CN203583213U - High-speed heat-conducting oil roller - Google Patents
High-speed heat-conducting oil roller Download PDFInfo
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- CN203583213U CN203583213U CN201320732485.4U CN201320732485U CN203583213U CN 203583213 U CN203583213 U CN 203583213U CN 201320732485 U CN201320732485 U CN 201320732485U CN 203583213 U CN203583213 U CN 203583213U
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- spindle nose
- cylindrical shell
- roller spindle
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Abstract
The utility model discloses a high-speed heat-conducting oil roller which comprises a roller body, wherein a first roller shaft end and a second roller shaft end used for being connected with a power source are respectively arranged at two ends of the roller body, an oil path circulating pipeline used for circularly heating the outer surface of the roller body is arranged in the roller body, a first bearing base is arranged on the first roller shaft end, a second bearing base is arranged on the second roller shaft end, bearings for enabling the roller body to rotate around the axial line of the roller body are arranged between the first bearing base and the first roller shaft end and between the second bearing base and the second roller shaft end, a rotary sealing device used for inletting oil and outletting oil is detachably arranged at one side of the first bearing base, which is far away from the roller body, and an oil inlet used for being connected with an inlet end of the oil path circulating pipeline and an oil outlet used for being connected with an outlet end of the oil path circulating pipeline are arranged on the rotary sealing device. The high-speed heat-conducting oil roller disclosed by the utility model is simple in structure and high in heat exchange efficiency; and blockage can not be caused in a use process, and no potential safety hazards exist.
Description
Technical field
The utility model relates to natural lustre finishing machine technical field, relates in particular to a kind of high speed conduction oil roller.
Background technology
In textile printing and dyeing industry, conventionally need to be to the processing of fabric hot light in finishing process, use lustrous surface, feel and the perception etc. of promoting fabric, promote the quality of fabric.The general equipment adopting of hot light processing procedure is natural lustre finishing machine, and the critical piece of natural lustre finishing machine is hot light roller, and fabric, by hot light and the beating of the roller after heating, can increase gloss and the feel of fabric, promotes the quality of fabric.
The structure of natural lustre finishing machine probably has following two kinds at present:
One, adopt Electric heating to heat to the roller surface of natural lustre finishing machine.For example, Chinese patent literature CN201770863U open a kind of " natural lustre finishing machine ", comprises and scalds roller and be arranged on the electric heating tube scalding in roller, described boiling hot roller is connected with motor, the input of motor connects the output of frequency converter, is provided with and regulates the gear that scalds roller running speed on frequency converter.Adopt this mode of heating larger to the consumption of electric energy, production cost is higher, is unfavorable for cost-saving.
Two, adopt conduction oil mode to heat to the roller surface of natural lustre finishing machine.As shown in Figure 1, what this figure showed is a kind of structure of existing natural lustre finishing machine roller, this roller comprises cylindrical shell 110, the pipeline configuration that this cylindrical shell 110 connects for two ends, cylindrical shell 110 comprises the first roller spindle nose 120 and the second roller spindle nose 130 that are arranged on cylindrical shell 110 two ends, the first roller spindle nose 120 ends arrange oil-in 160, the end of the second roller spindle nose 130 sets out hydraulic fluid port 170, the first swivel joint 140 is set on the first roller spindle nose 120, the second swivel joint 150 is set on the second roller spindle nose 130, roller is connected by the bearing in the frame of the first swivel joint 140 and the second swivel joint 150 and natural lustre finishing machine, the cylindrical shell 110 of roller can be rotated along its axis.As shown in Figure 2, what this figure showed is the another kind of structure of existing natural lustre finishing machine roller, this roller comprises cylindrical shell 210, this cylindrical shell 210 is the tubular structure of perforation one end, one end sealing, cylindrical shell 210 comprises the first roller spindle nose 220 and the second roller spindle nose 230 that are arranged on cylindrical shell 210 two ends, the first roller spindle nose 220 ends arrange oil-in 250 and oil-out 160, corresponding oil-in 250 and oil-out 260 are at the interior pipeline that conduction oil circulation is set respectively of cylindrical shell 210, and oil-in 250 and oil-out 260 are by this pipeline communication, on the first roller spindle nose 220, swivel joint 240 is set, roller is connected by the bearing in the frame of swivel joint 240 and natural lustre finishing machine, the cylindrical shell 210 of roller can be rotated along its axis.
Although above-mentioned two kinds of structures have adopted conduction oil to carry out circulating-heating, but above-mentioned two kinds of structures adopt, be that swivel joint is directly installed on roller spindle nose and heats, due to natural lustre finishing machine rotating speed is high and circulation be high temperature heat conductive oil, swivel joint easily produces that bearing is stuck and therefore initiation fire exists potential safety hazard.
Utility model content
The purpose of this utility model is to propose a kind of high speed conduction oil roller, and it is simple in structure, and heat exchange efficiency is high, in use there will not be stuck situation, does not have potential safety hazard.
For reaching this object, the utility model by the following technical solutions:
A kind of high speed conduction oil roller, comprise cylindrical shell, the two ends of described cylindrical shell arrange respectively the first roller spindle nose and the second roller spindle nose for being connected with power source, in described cylindrical shell, be provided for described barrel outer surface to carry out hydronic oil circulation pipeline, on described the first roller spindle nose, clutch shaft bearing seat is set, on described the second roller spindle nose, the second bearing block is set, between described clutch shaft bearing seat and described the first roller spindle nose and between described the second bearing block and described the second roller spindle nose, be all provided for the bearing that described cylindrical shell is rotated around its axis, described clutch shaft bearing seat is detachably provided for oil-feed and fuel-displaced rotary sealing appts away from a side of described cylindrical shell, on described rotary sealing appts, be provided for the oil-in and the oil-out for being connected with the port of export of described oil circulation pipeline that are connected with the entrance point of described oil circulation pipeline.
By rotary sealing appts being set at clutch shaft bearing seat away from an end face of cylindrical shell, and on this rotary sealing appts, arrange with cylindrical shell in the entrance point of oil circulation pipeline and oil-in and the oil-out that the port of export is connected respectively, avoided directly on rotary sealing appts, arranging bearing, and then avoided the rotation of rotary sealing appts, therefore there will not be the stuck situation of rotary sealing appts, effectively removed potential safety hazard.
Preferably, described the first roller spindle nose and described cylindrical shell are bolted.
Preferably, described the second roller spindle nose and described cylindrical shell are bolted.
Preferably, between described the first roller spindle nose and described cylindrical shell, sealing ring is set, between described the second roller spindle nose and described cylindrical shell, sealing ring is also set.
Preferably, between described the first roller spindle nose and described clutch shaft bearing seat, sealing ring is set.
Preferably, between described clutch shaft bearing seat and described rotary sealing appts, sealing ring is set.
As a kind of preferred version, described rotary sealing appts comprises standing part and is arranged on the rotating part of standing part inside, one end of described standing part is fixed on the end face of described clutch shaft bearing seat away from described cylindrical shell, described rotating part is fixedly connected with described the first roller spindle nose, porus excretorius and oil return oil temperature is set on described rotary sealing appts and detects mouth.
As a kind of preferred version, described oil circulation pipeline comprises central siphon, one end of described central siphon extends in described rotary sealing appts and is connected with described oil-in through described the first roller spindle nose, the other end of described central siphon extends in described cylindrical shell, and described cylindrical shell is and connects setting with described the first roller spindle nose and described rotary sealing appts.
As a kind of preferred version, described central siphon is arranged with sheathed pipe outward, and described sheathed pipe is positioned at described cylindrical shell, has the gap of conduction oil circulation between described sheathed pipe outer wall and the inwall of described cylindrical shell.
By sheathed pipe is set, can increase conduction oil and cylindrical shell contact time, improve the heat exchange efficiency of the conduction oil in cylindrical shell, and then fall low-energy-consumption.
As a kind of preferred version, described the second roller spindle nose inside is hollow form.
By the second roller spindle nose, be set to inner hollow shape, can increase the area of dissipation of the second roller spindle nose, reduce the second bearing block being connected with the second roller spindle nose and the temperature that connects the connector of power source, extend the service life of each parts.
As a kind of preferred version, described the second roller spindle nose is near one end set temperature sensor of described cylindrical shell, described the second roller spindle nose arranges conducting slip ring away from one end of described cylindrical shell, and described temperature sensor is electrically connected with described conducting slip ring, and described conducting slip ring is connected with controller.
By one end set temperature sensor near cylindrical shell at the second roller spindle nose, the temperature that drum surface detected that can the moment, guarantees the normal work of roller, and then guarantees the normal work of natural lustre finishing machine.
As a kind of preferred version, described the second roller spindle nose passes described the second bearing block and extends to outside described the second bearing block away from one end of described cylindrical shell, described the second roller spindle nose arranges the first belt pulley away from one end of described cylindrical shell, described power source is motor, the output shaft end of described motor arranges the second belt pulley, between described the first belt pulley and described the second belt pulley, by belt, is connected.
As a kind of preferred version, between described clutch shaft bearing seat and described the first roller spindle nose, there is the chamber for placing described bearing, bearing lubrication fuel feed hole and bearing lubrication oil outlet are set on described clutch shaft bearing seat, and described bearing lubrication fuel feed hole and described bearing lubrication oil outlet all run through described clutch shaft bearing seat and are communicated with described chamber.
As a kind of preferred version, between described the second bearing block and described the second roller spindle nose, there is the chamber for placing described bearing, bearing lubrication fuel feed hole and bearing lubrication oil outlet are set on described the second bearing block, and described bearing lubrication fuel feed hole and described bearing lubrication oil outlet all run through described the second bearing block and are communicated with described chamber.
Preferably, described bearing lubrication fuel feed hole and bearing lubrication oil outlet are screwed hole.
As a kind of preferred version, in described oil return oil temperature, detect mouthful place's set temperature sensor, described temperature sensor is connected with described controller.
Contrast prior art, the beneficial effects of the utility model are: high speed conduction oil drum structure of the present utility model is simple, and heat exchange efficiency is high, in use there will not be stuck situation, does not have potential safety hazard.
Accompanying drawing explanation
Fig. 1 is a kind of structural representation of existing natural lustre finishing machine roller;
Fig. 2 is the another kind of structural representation of existing natural lustre finishing machine roller;
Fig. 3 is the structural representation of the high speed conduction oil roller described in the utility model embodiment.
In Fig. 1:
110, cylindrical shell; 120, the first roller spindle nose; 130, the second roller spindle nose; 140, the first swivel joint; 150, the second swivel joint; 160, oil-in; 170, oil-out.
In Fig. 2:
210, cylindrical shell; 220, the first roller spindle nose; 230, the second roller spindle nose; 240, swivel joint; 250, oil-in; 260, oil-out.
In Fig. 3:
1, cylindrical shell; 2, the first roller spindle nose; 3, the second roller spindle nose; 4, oil circulation pipeline; 41, central siphon; 42, sheathed pipe; 43, gap; 5, clutch shaft bearing seat; 6, the second bearing block; 7, rotary sealing appts; 8, oil-in; 9, oil-out; 10, bearing; 11, temperature sensor; 12, conducting slip ring; 13, the first belt pulley; 14, motor; 15, the second belt pulley; 16, belt; 17, chamber; 18, bearing lubrication fuel feed hole; 19, bearing lubrication oil outlet; 20, oil return oil temperature detects mouth; 21, porus excretorius.
The specific embodiment
Below in conjunction with accompanying drawing and by the specific embodiment, further illustrate the technical solution of the utility model.
As shown in Figure 3 in embodiment, novel high speed conduction oil roller of the present utility model, comprise cylindrical shell 1, the two ends of cylindrical shell 1 arrange respectively the first roller spindle nose 2 and the second roller spindle nose 3 for being connected with power source, in cylindrical shell 1, be provided for cylindrical shell 1 outer surface to carry out hydronic oil circulation pipeline 4, on the first roller spindle nose 2, clutch shaft bearing seat 5 is set, the second bearing block 6 is set on the second roller spindle nose 3, between clutch shaft bearing seat 5 and the first roller spindle nose 2 and between the second bearing block 6 and the second roller spindle nose 3, be all provided for the bearing 10 that cylindrical shell 1 is rotated around its axis, clutch shaft bearing seat 5 is detachably provided for oil-feed and fuel-displaced rotary sealing appts 7 away from a side of cylindrical shell 1, on rotary sealing appts 7, be provided for the oil-in 8 and the oil-out 9 for being connected with the port of export of oil circulation pipeline 4 that are connected with the entrance point of oil circulation pipeline 4.
By rotary sealing appts 7 being set at clutch shaft bearing seat 5 away from an end face of cylindrical shell 1, and on this rotary sealing appts 7, arrange with cylindrical shell 1 in the entrance point of oil circulation pipeline 4 and oil-in 8 and the oil-out 9 that the port of export is connected respectively, avoided directly on rotary sealing appts 7, bearing being set, and then avoided the rotation of rotary sealing appts 7, therefore there will not be the stuck situation of rotary sealing appts 7, effectively removed potential safety hazard.
Rotary sealing appts 7 comprises standing part and is arranged on the rotating part of standing part inside, one end of standing part is fixed on the end face of clutch shaft bearing seat 5 away from cylindrical shell 1, rotating part is fixedly connected with the first roller spindle nose 2, porus excretorius 21 and oil return oil temperature are set on rotary sealing appts 7 and detect mouth 20, in oil return oil temperature, detect mouthful 20 place's set temperature sensors, temperature sensor is connected with controller.
In the present embodiment, the first roller spindle nose 2 is bolted with cylindrical shell 1, and the second roller spindle nose 3 is bolted with cylindrical shell 1.
Between the first roller spindle nose 2 and cylindrical shell 1, sealing ring is set, between the second roller spindle nose 3 and cylindrical shell 1, sealing ring is also set, between the first roller spindle nose 2 and clutch shaft bearing seat 5, sealing ring is set, between clutch shaft bearing seat 5 and rotary sealing appts 7, sealing ring is set.
Outside central siphon 41, be arranged with sheathed pipe 42, sheathed pipe 42 is positioned at cylindrical shell 1, between sheathed pipe 42 outer walls and the inwall of cylindrical shell 1, there is the gap 43 of conduction oil circulation, by sheathed pipe 42 is set, can increase conduction oil and 1 contact time of cylindrical shell, improve the heat exchange efficiency of the conduction oil in cylindrical shell 1, and then fall low-energy-consumption.
The second roller spindle nose 3 inside are hollow form, by the second roller spindle nose 3 is set to inner hollow shape, can increase the area of dissipation of the second roller spindle nose 3, reduce the second bearing block 6 being connected with the second roller spindle nose 3 and the temperature that connects the connector of power source, extend the service life of each parts.
The second roller spindle nose 3 arranges conducting slip ring 12 near one end set temperature sensor 11, the second roller spindle noses 3 of cylindrical shell 1 away from one end of cylindrical shell 1, and temperature sensor 11 is electrically connected with conducting slip ring 12, and conducting slip ring 12 is connected with controller.By one end set temperature sensor 11 near cylindrical shell 1 at the second roller spindle nose 3, the temperature that cylindrical shell 1 surface detected that can the moment, guarantees the normal work of roller, and then guarantees the normal work of natural lustre finishing machine.
The second roller spindle nose 3 passes the second bearing block 6 and extends to outside the second bearing block 6 away from one end of cylindrical shell 1, the second roller spindle nose 3 arranges the first belt pulley 13 away from one end of cylindrical shell 1, power source is motor 14, the output shaft end of motor 14 arranges between the second belt pulley 15, the first belt pulleys 13 and the second belt pulley 15 and is connected by belt 16.
Between clutch shaft bearing seat 5 and the first roller spindle nose 2, there is the chamber 17 for placing bearing 10, bearing lubrication fuel feed hole 18 and bearing lubrication oil outlet 19 are set on clutch shaft bearing seat 5, and bearing lubrication fuel feed hole 18 and bearing lubrication oil outlet 19 all run through clutch shaft bearing seat 5 and are communicated with chamber 17.
Between the second bearing block 6 and the second roller spindle nose 3, also there is the chamber 17 for placing bearing 10, bearing lubrication fuel feed hole 18 and bearing lubrication oil outlet 19 are also set on the second bearing block 6, and bearing lubrication fuel feed hole 18 and bearing lubrication oil outlet 19 all run through the second bearing block 6 and are communicated with chamber 17.
In the present embodiment, bearing lubrication fuel feed hole 18 and bearing lubrication oil outlet 19 are screwed hole.
" first " of the present utility model, " second " etc., only, for being distinguished on describing, do not have special implication.
Know-why of the present utility model has below been described in conjunction with specific embodiments.These are described is in order to explain principle of the present utility model, and can not be interpreted as by any way the restriction to the utility model protection domain.Based on explanation herein, those skilled in the art does not need to pay performing creative labour can associate other specific embodiment of the present utility model, within these modes all will fall into protection domain of the present utility model.
Claims (10)
1. a high speed conduction oil roller, it is characterized in that, comprise cylindrical shell, the two ends of described cylindrical shell arrange respectively the first roller spindle nose and the second roller spindle nose for being connected with power source, in described cylindrical shell, be provided for described barrel outer surface to carry out hydronic oil circulation pipeline, on described the first roller spindle nose, clutch shaft bearing seat is set, on described the second roller spindle nose, the second bearing block is set, between described clutch shaft bearing seat and described the first roller spindle nose and between described the second bearing block and described the second roller spindle nose, be all provided for the bearing that described cylindrical shell is rotated around its axis, described clutch shaft bearing seat is detachably provided for oil-feed and fuel-displaced rotary sealing appts away from a side of described cylindrical shell, on described rotary sealing appts, be provided for the oil-in and the oil-out for being connected with the port of export of described oil circulation pipeline that are connected with the entrance point of described oil circulation pipeline.
2. high speed conduction oil roller according to claim 1, it is characterized in that, described rotary sealing appts comprises standing part and is arranged on the rotating part of standing part inside, one end of described standing part is fixed on the end face of described clutch shaft bearing seat away from described cylindrical shell, described rotating part is fixedly connected with described the first roller spindle nose, porus excretorius and oil return oil temperature is set on described rotary sealing appts and detects mouth.
3. high speed conduction oil roller according to claim 2, it is characterized in that, described oil circulation pipeline comprises central siphon, one end of described central siphon extends in described rotary sealing appts and is connected with described oil-in through described the first roller spindle nose, the other end of described central siphon extends in described cylindrical shell, and described cylindrical shell is and connects setting with described the first roller spindle nose and described rotary sealing appts.
4. high speed conduction oil roller according to claim 3, is characterized in that, described central siphon is arranged with sheathed pipe outward, and described sheathed pipe is positioned at described cylindrical shell, has the gap of conduction oil circulation between described sheathed pipe outer wall and the inwall of described cylindrical shell.
5. high speed conduction oil roller according to claim 4, is characterized in that, described the second roller spindle nose inside is hollow form.
6. high speed conduction oil roller according to claim 5, it is characterized in that, described the second roller spindle nose is near one end set temperature sensor of described cylindrical shell, described the second roller spindle nose arranges conducting slip ring away from one end of described cylindrical shell, described temperature sensor is electrically connected with described conducting slip ring, and described conducting slip ring is connected with controller.
7. high speed conduction oil roller according to claim 6, it is characterized in that, described the second roller spindle nose passes described the second bearing block and extends to outside described the second bearing block away from one end of described cylindrical shell, described the second roller spindle nose arranges the first belt pulley away from one end of described cylindrical shell, described power source is motor, the output shaft end of described motor arranges the second belt pulley, between described the first belt pulley and described the second belt pulley, by belt, is connected.
8. according to the high speed conduction oil roller described in claim 1 to 7 any one, it is characterized in that, between described clutch shaft bearing seat and described the first roller spindle nose, there is the chamber for placing described bearing, bearing lubrication fuel feed hole and bearing lubrication oil outlet are set on described clutch shaft bearing seat, and described bearing lubrication fuel feed hole and described bearing lubrication oil outlet all run through described clutch shaft bearing seat and are communicated with described chamber.
9. according to the high speed conduction oil roller described in claim 1 to 7 any one, it is characterized in that, between described the second bearing block and described the second roller spindle nose, there is the chamber for placing described bearing, bearing lubrication fuel feed hole and bearing lubrication oil outlet are set on described the second bearing block, and described bearing lubrication fuel feed hole and described bearing lubrication oil outlet all run through described the second bearing block and are communicated with described chamber.
10. according to the high speed conduction oil roller described in claim 6 or 7, it is characterized in that, in described oil return oil temperature, detect mouthful place's set temperature sensor, described temperature sensor is connected with described controller.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201320732485.4U CN203583213U (en) | 2013-11-19 | 2013-11-19 | High-speed heat-conducting oil roller |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201320732485.4U CN203583213U (en) | 2013-11-19 | 2013-11-19 | High-speed heat-conducting oil roller |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN203583213U true CN203583213U (en) | 2014-05-07 |
Family
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Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201320732485.4U Withdrawn - After Issue CN203583213U (en) | 2013-11-19 | 2013-11-19 | High-speed heat-conducting oil roller |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN203583213U (en) |
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN103556427A (en) * | 2013-11-19 | 2014-02-05 | 无锡市艾可密封技术有限公司 | High-speed heat-transfer oil roller |
| CN107803996A (en) * | 2017-12-01 | 2018-03-16 | 深圳市瑞邦精密机械有限公司 | Hot overlay film drum apparatus |
-
2013
- 2013-11-19 CN CN201320732485.4U patent/CN203583213U/en not_active Withdrawn - After Issue
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN103556427A (en) * | 2013-11-19 | 2014-02-05 | 无锡市艾可密封技术有限公司 | High-speed heat-transfer oil roller |
| CN103556427B (en) * | 2013-11-19 | 2016-02-24 | 无锡市艾可密封技术有限公司 | High speed heat-transfer oil roller |
| CN107803996A (en) * | 2017-12-01 | 2018-03-16 | 深圳市瑞邦精密机械有限公司 | Hot overlay film drum apparatus |
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Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| AV01 | Patent right actively abandoned |
Granted publication date: 20140507 Effective date of abandoning: 20160224 |
|
| C25 | Abandonment of patent right or utility model to avoid double patenting |