CN111876886B - Weaving machine with stoving function - Google Patents

Abstract

The invention discloses a textile machine with a drying function, which structurally comprises a textile cavity, a drying cylinder, a bobbin, a guide roller, textile cloth and a shell, wherein the textile cavity is internally provided with the textile cloth, the textile cloth is connected with the drying cylinder, the drying cylinder is connected with the guide roller through the textile cloth, and the textile cavity is arranged in the shell. Through setting up the location frame pole on the roller of drying for weaving cloth has the bearing capacity when encircleing, and establish the hot plate is the arc, makes its radian that encircles with weaving cloth cooperate, is convenient for heat the stoving with moist weaving cloth, prevents that the direct rolling of moist weaving cloth can go mildy.

Description

Weaving machine with stoving function

Technical Field

The invention relates to the field of spinning, in particular to a spinning machine with a drying function.

Background

Along with textile industry's development and people to the increase of cloth demand, textile machinery's production efficiency has also more and more obtained the improvement, when meetting overcast and rainy weather, and the braided wire wets easily, and can't keep original degree of dryness, during the weaving becomes the textile fabric, because the degree of dryness of braided wire is not enough to the taking in of textile fabric is with its rolling lapping, leads to the textile fabric of inlayer to go mildy easily.

Disclosure of Invention

Aiming at the defects of the prior art, the invention is realized by the following technical scheme: a textile machine with a drying function structurally comprises a textile cavity, a drying cylinder, a bobbin, a guide roller, textile cloth and a shell, wherein the textile cloth is arranged in the textile cavity and connected with the drying cylinder, the drying cylinder is connected with the guide roller through the textile cloth, and the textile cavity is arranged in the shell;

the stoving section of thick bamboo comprises introducing axle, stoving roller, extraction axle, bobbin chamber, cooling roller, the axle is in same axis with the extraction axle to the introduction axle, the stoving roller is in same axis with the cooling roller, the diameter at introduction axle place is perpendicular basically with the diameter at stoving roller place, weaving cloth is connected with the stoving roller through introducing the axle, be connected through weaving cloth between stoving roller and the cooling roller, the extraction axle cooperatees with the cooling roller, be equipped with two openings on the bobbin chamber, the business turn over of the weaving cloth of being convenient for, the axle is installed inboard at the opening in bobbin chamber with the extraction axle to the introduction axle.

As a further optimization of the invention, the drying roller consists of a movable heating ring, a fixed frame, a round cavity and a roller wall, wherein the movable heating ring is matched with the fixed frame, the fixed frame is arranged on the roller wall and penetrates through the roller wall, and the round cavity is a cavity surrounded by the roller wall.

As a further optimization of the invention, the cooling roller is composed of a cooling ring, an air suction pipe, an air supply block, a cooling cavity and a wall layer, wherein the air suction pipe is arranged in the cooling ring, the cooling ring is arranged in the center of the cooling cavity, the wall layer is provided with two openings, the distance between the two openings is equal to the length of a quarter of a circular arc, a cavity surrounded by the wall layer is the cooling cavity, the air supply block is matched with the cooling ring, the air supply block is positioned below the cooling ring, the air supply block is fixedly connected with the inner wall of the cooling cavity, and the pipe orifice of the air suction pipe is arranged in a regular pentagon shape.

As a further optimization of the invention, the movable heating ring comprises a rotating shaft, four rotating rods, connecting blocks and a heating plate, wherein the rotating shaft is mechanically welded with the rotating rods, the four rotating rods are equidistantly distributed on the outer wall layer of the rotating shaft, one end of each rotating rod, which is far away from the rotating shaft, is fixedly connected with the connecting blocks, the rotating rods are connected with the heating plate through the connecting blocks, and the heating plate is arranged in an arc shape.

As a further optimization of the invention, the fixed frame is composed of a fixed ring, a fixed rod and a positioning frame rod, wherein a rotating shaft is arranged in the center of the fixed ring, the fixed ring is fixedly connected with the fixed rod, the number of the fixed rods is equal to that of the rotary rods, the fixed rod is connected with the positioning frame rod, and the positioning frame rod is connected with the woven cloth.

As a further optimization of the invention, the cooling ring is composed of more than five cooling ports, a ring body and an induced air block, wherein the cooling ports are uniformly distributed on the ring body, the cooling ports penetrate through the ring body, the inner wall of each cooling port is the induced air block, and the induced air block has a certain radian.

As a further optimization of the invention, the air supply block is composed of an output port, a solid wall, an air generating cavity and a fan, wherein the output port is communicated with the air generating cavity, the fan is arranged in the air generating cavity, and the cavity surrounded by the solid wall is the air generating cavity.

As a further optimization of the invention, the wind guiding block is arranged in an arc shape, so that the wind power is more conveniently conveyed, more air flow passes through the woven cloth and enters the cooling port, and the cooling of the heated and dried woven cloth is accelerated.

Advantageous effects

The invention relates to a textile machine with drying function, wherein textile cloth is guided by a leading-in shaft to a drying roller, is transmitted to a cooling roller after passing through the drying roller, and is finally output by a leading-out shaft, when the textile cloth is arranged on the drying roller, the textile cloth surrounds the positioning frame rod, a hollow structure is arranged between the positioning frame rod and the positioning frame rod, and a heating plate is arranged between the positioning frame rod and the positioning frame rod, when the textile cloth surrounds the positioning frame rod, the heating plate is contacted with the textile cloth, so that the wet textile cloth is heated and dried, the dried textile cloth is transferred to the cooling roller, the textile cloth is surrounded on the ring body, because the air suction pipe is connected with the external negative pressure source, the air suction pipe has adsorption force, and the ring body is provided with a cooling opening, the woven cloth has the force of being sucked and attached to the ring body, wind power generated by operation of the fan is output from the output port and acts on the ring body, and the cooling speed of the woven cloth is higher.

Compared with the prior art, the invention has the following advantages:

according to the invention, the positioning frame rod is arranged on the drying roller, so that the woven cloth has bearing force when being encircled, and the heating plate is arranged in an arc shape and matched with the radian encircled by the woven cloth, so that the wet woven cloth is heated and dried conveniently, and the wet woven cloth is prevented from mildewing when being directly coiled;

the invention utilizes the wind power generated by the operation of the fan to be output from the output port and act on the ring body, so that the residual temperature on the heated and dried textile cloth is reduced;

the ring body is provided with the cooling opening, and the woven cloth is attached to the ring body in an absorbing manner under the action of the air suction pipe, so that the cooling speed of the woven cloth is higher.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic structural diagram of a textile machine with a drying function according to the present invention.

Fig. 2 is a structure view of the drying drum.

Fig. 3 is a structure view of the drying roller.

Fig. 4 is a structure view of the cooling roller.

FIG. 5 is a view showing the connection between the joint blocks and the heating plate.

In the drawing, a spinning cavity 1, a drying cylinder 2, a bobbin 3, a guide roller 4, a textile fabric 5, a shell 6, a leading-in shaft 21, a drying roller 22, a leading-out shaft 23, a cylinder cavity 24, a cooling roller 25, a movable heating ring a, a fixed frame b, a round cavity c, a roller wall d, a cooling ring e, an air suction pipe f, an air supply block g, a cooling cavity h, a wall layer i, a rotating shaft a1, a rotating rod a2, a connecting block a3, a heating plate a4, a fixed ring b1, a fixed rod b2, a positioning frame rod b3, a cooling port e1, a ring body e2, an air supply block e3, an output port g1, a solid wall g2, an air generation cavity g3 and a fan g 4.

Detailed Description

In order to make the technical means, the original characteristics, the achieved purposes and the effects of the invention easy to understand, the following description and the accompanying drawings further illustrate the preferred embodiments of the invention.

Example 1

Referring to fig. 1-5, the invention provides a textile machine with drying function, which comprises a textile cavity 1, a drying cylinder 2, a bobbin 3, a guide roller 4, a textile fabric 5 and a housing 6, wherein the textile cavity 1 is internally provided with the textile fabric 5, the textile fabric 5 is connected with the drying cylinder 2, the drying cylinder 2 is connected with the guide roller 4 through the textile fabric 5, and the textile cavity 1 is arranged in the housing 6;

drying cylinder 2 comprises leading-in axle 21, drying roller 22, leading-out axle 23, bobbin cavity 24, cooling roller 25, leading-in axle 21 is in same axis with leading-out axle 23, drying roller 22 is on same axis with cooling roller 25, the diameter that leading-in axle 21 belonged to is basically perpendicular with the diameter at drying roller 22 place, weaving cloth 5 is connected with drying roller 22 through leading-in axle 21, be connected through weaving cloth 5 between drying roller 22 and the cooling roller 25, it cooperatees with cooling roller 25 to lead-out axle 23, be equipped with two openings on the bobbin cavity 24, the business turn over of weaving cloth 5 of being convenient for, it installs the opening inboard at bobbin cavity 24 with leading-out axle 23 to lead-in axle 21.

The drying roller 22 is composed of a movable heating ring a, a fixed frame b, a circular cavity c and a roller wall d, the movable heating ring a is matched with the fixed frame b, the fixed frame b is installed on the roller wall d and penetrates through the roller wall d, the cavity defined by the roller wall d is the circular cavity c, and the circular cavity c is arranged, so that hot air can circulate after the textile cloth 5 is heated and dried.

The cooling roller 25 is composed of a cooling ring e, an air suction pipe f, an air supply block g, a cooling cavity h and a wall layer i, the air suction pipe f is arranged in the cooling ring e, the cooling ring e is installed in the center of the cooling cavity h, two openings are formed in the wall layer i, the distance between the two openings is equal to the length of a quarter of a circular arc, a cavity surrounded by the wall layer i is the cooling cavity h, the air supply block g is matched with the cooling ring e, the air supply block g is located below the cooling ring e, the air supply block g is fixedly connected with the inner wall of the cooling cavity h, the pipe orifice of the air suction pipe f is arranged in a regular pentagon shape, and the air suction pipe is connected with an external negative pressure source to enable the air suction pipe to have adsorption force.

The movable heating ring a is composed of a rotating shaft a1, rotating rods a2, connecting blocks a3 and heating plates a4, the rotating shaft a1 is mechanically welded with the rotating rods a2, the four rotating rods a2 are arranged and are distributed on the outer wall layer of the rotating shaft a1 at equal intervals, one end, far away from the rotating shaft a1, of the rotating rods a2 is fixedly connected with the connecting blocks a3, the rotating rods a2 are connected with the heating plates a4 through the connecting blocks a3, the heating plates a4 are arranged in an arc shape, and the heating plates a4 are arranged, so that when the textile cloth 5 is in contact with the heating plates, the wet textile cloth 5 can be heated and dried.

The fixed frame b is composed of a fixed ring b1, a fixed rod b2 and a positioning frame rod b3, a rotating shaft a1 is arranged at the center of the fixed ring b1, the fixed ring b1 is fixedly connected with the fixed rod b2, the number of the fixed rod b2 is equal to that of the rotating rod a2, the fixed rod b2 is connected with the positioning frame rod b3, the positioning frame rod b3 is connected with the textile cloth 5, and the positioning frame rod b3 is arranged, so that the ring layer of the textile cloth 5 has bearing force, and the textile cloth 5 is dried conveniently.

Cooling ring e comprises cooling mouth e1, ring body e2, induced air piece e3, cooling mouth e1 is equipped with more than five to evenly distributed is on ring body e2, cooling mouth e1 runs through ring body e2, cooling mouth e 1's inner wall is induced air piece e3, induced air piece e3 has certain radian.

The air supply block g is composed of an output port g1, a solid wall g2, an air generating cavity g3 and a fan g4, the output port g1 is communicated with the air generating cavity g3, the fan g4 is arranged in the air generating cavity g3, a cavity surrounded by the solid wall g2 is an air generating cavity g3, and the fan g4 is connected with an external mechanical force, so that the fan g4 can be driven to operate to generate wind power.

The air guide block e3 is arranged in an arc shape, so that the wind power is more conveniently conveyed, more air flow penetrates through the textile cloth 5 and enters the cooling port e1, and the cooling of the textile cloth 5 after heating and drying is accelerated.

Textile cloth 5 is guided by a guide shaft 21 to reach a drying roller 22, passes through the drying roller 22 and then is transferred to a cooling roller 25, and finally is output through a guide shaft 23, when the textile cloth 5 is fed onto the drying roller 22, the textile cloth 5 surrounds a positioning frame rod b3, a hollow structure is formed between a positioning frame rod b3 and a positioning frame rod b3, a heating plate a4 is arranged between the positioning frame rod b3 and the positioning frame rod b3, when the textile cloth 5 surrounds a positioning frame rod b3, the heating plate a4 is in contact with the textile cloth 5, so that the wet textile cloth 5 is heated and dried, the dried textile cloth 5 is transferred to the cooling roller 25, the textile cloth 5 surrounds a ring e2, an air suction pipe is connected with an external negative pressure source and has suction force, a cooling opening e1 is arranged on the ring e2, so that the textile cloth 5 has force sucked on the ring e2, and wind power generated by the operation of a fan g4 is output from an output port g1, and acts on the ring body e2, so that the cooling speed of the textile cloth 5 is higher.

While there have been shown and described what are at present considered the fundamental principles of the invention, the essential features and advantages thereof, it will be understood by those skilled in the art that the present invention is not limited by the embodiments described above, which are merely illustrative of the principles of the invention, but rather, is capable of numerous changes and modifications in various forms without departing from the spirit or essential characteristics thereof, and it is intended that the invention be limited not by the foregoing descriptions, but rather by the appended claims and their equivalents.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (2)

1. A weaving machine with stoving function which characterized in that: the spinning device structurally comprises a spinning cavity (1), a drying cylinder (2), a bobbin (3), a guide roller (4), woven cloth (5) and a shell (6), wherein the woven cloth (5) is arranged in the spinning cavity (1), the woven cloth (5) is connected with the drying cylinder (2), the drying cylinder (2) is connected with the guide roller (4) through the woven cloth (5), and the spinning cavity (1) is installed in the shell (6);

the drying cylinder (2) is composed of a leading-in shaft (21), a drying roller (22), a leading-out shaft (23), a cylinder cavity (24) and a cooling roller (25), the leading-in shaft (21) and the leading-out shaft (23) are positioned on the same axis, the drying roller (22) and the cooling roller (25) are positioned on the same axis, the axis where the leading-in shaft (21) is positioned is basically vertical to the axis where the drying roller (22) is positioned, the woven cloth (5) is connected with the drying roller (22) through the leading-in shaft (21), the drying roller (22) and the cooling roller (25) are connected through the woven cloth (5), the leading-out shaft (23) is matched with the cooling roller (25), two openings are formed in the cylinder cavity (24) to facilitate the entrance and exit of the woven cloth (5), and the leading-in shaft (21) and the leading-out shaft (23) are installed on the inner side of the opening of the cylinder cavity (24);

the drying roller (22) is composed of a movable heating ring (a), a fixed frame (b), a round cavity (c) and a roller wall (d), the movable heating ring (a) is matched with the fixed frame (b), the fixed frame (b) is installed on the roller wall (d) and penetrates through the roller wall (d), and the round cavity (c) is a cavity surrounded by the roller wall (d);

the cooling roller (25) is composed of a cooling ring (e), an air suction pipe (f), an air supply block (g), a cooling cavity (h) and a wall layer (i), the air suction pipe (f) is arranged in the cooling ring (e), the cooling ring (e) is installed in the center of the cooling cavity (h), a cavity surrounded by the wall layer (i) is the cooling cavity (h), the air supply block (g) is matched with the cooling ring (e), the air supply block (g) is fixedly connected with the inner wall of the cooling cavity (h), and the pipe orifice of the air suction pipe (f) is arranged in a regular pentagon shape;

the movable heating ring (a) is composed of a rotating shaft (a 1), a rotating rod (a 2), a connecting block (a 3) and a heating plate (a 4), the rotating shaft (a 1) is mechanically welded with the rotating rod (a 2), one end, far away from the rotating shaft (a 1), of the rotating rod (a 2) is fixedly connected with the connecting block (a 3), and the rotating rod (a 2) is connected with the heating plate (a 4) through the connecting block (a 3);

the fixed frame (b) is composed of a fixed ring (b 1), a fixed rod (b 2) and a fixed frame rod (b 3), a rotating shaft (a 1) is arranged at the center of the fixed ring (b 1), the fixed ring (b 1) is fixedly connected with the fixed rod (b 2), the fixed rod (b 2) is connected with the fixed frame rod (b 3), and the fixed frame rod (b 3) is connected with the woven cloth (5);

the cooling ring (e) is composed of a cooling port (e 1), a ring body (e 2) and an air guide block (e 3), the cooling port (e 1) penetrates through the ring body (e 2), the inner wall of the cooling port (e 1) is the air guide block (e 3), and the air guide block (e 3) has a certain radian;

the air supply block (g) is composed of an output port (g 1), a solid wall (g 2), an air generating cavity (g 3) and a fan (g 4), the output port (g 1) is communicated with the air generating cavity (g 3), the fan (g 4) is arranged in the air generating cavity (g 3), and a cavity surrounded by the solid wall (g 2) is an air generating cavity (g 3);

the air guide block (e 3) is arranged in an arc shape, so that the wind power is more conveniently conveyed, and more air flow passes through the textile cloth (5) and enters the cooling port (e 1).

2. Textile machine with drying function according to claim 1, characterized in that: the textile cloth (5) reaches the drying roller (22) through the guide of the leading-in shaft (21), and is transmitted to the cooling roller (25) through the drying roller (22), and is finally output through the leading-out shaft (23), when the textile cloth (5) is arranged on the drying roller (22), the textile cloth (5) surrounds a positioning frame rod (b 3), a hollow structure is formed between the positioning frame rod (b 3) and the positioning frame rod (b 3), a heating plate (a 4) is arranged between the positioning frame rod (b 3) and the positioning frame rod (b 3), when the textile cloth (5) surrounds the positioning frame rod (b 3), the heating plate (a 4) is in contact with the textile cloth (5), so that the wet textile cloth (5) is heated and dried, the dried textile cloth (5) is transmitted to the cooling roller (25), the textile cloth (5) surrounds a ring body (e 2), and the air suction pipe is connected with a negative pressure external source, so that the textile cloth has adsorption force, and a cooling ring body (493e) opening (734) is arranged on the ring body (3), the woven cloth (5) has the force absorbed and stuck on the ring body (e 2), and the wind power generated by the operation of the fan (g 4) is output from the output port (g 1) and acts on the ring body (e 2), so that the cooling speed of the woven cloth (5) is higher.

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