CN219238640U - Feed bin convenient to change spin reload - Google Patents

Abstract

The utility model discloses a feed bin convenient for changing spinning and changing materials, which belongs to the technical field of nylon spinning equipment, and comprises a first feed bin, a second feed bin, a third feed bin and a three-way pipe fitting; the three-way pipe fitting is respectively communicated with the discharge port of the first bin, and the feed inlets of the second bin and the third bin; a diversion device capable of closing the feed inlet of the second storage bin or closing the feed inlet of the third storage bin is arranged at the joint of the three-way pipe fitting; different slices can be respectively fed into the second bin or the third bin along the first bin by controlling the opening and closing directions of the flow guiding device; the feed bin convenient for spinning and changing is simple in structure and convenient to operate; the problem of current feed bin, can't independently carry out the storage between the different section, reload and ejection of compact function on a set of equipment has effectively been solved. And the bin structure can be directly modified on the original single bin without purchasing new bin equipment, thereby being beneficial to saving cost for enterprises.

Description

Feed bin convenient to change spin reload

Technical Field

The utility model belongs to the technical field of nylon spinning equipment, and particularly relates to a storage bin convenient for spinning and changing.

Background

Existing spinning processes typically throw the chips in through a silo and then melt extrude through a pipe that links with a melt spinning extruder. However, when spinning is performed by using different slice materials, the inconvenience of changing materials in the stock bin is a great difficulty, namely, another new slice to be added can be added after the original slice is completely emptied, which seriously affects the production efficiency. In addition, the sliced materials in the bin are easy to be adsorbed on the bin wall due to static electricity generated by friction, or the slices Yi Ka are mixed into new slices at certain corners due to the bin structure, so that the quality of a new product can be influenced due to different physical and chemical properties. If an independent new material bin is added, the equipment cost is indirectly increased, and meanwhile, the space occupied by the equipment is increased. Therefore, it is necessary to design a bin which is convenient for changing materials and can save the cost.

Disclosure of Invention

In order to overcome the defects of the prior art, the utility model aims to solve the technical problems that: how to provide a feed bin that can save the cost when being convenient for the reload.

In order to solve the technical problems, the utility model adopts the following technical scheme: a feed bin convenient for changing spinning and changing materials comprises a first feed bin, a second feed bin, a third feed bin and a three-way pipe fitting; the three-way pipe fitting is respectively communicated with the discharge port of the first storage bin, and the feed inlets of the second storage bin and the third storage bin; and a diversion device capable of closing the feed inlet of the second storage bin or closing the feed inlet of the third storage bin is arranged at the joint of the three-way pipe fitting.

The three-way pipe fitting comprises a first material pipe, a second material pipe and a third material pipe which form a herringbone structure; one end of the first material pipe is communicated with a discharge hole of the first material bin, and the other end of the first material pipe is communicated with the second material pipe or the third material pipe through control of the flow guiding device; one end of the second material pipe, which is not connected with the first material pipe, is communicated with a feed inlet of the second material bin; one end of the third material pipe, which is not connected with the first material pipe, is communicated with a feed inlet of the third material bin.

Wherein the cross-sectional shape of the second material pipe is consistent with the cross-sectional shape of the third material pipe.

The guide device comprises a guide plate hinged with the joint of the second material pipe and the third material pipe, and a driving motor with a movable end in transmission connection with a shaft at the hinged position.

Wherein, the shape of the guide plate is consistent with the cross section shape of the second material pipe and the third material pipe.

Wherein the discharge ports of the second bin and the third bin are respectively provided with a flow control device; the flow control device comprises a driving cylinder and a flow control baffle; the movable end of the driving cylinder is connected with the flow control baffle; the fixed end of the driving cylinder is connected with the second bin or the third bin through a bracket.

Wherein, also include the control system; the flow guiding device and the flow control device are electrically connected with the control system.

The utility model has the beneficial effects that: the feed bin convenient for spinning and material changing is simple in structure and convenient to use, different slices can be respectively fed into the second feed bin or the third feed bin along the first feed bin by controlling the opening and closing directions of the flow guiding device, namely, the functions of material storage, material changing and material discharging among different slices can be independently performed, and a user can perform free operation according to production requirements.

Drawings

FIG. 1 is a schematic diagram of a bin for facilitating spin change according to an embodiment of the utility model;

FIG. 2 is a front cross-sectional view of a cartridge (with a second cartridge closed and a third cartridge open, and omitting a manifold) for facilitating spin change in accordance with an embodiment of the present utility model;

description of the reference numerals:

1. a first bin; 2. a second bin; 3. a third bin;

4. a three-way pipe fitting; 41. a first material pipe; 42. a second material pipe; 43. a third material pipe;

5. a flow guiding device; 51. a deflector; 52. a driving motor;

6. a flow control device; 61. a driving cylinder; 62. a flow control baffle;

7. a bracket; 8. a manifold.

Detailed Description

In order to describe the technical contents, the achieved objects and effects of the present utility model in detail, the following description will be made with reference to the embodiments in conjunction with the accompanying drawings.

The most critical concept of the utility model is as follows: through controlling guiding device's direction of opening and shutting, just can get into second feed bin or third feed bin respectively with different section along first feed bin in, can independently carry out the function of storage, reload and ejection of compact between the different section promptly, make the user can carry out free operation according to the production demand.

Referring to fig. 1 to 2, the bin convenient for changing spinning and changing materials provided by the utility model comprises a first bin 1, a second bin 2, a third bin 3 and a three-way pipe fitting 4; the three-way pipe fitting 4 is respectively communicated with the discharge port of the first storage bin 1 and the feed ports of the second storage bin 2 and the third storage bin 3; the junction of the three-way pipe fitting 4 is provided with a flow guiding device 5 which can close the feed inlet of the second storage bin 2 or close the feed inlet of the third storage bin 3.

From the above description, the beneficial effects of the utility model are as follows: the feed bin is convenient to change spinning and material changing, and different slices can enter the second feed bin 2 or the third feed bin 3 along the first feed bin 1 by controlling the opening and closing direction of the flow guiding device 5; the device simple structure, convenient operation compare with current feed bin, can independently carry out the function of storage, reload and ejection of compact between the different section on a set of equipment, also saved equipment cost when being convenient for change the reload when spinning. And the bin structure can be directly modified on the original single bin without purchasing new bin equipment, thereby being beneficial to saving cost for enterprises.

Further, the three-way pipe fitting 4 includes a first pipe 41, a second pipe 42, and a third pipe 43 that constitute a "herringbone" structure; one end of the first material pipe 41 is communicated with a discharge hole of the first material bin 1, and the other end is communicated with the second material pipe 42 or the third material pipe 43 by controlling the flow guiding device 5; one end of the second material pipe 42, which is not connected with the first material pipe 41, is communicated with a feed inlet of the second material bin 2; one end of the third material pipe 43, which is not connected to the first material pipe 41, is communicated with the feed inlet of the third material bin 3. Preferably, the first, second and third material pipes 41, 42 and 43 are square pipe structures.

Further, the cross-sectional shape of the second material pipe 42 coincides with the cross-sectional shape of the third material pipe 43.

Further, the deflector 5 comprises a deflector 51 hinged to the junction of the second tube 42 and the third tube 43, and a driving motor 52 with a movable end in driving connection with the shaft of the hinge. Preferably, the baffle is a square plate.

Further, the shape of the baffle 51 corresponds to the cross-sectional shape of the second and third feed pipes 42 and 43.

From the above description, the effect that the first bin 1 and the second bin 2 or the third bin 3 are respectively conducted can be achieved by driving the guide plate 51 through the driving device, and the shape of the guide plate 51 is consistent with the shape of the second material pipe 42 and the third material pipe 43, so that the tightness during material changing can be ensured, and the mixing of new and old slices is avoided to influence the quality of products.

Further, the discharge ports of the second storage bin 2 and the third storage bin 3 are respectively provided with a flow control device 6; the flow control device 6 includes a driving cylinder 61 and a flow control baffle 62; the movable end of the driving cylinder 61 is connected with a flow control baffle 62; the fixed end of the driving cylinder 61 is connected with the second stock bin 2 or the third stock bin 3 through a bracket 7.

Further, the storage bin convenient for changing spinning and changing materials further comprises a collecting pipe 8; the discharge outlets of the second storage bin 2 and the third storage bin 3 are communicated with a collecting pipe 8.

From the above description, the user can drive the flow control baffle 62 by driving the cylinder 61 according to the production requirement, so as to adjust the opening sizes of the second bin 2 and the third bin 3, and further adjust the discharging speed and the discharging amount of the slice; since the commercially available screw machine is usually provided with only one feeding port, the collection pipe 8 can ensure that slices flowing out of the second storage bin 2 and the third storage bin 3 can be simultaneously collected into the screw machine, so that the effect of being convenient for discharging is achieved.

Further, the storage bin convenient for changing spinning and changing materials further comprises a control system; the flow guiding device 5 and the flow control device 6 are electrically connected with the control system.

From the above description, the design can facilitate the user to control the storage position of the slice and adjust the discharging speed of the slice, thereby making the equipment more humanized.

The feed bin convenient for changing spinning and changing materials can be used for switching materials, and is particularly suitable for storing spinning slices.

The first embodiment of the utility model is as follows:

referring to fig. 1 to 2, a silo for facilitating the replacement of spinning and changing materials comprises a first silo 1, a second silo 2, a third silo 3, a three-way pipe fitting 4 and a control system (not shown in the drawings); a diversion device 5 capable of closing the feed inlet of the second storage bin 2 or closing the feed inlet of the third storage bin 3 is arranged at the joint of the three-way pipe fitting 4; the three-way pipe fitting 4 comprises a first material pipe 41, a second material pipe 42 and a third material pipe 43 which form a herringbone structure; the first material pipe 41, the second material pipe 42 and the third material pipe 43 are square pipe structures; one end of the first material pipe 41 is communicated with a discharge hole of the first material bin 1, and the other end is communicated with the second material pipe 42 or the third material pipe 43 by controlling the flow guiding device 5; one end of the second material pipe 42, which is not connected with the first material pipe 41, is communicated with a feed inlet of the second material bin 2; one end of the third material pipe 43, which is not connected with the first material pipe 41, is communicated with a feed inlet of the third material bin 3; the cross-sectional shape of the second pipe 42 coincides with the cross-sectional shape of the third pipe 43; the flow guiding device 5 comprises a flow guiding plate 51 hinged with the joint of the second material pipe 42 and the third material pipe 43, and a driving motor 52 with a movable end in transmission connection with a shaft at the hinged joint; the deflector 51 is a square plate; the shape of the baffle 51 corresponds to the cross-sectional shape of the second and third material pipes 42 and 43; the discharge ports of the second storage bin 2 and the third storage bin 3 are respectively provided with a flow control device 6; the flow control device 6 includes a driving cylinder 61 and a flow control baffle 62; the movable end of the driving cylinder 61 is connected with a flow control baffle 62; the fixed end of the driving cylinder 61 is connected with the second storage bin 2 or the third storage bin 3 through a bracket 7; the flow guiding device 5 and the flow control device 6 are electrically connected with the control system.

The working principle of the utility model is as follows: when new slices need to be temporarily replaced or added, but the second storage bin 2 (the third storage bin 3) is provided with the rest slices, a worker can drive the guide plate 51 to rotate through the control system, the guide plate 51 covers the feed inlet of the second storage bin 2 (the third storage bin 3) to enable the first storage bin 1 to be communicated with the third storage bin 3 (the second storage bin 2), and the new slices can enter the third storage bin 3 along the paths of the first material pipe 41 and the third material pipe 43 (the second material pipe 42) of the three-way pipe fitting 4, so that the storage and the replacement of the new slices can be carried out on the basis of not emptying the original slices; when discharging is needed, a worker can drive the flow control device 6 through the control system, and the driving cylinder 61 drives the flow control baffle plate 62 to move, so that the size of the feed inlet of the second storage bin 2 or the third storage bin 3 is controllable, and the effects of controlling the slice discharging speed and the discharging amount are achieved.

In conclusion, the feed bin convenient for changing spinning and changing materials is simple in overall structure and convenient to operate; different slices can be respectively fed into the second bin or the third bin along the first bin by controlling the opening and closing directions of the flow guiding device; the defect that the existing bin cannot independently perform the functions of storing, changing materials and discharging materials among different slices on one set of equipment is overcome. And the bin structure can be directly modified on the original single bin without purchasing new bin equipment, thereby being beneficial to saving cost for enterprises.

The foregoing description is only illustrative of the present utility model and is not intended to limit the scope of the utility model, and all equivalent changes made by the specification and drawings of the present utility model, or direct or indirect application in the relevant art, are included in the scope of the present utility model.

Claims (7)

1. The feed bin is characterized by comprising a first feed bin, a second feed bin, a third feed bin and a three-way pipe fitting; the three-way pipe fitting is respectively communicated with the discharge port of the first storage bin, and the feed inlets of the second storage bin and the third storage bin; and a diversion device capable of closing the feed inlet of the second storage bin or closing the feed inlet of the third storage bin is arranged at the joint of the three-way pipe fitting.

2. The stock bin for facilitating spin change and material change according to claim 1, wherein the three-way pipe fitting comprises a first pipe, a second pipe and a third pipe which form a herringbone structure; one end of the first material pipe is communicated with a discharge hole of the first material bin, and the other end of the first material pipe is communicated with the second material pipe or the third material pipe through control of the flow guiding device; one end of the second material pipe, which is not connected with the first material pipe, is communicated with a feed inlet of the second material bin; one end of the third material pipe, which is not connected with the first material pipe, is communicated with a feed inlet of the third material bin.

3. The stock bin for facilitating spin change according to claim 2, wherein the cross-sectional shape of the second tube is consistent with the cross-sectional shape of the third tube.

4. A stock bin for facilitating spin change and material change according to claim 3, wherein the flow guiding device comprises a flow guiding plate hinged to the connection part of the second material pipe and the third material pipe, and a driving motor with a movable end in transmission connection with a shaft at the hinged part.

5. The stock bin for facilitating spin change according to claim 4, wherein the deflector has a shape conforming to a cross-sectional shape of the second and third tubes.

6. The material bin convenient for spinning and material changing according to claim 1, wherein the discharge ports of the second material bin and the third material bin are respectively provided with a flow control device; the flow control device comprises a driving cylinder and a flow control baffle; the movable end of the driving cylinder is connected with the flow control baffle; the fixed end of the driving cylinder is connected with the second bin or the third bin through a bracket.

7. The stock bin for facilitating spin change according to claim 6, further comprising a control system; the flow guiding device and the flow control device are electrically connected with the control system.

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