CN111426178A - Textile printing and dyeing drying equipment with auxiliary heating function - Google Patents

Abstract

The invention belongs to the technical field of textile equipment, and particularly relates to textile printing, dyeing and drying equipment with an auxiliary heating function. According to the invention, the heat conduction rings, the heat conduction strips, the heat conduction column units and the heating cylinder are arranged on the mounting frame body of the electric heating wire, so that the effect of effectively performing auxiliary heating on the lower surface of the cloth is achieved. The invention has the advantages of reasonable and effective lower surface heat conduction heating mode led out by the electric heating wire, simple and efficient heat conduction structure, high structure stability, convenient disassembly and assembly and maintenance, high heat conduction heating efficiency, no influence on the normal running and passing of cloth, good lower surface contact type auxiliary heating effect, direct and efficient performance, and no influence on the original hot air blowing heating mode of the upper surface.

Description

Textile printing and dyeing drying equipment with auxiliary heating function

Technical Field

The invention belongs to the technical field of textile equipment, and particularly relates to textile printing, dyeing and drying equipment with an auxiliary heating function.

Background

In the textile printing and dyeing industry, drying equipment is required to heat, dry, shape and fix color of the cloth which is just dyed. Current drying equipment, its structure mainly includes the fan of equipment box, electric heating wire and air-blast downwards, and the principle is that electric heating wire circular telegram generates heat the back, and the fan blows the heat toward the cloth, finally realizes the purpose of heated drying, but this mode has the cloth upper surface heating degree to be far above the lower surface, and the whole heated drying operation is inhomogeneous, and last cloth is stereotyped, the inhomogeneous problem of fixation, so the market urgently needs a cloth about the novel drying equipment that the surface can both carry out the suitable heating.

Patent publication number is CN 205975045U, and the china utility model patent that bulletin day is 2017.02.22 discloses a weaving printing and dyeing drying device, including drying the casing, including drying in the casing according to printing and dyeing material stream logical direction in proper order including feed roll, drying roller group, impression roller, cooling roller group and drawing material roller, feed roll, drying roller group, impression roller, cooling roller group and drawing material roller transversely set up, drying casing bottom sets up air inlet unit, drying casing top sets up a plurality of exhaust holes.

But the mixing apparatus in the utility model has the problem that the heating degree of the lower surface of the cloth is not enough.

Disclosure of Invention

The invention aims to provide a textile printing and dyeing drying device with an auxiliary heating function, which can achieve the effect of effectively performing auxiliary heating on the lower surface of cloth by arranging a heat conduction ring, a heat conduction strip, a heat conduction column unit and a heating cylinder on an installation frame body of an electric heating wire. The invention has the advantages of reasonable and effective lower surface heat conduction heating mode led out by the electric heating wire, simple and efficient heat conduction structure, high structure stability, convenient disassembly and assembly and maintenance, high heat conduction heating efficiency, no influence on the normal running and passing of cloth, good lower surface contact type auxiliary heating effect, direct and efficient performance, and no influence on the original hot air blowing heating mode of the upper surface.

The technical scheme adopted by the invention for solving the problems is as follows: the utility model provides a weaving printing and dyeing drying equipment with supplementary heating function, includes the drying box, sets up lower compression roller, the installation framework in the drying box, sets up electric heating wire in the installation framework, and set up the downward blast pipe on the drying box, still include to cup joint the setting in pairs and be in heat conduction ring in the installation framework, set up and be used for carrying out the heat conduction strip of hanging in midair the operation respectively at heat conduction post unit both ends on the heat conduction ring, and cup joint the setting and be in on the heat conduction post unit and through the mode of upwards jack-up be used for carrying out the heating barrel of auxiliary heating on the cloth lower surface.

The further preferred technical scheme is as follows: the number of the heat conduction column units is two, the heat conduction column units are arranged in parallel, and the four heat conduction rings suspend one heat conduction column unit in pairs.

The further preferred technical scheme is as follows: the heat conduction column unit comprises a heat conduction cylinder and two cylinder heat conduction rings which are respectively sleeved at two ends of the heat conduction cylinder and connected with the heat conduction strips, wherein permanent magnet rings which are used for centering positioning operation on the heating cylinder in a magnetic attraction mode are arranged on opposite annular side surfaces of the cylinder heat conduction rings and the heating cylinder.

The further preferred technical scheme is as follows: the heat conduction column unit further comprises a circular groove arranged on the inner ring surface of the cylinder heat conduction ring, a ball arranged on the circular groove and abutted to the annular surface of the heat conduction cylinder, and two convex rings arranged on the annular surface of the heat conduction cylinder and used for clamping and limiting the two sides of the ball respectively, wherein the two convex rings are semicircular in cross section.

The further preferred technical scheme is as follows: the cylindrical heat conducting ring and the opposite annular side surface of the heating cylinder are respectively provided with an annular groove for clamping, inserting and installing the permanent magnet ring, and the circular groove is further away from the heating cylinder than the annular groove.

The further preferred technical scheme is as follows: the heat conduction column unit further comprises two mounting rings which are arranged on the inner ring surface of the cylinder heat conduction ring and are respectively located at the positions of two sides of the circular groove, and a heat conduction ribbon which is arranged on the inner ring surface of the mounting ring and is supported on the ring surface of the heat conduction cylinder in a bent mode so as to enhance the heat conduction effect.

The further preferred technical scheme is as follows: the heat conducting rings, the heat conducting strips, the heat conducting cylinders, the cylinder heat conducting rings, the mounting rings and the heating cylinder are all made of copper, and the heat conducting ribbons are made of heat conducting rubber.

The further preferred technical scheme is as follows: the end of the heat-conducting silk ribbon is bonded on the inner ring surface of the mounting ring.

The further preferred technical scheme is as follows: the distance between the ring surface of the heat-conducting cylinder and the inner ring surface of the heating cylinder body is 0.5-1.2 cm.

The further preferred technical scheme is as follows: the inner ring surface of the heat-conducting ring is provided with a heat-insulating silica gel ring for stably supporting the mounting frame body

According to the invention, the heat conduction rings, the heat conduction strips, the heat conduction column units and the heating cylinder are arranged on the mounting frame body of the electric heating wire, so that the effect of effectively performing auxiliary heating on the lower surface of the cloth is achieved. The invention has the advantages of reasonable and effective lower surface heat conduction heating mode led out by the electric heating wire, simple and efficient heat conduction structure, high structure stability, convenient disassembly and assembly and maintenance, high heat conduction heating efficiency, no influence on the normal running and passing of cloth, good lower surface contact type auxiliary heating effect, direct and efficient performance, and no influence on the original hot air blowing heating mode of the upper surface.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

FIG. 2 is a schematic view of the position of the heat conductive ring according to the present invention.

Fig. 3 is a schematic view of the installation position structure of the heat conducting cylinder according to the present invention.

Fig. 4 is a schematic diagram of a position structure of the permanent magnet ring in the present invention.

Fig. 5 is a schematic view of the position structure of the heat insulation silica gel ring in the present invention.

FIG. 6 is a schematic view of an inner side structure of a cylindrical heat-conducting ring according to the present invention.

Detailed Description

The following description is only a preferred embodiment of the present invention and is not intended to limit the scope of the present invention.

Example (b): as shown in fig. 1, 2, 3, 4, 5 and 6, a textile printing and dyeing drying device with auxiliary heating function comprises a drying box 11, a lower press roller 12 arranged in the drying box 11, an installation frame 13, an electric heating wire 14 arranged in the installation frame 13, a downward blowing pipe 15 arranged on the drying box 11, heat-conducting rings 1 sleeved in pairs on the installation frame 13, heat-conducting strips 3 arranged on the heat-conducting rings 1 and used for respectively suspending two ends of a heat-conducting column unit 2, and a heating cylinder 4 sleeved on the heat-conducting column unit 2 and used for performing auxiliary heating on the lower surface of a fabric 16 in an upward jacking manner.

In this embodiment, the external power supply of the electric heating wire 14 and the external fan of the downward blowing pipe 15 ensure that the effective hot air drying effect of the upper surface of the cloth 16 is a main heating function, the heating cylinder 4 is directly contacted with the lower surface of the cloth 16, the heat of the electric heating wire 14 is transmitted to the cloth 16 through the heat conducting ring 1, the heat conducting strip 3 and the heat conducting column unit 2 in sequence, and the convenient and efficient auxiliary heating effect of the lower surface is ensured.

In addition, the heat conduction column unit 2 and the heating cylinder 4 are suspended by the heat conduction strip 3, and play a supporting and jacking role as a supporting roller while assisting in heating, so as to ensure that the cloth 16 stably passes through the drying box 11.

The number of the heat conduction column units 2 is two, the heat conduction column units are arranged in parallel, and the four heat conduction rings 1 suspend one heat conduction column unit 2 in pairs.

In this embodiment, the two heat-conducting pillar units 2 are equivalent to two supporting rollers, and the two lower pressing rollers 12 are matched to tension the cloth 16 in the drying box 11, so as to form a horizontal area of the cloth to be mainly heated, and the suspension function can omit the fixing structure for the two ends of the heat-conducting pillar unit 2, so that the drying device has the advantage of simple and effective structure.

The heat conducting column unit 2 comprises a heat conducting cylinder 201 and two column heat conducting rings 202 which are respectively sleeved at two ends of the heat conducting cylinder 201 and connected with the heat conducting strips 3, wherein permanent magnet rings 5 which are used for performing centering positioning operation on the heating cylinder 4 in a magnetic attraction mode are arranged on opposite annular side surfaces of the column heat conducting rings 202 and the heating cylinder 4.

In this embodiment, heat is conducted from the heat conducting strip 3 to the cylindrical heat conducting ring 202, then the heat conducting cylinder 201, and finally reaches the heating cylinder 4, so as to directly heat the lower surface of the cloth 16, thereby completing the whole auxiliary heating operation, and the two ends of the heat conducting strip are paired, and the total of four permanent magnet rings 5, so as to ensure that the heating cylinder 4 rotates on the heat conducting cylinder 201 in a "magnetic suspension" manner, because the magnetic attraction strength is the greatest when the two permanent magnet rings 5 are aligned, an additional force needs to be applied to release the aligned state, and the pressure of the cloth 16 on the heating cylinder 4 is set to be smaller than the applied force strength.

In addition, the heat conduction mode that the heating cylinder 4 is not in contact with the heat conduction cylinder 201 has the double advantages of short distance, relatively negligible air heat conduction loss, small rotation resistance and smoother and more labor-saving whole conveying of the cloth 16.

The heat conducting column unit 2 further includes a circular groove 203 disposed on an inner annular surface of the column heat conducting ring 202, a ball 204 disposed on the circular groove 203 and abutting against an annular surface of the heat conducting cylinder 201, and two protruding rings 205 disposed on the annular surface of the heat conducting cylinder 201 and respectively used for performing a clamping and limiting operation on two sides of the ball 204, wherein the cross-sectional shape of the protruding rings is semicircular. The opposite annular side surfaces of the cylinder heat conduction ring 202 and the heating cylinder 4 are both provided with an annular groove 6 for clamping and inserting the permanent magnet ring 5, and the circular groove 203 is farther away from the heating cylinder 4 than the annular groove 6.

In this embodiment, the circular groove 203 is a straight cylindrical groove, and if there is no magnetic attraction of the permanent magnet ring 5 to the balls 204, the balls 204 are easy to drop when being installed in the circular groove 203, so the balls 204 are disposed on the inner side of the magnetic pole of the permanent magnet ring 5, which can further ensure the relatively high strength of the magnetic attraction, and the circular groove 203 is simpler to set than a ball-shaped groove requiring ball embedding installation.

In addition, the number of the circular grooves 203 is 3-5, corresponding to 3-5 of the balls 204, two of the protrusion rings 205 are clamped at two side positions on the 3-5 of the balls 204 at the same time, so as to prevent the heat conducting cylinder 201 from generating unnecessary axial displacement relative to the cylinder heat conducting ring 202, while the driving force required for the overall displacement of the heat conducting cylinder 201 and the cylinder heat conducting ring 202 is larger, the overall displacement is not enough to be dragged when the cloth 16 is stably conveyed, and in other words, the cloth 16 can further prevent the overall displacement from being dragged by properly reducing the tension.

The heat conducting column unit 2 further includes two mounting rings 206 disposed on the inner annular surface of the column heat conducting ring 202 and respectively located at two sides of the circular groove 203, and a heat conducting wire band 207 disposed on the inner annular surface of the mounting ring 206 and abutting against the annular surface of the heat conducting cylinder 201 after being bent so as to enhance the heat conducting effect. The heat conduction ring 1, the heat conduction strip 3, the heat conduction cylinder 201, the cylinder heat conduction ring 202, the mounting ring 206 and the heating cylinder 4 are all made of copper, and the heat conduction band 207 is made of heat conduction rubber. The end of the heat conducting wire 207 is bonded to the inner annular surface of the mounting ring 206. The distance between the ring surface of the heat-conducting cylinder 201 and the inner ring surface of the heating cylinder 4 is 0.5-1.2 cm.

In this embodiment, the thermal conductive wire 207 between the cylindrical thermal conductive ring 202 and the thermal conductive cylinder 201 is bent after being pressed to ensure stable contact, so that a relatively efficient thermal conductive effect is achieved, if nothing else is disposed between the cylindrical thermal conductive ring 202 and the thermal conductive cylinder 201 and on both sides of the ball 204, a relatively poor air thermal conductive effect reduces a portion of heat transfer, and on the other hand, if a solid thermal conductive material is disposed between the cylindrical thermal conductive ring 202 and the thermal conductive cylinder 201 and on both sides of the ball 204, a noise is generated when the cylindrical thermal conductive ring 202 and the thermal conductive cylinder 201 rotate relatively, which is not good, so that the thermal conductive wire 207 ensures a bending and jacking contact between the cylindrical thermal conductive ring 202 and the thermal conductive cylinder 201 with a certain strength, finally, the effect of heat conduction of contact without direct friction is achieved.

And a heat insulation silica gel ring 7 used for stably supporting the mounting frame body 13 is arranged on the inner annular surface of the heat conduction ring 1.

In this embodiment, the thermal-insulated silica gel ring 7 has two effects, and the first is heat conduction ring 1 is heated the back and will be as much as possible heat transfer for heat conduction strip 3, and reduce to the transmission capacity of installation framework 13, wherein thermal-insulated silica gel ring 7 self heat conduction effect is poor, installation framework 13 also can adopt materials such as the foaming cement of difficult heat conduction.

Secondly, the frame body edge of the installation frame body 13 is prismatic, and the inner annular surface of the heat conduction ring 1 is circular, so that the heat conduction ring 1 can be ensured to be stably sleeved and not to accidentally slide through the self-deformation supporting action of the heat insulation silica gel ring 7.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and various modifications can be made within the knowledge of those skilled in the art without departing from the gist of the present invention. These are non-inventive modifications, which are intended to be protected by patent laws within the scope of the claims appended hereto.

Claims (10)

1. The utility model provides a textile printing and dyeing drying equipment with supplementary heating function, includes drying box (11), sets up compression roller (12), installation framework (13) down in drying box (11), sets up electric heating wire (14) in installation framework (13) to and set up the blast pipe (15) down on drying box (11), its characterized in that: the heat conduction device is characterized by further comprising heat conduction rings (1) which are sleeved and arranged on the installation frame body (13) in pairs, heat conduction strips (3) which are arranged on the heat conduction rings (1) and used for hanging the two ends of the heat conduction column unit (2) respectively, and heating cylinder bodies (4) which are sleeved and arranged on the heat conduction column unit (2) and used for performing auxiliary heating on the lower surface of the cloth (16) in an upward jacking mode.

2. The textile printing and dyeing drying equipment with the auxiliary heating function as claimed in claim 1, wherein: the number of the heat conduction column units (2) is two, the heat conduction column units are arranged in parallel, and the four heat conduction rings (1) suspend one heat conduction column unit (2) in pairs.

3. The textile printing and dyeing drying equipment with the auxiliary heating function as claimed in claim 1, wherein: the heat conduction column unit (2) comprises a heat conduction cylinder (201) and two cylinder heat conduction rings (202) which are respectively sleeved at two ends of the heat conduction cylinder (201) and connected with the heat conduction strips (3), wherein permanent magnet rings (5) which are used for centering positioning operation on the heating cylinder (4) in a magnetic attraction mode are arranged on opposite annular side surfaces of the cylinder heat conduction rings (202) and the heating cylinder (4).

4. The textile printing and dyeing drying equipment with the auxiliary heating function as claimed in claim 3, wherein: the heat conduction column unit (2) further comprises a circular groove (203) arranged on the inner annular surface of the column heat conduction ring (202), a ball (204) arranged on the circular groove (203) and abutted to the annular surface of the heat conduction cylinder (201), and two convex rings (205) arranged on the annular surface of the heat conduction cylinder (201) and respectively used for clamping and limiting two sides of the ball (204) and having semicircular cross sections.

5. The textile printing and dyeing drying equipment with the auxiliary heating function as claimed in claim 4, wherein: the opposite annular side surfaces of the cylinder heat-conducting ring (202) and the heating cylinder body (4) are respectively provided with an annular groove (6) for clamping, inserting and installing the permanent magnet ring (5), and the circular groove (203) is further away from the heating cylinder body (4) than the annular groove (6).

6. The textile printing and dyeing drying equipment with the auxiliary heating function as claimed in claim 4, wherein: the heat conduction column unit (2) further comprises two mounting rings (206) which are arranged on the inner ring surface of the column heat conduction ring (202) and are respectively located at the two sides of the circular groove (203), and a heat conduction ribbon (207) which is arranged on the inner ring surface of the mounting ring (206) and is abutted to the ring surface of the heat conduction cylinder (201) after being bent so as to enhance the heat conduction effect.

7. The textile printing and dyeing drying equipment with the auxiliary heating function as claimed in claim 6, wherein: the heat conduction ring (1), the heat conduction strip (3), the heat conduction cylinder (201), the cylinder heat conduction ring (202), the mounting ring (206) and the heating cylinder (4) are all made of copper, and the heat conduction ribbon (207) is made of heat conduction rubber.

8. The textile printing and dyeing drying equipment with the auxiliary heating function as claimed in claim 6, wherein: the end of the heat conducting silk ribbon (207) is arranged on the inner ring surface of the mounting ring (206) in an adhering mode.

9. The textile printing and dyeing drying equipment with the auxiliary heating function as claimed in claim 3, wherein: the distance between the ring surface of the heat conduction cylinder (201) and the inner ring surface of the heating cylinder body (4) is 0.5-1.2 cm.

10. The textile printing and dyeing drying equipment with the auxiliary heating function as claimed in claim 1, wherein: and a heat insulation silica gel ring (7) used for stably supporting the mounting frame body (13) is arranged on the inner ring surface of the heat conduction ring (1).

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