CN117029426B - Quick drying device is used in production of diamond cutting line - Google Patents

Abstract

The invention discloses a rapid drying device for diamond cutting line production, which relates to the technical field of diamond cutting line drying devices and comprises a drying box mechanism, a diamond cutting line circulating water wiping mechanism, a drying path extending mechanism and a reinforced drying mechanism, wherein the drying box mechanism comprises a drying box body, the inside of the drying box body is divided into a left circulating water wiping drying cavity and a right supplementary drying cavity through a partition plate, the middle part of the inside of the circulating water wiping drying cavity is fixedly connected with a horizontal partition plate, wire through holes are respectively formed in the middle part of the left side surface of the drying box body, the middle part of the partition plate and the front part of the right side surface of the drying box body, and diamond cutting lines are inserted into the three wire through holes. This quick drying device is used in diamond cutting line production has prolonged the route of stoving, has improved the sufficiency of stoving, can improve the flow velocity of diamond cutting line surrounding air, realizes the quick evaporation of moisture on the diamond cutting line, and the stoving means is various, and drying efficiency is high.

Description

Quick drying device is used in production of diamond cutting line

Technical Field

The invention relates to the technical field of diamond cutting line drying devices, in particular to a rapid drying device for diamond cutting line production.

Background

At present, the diamond cutting line has the advantages of high-speed cutting and the like, so the diamond cutting line is gradually popularized and used; the surface of the diamond cutting line has moisture after the production, if the diamond cutting line is not completely dried, liquid components can remain on a wire collecting roller, a metal base line can be seriously corroded after long-term accumulation, rust points can appear, wire breakage is easy to occur during use, the adhesion strength, distribution density and uniformity of sand grains of the diamond cutting line can be damaged, the requirement of industrial production can not be met, and the service performance of the diamond cutting line is seriously influenced;

therefore, a drying device or a drying device is required to be arranged for drying the diamond cutting line, such as a drying device for preparing a diamond wire saw in the prior art, the drying device comprises a bottom plate and a controller, a first heat preservation layer is arranged on the bottom plate, a heating plate is arranged on the first heat preservation layer, a second heat preservation layer is arranged around the heating plate, the second heat preservation layer is 8-10cm higher than the heating plate, the heating plate and the second heat preservation layer enclose a drying groove body, a plurality of groups of corresponding wire passing wheels are arranged on two opposite sides of the drying groove body, a temperature sensor is arranged on the second heat preservation layer, and the temperature sensor and the heating plate are all in communication connection with the controller;

The mode that it passed through the stroke through the diamond cutting line that increases in the stoving cell body improves the stoving effect, but the internal air fluxion of stoving cell is poor, can not take away the steam that evaporation produced when drying fast, influences the quick evaporation of diamond cutting line water, leads to drying efficiency low.

Disclosure of Invention

The invention aims to overcome the existing defects, and provides the quick drying device for the production of the diamond cutting line, which is characterized in that the diamond cutting line is vibrated by the diamond cutting line water shaking mechanism to enable large water drops attached on the diamond cutting line to shake off, then water on the diamond cutting line is wiped by the diamond cutting line circulating water wiping mechanism, and then the diamond cutting line is dried by blowing hot air, so that the drying path is prolonged, the drying sufficiency is improved, the flowing speed of air around the diamond cutting line can be improved, the quick evaporation of water on the diamond cutting line is realized, the drying means are various, the drying efficiency is high, and the problems in the background technology can be effectively solved.

In order to achieve the above purpose, the present invention provides the following technical solutions: quick drying device is used in diamond cutting line production includes:

The drying box mechanism comprises a drying box body, a partition plate and a hot air feeding component for drying, wherein the drying box body is divided into a left circulating water wiping drying cavity and a right supplementary drying cavity through the partition plate;

the diamond cutting line circulating water wiping mechanism is arranged in the circulating water wiping drying cavity;

the drying path extension mechanism is arranged in the supplementary drying cavity;

strengthen stoving mechanism, install on the right side of stoving box, and strengthen stoving mechanism and correspond the wire hole of stoving box right side.

The drying box body is used as a drying container body, the circulating water wiping and drying cavity is internally provided with the diamond cutting line circulating water wiping mechanism, the diamond cutting line circulating water wiping mechanism can wipe water on the diamond cutting line, water attached to the diamond cutting line can be quickly reduced, the subsequent required drying moisture is reduced, the subsequent drying efficiency is improved, the drying hot air feeding component can respectively feed hot air into the circulating water wiping and drying cavity and the complementary drying cavity, the evaporation efficiency of the moisture on the diamond cutting line is improved, the drying path extending mechanism can extend the path of the diamond cutting line passing through the complementary drying cavity, the drying path and time are increased, the drying sufficiency can be improved, the drying mechanism is enhanced as a final drying means, the drying effect can be enhanced, the full drying is achieved, and the drying effect is good and the efficiency is high.

Further, the hot air feeding assembly for drying comprises a first hot air pipeline, a second hot air pipeline, a third hot air pipeline, a hot air relay box and a hot air blower, wherein a hot air outlet of the hot air blower is connected with the front side of the hot air relay box, the rear side of the hot air relay box is connected with the front side of the supplementary drying cavity through the first hot air pipeline, the rear side of the hot air relay box is connected with the inner top of the circulating water wiping drying cavity through the second hot air pipeline, and the rear side of the hot air relay box is connected with the inner bottom of the circulating water wiping drying cavity through the third hot air pipeline.

The hot air is discharged by the hot air blower and then is fed into the hot air relay box, the hot air relay box feeds hot air required for drying the diamond cutting line into the supplementary drying cavity through the hot air pipeline, the hot air relay box feeds hot air into the space positioned on the upper side of the partition plate in the two-way circulating water wiping drying cavity through the hot air pipeline for drying the diamond cutting line entering the circulating water wiping drying cavity, meanwhile, the water wiping part on the upper side in the circulating water wiping drying cavity can be dried, the hot air relay box feeds hot air into the space positioned on the lower side of the partition plate in the three-way circulating water wiping drying cavity through the hot air pipeline, and the water wiping part on the lower side in the circulating water wiping drying cavity is dried.

Further, the diamond cutting line circulation water wiping mechanism comprises a first wiping cloth position switching roller, a second wiping cloth position switching roller, an outer wiping cloth sleeve, an inner wiping cloth sleeve and a switching power component, four corners in a circulation water wiping drying cavity are respectively connected with the first wiping cloth position switching roller in a rotating mode, the middle parts of the first four wiping cloth position switching rollers are connected through the transmission of the outer wiping cloth sleeve, the positions, located at the four corners inside the outer wiping cloth sleeve, in the circulation water wiping drying cavity are respectively connected with the second wiping cloth position switching roller in a rotating mode, the middle parts of the second four wiping cloth position switching rollers are connected through the transmission of the inner wiping cloth sleeve, rectangular through grooves corresponding to the inner wiping cloth sleeve and the outer wiping cloth sleeve are respectively formed in a partition plate, the outer side of the top of the inner wiping cloth sleeve is in contact with the inner side of the top of the outer wiping cloth sleeve, and the diamond cutting line penetrates between the outer side of the top of the inner wiping cloth sleeve, and the left end of one of the first wiping cloth position switching roller is connected with the switching power component.

The outer wiping cloth sleeve and the inner wiping cloth sleeve are used as water wiping parts, the diamond cutting lines passing through the circulating water wiping drying cavity are wiped, water attached to the diamond cutting lines is wiped off, the water removing efficiency is high, the subsequent drying quantity of the water can be greatly reduced, the outer wiping cloth sleeve and the inner wiping cloth sleeve adopt water absorbing non-woven fabrics, the water on the diamond cutting lines is wiped and absorbed by the outer wiping cloth sleeve and the inner wiping cloth sleeve, after the moisture absorbing effect of the position contacted with the diamond cutting lines is reduced due to overlarge moisture absorbing effect, the power assembly is switched to work to respectively drive the wiping cloth position switching roller II and the wiping cloth position switching roller I to rotate, the positions contacted with the outer wiping cloth sleeve and the inner wiping cloth sleeve are replaced, the positions dried by the outer wiping cloth sleeve and the inner wiping cloth sleeve continue wiping water absorbing, the positions which are wet are dried by hot air entering the circulating water wiping drying cavity, the space on the upper side of the partition plate is provided with the wet diamond cutting lines, so that the full drying of the outer wiping cloth sleeve and the inner wiping cloth sleeve is influenced, the outer wiping cloth sleeve and the inner wiping cloth sleeve which are positioned on the upper side of the partition plate can pass through the rectangular through grooves to run to the lower side of the partition plate along with the rotation of the wiping cloth position switching roller II and the wiping cloth position switching roller I, the outer wiping cloth sleeve and the inner wiping cloth sleeve which are positioned on the lower side of the partition plate are fully dried along with the drying of hot air in the inner bottom of the circulating wiping water drying cavity from the hot air pipeline III, and then the diamond cutting lines can be wiped along with the rotation of the wiping cloth position switching roller II and the wiping cloth position switching roller I, so that the circulating use of the outer wiping cloth sleeve and the inner wiping cloth sleeve is realized, and the water wiping effect is good.

Further, the drying path extension mechanism comprises a hollow winding drum, end shafts, a supporting bearing and a wire inlet and outlet limiting assembly, the wire inlet and outlet limiting assembly is respectively arranged at the position, below the wire through hole, of the right side of the partition plate and the position, below the wire through hole, of the right side of the drying box body, a longitudinal hollow winding drum is arranged in the supplementary drying cavity, the middle parts of the front end and the rear end of the hollow winding drum are respectively fixedly connected with the end shafts, the two end shafts are respectively connected with the front side and the rear side of the drying box body in a rotating mode through the supporting bearing, the parts, located on the left side and the right side of the supplementary drying cavity, of the diamond cutting wire penetrate through the two wire inlet and outlet limiting assemblies respectively, and the parts, located in the middle of the supplementary drying cavity, of the diamond cutting wire are wound on the hollow winding drum for not less than five circles.

The two wire-in and wire-out limiting assemblies can limit the winding position of the diamond cutting wire on the hollow winding tube, the two wire-in and wire-out limiting assemblies are arranged in a front-back staggered mode, the diamond cutting wire wound on the hollow winding tube in a plurality of circles is prevented from being mutually close to and worn, the diamond cutting wire wound on the hollow winding tube in a plurality of circles is properly spaced, the diamond cutting wire is well dried, the hollow winding tube and the end shaft are driven to rotate relative to the drying box body by friction force of the diamond cutting wire and the hollow winding tube along with the passing of the diamond cutting wire, the diamond cutting wire smoothly passes through the supplementary drying cavity, hot air entering the supplementary drying cavity from the first hot air pipeline can be encountered in the passing process, the path of the diamond cutting wire passing through the supplementary drying cavity is prolonged due to the winding of the diamond cutting wire on the hollow winding tube, the contact time of the diamond cutting wire and the hot air is prolonged, and the drying effect of the diamond cutting wire is improved.

Further, the drying path extension mechanism further comprises a rotary joint and a hot air supplementing pipeline, the end shaft at the front end of the hollow winding drum is of a hollow tubular structure, the inside of the rear end of the end shaft is communicated with the inside of the hollow winding drum, ventilation holes are uniformly formed in the outer peripheral side of the hollow winding drum, the front part of the end shaft at the front end of the hollow winding drum is connected with one end of the hot air supplementing pipeline through the rotary joint, and the other end of the hot air supplementing pipeline is connected with the rear side of the hot air relay box.

The rotary joint can enable the rotating end shaft to be communicated with the hot air supplementing pipeline, hot air in the hot air relay box enters the end shaft at the front end of the hollow winding reel and the hollow winding reel through the hot air supplementing pipeline and the rotary joint, and then the inner side of the diamond cutting line wound on the hollow winding reel is dried through the vent hole, so that the drying is full and comprehensive, and the drying effect is good.

Further, strengthen stoving mechanism and include fixed cover, stoving cover, spiral heating wire, slant blowing head, the reciprocal rotation subassembly of stoving cover and pressurization subassembly of supplying air, the fixed cover that corresponds the wire hole is installed on the right side of stoving box, and fixed cover inboard is connected with the rotation of stoving cover, the reciprocal rotation subassembly of stoving cover is connected to the left end of stoving cover, and installs spiral heating wire in the periphery side of stoving cover, and the front and back side of stoving cover is the gas outlet of the transversely equidistant fixedly connected with slant blowing head respectively, the pressurization subassembly of supplying air is connected to the air inlet of slant blowing head.

The spiral heating wire heats the drying sleeve, so that the drying sleeve keeps a certain drying temperature, the final reinforced drying operation is carried out on the diamond cutting line passing through the drying sleeve, the pressurizing air supply assembly supplies air to the oblique blowing head in a pressurizing mode, the oblique blowing head improves the circulation speed of air of the drying sleeve, water vapor generated by drying the diamond cutting line can be rapidly taken away, the drying efficiency is improved, the drying sleeve reciprocating rotating assembly drives the drying sleeve to rotate positively and negatively relative to the fixed sleeve in the reinforced drying process, and therefore the oblique blowing head can uniformly blow the outer peripheral side of the diamond cutting line, and the drying effect on the diamond cutting line is improved.

Further, the drying box further comprises a diamond cutting line water shaking mechanism, and the diamond cutting line water shaking mechanism is arranged on the left side of the drying box body. The diamond cutting line water shaking mechanism can enable the diamond cutting line before entering the drying box body to vibrate, so that large particle water drops attached on the diamond cutting line are shaken off, and the subsequent drying difficulty is reduced.

Further, the diamond cutting line water shaking mechanism comprises an installation box, a water collecting transverse plate and a diamond cutting line up-down vibration component, the installation box is arranged on the left side of the drying box body, the water collecting transverse plate is fixedly connected to the middle part in the installation box, and the diamond cutting line up-down vibration component is arranged in the middle of the water collecting transverse plate.

The installation box is used as a supporting main body, the water collecting transverse plate separates a water tank for collecting water drops which shake off from the upper side in the installation box, the top of the vertical vibration component of the diamond cutting line butts against the diamond cutting line, and the diamond cutting line is subjected to vibration in a conduction mode, so that the water drops on the diamond cutting line shake off.

Further, the diamond cutting line guiding and limiting mechanism is further included, the diamond cutting line guiding and limiting mechanism is respectively installed on two sides of the top of the installation box, the left end of the diamond cutting line sequentially penetrates through the two diamond cutting line guiding and limiting mechanisms, and the top end of the diamond cutting line up-down vibration assembly is located on the lower side of the diamond cutting line.

When the up-and-down vibration assembly of the diamond cutting line shakes the diamond cutting line, the top of the up-and-down vibration assembly of the diamond cutting line is easy to separate from the top of the up-and-down vibration assembly of the diamond cutting line, the diamond cutting line can be limited by using the diamond cutting line guiding limiting mechanism on the two sides of the up-and-down vibration assembly of the diamond cutting line, the diamond cutting line is kept in contact with the top of the up-and-down vibration assembly of the diamond cutting line during shaking, and the diamond cutting line can continuously vibrate and shake water.

Further, the device further comprises a diamond cutting line water shaking secondary limiting mechanism, the positions, located on the left side and the right side of the upper vibration component and the lower vibration component of the diamond cutting line, of the water collecting transverse plate are fixedly connected with the diamond cutting line water shaking secondary limiting mechanisms respectively, and the tops of the two diamond cutting line water shaking secondary limiting mechanisms are located on the lower sides of the diamond cutting lines respectively.

The up-and-down vibration assembly of the diamond cutting line drives the diamond cutting line to move up and down at high frequency, the diamond cutting line is vibrated, the top of the up-and-down vibration assembly of the diamond cutting line is easy to separate from the diamond cutting line, the secondary limit mechanism for shaking the diamond cutting line is used for limiting the diamond cutting line again, and the phenomenon that the limit mechanism is led to be too far away from the diamond cutting line by the vibration position to reduce the limit effect of the diamond cutting line and separate from contact with the top of the up-and-down vibration assembly of the diamond cutting line is avoided.

Compared with the prior art, the invention has the beneficial effects that: this diamond cutting line production is with quick drying device has following benefit:

1. firstly vibrating the diamond cutting line through the diamond cutting line water shaking mechanism to shake off large water drops attached to the diamond cutting line, then wiping water on the diamond cutting line through the diamond cutting line circulating water wiping mechanism, and then drying the diamond cutting line through blowing hot air, so that a drying path is prolonged, and the drying sufficiency is improved;

2. the flow speed of air around the diamond cutting line can be improved, the rapid evaporation of water on the diamond cutting line is realized, the drying means are various, and the drying efficiency is high.

3. The reinforcing drying mechanism is used as a final drying means, so that the drying effect can be enhanced, the sufficient drying is realized, and the drying effect is good and the efficiency is high.

Drawings

FIG. 1 is a schematic diagram of a rapid drying device for diamond cutting line production;

FIG. 2 is a schematic diagram of the internal structure of the rapid drying device for producing diamond cutting lines;

FIG. 3 is a schematic diagram showing the internal side view structure of the quick drying device for producing diamond cutting lines;

FIG. 4 is a schematic view of a partial enlarged structure of the quick drying device for producing diamond cutting lines in FIG. 3A;

FIG. 5 is an enlarged schematic view of the reinforcing and drying mechanism in FIG. 3 of the quick drying device for producing diamond cutting lines;

FIG. 6 is a schematic diagram showing a left side cross-sectional structure of a drying box of the quick drying device for producing diamond cutting lines;

FIG. 7 is a schematic view showing a sectional structure of a rear side of an installation box of the quick drying device for producing diamond cutting lines;

FIG. 8 is a schematic view of a partially enlarged structure of the rapid drying device for diamond cutting line production of the present invention at B in FIG. 7;

in the figure: 1. a diamond cutting line;

2. a drying box mechanism; 21. drying the box body; 22. a cover plate; 23. a partition plate; 24. a partition plate; 25. an exhaust duct; 26. an exhaust fan; 27. a first hot air pipeline; 28. a hot air pipeline II; 29. a hot air pipeline III; 210. a hot air relay box; 211. an air heater;

3. A diamond cutting line circulating water wiping mechanism; 31. a first wiping cloth position switching roller; 32. a second wiping cloth position switching roller; 33. an outer wiping cloth cover; 34. an inner wiping cloth cover; 35. a first limiting ring; 36. a second limiting ring; 37. a motor base; 38. switching a first motor; 39. switching a second motor;

4. a drying path extension mechanism; 41. a hollow bobbin; 42. an end shaft; 43. a support bearing; 44. a rotary joint; 45. a hot air supplementing pipe; 46. a bracket; 47. a supporting plate; 48. a vertical wheel shaft; 49. a side limiting roller;

5. reinforcing a drying mechanism; 51. a mounting frame; 52. installing a screw; 53. a fixed sleeve; 54. a drying sleeve; 55. a spiral heating wire; 56. a diagonal blow head; 57. a branch pipe; 58. a header; 59. an air supply hose; 510. an air pump; 511. an outer ring gear; 512. a vertical rack; 513. sliding upright posts; 514. a support rod; 515. a sliding sleeve; 516. a base; 517. an electric telescopic rod;

6. a diamond cutting line water shaking mechanism; 61. a mounting box; 62. a water collecting cross plate; 63. a drain pipe; 64. a valve; 65. a vertical limit sleeve; 66. the wheel frame I; 67. wheel axle I; 68. a water shaking wheel; 69. a water retaining cover; 610. a movable shaft I; 611. a connecting rod; 612. a power disc; 613. a power motor; 614. a movable shaft II; 615. a limit slide bar;

7. A diamond cutting line guiding and limiting mechanism; 71. a support frame; 72. a fixing bolt; 73. a second wheel carrier; 74. a second wheel axle; 75. a guide roller;

8. the diamond cutting line shakes the water secondary spacing mechanism; 81. a mounting plate; 82. a support column; 83. a third wheel carrier; 84. a third wheel axle; 85. and guiding the limit roller secondarily.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1 to 7, the present embodiment provides the following technical solutions: the quick drying device for the production of the diamond cutting line comprises a drying box mechanism 2, a diamond cutting line circulating water wiping mechanism 3, a drying path extending mechanism 4 and a reinforcing drying mechanism 5;

the drying box mechanism 2 comprises a drying box body 21, a partition plate 23, a partition plate 24 and a hot air feeding component for drying, wherein the drying box body 21 is internally divided into a left circulating water wiping drying cavity and a right supplementary drying cavity through the partition plate 23, the middle part of the circulating water wiping drying cavity is fixedly connected with the horizontal partition plate 24, the middle part of the left side surface of the drying box body 21, the middle part of the partition plate 23 and the front part of the right side surface of the drying box body 21 are respectively provided with a wire passing hole, diamond cutting wires 1 are alternately arranged in the three wire passing holes, and the front side of the drying box body 21 is connected with the hot air feeding component for drying.

The drying box mechanism 2 further comprises a cover plate 22, four corners of the top opening of the drying box body 21 are fixedly connected with four corners of the cover plate 22 through screws, and the cover plate 22 can be detached by unscrewing the screws, so that the top opening of the drying box body 21 is opened, and required components are conveniently deployed in the drying box body 21.

The drying box mechanism 2 further comprises an exhaust duct 25 and an exhaust fan 26, the rear side of the drying box body 21 is provided with three exhaust ducts 25, the three exhaust ducts 25 are respectively communicated with the rear side of the supplementary drying cavity, the rear side of the top of the circulating water wiping drying cavity and the rear side of the bottom of the circulating water wiping drying cavity, the exhaust fan 26 which blows backwards is respectively arranged in each exhaust duct 25, and the exhaust fan 26 blows outwards to exhaust moist hot air from the rear side of the supplementary drying cavity, the rear side of the top of the circulating water wiping drying cavity and the rear side of the bottom of the circulating water wiping drying cavity, so that air inlet and outlet are synchronous, and the drying is facilitated by the aid of the continuous feeding of the hot air into the drying component for drying the diamond cutting line 1.

The hot air feeding component for drying comprises a first hot air pipeline 27, a second hot air pipeline 28, a third hot air pipeline 29, a hot air relay box 210 and a hot air blower 211, wherein a hot air outlet of the hot air blower 211 is connected with the front side of the hot air relay box 210, the rear side of the hot air relay box 210 is connected with the front side of the supplementary drying cavity through the first hot air pipeline 27, the rear side of the hot air relay box 210 is connected with the top in the circulating water wiping drying cavity through the second hot air pipeline 28, and the rear side of the hot air relay box 210 is connected with the inner bottom of the circulating water wiping drying cavity through the third hot air pipeline 29.

The hot air blower 211 discharges hot air and then feeds the hot air into the hot air relay box 210, the hot air relay box 210 feeds hot air required for drying the diamond cutting line into the supplementary drying cavity through the first hot air pipeline 27, the hot air relay box 210 feeds hot air into the space positioned on the upper side of the partition plate 24 in the circulating water wiping drying cavity through the second hot air pipeline 28 for drying the diamond cutting line entering the circulating water wiping drying cavity, meanwhile, the hot air relay box 210 can also dry the water wiping part on the upper side in the circulating water wiping drying cavity, and the hot air relay box 210 feeds hot air into the space positioned on the lower side of the partition plate 24 in the circulating water wiping drying cavity through the third hot air pipeline 29 for drying the water wiping part on the lower side in the circulating water wiping drying cavity.

The diamond cutting line circulating water wiping mechanism 3 is arranged in the circulating water wiping drying cavity;

the diamond cutting line circulation water wiping mechanism 3 comprises a first wiping cloth position switching roller 31, a second wiping cloth position switching roller 32, an outer wiping cloth sleeve 33, an inner wiping cloth sleeve 34 and a switching power component, four corners in a circulation water wiping drying cavity are respectively connected with the first wiping cloth position switching roller 31 in a rotating mode, the middle parts of the four wiping cloth position switching rollers 31 are in transmission connection through the outer wiping cloth sleeve 33, positions, which are positioned at four corners inside the outer wiping cloth sleeve 33, in the circulation water wiping drying cavity are respectively connected with the second wiping cloth position switching roller 32 in a rotating mode, the middle parts of the four wiping cloth position switching rollers 32 are in transmission connection through the inner wiping cloth sleeve 34, rectangular through grooves corresponding to the inner wiping cloth sleeve 34 and the outer wiping cloth sleeve 33 are respectively formed in the partition plate 24 and are respectively used for enabling the inner wiping cloth sleeve 34 and the outer wiping cloth sleeve 33 to pass through, the outer side of the top of the inner wiping cloth sleeve 34 is in contact with the inner side of the top of the outer wiping cloth sleeve 33, the diamond cutting line 1 passes through between the outer side of the top of the inner wiping cloth sleeve 34 and the inner side of the top of the outer wiping cloth sleeve 33, one of the two wiping cloth sleeve 32 is in a transmission connection, and the middle part of the four wiping cloth position switching rollers 32 is respectively, the middle part of the four wiping cloth position switching rollers 32 are respectively connected with the left power component of the first wiping cloth position switching roller 31 and the two wiping cloth position switching roller respectively corresponds to the left side.

The diamond cutting line circulating water wiping mechanism 3 further comprises a first limiting ring 35 and a second limiting ring 36, the first limiting ring 35 is fixedly sleeved at the positions, which are positioned on the two sides of the first outer wiping cloth sleeve 33, of each first wiping cloth position switching roller 31, the second limiting ring 36 is fixedly sleeved at the positions, which are positioned on the two sides of the inner wiping cloth sleeve 34, of each second wiping cloth position switching roller 32, the first limiting ring 35 is used for limiting the two sides of the outer wiping cloth sleeve 33, the outer wiping cloth sleeve 33 is prevented from deflecting in the transmission process of the first four wiping cloth position switching rollers 31, the second limiting ring 36 is used for limiting the two sides of the inner wiping cloth sleeve 34, and the inner wiping cloth sleeve 34 is prevented from deflecting in the transmission process of the second four wiping cloth position switching rollers 32.

The switching power assembly comprises a motor seat 37, a first switching motor 38 and a second switching motor 39, wherein the left end of one wiping cloth position switching roller II 32 is fixedly connected with the output shaft of the second switching motor 39, the left end of one wiping cloth position switching roller I31 is fixedly connected with the output shaft of the first switching motor 38, the first switching motor 38 and the second switching motor 39 are fixedly arranged on the left side of the drying box 21 through the motor seat 37, and the first wiping cloth position switching roller I31 and the second wiping cloth position switching roller II 32 are respectively driven to rotate in the same direction by virtue of the first switching motor 38 and the second switching motor 39, so that the contact positions of the outer wiping cloth sleeve 33 and the inner wiping cloth sleeve 34 with the diamond cutting line 1 are switched.

The outer wiping cloth sleeve 33 and the inner wiping cloth sleeve 34 are used as water wiping components, the diamond cutting lines passing through the circulating water wiping drying cavity are wiped, water attached to the diamond cutting lines is wiped off, the water removing efficiency is high, the subsequent drying quantity of the water can be greatly reduced, the outer wiping cloth sleeve 33 and the inner wiping cloth sleeve 34 adopt water absorbing non-woven fabrics, the water on the diamond cutting lines 1 is wiped and absorbed by the outer wiping cloth sleeve 33 and the inner wiping cloth sleeve 34, after the moisture absorbing effect of the positions contacted with the diamond cutting lines 1 is reduced due to overlarge moisture absorbing effect, the power assembly is switched to work to drive the wiping cloth position switching roller II 32 and the wiping cloth position switching roller I31 to rotate respectively, the positions contacted with the outer wiping cloth sleeve 33 and the inner wiping cloth sleeve 34 are replaced, the positions dried by the outer wiping cloth sleeve 33 and the inner wiping cloth sleeve 34 are continuously wiped and absorbed by water, the positions dried by hot air entering the circulating water wiping drying cavity are dried, because the moist diamond cutting line 1 exists in the space on the upper side of the partition plate 24, the full drying of the outer wiping cloth sleeve 33 and the inner wiping cloth sleeve 34 is affected, the rotation of the wiping cloth position switching roller II 32 and the wiping cloth position switching roller I31 can be driven by the switching power assembly, the outer wiping cloth sleeve 33 and the inner wiping cloth sleeve 34 which are positioned on the upper side of the partition plate 24 can pass through the rectangular through groove to move to the lower side of the partition plate 24, the drying of hot air entering the inner bottom of the circulating water drying cavity from the hot air pipeline III 29 is carried out, the outer wiping cloth sleeve 33 and the inner wiping cloth sleeve 34 which are positioned on the lower side of the partition plate 24 are fully dried, then the rotation of the wiping cloth position switching roller II 32 and the wiping cloth position switching roller I31 fully enters the inner top of the circulating water drying cavity to wipe the diamond cutting line 1, the circulating use of the outer wiping cloth sleeve 33 and the inner wiping cloth sleeve 34 is realized, the water wiping effect is good.

The drying path extension mechanism 4 is arranged in the supplementary drying cavity;

the drying path extension mechanism 4 comprises a hollow winding drum 41, end shafts 42, a support bearing 43 and a wire inlet and outlet limiting assembly, the right side of the partition plate 23 is positioned below the wire passing hole, the wire inlet and outlet limiting assembly is respectively arranged at the right side of the partition plate 23 and the position of the right side of the drying box 21, which is positioned below the wire passing hole, a longitudinal hollow winding drum 41 is arranged in the supplementary drying cavity, the middle parts of the front end and the rear end of the hollow winding drum 41 are respectively and fixedly connected with the end shafts 42, the two end shafts 42 are respectively and rotatably connected with the front side and the rear side of the drying box 21 through the support bearing 43, the parts of the diamond cutting wire 1, which are positioned at the left side and the right side of the supplementary drying cavity, respectively penetrate through the two wire inlet and outlet limiting assemblies, and the part of the diamond cutting wire 1, which is positioned at the middle part of the supplementary drying cavity, is wound on the hollow winding drum 41 for at least five times.

The wire inlet and outlet limiting assembly comprises brackets 46, supporting plates 47, vertical wheel shafts 48 and side limiting rollers 49, the right side of the partition plate 23 is located below the wire passing holes, the brackets 46 are fixedly connected to the right side of the drying box 21 and located below the wire passing holes, the end portions of the brackets 46 are fixedly connected with the side faces of the supporting plates 47, the upper side of each supporting plate 47 is rotatably connected with two front and rear corresponding side limiting rollers 49 through the two vertical wheel shafts 48, annular limiting wire grooves are formed in the middle of the outer peripheral side of each side limiting roller 49, diamond cutting wires 1 penetrate through the annular limiting wire grooves of the two front and rear corresponding side limiting rollers 49, when the diamond cutting wires 1 penetrate through the space between the two side limiting rollers 49, the two side limiting rollers 49 are driven to rotate synchronously, friction contact is realized, abrasion of the side limiting rollers 49 on the diamond cutting wires 1 is reduced, meanwhile, the wire inlet and outlet positions of the diamond cutting wires 1 wound on the hollow winding drums 41 are limited, the diamond cutting wires 1 are prevented from being tightly wound together, and the diamond cutting wires 1 are prevented from being burnt together and worn out mutually.

The two wire-in and wire-out limiting assemblies can limit the winding position of the diamond cutting wire 1 on the hollow winding drum 41, the two wire-in and wire-out limiting assemblies are arranged in a front-back staggered mode, the phenomenon that the diamond cutting wire 1 wound on the hollow winding drum 41 in a plurality of circles is worn out in a mutually approaching mode can be avoided, the diamond cutting wire 1 wound on the hollow winding drum 41 in a plurality of circles is properly spaced, the diamond cutting wire 1 can be sufficiently dried, the friction force of the diamond cutting wire 1 and the hollow winding drum 41 drives the hollow winding drum 41 and the end shaft 42 to rotate relative to the drying box 21 through the support bearing 43 along with the passing of the diamond cutting wire 1, the diamond cutting wire 1 smoothly passes through the supplementary drying cavity, hot air entering the supplementary drying cavity from the hot air pipeline 27 can be encountered in the passing process, the path of the diamond cutting wire 1 passing through the supplementary drying cavity is prolonged due to the winding of the diamond cutting wire 1 on the hollow winding drum 41, the time of the diamond cutting wire 1 contacted with the hot air is prolonged, and the drying effect of the diamond cutting wire 1 is improved.

The drying path extension mechanism 4 further comprises a rotary joint 44 and a hot air supplementing pipeline 45, the end shaft 42 at the front end of the hollow winding drum 41 is of a hollow tubular structure, the inside of the rear end of the end shaft 42 is communicated with the inside of the hollow winding drum 41, ventilation holes are uniformly formed in the outer peripheral side of the hollow winding drum 41, the front part of the end shaft 42 at the front end of the hollow winding drum 41 is connected with one end of the hot air supplementing pipeline 45 through the rotary joint 44, and the other end of the hot air supplementing pipeline 45 is connected with the rear side of the hot air relay box 210.

The rotary joint 44 can keep the rotary end shaft 42 communicated with the hot air supplementing pipeline 45, hot air in the hot air relay box 210 enters the end shaft 42 at the front end of the hollow winding drum 41 and the hollow winding drum 41 through the hot air supplementing pipeline 45 and the rotary joint 44, and then the inner side of the diamond cutting line 1 wound on the hollow winding drum 41 is dried through the vent hole, so that the drying is full and comprehensive, and the drying effect is good.

The reinforcing drying mechanism 5 is arranged on the right side of the drying box body 21, and the reinforcing drying mechanism 5 corresponds to a wire passing hole on the right side surface of the drying box body 21.

The reinforced drying mechanism 5 comprises a fixed sleeve 53, a drying sleeve 54, a spiral heating wire 55, an oblique blowing head 56, a drying sleeve reciprocating rotating assembly and a pressurizing air supply assembly, wherein the right side of the drying box body 21 is fixedly connected with a mounting frame 51 through a mounting screw 52, the mounting frame 51 is fixedly provided with the fixed sleeve 53 corresponding to a wire passing hole on the right side surface of the drying box body 21, the inner side of the fixed sleeve 53 is rotationally connected with the drying sleeve 54, and the left end of the drying sleeve 54 is connected with the drying sleeve reciprocating rotating assembly;

the outer peripheral side of the drying sleeve 54 is provided with a spiral heating wire 55, the front side and the rear side of the drying sleeve 54 are respectively and transversely equidistantly fixedly connected with an air outlet of an inclined blowing head 56, and an air inlet of the inclined blowing head 56 is connected with a pressurizing air supply assembly;

The drying sleeve reciprocating rotating assembly comprises an outer gear ring 511, a vertical rack 512, a sliding vertical rod 513, a supporting rod 514, a sliding sleeve 515, a base 516 and an electric telescopic rod 517, wherein the outer gear ring 511 is fixedly sleeved at the left end of the drying sleeve 54, the sliding sleeve 515 is fixedly connected to the right side surface of the drying box 21 through the supporting rod 514, the sliding vertical rod 513 is vertically and slidingly connected in the sliding sleeve 515, the top of the sliding vertical rod 513 is fixedly connected with the bottom end of the vertical rack 512, the vertical rack 512 is meshed with the front side of the outer gear ring 511, the bottom of the sliding vertical rod 513 is fixedly connected with the top of the electric telescopic rod 517, the bottom of the electric telescopic rod 517 is fixedly connected with the base 516, and the base 516 is fixed at the bottom of the right side surface of the drying box 21; when the electric telescopic rod 517 is extended during operation, the sliding vertical rod 513 is driven to slide and rise relative to the sliding sleeve 515, the vertical rack 512 is stably lifted by virtue of the sliding vertical rod 513 and the sliding sleeve 515, the vertical rack 512 drives the drying sleeve 54 to rotate clockwise relative to the fixed sleeve 53 through meshing with the outer tooth ring 511, the oblique blowing head 56 on the front side surface of the drying sleeve 54 can blow air to the top of the diamond cutting line 1 penetrating through the inside of the drying sleeve 54, the oblique blowing head 56 on the rear side surface of the drying sleeve 54 can blow air to the bottom of the diamond cutting line 1 penetrating through the inside of the drying sleeve 54, if the electric telescopic rod 517 is shortened, the vertical rack 512 is lowered to drive the drying sleeve 54 to rotate anticlockwise relative to the fixed sleeve 53, the oblique blowing head 56 on the front side surface of the drying sleeve 54 can blow air to the bottom of the diamond cutting line 1 penetrating through the inside of the drying sleeve 54, the high-speed air flow uniformity of the outer side surface of the diamond cutting line 1 is improved, and the drying uniformity is improved;

The pressurizing air supply assembly comprises branch pipes 57, a header 58, an air supply hose 59 and an air pump 510, wherein the air inlet of each inclined air blowing head 56 is respectively connected with one end of the branch pipe 57, the branch pipe 57 at the front side is connected with one header 58, the branch pipe 57 at the rear row is connected with the other header 58, the end parts of the two headers 58 are respectively connected with the air outlet of the air pump 510 through the air supply hose 59, the air supply hose 59 can allow the inclined air blowing heads 56 to swing when the drying sleeve 54 rotates, the air pump 510 works to supply air to the headers 58 through the air supply hose 59, and then the air is sent into the inclined air blowing heads 56 through the branch pipes 57, and air in the drying sleeve 54 is driven to flow from left to right rapidly by blowing air in the inclined air blowing heads 56, so that water vapor generated by evaporation in the drying sleeve 54 is taken away rapidly, and the drying effect is enhanced.

The spiral heating wire 55 heats the drying sleeve 54, so that the drying sleeve 54 keeps a certain drying temperature, the diamond cutting line 1 passing through the inside of the drying sleeve 54 is subjected to final reinforcing drying operation, the pressurizing air supply assembly supplies air to the inside of the inclined air supply head 56 in a pressurizing mode, the inclined air supply head 56 improves the air circulation speed of the drying sleeve 54, water vapor generated by drying the diamond cutting line 1 can be rapidly taken away, the drying efficiency is improved, the drying sleeve reciprocating rotating assembly drives the drying sleeve 54 to rotate positively and negatively relative to the fixed sleeve 53 in the reinforcing drying process, and accordingly the inclined air supply head 56 can uniformly blow the outer circumference side of the diamond cutting line 1, and the drying effect on the diamond cutting line 1 is improved.

When the diamond cutting line circulating water wiping mechanism is used, the drying box body 21 serves as a drying container body, the circulating water wiping drying cavity is internally provided with the diamond cutting line circulating water wiping mechanism 3, the diamond cutting line circulating water wiping mechanism 3 can wipe water on a diamond cutting line, water attached to the diamond cutting line can be quickly reduced, water required to be dried subsequently is reduced, subsequent drying efficiency is improved, the drying hot air feeding component can respectively feed hot air into the circulating water wiping drying cavity and the supplementary drying cavity, the evaporation efficiency of the water on the diamond cutting line is improved, the path of the diamond cutting line passing through the supplementary drying cavity is prolonged by the drying path prolonging mechanism 4, the drying path and time are increased, the drying sufficiency can be improved, the drying mechanism 5 serves as a final drying means, the drying effect can be enhanced, full drying is achieved, and the drying effect is high in efficiency.

In a second embodiment, please refer to fig. 1, 7 and 8, the present embodiment provides the following technical solutions: the quick drying device for diamond cutting line production is similar to the first structure of the embodiment, and the difference is that:

the device also comprises a diamond cutting line water shaking mechanism 6, and the left side of the drying box 21 is provided with the diamond cutting line water shaking mechanism 6. The diamond cutting line water shaking mechanism 6 can enable the diamond cutting line 1 before entering the drying box body 21 to vibrate, so that large particle water drops attached to the diamond cutting line 1 are shaken off, and the subsequent drying difficulty is reduced.

The diamond cutting line water shaking mechanism 6 comprises a mounting box 61, a water collecting transverse plate 62 and a diamond cutting line up-down vibration component, wherein the mounting box 61 is arranged on the left side of the drying box 21, the water collecting transverse plate 62 is fixedly connected to the middle part in the mounting box 61, and the diamond cutting line up-down vibration component is arranged in the middle of the water collecting transverse plate 62.

The mounting box 61 is used as a supporting body, the water collecting transverse plate 62 separates a water tank for collecting water drops from the upper side in the mounting box 61, the top of the vertical vibration component of the diamond cutting line props against the diamond cutting line 1, and the diamond cutting line 1 is subjected to vibration conduction, so that water drops on the diamond cutting line 1 are shaken off.

The diamond cutting line water shaking mechanism 6 further comprises a drain pipe 63 and a valve 64, the drain pipe 63 is arranged at the position, located on the upper side of the water collecting transverse plate 62, of the side face of the installation box 61 in a penetrating mode, the valve 64 is installed on the drain pipe 63, the valve 64 is opened, and shaking water collected on the water collecting transverse plate 62 can be discharged in a concentrated mode through the drain pipe 63.

The up-down vibration component of the diamond cutting line comprises a vertical limiting sleeve 65, a wheel carrier I66, a wheel axle I67, a water shaking wheel 68, a water retaining cover 69, a movable shaft I610, a connecting rod 611, a power disc 612, a power motor 613, a movable shaft II 614 and a limiting slide bar 615, wherein the middle part of a water collecting transverse plate 62 is fixedly connected with the bottom of the vertical limiting sleeve 65, the vertical limiting sleeve 65 is vertically and slidingly connected with the limiting slide bar 615, the height of the vertical limiting sleeve 65 needs to be slightly higher, water collected on the water collecting transverse plate 62 cannot flow downwards from a gap between the top of the vertical limiting sleeve 65 and the limiting slide bar 615, the wheel carrier I66 is fixedly connected with the top of the limiting slide bar 615, the water shaking wheel 68 is rotationally connected in the wheel carrier I66 through the longitudinal wheel axle I67, an annular groove I is arranged on the periphery side of the water shaking wheel 68, the diamond cutting line 1 rolls from the upper side of the water shaking wheel 68 to pass through, and the diamond cutting line 1 is positioned at the inner top, the bottom of the limit slide bar 615 is movably connected with one end of a connecting rod 611 through a movable shaft I610, the other end of the connecting rod 611 is movably connected with the eccentric position of one side of a power disc 612 through a movable shaft II 614, the middle part of the other side of the power disc 612 is fixedly connected with the output shaft of a power motor 613, the power motor 613 is fixed on the inner wall of the bottom of the mounting box 61, the power motor 613 works to drive the power disc 612 to rotate at high speed, the power disc 612 forms a crank-link mechanism through the connecting rod 611 to drive the limit slide bar 615 to move up and down along the vertical limit sleeve 65 at high frequency to form a vibration source, the diamond cutting line 1 is dithered by the contact of a dithered wheel 68 on the wheel carrier I66 with the diamond cutting line 1, large particle water beads on the diamond cutting line 1 are dithered, the dithered wheel 68 drives the diamond cutting line 1 to vibrate up and down while keeping rolling contact with the diamond cutting line 1, the friction force between the diamond cutting line 1 and the water shaking wheel 68 when the diamond cutting line 1 is conveyed from left to right is reduced, abrasion to the diamond cutting line 1 is reduced, the distance from the movable shaft II 614 to the center of the power disc 612 is doubled, namely the up-and-down vibration amplitude of the water shaking wheel 68, and the shaken-off water easily falls into a gap between the limit sliding rod 615 and the vertical limit sleeve 65, so that a water blocking cover 69 is arranged at the top of the limit sliding rod 615, and the gap between the limit sliding rod 615 and the vertical limit sleeve 65 can be blocked.

In a third embodiment, please refer to fig. 1, 7 and 8, the present embodiment provides the following technical solutions: the quick drying device for diamond cutting line production is roughly the same as the second structure of the embodiment, and the difference is that:

still include diamond cutting line guide stop gear 7, diamond cutting line guide stop gear 7 is installed respectively to the top both sides of installation case 61, and two diamond cutting line guide stop gear 7 are passed in proper order to the left end of diamond cutting line 1, and the top of the upper and lower vibrations subassembly of diamond cutting line is located the downside of diamond cutting line 1.

When the up-and-down vibration component of the diamond cutting line shakes the diamond cutting line 1, the top of the up-and-down vibration component of the diamond cutting line is easy to separate from the top of the up-and-down vibration component of the diamond cutting line, the diamond cutting line 1 on two sides of the up-and-down vibration component of the diamond cutting line can be limited by using the diamond cutting line guiding limiting mechanism 7, the diamond cutting line 1 is kept in contact with the top of the up-and-down vibration component of the diamond cutting line when the shaking is kept, and the diamond cutting line 1 can continuously vibrate and shake water.

The diamond cutting line guiding and limiting mechanism 7 comprises a supporting frame 71, a fixing bolt 72, a wheel carrier II 73, a wheel shaft II 74 and guiding rollers 75, wherein the two sides of the top of the installation box 61 are fixedly connected with the supporting frame 71 through the fixing bolt 72 respectively, the wheel carrier II 73 is fixedly connected to the supporting frame 71, each wheel carrier II 73 is respectively connected with two guiding rollers 75 through two longitudinal wheel shafts II 74 in a rotating mode, the two guiding rollers 75 on each wheel carrier II 73 are arranged up and down correspondingly, an annular groove II is formed in the middle of the outer peripheral side of each wheel carrier II 73, the diamond cutting line 1 penetrates through the two guiding rollers 75 corresponding up and down, the diamond cutting line 1 is in rolling contact with the guiding rollers 75, good guiding and limiting are conducted on the diamond cutting line 1 through the annular groove II, the position of the diamond cutting line 1 acted by the diamond cutting line shaking mechanism 6 is limited between the two diamond cutting line guiding and limiting mechanisms 7, continuous conduction to the outside is avoided, and the operation of other parts on the diamond cutting line 1 is prevented.

In a fourth embodiment, please refer to fig. 1, 7 and 8, the present embodiment provides the following technical solutions: the quick drying device is used in production of diamond cutting line, and this embodiment is roughly the same with embodiment three structures, and the difference lies in:

the diamond cutting line water shaking secondary limiting mechanism 8 is fixedly connected with the diamond cutting line water shaking secondary limiting mechanism 8 respectively at the positions, located on the left side and the right side of the upper vibration component and the lower vibration component of the diamond cutting line, of the water collecting transverse plate 62, and the tops of the two diamond cutting line water shaking secondary limiting mechanisms 8 are located on the lower sides of the diamond cutting lines 1 respectively.

The up-and-down vibration assembly of the diamond cutting line drives the diamond cutting line 1 to move up and down at high frequency, the diamond cutting line 1 is vibrated, the top of the up-and-down vibration assembly of the diamond cutting line is easy to separate from the diamond cutting line 1, the secondary limit mechanism 8 for shaking the diamond cutting line is used for limiting the diamond cutting line 1 again, and the phenomenon that the limit mechanism 7 is led to reduce the limit effect of the excessive distance of the vibration position to the diamond cutting line 1 from the diamond cutting line 1 so as to separate from the contact with the top of the up-and-down vibration assembly of the diamond cutting line is avoided.

The secondary limiting mechanism 8 for the water shaking of the diamond cutting line comprises a mounting disc 81, supporting columns 82, wheel frames three 83, wheel shafts three 84 and secondary guide limiting rollers 85, the mounting discs 81 are fixedly connected to the positions, located on the left side and the right side of the up-down vibration component of the diamond cutting line, of the water collecting transverse plate 62 respectively, the tops of the two mounting discs 81 are fixedly connected with the two wheel frames three 83 through the two supporting columns 82 respectively, each wheel frame three 83 is respectively connected with the secondary guide limiting roller 85 through the longitudinal wheel shafts three 84 in a rotating mode, annular grooves three are formed in the middle of the outer periphery side of each secondary guide limiting roller 85, the bottoms of the diamond cutting line 1 are in rolling contact with the three tops of the annular grooves on the secondary guide limiting rollers 85, the annular grooves three pairs of the diamond cutting line 1 are secondarily limited, the secondary guide limiting rollers 85 can rotate relative to the wheel frames three 83 through the wheel shafts three 84, abrasion of the diamond cutting line 1 when the secondary guide limiting rollers 85 move rightwards, meanwhile, the diamond cutting line 1 is limited, and the phenomenon that the diamond cutting line 1 is separated from the water shaking wheel 68 when the diamond cutting line 1 is vibrated is shaken is avoided, and water shaking water is invalid.

It should be noted that, in the above embodiment, the exhaust fan 26, the air heater 211, the first switching motor 38, the second switching motor 39, the spiral heating wire 55, the electric telescopic rod 517, the air pump 510 and the power motor 613 are controlled by an external PLC controller to work, the control manner adopts the prior art, and the first switching motor 38 and the second switching motor 39 all adopt servo motors, which can control the rotating angle, and are beneficial to controlling the circulating movement of the outer wiping cloth cover 33 and the inner wiping cloth cover 34, so as to switch the wiping position of the diamond cutting line 1, and the power motor 613 adopts a single-phase series motor, which is beneficial to realizing the vibration operation of the diamond cutting line 1 by high-speed rotation.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. The quick drying device for the production of the diamond cutting line is characterized in that,

comprising the following steps:

the drying box mechanism (2) comprises a drying box body (21), a partition plate (23), a partition plate (24) and a hot air feeding component for drying, wherein the drying box body (21) is divided into a left circulating water wiping drying cavity and a right supplementary drying cavity through the partition plate (23), the middle part in the circulating water wiping drying cavity is fixedly connected with the horizontal partition plate (24), the middle part of the left side surface of the drying box body (21), the middle part of the partition plate (23) and the front part of the right side surface of the drying box body (21) are respectively provided with wire passing holes, diamond cutting wires (1) are inserted in the three wire passing holes, and the front side of the drying box body (21) is connected with the hot air feeding component for drying;

the diamond cutting line circulating water wiping mechanism (3) is arranged in the circulating water wiping drying cavity;

A drying path extension mechanism (4) installed in the supplementary drying chamber;

the reinforced drying mechanism (5) is arranged on the right side of the drying box body (21), and the reinforced drying mechanism (5) corresponds to a wire passing hole on the right side surface of the drying box body (21);

the hot air feeding component for drying comprises a first hot air pipeline (27), a second hot air pipeline (28), a third hot air pipeline (29), a hot air relay box (210) and a hot air blower (211), wherein a hot air outlet of the hot air blower (211) is connected with the front side of the hot air relay box (210), the rear side of the hot air relay box (210) is connected with the front side of a supplementary drying cavity through the first hot air pipeline (27), the rear side of the hot air relay box (210) is connected with the top in the circulating water wiping drying cavity through the second hot air pipeline (28), and the rear side of the hot air relay box (210) is connected with the inner bottom of the circulating water wiping drying cavity through the third hot air pipeline (29);

the hot air is discharged by the hot air blower (211) and then is sent into the hot air relay box (210), hot air required for drying the diamond cutting line is sent into the supplementary drying cavity by the hot air relay box (210) through the first hot air pipeline (27), hot air is sent into the space positioned on the upper side of the partition plate (24) in the circulating water wiping drying cavity by the hot air relay box (210) through the second hot air pipeline (28) for drying the diamond cutting line entering the circulating water wiping drying cavity, meanwhile, the water wiping part on the upper side in the circulating water wiping drying cavity is dried, hot air is sent into the space positioned on the lower side of the partition plate (24) in the circulating water wiping drying cavity by the hot air relay box (210) through the third hot air pipeline (29), and the water wiping part on the lower side in the circulating water wiping drying cavity is dried;

The diamond cutting line circulating water wiping mechanism (3) comprises a first wiping cloth position switching roller (31), a second wiping cloth position switching roller (32), an outer wiping cloth sleeve (33), an inner wiping cloth sleeve (34) and a switching power component, four corners in a circulating water wiping drying cavity are respectively connected with the first wiping cloth position switching roller (31) in a rotating mode, the middle of the first wiping cloth position switching roller (31) is in transmission connection with the outer wiping cloth sleeve (33), four wiping cloth position switching rollers (32) are respectively connected in the circulating water wiping drying cavity at the positions of four corners on the inner side of the outer wiping cloth sleeve (33) in a rotating mode, the middle of the second wiping cloth position switching roller (32) is in transmission connection with the inner wiping cloth sleeve (34), rectangular through grooves corresponding to the inner wiping cloth sleeve (34) and the outer wiping cloth sleeve (33) are respectively formed in a partitioning plate (24), the outer side of the top of the inner wiping cloth sleeve (34) is in contact with the inner side of the top of the outer wiping cloth sleeve (33), and diamond (1) passes through one of the two cutting line switching power components on the inner side of the inner wiping cloth sleeve (34) and one of the two cutting cloth position switching rollers (33) in a transmission mode;

The outer wiping cloth sleeve (33) and the inner wiping cloth sleeve (34) are used as water wiping components for wiping the diamond cutting lines in the circulating water wiping drying cavity, and wiping off water attached to the diamond cutting lines;

the drying path extension mechanism (4) comprises a hollow winding drum (41), end shafts (42), a support bearing (43) and a wire inlet and outlet limiting assembly, the right side of the partition plate (23) is positioned below the wire passing hole, the wire inlet and outlet limiting assembly is respectively arranged at the right side of the drying box (21) and is positioned below the wire passing hole, the longitudinal hollow winding drum (41) is arranged in the supplementary drying cavity, the end shafts (42) are respectively fixedly connected to the middle parts of the front end and the rear end of the hollow winding drum (41), the two end shafts (42) are respectively and rotatably connected with the front side and the rear side of the drying box (21) through the support bearing (43), the parts of the diamond cutting wire (1) positioned at the left side and the right side of the supplementary drying cavity respectively penetrate through the two wire inlet and outlet limiting assemblies, and the part of the diamond cutting wire (1) positioned at the middle part of the supplementary drying cavity is wound on the hollow winding drum (41) for not less than five times;

the two wire-in and wire-out limiting assemblies limit the winding position of the diamond cutting wire (1) on the hollow winding drum (41), and the two wire-in and wire-out limiting assemblies are arranged in a staggered mode front and back;

The drying path extension mechanism (4) further comprises a rotary joint (44) and a hot air supplementing pipeline (45), an end shaft (42) at the front end of the hollow winding barrel (41) is of a hollow tubular structure, the inside of the rear end of the end shaft (42) is communicated with the inside of the hollow winding barrel (41), ventilation holes are uniformly formed in the outer peripheral side of the hollow winding barrel (41), the front part of the end shaft (42) at the front end of the hollow winding barrel (41) is connected with one end of the hot air supplementing pipeline (45) through the rotary joint (44), and the other end of the hot air supplementing pipeline (45) is connected with the rear side of the hot air relay box (210);

the reinforced drying mechanism (5) comprises a fixed sleeve (53), a drying sleeve (54), a spiral heating wire (55), an inclined blowing head (56), a drying sleeve reciprocating rotating assembly and a pressurizing air supply assembly, wherein the right side of the drying box body (21) is provided with the fixed sleeve (53) corresponding to a wire passing hole, the inner side of the fixed sleeve (53) is rotationally connected with the drying sleeve (54), the left end of the drying sleeve (54) is connected with the drying sleeve reciprocating rotating assembly, the spiral heating wire (55) is arranged on the outer periphery of the drying sleeve (54), the front side and the rear side of the drying sleeve (54) are respectively transversely and equidistantly connected with an air outlet of the inclined blowing head (56), and an air inlet of the inclined blowing head (56) is connected with the pressurizing air supply assembly;

The air in the drying sleeve (54) is driven to flow from left to right by blowing air into the drying sleeve (54) through the oblique blowing head (56), so that water vapor generated by evaporation in the drying sleeve (54) is taken away quickly.

2. The rapid drying device for diamond cutting line production according to claim 1, wherein:

the novel drying box is characterized by further comprising a diamond cutting line water shaking mechanism (6), and the left side of the drying box body (21) is provided with the diamond cutting line water shaking mechanism (6).

3. The rapid drying device for diamond cutting line production according to claim 2, wherein:

the diamond cutting line water shaking mechanism (6) comprises an installation box (61), a water collecting transverse plate (62) and a diamond cutting line up-down vibration component, the installation box (61) is arranged on the left side of the drying box body (21), the water collecting transverse plate (62) is fixedly connected to the middle part in the installation box (61), and the diamond cutting line up-down vibration component is arranged in the middle of the water collecting transverse plate (62).

4. A rapid drying apparatus for diamond cutting line production according to claim 3, wherein:

the diamond cutting line guiding and limiting mechanism (7) is further included, the diamond cutting line guiding and limiting mechanism (7) is respectively installed on two sides of the top of the installation box (61), the left end of the diamond cutting line (1) sequentially penetrates through the two diamond cutting line guiding and limiting mechanisms (7), and the top end of the diamond cutting line up-down vibration assembly is located on the lower side of the diamond cutting line (1).

5. The rapid drying device for diamond cutting line production according to claim 4, wherein:

the diamond cutting line water-shaking secondary limiting mechanism (8) is further included, the positions, located on the left side and the right side of the upper vibration component and the lower vibration component of the diamond cutting line, of the water-collecting transverse plate (62) are fixedly connected with the diamond cutting line water-shaking secondary limiting mechanism (8) respectively, and the tops of the two diamond cutting line water-shaking secondary limiting mechanisms (8) are located on the lower sides of the diamond cutting lines (1) respectively.