CN218778289U - Silk opening material arranging and distributing mechanism and silk opening automatic feeding and distributing device - Google Patents

Abstract

The utility model discloses a silk mouthful reason material reposition of redundant personnel mechanism, silk mouthful automatic feed diverging device belongs to fire extinguisher bottle production technical field, including base plate, feed mechanism is for the base plate feed, and the base plate slopes to set up, is equipped with reposition of redundant personnel subassembly and reason material subassembly on the base plate; the material arranging assembly is positioned in the upstream direction of the flow dividing assembly, and the downstream direction of the flow dividing assembly is provided with a feeding assembly; the material arranging assembly comprises a limiting profile plate and a material arranging power part, the limiting profile plate is provided with a plurality of profile holes, the material arranging power part is connected with the limiting profile plate and drives the limiting profile plate to move along the substrate, and the shunting assembly comprises a shunting groove I, a shunting groove II and a shunting plate; the utility model discloses an automatic reason material is realized to imitative shape hole, reason material power part, spacing imitative board, guarantees the direction of placing of silk mouth, shunts the silk mouth through flow distribution plate, splitter box and carries, makes more silk mouths carry the material loading subassembly, guarantees placing position of silk mouth, and more silk mouths of being convenient for are carried next process simultaneously.

Description

Silk opening material arranging and distributing mechanism and silk opening automatic feeding and distributing device

Technical Field

The utility model belongs to the technical field of fire extinguisher bottle production, concretely relates to silk mouthful reason material diverging mechanism, silk mouthful automatic feed diverging device.

Background

The bottle of fire extinguisher comprises last closing cap, lower closing cap and barrel, goes up the closing cap and includes the silk mouth and the closing cap body again, and silk mouth and closing cap body welding are in the same place, and the silk mouth carries out the pay-off alone during the welding, can only carry out the material loading to one of silk mouth at every turn, and work efficiency is low, and current diverging device only separates the pay-off with the silk mouth, can not guarantee the direction of placing of silk mouth, leads to welding quality low, and the yield is low, and artifical expenditure is also big.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that solve is current silk mouthful material loading efficiency lower, and the direction of placing of silk mouth can't be guaranteed to a silk mouthful reason material reposition of redundant personnel mechanism, silk mouth automatic feed diverging device are provided.

In order to solve the technical problem, the utility model discloses the technical scheme who adopts does:

a wire port material arranging and distributing mechanism comprises a base plate, wherein the base plate is obliquely arranged, and a distributing assembly and a material arranging assembly are arranged on the base plate; the reason material subassembly is located the upstream direction of reposition of redundant personnel subassembly, sets up through the slope, makes the silk mouth slide along the base plate, arranges in order the silk mouth through reason material subassembly, makes the silk mouth place the correct orientation and carries the reposition of redundant personnel subassembly through reason material subassembly and shunts, guarantees the orientation of placing of silk mouth, makes the silk mouth divide the material loading through reposition of redundant personnel subassembly, increases the material loading efficiency of silk mouth.

As a preferred scheme of the utility model, the reason material subassembly includes spacing profile plate and reason material power spare, spacing profile plate is equipped with a plurality of profile holes towards the tip of base plate, the removal portion of reason material power spare is connected with spacing profile plate and drives spacing profile plate and remove along the base plate, spacing profile plate screens the silk mouth through the profile hole, make the correct silk mouth of direction of placing carry the reposition of redundant personnel subassembly through behind the profile hole and shunt, the silk mouth of placing the direction mistake is blocked by spacing profile plate and drives the removal of spacing profile plate along the base plate through the removal portion of reason material power spare, the silk mouth of placing the direction mistake is followed the base plate and is pushed away, realize automatic reason material.

As a preferred scheme of the utility model, the flow dividing assembly comprises a flow dividing groove I, a flow dividing groove II and a flow dividing plate, wherein the flow dividing groove I and the flow dividing groove II are positioned in the downstream direction of the flow dividing plate; the splitter plate is pivoted on the base plate through a rotating shaft; the flow distribution plate when the drainage product arrives the splitter box I is different with the flow distribution plate incline direction when the drainage product arrives splitter box II, makes the silk mouth carry respectively during splitter box I and splitter box II through the incline direction that changes the flow distribution plate, makes the silk mouth shunt, and more silk mouths of being convenient for carry out the material loading simultaneously.

As the utility model discloses a preferred scheme, the flow distribution plate is connected with flexible power spare, and the flexible portion of flexible power spare is connected with the flow distribution plate and drives the flow distribution plate and revolute the rotation of axes slope, and the flexible portion through flexible power spare changes the position of flow distribution plate free end on the base plate, adjusts the incline direction of flow distribution plate, makes the silk mouth can shunt the transport to flow distribution groove I or flow distribution groove II along the flow distribution plate landing to the silk mouth.

As a preferred scheme of the utility model, full-material detection pieces and short-material detection pieces are installed in the splitter box I and the splitter box II, the full-material detection pieces are installed at the inlets of the splitter box I and the splitter box II during actual installation, and the short-material detection pieces are installed at the outlets of the splitter box I and the splitter box II; full detection piece of material and material lack detection piece and flexible power spare linkage realize splitter box I and splitter box II's switching.

As a preferred scheme of the utility model, two sides of the base plate are provided with limit baffles; a shunting port is reserved between the end part of the shunting plate and the corresponding limiting baffle, namely a shunting port I and a shunting port II; the shunting port I is communicated with the shunting groove I; the diffluence opening II is communicated with the diffluence groove II, the filament opening is prevented from falling from the side end of the base plate through the limit baffle plate, and the filament opening flows into the diffluence groove I or the diffluence groove II through the diffluence opening, so that the filament opening can be shunted conveniently.

As a preferred scheme of the utility model, a feeding assembly is arranged in the downstream direction of the shunting assembly, the feeding assembly comprises a feeding channel and a feeding table, the discharging ports of the shunting groove I and the shunting groove II are respectively provided with a feeding channel, the discharging ports of the feeding channels are respectively connected with the feeding table, the feeding channels are obliquely arranged and are higher than the feeding table, so that the yarn openings can slide into the feeding table from the feeding channels; the feeding channel is used for orderly conveying the wire openings to the feeding table, the placing positions of the wire openings are limited by the feeding table, and the wire openings on the feeding table can be conveniently conveyed to the next procedure.

The utility model also provides a silk mouthful automatic feed diverging device, including feed mechanism and silk mouth reason material diverging mechanism, feed mechanism gives the base plate feed, manages the material diverging mechanism to the silk mouth through feed mechanism and carries out the feed, realizes automatic feed, uses manpower sparingly.

As a preferred scheme of the utility model, the feeding mechanism comprises a wire port feeding bin and a discharging mechanism, wherein a discharging port is arranged in the wire port feeding bin, a discharging part of the discharging mechanism corresponds to the discharging port and discharges a wire port in the wire port feeding bin onto a substrate; the discharging mechanism comprises a jacking assembly and a discharging piece, the discharging piece comprises a discharging substrate and a discharging baffle, the discharging substrate is positioned at the top of the discharging baffle, and the discharging baffle is vertically arranged and is contacted with the end part, close to the discharging port, of the bottom plate of the wire port feeding bin; the discharging base plate covers the discharging port; the action part of the jacking assembly is connected with the discharging baffle and drives the discharging substrate and the discharging baffle to move up and down together.

Has the advantages that: the utility model discloses a feed mechanism realizes automatic feeding, filter the silk mouth through the profile modeling pore, through managing material power spare, spacing profile modeling board realizes automatic reason material, guarantee the direction of placing of silk mouth, through the flow distribution plate, the splitter box shunts the silk mouth and carries, make more silk mouths can carry the material loading platform through the material loading passageway, guarantee the position of placing of silk mouth, be convenient for carry next process simultaneously with the silk mouth of material loading bench, through expecting to fill up the detection piece and lack the linkage of detection piece and flexible power spare with the material, realize splitter box I and splitter box II's switching.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural view of the wire arranging and distributing mechanism of the present invention.

Fig. 2 is a schematic structural view of embodiment 2.

Fig. 3 is a front view of the feeding mechanism of the present invention.

Fig. 4 is a cross-sectional view taken along line C-C in fig. 3.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Example 1:

a wire port material arranging and distributing mechanism is shown in figure 1 and comprises a base plate 1, wherein the base plate 1 is obliquely arranged, and a distributing assembly and a material arranging assembly are arranged on the base plate 1; reason material subassembly is located the upstream direction of reposition of redundant personnel subassembly, sets up through the slope, makes the silk mouth slide along base plate 1, arranges in order the silk mouth through reason material subassembly, makes the silk mouth place the correct orientation and carries the reposition of redundant personnel subassembly through reason material subassembly and shunts, guarantees the orientation of placing of silk mouth, makes the silk mouth divide the material loading through reposition of redundant personnel subassembly, increases the material loading efficiency of silk mouth.

Reason material subassembly includes spacing profile plate 2 and reason material power component 3, spacing profile plate 2 is equipped with a plurality of profile holes 4 towards the tip of base plate 1, reason material power component 3's removal portion is connected with spacing profile plate 2 and drives spacing profile plate 2 and remove along base plate 1, spacing profile plate 2 filters the silk mouth through profile holes 4, make the correct silk mouth of direction of placing carry the reposition of redundant personnel subassembly through profile holes 4 back and shunt, the silk mouth of the wrong direction of placing is blocked by spacing profile plate 2 and drives spacing profile plate 2 along base plate 1's removal through the removal portion of reason material power component 3, the silk mouth of the wrong direction of placing pushes away from base plate 1, realize automatic reason material, in this embodiment reason material power component adopts the triaxial cylinder, be convenient for drive spacing profile plate and remove, also can adopt other power thrust unit.

The flow dividing assembly comprises a flow dividing groove I5, a flow dividing groove II6 and a flow dividing plate 7, wherein the flow dividing groove I5 and the flow dividing groove II6 are positioned in the downstream direction of the flow dividing plate 7; the splitter plate 7 is pivoted on the base plate 1 through a rotating shaft 8; the flow distribution plate 7 when the drainage product arrives the splitter box I5 is different with the 7 tilt directions of flow distribution plate when the drainage product arrives the splitter box II6, makes the silk mouth carry respectively in splitter box I5 and splitter box II6 through the tilt direction who changes flow distribution plate 7, makes the silk mouth shunt, and the material loading is carried out simultaneously to more silk mouths of being convenient for.

In order to save manpower, the splitter plate 7 is connected with the telescopic power part 9 in this embodiment, the telescopic part of the telescopic power part 9 is connected with the splitter plate 7 and drives the splitter plate 7 to rotate and incline around the rotating shaft 8, the position of the free end of the splitter plate 7 on the substrate 1 is changed by the telescopic part of the telescopic power part 9, the inclination direction of the splitter plate 7 is adjusted, so that the screw port can slide down to the splitter groove I5 or the splitter groove II6 along the splitter plate 7, and split-flow conveying is performed on the screw port, and the telescopic power part 9 adopts a pen-shaped air cylinder in this embodiment, so that space can be saved.

In order to realize automatic shunting, full-material detection pieces 10 and short-material detection pieces 11 are respectively installed in the shunting grooves I5 and II6, in the embodiment, the full-material detection pieces 10 are installed at the inlets of the shunting grooves I5 and II6, and the short-material detection pieces 11 are installed at the outlets of the shunting grooves I5 and II 6; the full-material detection piece 10 and the short-material detection piece 11 are linked with the pen-shaped air cylinder to realize the switching of the splitter box I5 and the splitter box II 6; when the material shortage detection piece 11 of the diversion trench I detects the shortage of the material, the telescopic part of the pen-shaped air cylinder controls the diversion plate 7 to incline towards the diversion trench I5, so that the wire port slides into the diversion trench I5, and when the material shortage detection piece 11 of the diversion trench II6 detects the shortage of the material, the telescopic part of the pen-shaped air cylinder controls the diversion plate 7 to incline towards the diversion trench II6, so that the wire port slides into the diversion trench II 6; when the full-material detection piece 10 in the diversion trench I5 and the diversion trench II6 detects that the material is full, the pen-shaped air cylinder enables the diversion plate 7 to be kept horizontal, the wire opening is blocked, the wire opening stops conveying to the diversion trench I5 and the diversion trench II6, the full-material detection piece 10 and the short-material detection piece 11 can adopt sensors, and the sensors detect the conditions of the wire opening in the diversion trench I5 and the diversion trench II 6.

In order to prevent the wire port from falling from the side end of the substrate, the embodiment adopts the structure that the two sides of the substrate 1 are provided with the limit baffles 12, and can also adopt a platform with baffles at the side end; a shunting port is reserved between the end part of the shunting plate 7 and the corresponding limiting baffle 12 and is respectively a shunting port I and a shunting port II; the shunting port I is communicated with a shunting groove I5; the diffluence opening II is communicated with the diffluence groove II6, the filament opening is prevented from falling from the side end of the base plate through the limit baffle 12, and the filament opening flows into the diffluence groove I5 or the diffluence groove II6 through the diffluence opening, so that the filament opening can be shunted conveniently.

In order to sequentially feed, more wire openings can be fed at the same time, a feeding assembly is arranged in the downstream direction of the flow dividing assembly and comprises a feeding channel 13 and a feeding table 14, a feeding channel 13 is arranged at each of a discharging port of the flow dividing groove I5 and a discharging port of the flow dividing groove II6, each discharging port of the feeding channel 13 is connected with the feeding table 14, the feeding channels 13 are obliquely arranged, and the feeding channels 13 are higher than the feeding table 14, so that the wire openings can conveniently slide into the feeding tables 14 from the feeding channels 13; the yarn openings are orderly conveyed to the feeding table 14 through the feeding channel 13, the placement positions of the yarn openings are limited, and the yarn openings on the feeding table 14 can be conveniently conveyed to the next working procedure at the same time.

When in specific use: when the material of splitter box I or splitter box II lacks the detection piece and detects not to detect the silk mouth, the form of a stroke or a combination of strokes cylinder drives the flow distribution plate and inclines to lacking the material end, and the triaxial cylinder drives spacing profile plate and screens the silk mouth on the base plate, and the silk mouth is placed the correct imitative hole that passes through of direction, then flows in splitter box I or splitter box II along the flow distribution plate, again flows in corresponding material loading passageway along splitter box I or splitter box II, and the silk mouth is passed through material loading passageway and is gone on the material loading for next process in flowing in the material loading platform.

Example 2:

the utility model provides a silk mouthful automatic feed diverging device, as shown in figure 2, includes that feed mechanism and silk mouth reason material diverging mechanism, feed mechanism gives base plate 1 feed, manages the material diverging mechanism to the silk mouth through feed mechanism and supplies, realizes automatic feed, uses manpower sparingly, all the other all the same with embodiment 1.

The feeding mechanism comprises a wire mouth feeding bin 16 and a discharging mechanism, as shown in fig. 3 and 4, an inclined bottom plate 21 is arranged in the wire mouth feeding bin 15, a discharging hole 15 is reserved between the inclined bottom plate and the inner wall of the wire mouth feeding bin 15, a discharging piece 17 of the discharging mechanism corresponds to the discharging hole 15 and discharges a wire mouth in the wire mouth feeding bin 16 onto the substrate 1; drop feed mechanism, including jacking subassembly and blowing piece 17, the jacking subassembly, including jacking cylinder 20, the cylinder body of jacking cylinder 20 is installed outside screw mouth feeding storehouse 15, and jacking cylinder 20's piston rod is connected with link block 22, and link block 22 sets up on jacking piece 23, and link block 22 slides in the blowing track 24 of screw mouth feeding storehouse lateral wall, and jacking piece 23 is connected with blowing piece 17.

The discharging piece 17 comprises a discharging substrate 18 and a discharging baffle 19, the discharging substrate 18 is an inclined substrate, and the inclination angle of the discharging substrate 18 is the same as that of the inclined bottom plate 21, so that a screw hole on the inclined bottom plate 21 can slide onto the discharging substrate 18 conveniently.

The discharging base plate 18 is positioned at the top of the discharging baffle plate 19, and the discharging baffle plate 19 is vertically arranged and is contacted with the end part, close to the discharging port 15, of the bottom plate of the wire port feeding bin 16; the discharging base plate 18 covers the discharging port 15; the action part of the jacking assembly is connected with the discharging baffle 19 and drives the discharging substrate 18 and the discharging baffle 19 to move up and down together.

The discharging substrate 18 and the discharging baffle 19 are vertically arranged, and the discharging baffle 19 is vertically arranged and is contacted with the end part of the inclined bottom plate 21 close to the discharging port 15; the discharging base plate 18 covers the discharging port 15; the action part of the jacking assembly is connected with the bottom of the discharging substrate 18 and drives the discharging substrate 18 and the discharging baffle 19 to move up and down together, and the end face of the jacking block 23, which is in contact with the discharging substrate 18, is inclined because the discharging substrate 18 is inclined.

When in specific use: the wire opening in the wire opening feeding bin slides onto the discharging base plate along the inclined bottom plate, the jacking cylinder drives the wire opening on the discharging base plate to ascend, and meanwhile, the discharging baffle blocks the wire opening to prevent the wire opening from sliding to the discharging opening; the blowing base plate is arranged the base plate with the silk mouth from silk mouth feeding storehouse under the effect of jacking cylinder on, manage the material reposition of redundant personnel through silk mouth material reposition of redundant personnel mechanism and arrange the material reposition of redundant personnel, and the silk mouth is placed the correct material loading of shunting through the profile modeling hole of orientation, and the silk mouth is placed the wrong silk mouth and is pushed back in the silk mouth feeding storehouse by spacing profile plate.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (9)

1. The utility model provides a silk mouth reason material reposition of redundant personnel mechanism, includes base plate (1), its characterized in that: the base plate (1) is obliquely arranged, and a shunting assembly and a material arranging assembly are arranged on the base plate (1); the material arranging component is positioned in the upstream direction of the flow dividing component.

2. The wire rope reason material reposition of redundant personnel mechanism of claim 1, characterized in that: the reason material subassembly includes spacing profile plate (2) and reason material power piece (3), and spacing profile plate (2) are equipped with a plurality of profile holes (4) towards the tip of base plate (1), and the removal portion of reason material power piece (3) is connected with spacing profile plate (2) and drives spacing profile plate (2) and remove along base plate (1).

3. The wire port material splitting mechanism of claim 1 or 2, wherein: the flow distribution assembly comprises a flow distribution groove I (5), a flow distribution groove II (6) and a flow distribution plate (7), wherein the flow distribution groove I (5) and the flow distribution groove II (6) are positioned in the downstream direction of the flow distribution plate (7); the splitter plate (7) is pivoted on the base plate (1) through a rotating shaft (8); the inclined directions of the flow distribution plate (7) when the products are guided to the flow distribution groove I (5) and the flow distribution plate (7) when the products are guided to the flow distribution groove II (6) are different.

4. The wire rope reason material reposition of redundant personnel mechanism of claim 3, characterized in that: the flow distribution plate (7) is connected with a telescopic power piece (9), and the telescopic part of the telescopic power piece (9) is connected with the flow distribution plate (7) and drives the flow distribution plate (7) to rotate and incline around a rotating shaft (8).

5. The wire rope reason material reposition of redundant personnel mechanism of claim 4, characterized in that: full material detection pieces (10) and short material detection pieces (11) are arranged in the splitter box I (5) and the splitter box II (6).

6. The wire rope reason material reposition of redundant personnel mechanism of claim 3, characterized in that: limiting baffles (12) are arranged on two sides of the base plate (1); a shunting port is reserved between the end part of the shunting plate (7) and the corresponding limiting baffle (12), namely a shunting port I and a shunting port II; the shunting port I is communicated with a shunting groove I (5); the shunt opening II is communicated with the shunt groove II (6).

7. The wire rope reason material reposition of redundant personnel mechanism of claim 5, characterized in that: the downstream direction of the flow dividing assembly is provided with a feeding assembly, the feeding assembly comprises a feeding channel (13) and a feeding table (14), the discharging ports of the flow dividing grooves I (5) and the flow dividing grooves II (6) are respectively provided with one feeding channel (13), and the discharging ports of the feeding channels (13) are respectively connected with the feeding table (14).

8. The utility model provides a silk mouthful automatic feed diverging device which characterized in that: comprising a feeding mechanism for feeding the base plate (1) and a filament arrangement shunting mechanism according to any one of claims 1-7.

9. The automatic feed splitter of claim 8, wherein: the feeding mechanism comprises a wire port feeding bin (16) and a discharging mechanism, wherein a discharging port (15) is arranged in the wire port feeding bin (16), a discharging piece (17) of the discharging mechanism corresponds to the discharging port (15) and discharges a wire port in the wire port feeding bin (16) onto the substrate (1); the discharging mechanism comprises a jacking assembly and a discharging piece (17), the discharging piece (17) comprises a discharging base plate (18) and a discharging baffle plate (19), the discharging base plate (18) is positioned at the top of the discharging baffle plate (19), and the discharging baffle plate (19) is vertically arranged and is in contact with the end part, close to the discharging port (15), of the bottom plate of the wire port feeding bin (16); the discharging base plate (18) covers the discharging port (15); the action part of the jacking assembly is connected with the discharging baffle (19) and drives the discharging substrate (18) and the discharging baffle (19) to move up and down together.

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