware carries out overlay film packaging.

Detailed description of the invention

Fig. 1 is the top view of the utility model embodiment 1；

Fig. 2 is the main view of the clamping plate of the utility model embodiment 1；

The schematic diagram when clamping plate and guide post that Fig. 3 is the utility model embodiment 1 cooperate.

Specific embodiment

With reference to embodiment, the technical solution of the utility model is described in further detail, but not structure Any restrictions of pairs of the utility model.

Embodiment 1:

With reference to Fig. 1-3, a kind of stacking mechanism of glass sliver, including first conveyer belt 1 and setting are in 1 tail of first conveyer belt Second conveyer belt 2 at end, the first conveyer belt 1 are equipped with for keeping the extruding of more glass sliver close-packed arrays stratification solid Order member 3, second conveyer belt 2 are equipped with for by the stacking list of the layer-by-layer stacking of glass sliver on the second conveyer belt 2 Member 4；

The palletized unit 4 includes the support frame 41 and clamping plate 42 that 2 two sides of the second conveyer belt are arranged in, two clamping plates 42 Synchronization lifting and opposite and anti-is driven by the lifting cylinder 43 and first level mobile cylinder 44 that are arranged on support frame 41 To movement, the clamping plate 42 is equipped with multiple air guiding through holes 45；The height of the clamping plate 42 is the 6 of glass sliver thickness Times.

In process, Xiang Duogen glass sliver is arranged side by side first, is then put into first conveyer belt 1, reaches crowded When pressing 3 position of fixed cell, glass sliver is pressed from the direction of the length of parallel glass cotton by squeezing fixed cell 3, Then it squeezes fixed cell 3 to unclamp, glass sliver is sent to the second conveyer belt 2, at this point, having pressed from both sides several layers of mineral wools on clamping plate 42 Item, when another layer glass sliver is sent to 42 lower section of clamping plate, lifting cylinder 43 drives 42 downlink of clamping plate, and then first level is mobile Cylinder 44 unclamps clamping plate 42, makes compound glass sliver stacking, and then first level mobile cylinder 44 makes clamping plate 42 clamp layer glass Glass sliver, then lifting cylinder 43 drives 42 uplink of clamping plate, until after having pressed from both sides enough multilayer mineral wool items in clamping plate 42, clamping plate 42 It unclamps, is seen off the good glass sliver of stacking by the second conveyer belt 2.

Mineral wool is very light, therefore does not have to worry that glass sliver can be fallen down.

Air guiding through hole 45 is set on clamping plate 42, is conducive to the smooth exhaust in mineral wool side in clamping extrusion process.

In the present embodiment, the side of the support frame 41 is equipped with the guide post 46 being vertically arranged, the clamping plate 42 Back be equipped with two arranged up and down with guide post 46 cooperation guide rings 47.During 42 uplink and downlink of clamping plate, edge is led It is moved to column 46, kinetic stability is excellent.In order to improve the stability maintenance of guide ring 47 Yu clamping plate 42, the guide ring 47 are connect by being arranged in the connecting rod 40 of 47 two sides of guide ring with clamping plate 42.

In order to improve the accuracy that each layer of mineral wool enters between clamping plate 42, the left and right sides of the clamping plate 42 is free End is the curved guiding surface 48 bent to 42 back of clamping plate.

The up-down mode of clamping plate 42 specifically: the lifting cylinder 43 is fixed on the support frame 41, described First level mobile cylinder 44 is fixed on the power output end of the lifting cylinder 43 by fixed block；The clamping plate 42 Power output end of the back fixation in first level mobile cylinder 44.

As the further refinement of the present embodiment, the extruding fixed cell 3 includes being arranged in 1 two sides of first conveyer belt Two fixed frames 31, the fixed frame 31 be equipped with the second horizontal moving cylinder 32, second horizontal moving cylinder 32 power output end is connected with clamp bar 33, and the height of the clamp bar 33 is identical as the thickness of individual glass sliver, described Clamp bar 33 is hollow cylindricality, and the clamp bar 33 is rectangle perpendicular to the section of the length direction of clamp bar 33.

In the present embodiment, the clamp bar 33, which is equipped with close to the end of the second conveyer belt 2 for incuding glass sliver, is No existing first sensor 34；The first sensor 34 is for controlling 1 start and stop of first conveyer belt, the support frame 41 On be fixed with and concordant with 2 upper surface of the second conveyer belt whether there is glass sliver whether there is on the second conveyer belt 2 for incuding Second sensor 49；The second sensor 49 be used for control the second conveyer belt 2 start and stop and control upgrading cylinder with The movement of first level mobile cylinder 44.

In the process of running, if first sensor 34 senses object, first conveyer belt 1 is suspended, and waits clamp bar 33 Movement, after clamp bar 33 acts, first conveyer belt 1 is resumed operation；If second sensor 49 senses object, the second conveyer belt 2 is out of service, and 42 downlink of clamping plate unclamps and clamps then about 42 clamping plate of the glass sliver on the second conveyer belt 2, when complete It resumes operation at the second conveyer belt 2 after the movement.

Above-described embodiment is the preferable embodiment of the utility model, but the embodiments of the present invention is not by above-mentioned The limitation of embodiment, it is made under other any spiritual essence and principles without departing from the utility model to change, modify, replacing In generation, simplifies combination, should be equivalent substitute mode, is included within the protection scope of the utility model.

Claims (9)

1. a kind of stacking mechanism of glass sliver, including first conveyer belt and the second conveying that first conveyer belt tail end is arranged in Band, it is characterised in that: the first conveyer belt is equipped with for fixing the extruding of more glass sliver close-packed arrays stratification Unit, second conveyer belt are equipped with for by the palletized unit of the layer-by-layer stacking of glass sliver on the second conveyer belt；

The palletized unit includes the support frame and clamping plate that the second conveyer belt two sides are arranged in, and two clamping plates are being propped up by setting Lifting cylinder on support and first level mobile cylinder driving synchronization lifting and opposite and counter motion, on the clamping plate Equipped with multiple air guiding through holes；The height of the clamping plate is at least 4-8 times of glass sliver thickness.

2. the stacking mechanism of glass sliver according to claim 1, it is characterised in that: the side of the support frame is equipped with The guide post being vertically arranged, the back of the clamping plate are equipped with the guide ring of two arranged up and down with guide post cooperation.

3. the stacking mechanism of glass sliver according to claim 2, it is characterised in that: the guide ring is by being arranged in The connecting rod of guide ring two sides is connect with clamping plate.

4. the stacking mechanism of glass sliver according to claim 1, it is characterised in that: the left and right sides of the clamping plate is certainly From holding the curved guiding surface to bend to clamping plate back.

5. the stacking mechanism of glass sliver according to claim 1, it is characterised in that: the lifting cylinder is fixed on institute On the support frame stated, the first level mobile cylinder is fixed on the power output of the lifting cylinder by fixed block End；Power output end of the back fixation of the clamping plate in first level mobile cylinder.

6. the stacking mechanism of glass sliver according to claim 1, it is characterised in that: the extruding fixed cell includes Two fixed frames of first conveyer belt two sides are set, the fixed frame is equipped with the second horizontal moving cylinder, and described the The power output end of two horizontal moving cylinders is connected with clamp bar, the height and the thickness phase of individual glass sliver of the clamp bar Together.

7. the stacking mechanism of glass sliver according to claim 6, it is characterised in that: the clamp bar is hollow column Shape, the clamp bar are rectangle perpendicular to the section of the length direction of clamp bar.

8. the stacking mechanism of glass sliver according to claim 7, it is characterised in that: the clamp bar is close to the second conveying The end of band is equipped with the first sensor that whether there is for incuding glass sliver；The first sensor is for controlling first Conveyer belt start and stop.

9. the stacking mechanism of glass sliver according to claim 7, it is characterised in that: be fixed on the support frame with Second conveyer belt upper surface it is concordant for the second sensor for whether having glass sliver whether there is on the second conveyer belt to be incuded； The second sensor is used to control the start and stop of the second conveyer belt and control upgrades cylinder and first level mobile cylinder Movement.