CN219602516U - Tube arranging machine - Google Patents

Abstract

The utility model relates to the technical field of textile, in particular to a tube arranging machine, which comprises a tube storage box, a lifting conveying belt, a tube arranging mechanism and a host machine frame, wherein a vertical plane parallel to the direction of the width of the lifting conveying belt is defined as a first reference plane, the whole tube storage box is obliquely arranged relative to the first reference plane, and an included angle between the whole tube storage box and the first reference plane is 5-13 degrees; the whole tube storage box is inclined inwards or outwards relative to the main machine frame, so that the bobbin can be in an inclined state when discharged from the tube storage box, and the bobbin seat on the bobbin conveying platform can be made into an adaptive inclined angle at the moment, so that the bobbin can be smoothly sleeved on the bobbin seat, the top of the bobbin can be prevented from touching the spinning frame, the automatic upgrading of some imported spinning frames can be smoothly realized, and the influence on production caused by shutdown due to structural adjustment of the spinning frame is avoided.

Description

Tube arranging machine

Technical Field

The utility model relates to the technical field of textile, in particular to a tube arranging machine.

Background

The automatic bobbin arranging machine is novel textile mechanical equipment and is used for conveying empty bobbins to the spinning frame for use in cooperation with a bobbin conveying platform. The bobbin sorting machine mainly comprises a bobbin sorting machine main machine and a bobbin storage box arranged on the back of the bobbin sorting machine main machine, wherein a bobbin in the bobbin storage box is taken away from the bobbin storage box through a conveying belt obliquely arranged on the rear of the main machine, and the bobbin is guided to sequentially fall into a bobbin conveying platform after being guided by a bobbin sorting mechanism on the front of the main machine, so that automatic bobbin sorting is realized.

The prior patent CN 202021805647.9 provides a spinning frame spool arrangement mechanism, comprising a base plate, connect the shell on the bottom plate, install spool transfer chain in the shell, the conveyer motor is connected to spool transfer chain, connect a plurality of spool positioning seats on the spool transfer chain, advance mouth of pipe is seted up to shell one side, the shell is located and advances the mouth of pipe setting and send the spool pipe swash plate of spool positioning seat to spool transfer chain, apron and exit tube shielding cover are connected to the shell upper end, the exit tube shielding cover communicates with the pipe chamber that the shell outside is connected, pipe intracavity both sides set up the pipe track, pipe chamber lower extreme inclines to one side, and pipe chamber lower extreme exit sets up the baffle plate, the shell is located pipe chamber downside and connects the pipe seat, pipe seat lower extreme inclines to the opposite direction of pipe chamber lower extreme incline direction, kind of spinning frame spool arrangement mechanism, automatic arrangement spool, arrangement efficiency is high, practices thrift the manual work.

However, the above patent still has the following drawbacks: in the above patent, the bobbin is in a vertical state when being sent out from the guide tube seat, and when the bobbin is matched with automatic bobbin arranging and conveying for upgrading spinning frames of some imported machine types, the bobbin on the bobbin conveying platform can interfere with a part of frames of the spinning frames in the moving process, if equipment is to be upgraded, the structure of the spinning frames is required to be adjusted, normal production is affected, the cost is high, and the enthusiasm of factories for automatic upgrading is reduced.

Disclosure of Invention

The utility model aims to solve the technical problem of providing a bobbin arranging machine capable of avoiding interference between a bobbin and a spinning frame.

In order to solve the technical problems, the technical scheme of the utility model is as follows: the utility model provides a reason pipe machine for insert spool delivery platform in proper order with spool, its innovation point lies in: comprising

The tube storage box is used for storing the bobbins;

the lifting conveying belt is used for grabbing a single yarn tube from the tube storage box and conveying the yarn tube by lifting;

the bobbin arranging mechanism is arranged below the output end of the lifting conveying belt and used for guiding and selecting the bobbin output by the lifting conveying belt and outputting the bobbin to a bobbin conveying platform matched with the bobbin arranging machine;

the host machine frame is used for installing a pipe storage box, a lifting conveying belt and a pipe arranging mechanism;

the method is characterized in that:

defining a vertical plane parallel to the direction of the belt width of the lifting conveyor as a first reference plane,

the pipe arranging mechanism comprises a pipe arranging box and a pipe storing box arranged below the pipe arranging box, the pipe arranging box is provided with a pipe falling guide channel, an inlet of the pipe falling guide channel is positioned below the output end of the lifting conveying belt, and an outlet of the pipe falling guide channel is communicated with the pipe storing box;

the whole relative first reference surface slope of storage tube box sets up, and the contained angle between the whole and the first reference surface of storage tube box is 5~ 13.

Further, the back of the pipe storage box is fixedly connected with the host frame through a bracket.

Furthermore, the tube falling guide channel of the tube management box adopts a buffer structure and comprises a first section of tube channel with the upper part vertically arranged and a second section of tube channel with the lower part obliquely arranged,

the whole inclination angle of the second section bobbin channel is consistent with the inclination angle of the tube storage box,

and defining a vertical plane perpendicular to the width direction of the lifting conveying belt as a second reference plane, wherein the upper tube falling direction of the second-section bobbin channel is parallel to the second reference plane, and the lower tube falling direction of the second-section bobbin channel forms an included angle of 60-120 degrees with the second reference plane.

Further, the tube management box comprises a front panel, a back panel and a pair of limit strips arranged between the front panel and the back panel;

the limiting strips are matched with the front panel and the back panel to form a first section bobbin channel and a second section bobbin channel;

the limiting strip is vertically arranged at the first section bobbin channel, and is integrally bent at the junction of the first section bobbin channel and the second section bobbin channel, so that an included angle of 5-13 degrees is formed between the whole limiting strip positioned in the second section bobbin channel and the first reference surface; the limiting strip bends again at the middle part of the second section bobbin channel, so that an included angle of 60-120 degrees is formed between the limiting strip positioned at the lower half part of the second section bobbin channel and the second reference surface.

The utility model has the advantages that:

according to the utility model, the whole tube storage box is inclined inwards or outwards relative to the main frame, so that the bobbin can be in an inclined state when discharged from the tube storage box, and a bobbin seat on the bobbin conveying platform can be made into an adaptive inclined angle at the moment, so that the bobbin can be smoothly sleeved on the bobbin seat, the top of the bobbin can be prevented from touching the spinning frame, the automatic upgrading of some imported spinning frames can be smoothly realized, and the influence on production caused by shutdown due to structural adjustment of the spinning frame is avoided;

the inclined tube storage space inside the tube storage box ensures that the tube has better buffer effect in two directions when falling down, and can reduce the abrasion of the surface of the tube caused by impact;

the drop tube guide channel adopts a buffer structure, so that the impact force of the drop tube can be reduced;

the limiting strip of the tube management box is bent in two stages, and when the tube management box is manufactured, the limiting strip is bent respectively to form an included angle with the first reference surface and the second reference surface, and the angle of the limiting strip relative to the second reference surface is unchanged after the first bending, so that the relative bending reference of the second bending is unchanged, the inclination of the tube falling guide channel in two directions can be smoothly realized, the manufacturing process of the tube management machine can be simplified, and the accuracy of the tube management machine is ensured.

Drawings

The utility model will be described in further detail with reference to the drawings and the detailed description.

Fig. 1 is a perspective view of the present utility model.

Fig. 2 is an internal structural view of the present utility model.

Fig. 3 is a front view of a portion of the structure of fig. 1 in accordance with the present utility model.

Fig. 4 is a front view of a portion of the structure of fig. 1 according to the present utility model.

Fig. 5 is a partial side view of fig. 1 of the present utility model.

Fig. 6 is a perspective view of a second embodiment of the present utility model.

Fig. 7 is a partial side view of a second embodiment of the present utility model.

Detailed Description

First embodiment: a tube sorting machine as shown in fig. 1 to 5 is used for sequentially inserting a bobbin 1 into a bobbin conveying platform, and comprises a tube storage box 2, a lifting conveying belt 3, a tube sorting mechanism 4 and a host frame 5.

The host frame 5 is used for installing the storage tank 2, the lifting conveyor belt 3 and the pipe arranging mechanism 4, the host frame 5 comprises an upper cover plate 51, a left side plate 52, a right side plate 53 and a bottom plate 54, the bottom plate 54 is a rectangular plate horizontally arranged, the left side plate 52 and the right side plate 53 are symmetrically and vertically installed at the top of the bottom plate 54 and are positioned at two ends of one lateral side of the bottom plate 54, the upper cover plate 51 is installed at the top ends of the left side plate 52 and the right side plate 53, and then a containing area for installing the lifting conveying mechanism is formed among the upper cover plate 51, the left side plate 52, the right side plate 53 and the bottom plate 54.

The lifting and conveying mechanism comprises a lifting and conveying belt 3, the lifting and conveying belt 3 is used for grabbing a single bobbin 1 from the tube storage box 2 and conveying the bobbin 1 through lifting, and the lifting and conveying mechanism is similar to the bobbin conveying line in the prior art in structure and is not repeated here.

The tube storage box 2 is arranged at the top of the bottom plate 54 and is positioned at the other transverse end of the bottom plate 54 for storing the bobbins, the tube storage box 2 is of a box body structure with one side open, the open side of the tube storage box 2 is close to the host frame 5, a material guide plate 21 which is obliquely arranged downwards is arranged in the tube storage box 2, and the bottom end of the material guide plate 21 is close to the open side of the material guide plate.

A multi-fold buffer plate 6 is also installed between the bottom of the lifting conveyor belt 3 and the bottom of the guide plate 21 in the accommodating area, the multi-fold buffer plate 6 is obliquely arranged, the top end of the multi-fold buffer plate is attached to the bottom end of the guide plate 21, the bottom end of the multi-fold buffer plate is close to the bottom end of the lifting conveyor belt 3, and the bobbin 1 in the tube storage box 2 can smoothly pass through the opening side along the guide plate 21 and fall on the lifting conveyor belt 3 after being multi-buffered by the multi-fold buffer plate 6.

The lifting conveyer belt 3 is prevented from being incapable of timely conveying the bobbins 1, and a stop plate 7 is further arranged at the bottom end of the multi-fold buffer plate 6.

The bobbin arranging mechanism 4 is arranged below the output end of the lifting conveying belt 3 and is used for guiding and selecting the bobbin 1 output by the lifting conveying belt and outputting the bobbin 1 to a bobbin conveying platform matched with the bobbin arranging machine.

Defining a vertical plane parallel to the width direction of the lifting conveyor 3 as a first reference plane.

The tube management mechanism 4 comprises a tube management box 41 and a tube storage box 42 arranged below the tube management box 41, wherein the tube management box 41 is provided with a tube falling guide channel, the inlet of the tube falling guide channel is positioned below the output end of the lifting conveyor belt 3, and the outlet of the tube falling guide channel is communicated with the tube storage box 42.

The pipe-falling guide channel of the pipe-arranging box 41 adopts a buffer structure, and comprises a first section of pipe channel 414 with the upper part vertically arranged and a second section of pipe channel 415 with the lower part obliquely arranged, wherein the whole inclination angle of the second section of pipe channel 415 is consistent with that of the pipe-storing box 42.

The bobbin cassette 41 includes a front plate 411, a back plate 412, and a pair of stopper bars 413 disposed between the front and back plates 412, and the stopper bars 413 cooperate with the front plate 411 and the back plate 412 to form a first bobbin passage 414 and a second bobbin passage 415.

The front and rear plates 412 are formed in a bent plate-like structure bonded to the stopper 413.

The limiting strip 413 is vertically arranged at the first section bobbin channel 414, and the limiting strip 413 is integrally bent outwards at the junction of the first section bobbin channel and the second section bobbin channel, so that an included angle of 5-13 degrees is formed between the whole limiting strip 413 positioned in the second section bobbin channel 415 and the first reference plane.

A vertical plane perpendicular to the width direction of the lifting conveyor belt 3 is defined as a second reference plane, the upper tube falling direction of the second-section bobbin channel 415 is parallel to the second reference plane, and an included angle of 60-120 degrees is formed between the lower tube falling direction of the second-section bobbin channel 415 and the second reference plane.

The limiting strip 413 is bent again at the middle part of the second section bobbin channel 415, so that an included angle of 60-120 degrees is formed between the limiting strip 413 positioned at the lower half part of the second section bobbin channel 415 and the second reference surface.

At this time, the whole of the tube storage box 42 is inclined outwards relative to the first reference surface, and an included angle between the whole of the tube storage box 42 and the first reference surface is 5-13 °.

The back of the pipe storage box 42 is fixedly connected with the host frame 5 through a support 43 in a threaded manner, when the support 43 is of a right-angle trapezoid structure, an inclined surface of the support 43 is far away from the host frame 5, and the inclined surface is arranged in an outward inclined manner and forms an included angle of 5-13 degrees with the first reference surface.

At the moment, the tube seat arranged on the matched bobbin conveying platform is also arranged in an inward inclined way by 13 degrees.

Second embodiment: as shown in fig. 6-7, the other parts are identical in structure, and only the following parts are different in structure:

the limiting strip 413 is vertically arranged at the first section bobbin channel 414, and the limiting strip 413 is integrally bent inwards at the junction of the first section bobbin channel and the second section bobbin channel, so that an included angle of 13 degrees is formed between the whole limiting strip 413 positioned in the second section bobbin channel 415 and the first reference plane.

The whole of the tube storage box 42 is arranged obliquely inwards relative to the first reference surface, and the included angle between the whole of the tube storage box 42 and the first reference surface is 13 degrees.

The back of the tube storage box 42 is fixedly connected with the host frame 5 through a bracket 43 in a threaded manner, the bracket 43 is arranged on the host frame 5, the bracket 43 at the moment is of a polygonal structure, and one surface of the bracket 43, which is close to the back of the tube storage box 42, is an inclined surface with the same inclination as the tube storage box 42, namely, the inclined surface is arranged in an inward inclined manner and forms an included angle of 13 degrees with the first reference surface.

At this time, the tube seat arranged on the matched bobbin conveying platform is arranged in an outwards inclined 13-degree manner.

The working principle of the patent is as follows:

the device is moved to the position of the bobbin conveying platform, so that the discharge end of the tube storage box 42 is positioned above the bobbin conveying platform and is close to the bobbin seat, and the discharge of the tube storage box 42 of the device is obliquely arranged and is positioned on the same oblique straight line with the bobbin seat on the bobbin conveying platform.

The single yarn tube 1 in the tube storage box 2 smoothly passes through the opening side, enters the accommodating area along the material guide plate 21, falls on the multiple folding buffer plate 6, falls on the lifting conveying belt 3 after multiple buffering by the multiple folding buffer plate 6, and falls into the tube falling guide channel from the discharging end of the lifting conveying belt 3 after the yarn tube 1 is lifted by the lifting conveying belt 3, and as the large end of the yarn tube 1 is small and large, the small end of the yarn tube 1 falls down first, and then falls down, the yarn tube 1 enters the second section of yarn tube channel 415 after passing through the first section of yarn tube channel 414, the yarn tube 1 is delivered from the tube storage box 42 after the tilting of the tube falling guide channel in two directions in the second section of yarn tube channel 415, at this time, the tilting of the yarn tube 1 is arranged above the tilting of the tube seat, and the large end of the yarn tube 1 faces downwards, so that the yarn tube 1 can be smoothly tilted and sleeved on the tube seat, and is conveyed to a spinning frame by the yarn tube conveying platform, and the spinning frame with various models can be adapted.

It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (4)

1. A tube arranging machine for sequentially inserting bobbins into a bobbin conveying platform comprises

The tube storage box is used for storing the bobbins;

the lifting conveying belt is used for grabbing a single yarn tube from the tube storage box and conveying the yarn tube by lifting;

the bobbin arranging mechanism is arranged below the output end of the lifting conveying belt and used for guiding and selecting the bobbin output by the lifting conveying belt and outputting the bobbin to a bobbin conveying platform matched with the bobbin arranging machine;

the host machine frame is used for installing a pipe storage box, a lifting conveying belt and a pipe arranging mechanism;

the method is characterized in that:

defining a vertical plane parallel to the direction of the belt width of the lifting conveyor as a first reference plane,

the pipe arranging mechanism comprises a pipe arranging box and a pipe storing box arranged below the pipe arranging box, the pipe arranging box is provided with a pipe falling guide channel, an inlet of the pipe falling guide channel is positioned below the output end of the lifting conveying belt, and an outlet of the pipe falling guide channel is communicated with the pipe storing box;

the whole relative first reference surface slope of storage tube box sets up, and the contained angle between the whole and the first reference surface of storage tube box is 5~ 13.

2. A pipe reason machine according to claim 1, wherein: the back of the pipe storage box is fixedly connected with the host frame through a bracket.

3. A pipe reason machine according to claim 1, wherein: the tube falling guide channel of the tube management box adopts a buffer structure and comprises a first section of tube channel with the upper part vertically arranged and a second section of tube channel with the lower part obliquely arranged,

the whole inclination angle of the second section bobbin channel is consistent with the inclination angle of the tube storage box,

and defining a vertical plane perpendicular to the width direction of the lifting conveying belt as a second reference plane, wherein the upper tube falling direction of the second-section bobbin channel is parallel to the second reference plane, and the lower tube falling direction of the second-section bobbin channel forms an included angle of 60-120 degrees with the second reference plane.

4. A pipe reason machine according to claim 1, wherein: the tube management box comprises a front panel, a back panel and a pair of limit strips arranged between the front panel and the back panel;

the limiting strips are matched with the front panel and the back panel to form a first section bobbin channel and a second section bobbin channel;

the limiting strip is vertically arranged at the first section bobbin channel, and is integrally bent at the junction of the first section bobbin channel and the second section bobbin channel, so that an included angle of 5-13 degrees is formed between the whole limiting strip positioned in the second section bobbin channel and the first reference surface; the limiting strip bends again at the middle part of the second section bobbin channel, so that an included angle of 60-120 degrees is formed between the limiting strip positioned at the lower half part of the second section bobbin channel and the second reference surface.