CN210706155U - Winding machine for flue gas spraying pipe - Google Patents

Abstract

The utility model discloses a flue gas shower coiling machine relates to rubber tube processing equipment for solve the condition that the existing coiling machine yarn is easy to be knotted each other, including slide rail, slide frame, skid, respectively rotate the backing roll that installs on frame and skid and the axis of rotation is parallel to each other, the mould stem that both ends were placed respectively on frame and skid, frame and skid all are provided with two at least backing rolls, form between two adjacent backing rolls and be used for supplying the placing port that the mould stem was put into, and be provided with the slewing mechanism who is used for driving the mould stem rotatory in the frame; the utility model has the advantages of it is following and effect: the glass fiber yarn winding device has the advantages that the yarn can be kept still, the glass fiber yarn is wound on the rubber tube in a winding mode through rotation of the rubber tube, the winding process is achieved, the yarn is not prone to winding and overlapping, the process of untwining the yarn is omitted, and therefore production efficiency of the spraying pipe can be improved.

Description

Winding machine for flue gas spraying pipe

Technical Field

The utility model relates to a rubber tube processing equipment, in particular to flue gas shower coiling machine.

Background

Power plants and chemical plants often produce sulfur-and nitrate-containing waste gases that, if discharged directly, can cause serious environmental pollution and therefore require purification prior to discharge. The exhaust gas is usually treated by pipeline transportation to a purification device and then treated by spraying or catalytic decomposition. At present, plastic hoses are mostly used as conveying pipes in industry, and during the manufacturing process of the hoses, glass fiber yarns are wound while rubber is coated on a core column of a mold, and after the rubber is dried and solidified, the hoses lined with high-strength glass fibers are formed.

In order to ensure that glass fibers can be better combined with a rubber pipe when being wound on the rubber pipe, generally, the glass fibers are subjected to gum dipping treatment before winding, a plurality of threads are simultaneously wound when the glass yarns are wound on the rubber pipe, the conventional processing mode is usually to wind the glass fibers around the rubber pipe in a rotating mode, and all the yarns are wound around the rubber pipe and are easy to intertwine with each other in the winding process, so that the winding mode has the problem that the production efficiency of the spraying pipe is affected because the yarns are easy to wind and knot.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a flue gas shower coiling machine can order about the rubber tube and rotate and make the glass fiber yarn twine on the rubber tube, avoids the yarn intertwine to tie a knot to realize the high-efficient production of shower.

The above technical purpose of the present invention can be achieved by the following technical solutions: the utility model provides a flue gas shower coiling machine, includes the slide rail, slides and sets up frame, the skid on the slide rail, rotate respectively and install on frame and skid and the backing roll that axis of rotation is parallel to each other, both ends place the mould stem on frame and skid respectively, all be provided with two at least backing rolls on frame and the skid, form between two adjacent backing rolls and be used for supplying the mouth of placing that the mould stem put into, and be provided with in the frame and be used for ordering about the rotatory slewing mechanism of mould stem.

By adopting the scheme, the rubber tube bottom die is sleeved on the die core column during production, then the rubber is continuously brushed on the rubber tube bottom die, the rubber tube can be formed after the rubber solutions are solidified, in the process of gluing the rubber tube bottom die, as long as one end of the glass fiber yarn is fixed on the rubber tube at the beginning, the die core column can automatically pull the yarn to be wound on the rubber tube when being driven by the rotating mechanism to rotate, the automatic winding of the glass fiber yarn is realized, in addition, the structure can also change the position of the rubber tube by pushing the rack and the sliding frame to move along the sliding rail, the yarn can be fixed, the whole section of the rubber tube is wound along the length direction of the die core column, the winding mode does not need to turn around the yarn back and forth, and therefore, the yarn is not easy to generate the winding knotting condition due to mutual entanglement in the winding process, the process of manual wire release is omitted, so that the production efficiency of the spray pipe can be greatly improved.

The utility model discloses a further set up to: the slewing mechanism sets up the rotation motor in the frame including being fixed in the frame and being located the guide rail that the skid was kept away from to the mould stem one side, sliding, sets up in the frame and be used for ordering about the power spare that rotates the motor along the guide rail motion, be fixed in and rotate the epaxial piece of dialling of motor output, set up the groove of dialling of locating on the mould stem, the length direction of guide rail is on a parallel with the axis of rotation of backing roll, and rotates the epaxial piece of dialling of motor output and dial the inslot under ordering about of power spare.

Through adopting above-mentioned scheme, when needs order about the rubber tube rotatory, power spare promotes to rotate the motor and is close to towards the rubber tube to let dial the commentaries on classics piece and imbed the groove of shifting on the mould stem, later restart rotates the motor, rotate the motor and can drive the mould stem rotatory at rotatory in-process, thereby reach the purpose of carrying out the kinking to the rubber tube.

The utility model discloses a further set up to: still be provided with the spacing subassembly that is used for restricting the mould stem to produce axial motion in the frame, spacing subassembly sets up the spacing flange on the mould stem including being fixed in the frame and being located limiting plate, an organic whole between rotation motor and the backing roll, offer the spacing groove that is used for supplying the spacing flange embedding on the limiting plate, and the length direction of spacing groove is mutually perpendicular with the axis of rotation of backing roll.

Because dial the piece and dial the groove and can produce thrust effect to the mould stem at the in-process that closes, consequently the mould stem has probably to produce axial deviation, and the yarn is at the condition that the winding in-process probably appears repeated winding and entangle each other then, through adopting above-mentioned scheme, when the mould stem has the trend towards axial motion, the limiting plate can block it, prevents that it from producing the skew to make the yarn be difficult to take place to entangle each other at the winding in-process.

The utility model discloses a further set up to: the limiting assembly further comprises limiting rollers which are rotatably installed on the rack and located between the rotating motor and the supporting roller, the limiting rollers are sequentially arranged along the axis direction of the supporting roller, the rotating axis of each limiting roller is parallel to the vertical direction, a supporting space for embedding the limiting flange is formed between every two adjacent limiting rollers, and the supporting space is opposite to the limiting groove.

Through adopting above-mentioned scheme, spacing roller can be used for supplying the spacing flange on the mould stem to contradict, because the rotation axis of spacing roller is along vertical direction, and the rotation direction of mould stem is along the horizontal direction, therefore when spacing flange and spacing roller were inconsistent, the mould stem can drive spacing roller at the pivoted in-process and rotate together, spacing roller can also reduce the frictional force that the mould stem received when playing the fender position effect this moment to make the rotation of mould stem more smooth and easy.

The utility model discloses a further set up to: the power part comprises a power cylinder fixed on the rack, the cylinder body of the power cylinder is fixed with the rack, and the piston rod of the power cylinder is fixed with the rotating motor.

Through adopting above-mentioned scheme, cylinder simple structure, powerful, and the reaction is sensitive for the drive rotates the motor motion and can reach the stroke terminal point fast accurately, also can simplify the processing of equipment simultaneously, thereby reaches the purpose that reduces equipment later maintenance cost.

The utility model discloses a further set up to: one side of the slide rail is also provided with a curing device for curing the glue solution, the curing device comprises a lamp bracket and a curing lamp arranged on the lamp bracket, and the height of the curing lamp is consistent with that of the core column of the mold.

By adopting the scheme, the curing lamp can heat the rubber tube, so that the solidification of the rubber solution is promoted, the time required by the rubber tube forming is shortened, and the aim of improving the production efficiency of the spray pipe is fulfilled.

The utility model discloses a further set up to: the lamp bracket is fixedly provided with a shell-shaped light-gathering groove plate, the curing lamp is positioned in a light-gathering groove on the light-gathering groove plate, and a metal light-reflecting layer is coated on the surface of the light-gathering groove plate positioned in the light-gathering groove.

Through adopting above-mentioned scheme, spotlight frid can gather together the light of curing lamp, makes the heat concentrate to certain direction transmission, and the produced heat of curing lamp can act on more on the rubber tube like this for the rubber tube can solidify better, thereby reaches the purpose that improves energy utilization.

The utility model discloses a further set up to: still install the protection screen panel on the spotlight frid, the protection screen panel is fixed in on the spotlight frid through connection structure, connection structure is including being fixed in on the spotlight frid and along the snap ring of the circumference distribution of spotlight frid, be fixed in on the protection screen panel and the distribution position and the corresponding fixture block of snap ring, be separated by between snap ring and the spotlight frid and be formed with the draw-in groove that is used for supplying the fixture block embedding, the protection screen panel passes through the cooperation of fixture block and snap ring and installs on the spotlight frid.

The curing lamp is through heating to the glue solution solidification, therefore the curing lamp can scald very much at the in-process that uses, if someone touches by mistake and can produce the scald accident, through adopting above-mentioned scheme, the protection screen panel can play the isolation to the curing lamp for the staff is difficult to produce the contact with the curing lamp, thereby reaches the purpose that reduces the incident rate.

To sum up, the utility model discloses following beneficial effect has:

1. the glass fiber yarns can be wound on the rubber tube by the rotation of the rubber tube to realize the winding process, so that the yarns are not easy to be wound and overlapped, the process of untwining the yarns is omitted, and the production efficiency of the spray pipe can be improved;

2. the limiting assembly can resist the die core column, so that the die core column is not easy to deviate, and yarns can be wound on the rubber tube better;

3. the curing lamp can heat the rubber tube, promotes the solidification of the glue applying liquid on the rubber tube, shortens the time required by the rubber tube forming, and thus achieves the purpose of further improving the production efficiency of the spray pipe.

Drawings

FIG. 1 is a schematic diagram of the overall explosion structure of the present embodiment;

fig. 2 is a partial enlarged view at a in fig. 1.

In the figure: 1. a slide rail; 2. a frame; 3. a skid frame; 4. a support roller; 41. a placement port; 5. a core column of the mold; 6. a curing device; 61. a lamp holder; 62. a light-gathering slot plate; 63. a curing light; 64. a protective mesh enclosure; 7. a rotating mechanism; 71. a guide rail; 72. rotating the motor; 73. a power member; 74. a dial block; 75. a dial-rotating groove; 8. a limiting component; 81. a limiting plate; 811. a limiting groove; 82. a limiting flange; 83. a limiting roller; 831. a gear space; 9. a connecting structure; 91. a snap ring; 911. a card slot; 92. and (7) clamping blocks.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1, a winding machine of a flue gas spraying pipe comprises a slide rail 1, a frame 2, a sliding frame 3, a supporting roller 4, a mold core column 5 and a curing device 6, wherein the slide rail 1 is laid at a fixed point during installation; the frame 2 and the sliding frame 3 are arranged on the sliding rail 1 in a sliding way; two groups of supporting rollers 4 are arranged, each group comprises two supporting rollers 4, the two groups of supporting rollers 4 are respectively and rotatably arranged on the rack 2 and the sliding rack 3, and the rotating axes of the two groups of supporting rollers 4 are parallel to each other; a placing opening 41 is formed between two adjacent supporting rollers 4 in the same group, and two ends of the mold core column 5 are respectively placed in the placing openings 41 formed by the two groups of supporting rollers 4.

A rotating mechanism 7 for rotating the mold core column 5 is arranged on the rack 2, the rotating mechanism 7 comprises a guide rail 71, a rotating motor 72, a power part 73, a poking block 74 and a poking groove 75, the cross section of the guide rail 71 is in a dovetail shape and is fixed on one side of the rack 2, which is far away from the sliding rack 3, of the mold core column 5, and the length direction of the guide rail 71 is parallel to the rotating axis of the mold core column 5; the rotating motor 72 is slidably mounted on the guide rail 71 through a dovetail groove; the power part 73 comprises a power cylinder, the cylinder body of the power cylinder is fixed on the frame 2, and the piston rod of the power cylinder is fixed with the rotating motor 72; the dial block 74 is fixed on the output shaft of the rotating motor 72 and is perpendicular to the output shaft of the rotating motor 72; the poke-rotating groove 75 is arranged at one end of the mold core column 5 close to the rotating motor 72, and the poke-rotating block 74 is embedded into the poke-rotating groove 75 under the pushing of the power cylinder.

The rack 2 is also provided with a limiting component 8, the limiting component 8 comprises two limiting plates 81, a limiting flange 82 and a limiting roller 83, and the two limiting plates 81 are fixed on the rack 2 and positioned between the supporting roller 4 and the rotating motor 72; the surfaces of the two limiting plates 81 are parallel to the rotation axis of the mold core column 5, and a limiting groove 811 with a length direction perpendicular to the mold core column 5 is formed in the two limiting plates 81.

The limiting flange 82 is fixed on one end of the die core column 5 close to the rotating motor 72; the two limiting rollers 83 are arranged in the length direction of the mold core column 5, are rotatably mounted on the frame 2 and are located between the two limiting plates 81, the rotating axes of the two limiting rollers 83 are parallel to the vertical direction, and a gear space 831 formed between the two limiting rollers 83 is aligned with the limiting grooves 811 on the two limiting plates 81.

The curing device 6 comprises a lamp holder 61, a light-gathering groove plate 62, a curing lamp 63 and a protective mesh cover 64, wherein the lamp holder 61 is placed on one side of the slide rail 1; the cross section of the light-gathering groove plate 62 is shaped like Contraband and is fixed on the lamp holder 61, and the height of the light-gathering groove plate 62 is consistent with that of the mold core column 5; the curing lamp 63 is an infrared lamp tube, is arranged on the lamp holder 61 and is positioned in a light gathering groove on the light gathering groove plate 62; the protective net cover 64 is fixed on the light-gathering groove plate 62 through the connecting structure 9, and covers the curing lamp 63.

As shown in fig. 2, the connection structure 9 includes a plurality of snap rings 91 and a plurality of locking blocks 92, the snap rings 91 are fixed on the light collecting groove plate 62 and distributed along the circumferential direction of the light collecting groove plate 62, and a locking groove 911 for the locking blocks 92 to be inserted is formed between the snap rings 91 and the light collecting groove plate 62; the fixture blocks 92 are fixed on the protective mesh enclosure 64, the distribution positions of the fixture blocks 92 correspond to the fixture rings 91, and the protective mesh enclosure 64 is fixed on the light-gathering groove plate 62 in a manner that the fixture blocks 92 are embedded into the clamping grooves 911.

The specific implementation process comprises the following steps: during the use, be fixed in the rubber tube die block with the one end of yarn earlier on, then start power cylinder and promote to rotate motor 72 and move towards mould stem 5, make and dial in commentaries on classics piece 74 embedding dials the groove 75, then restart and rotate motor 72, it is rotatory to drive mould stem 5 through rotating motor 72, mould stem 5 can be automatic pulls the yarn at rotatory in-process, make the yarn winding on the rubber tube die block, because the position at wire-wound in-process yarn does not change, therefore just be difficult to produce the condition of knoing because of entangling each other between the yarn, save the process of artifical unwrapping, consequently, can realize the purpose that improves shower production efficiency.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications to the present embodiment without inventive contribution as required after reading the present specification, but all of them are protected by patent laws within the scope of the claims of the present invention.

Claims (8)

1. The utility model provides a flue gas shower coiling machine which characterized in that: including slide rail (1), slide and set up frame (2), skid (3) on slide rail (1), rotate respectively and install in frame (2) and skid (3) and back-up roll (4) that the axis of rotation is parallel to each other, mould stem (5) that place respectively on frame (2) and skid (3) in both ends, all be provided with two at least back-up rolls (4) on frame (2) and skid (3), form between two adjacent back-up rolls (4) and be used for supplying placing mouth (41) that mould stem (5) put into, and be provided with on frame (2) and be used for ordering about slewing mechanism (7) that mould stem (5) are rotatory.

2. The winding machine of the flue gas spraying pipe according to claim 1, characterized in that: the rotating mechanism (7) comprises a guide rail (71) which is fixed on the rack (2) and located on one side, far away from the sliding rack (3), of the mold core column (5), a rotating motor (72) which is arranged on the rack (2), a power part (73) which is arranged on the rack (2) and used for driving the rotating motor (72) to move along the guide rail (71), a poking and rotating block (74) which is fixed on an output shaft of the rotating motor (72) and a poking and rotating groove (75) which is formed in the mold core column (5), wherein the length direction of the guide rail (71) is parallel to the rotating axis of the supporting roller (4), and the poking and rotating block (74) on the output shaft of the rotating motor (72) is embedded into the poking and rotating groove (75) under the driving of.

3. The winding machine of the flue gas spraying pipe as claimed in claim 2, wherein: still be provided with spacing subassembly (8) that are used for restricting mould stem (5) to produce axial motion on frame (2), spacing subassembly (8) just are located limiting plate (81), the integrative spacing flange (82) that sets up on mould stem (5) between rotating motor (72) and backing roll (4) including being fixed in frame (2), offer spacing groove (811) that are used for supplying spacing flange (82) embedding on limiting plate (81), and the length direction of spacing groove (811) is mutually perpendicular with the axis of rotation of backing roll (4).

4. The winding machine of the flue gas spraying pipe according to claim 3, characterized in that: spacing subassembly (8) are still including rotating spacing roller (83) of installing in frame (2) and being located between rotation motor (72) and backing roll (4), and a plurality of spacing rollers (83) are arranged along the axis direction of backing roll (4) in proper order, the axis of rotation of spacing roller (83) is on a parallel with vertical direction, forms the fender space that is used for supplying spacing flange (82) embedding between two adjacent spacing rollers (83), and just the fender space is relative each other with spacing groove (811).

5. The winding machine of the flue gas spraying pipe as claimed in claim 2, wherein: the power part (73) comprises a power cylinder fixed on the rack (2), the cylinder body of the power cylinder is fixed with the rack (2), and the piston rod of the power cylinder is fixed with the rotating motor (72).

6. The winding machine of the flue gas spraying pipe according to claim 1, characterized in that: one side of the sliding rail (1) is further provided with a curing device (6) for curing glue liquid, the curing device (6) comprises a lamp holder (61) and a curing lamp (63) arranged on the lamp holder (61), and the height of the curing lamp (63) is consistent with that of the mold core column (5).

7. The winding machine of the flue gas spraying pipe according to claim 6, characterized in that: the lamp holder (61) is fixedly provided with a shell-shaped light-gathering groove plate (62), the curing lamp (63) is positioned in a light-gathering groove on the light-gathering groove plate (62), and a metal light-reflecting layer is coated on the surface of the light-gathering groove plate (62) positioned in the light-gathering groove.

8. The winding machine of the flue gas spraying pipe according to claim 7, characterized in that: still install protection screen panel (64) on spotlight frid (62), protection screen panel (64) are fixed in on spotlight frid (62) through connection structure (9), connection structure (9) are fixed in on spotlight frid (62) and along snap ring (91) of the circumference distribution of spotlight frid (62), distribution position and the corresponding fixture block (92) of snap ring (91) on being fixed in protection screen panel (64), be separated by between snap ring (91) and spotlight frid (62) and be formed with draw-in groove (911) that are used for supplying fixture block (92) embedding, protection screen panel (64) are installed on spotlight frid (62) through the cooperation of fixture block (92) and snap ring (91).

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