CN203667518U - Full-automatic rotary turning machine - Google Patents
Full-automatic rotary turning machine Download PDFInfo
- Publication number
- CN203667518U CN203667518U CN201320671164.8U CN201320671164U CN203667518U CN 203667518 U CN203667518 U CN 203667518U CN 201320671164 U CN201320671164 U CN 201320671164U CN 203667518 U CN203667518 U CN 203667518U
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- frame
- roller
- picking
- dispenser
- steering device
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Abstract
A full-automatic rotary turning machine comprises a roll bar transmission mechanism, a rotary lifting mechanism and a supported frame, wherein the rotary lifting mechanism is located below the roll bar transmission mechanism. Roll bars on the roll bar transmission mechanism are sleeved with rollers. Frame plates of the supported frame are located in gaps between the adjacent rollers. The height of the supported frame is smaller than the difference between the radius of the rollers and the radius of the roll bars, a supporting part is arranged on the supported frame, the output end of the rotary lifting mechanism is connected below the supporting part, and the rotary lifting mechanism comprises a lifting device used for jacking up the supported frame and a rotating device used for rotating the supported frame which is already jacked up. The full-automatic rotary turning machine is simple in structure and high in automation degree, automatic control, over the supported frame, of the rotary lifting mechanism is used for performing rotary turning operation on ceramic tiles, because the whole process is finished through equipment matching, the full-automatic rotary turning machine has the advantages of being efficiency and convenient and rapid to use, and in addition, because the size of the supported frame is matched with the size of the ceramic tiles, the whole rotary turning process is stable.
Description
Technical field
The utility model relates to the tune equipment on a kind of ceramic tile production line, refers in particular to a kind of full automatic rotation steering device.
Background technology
Ceramic tile needs its surface to spray or stamp in process of manufacture, on current manufacturing line, the region of spraying or stamp is toward in the past changeless, but due to tile specification difference, in some rectangular ceramic tile, the two ends on its long limit not in spraying or printing area, are at this moment just necessary this kind of ceramic tile to be rotated tune sometimes especially, so that its two ends are in spraying or printing area, and then complete spraying or stamp operation.In addition, ceramic tile also has other to be rotated the operation that tune just can complete to ceramic tile at process of manufacture, in the production of ceramic tile, has more urgent demand for the equipment that can realize full-automatic rotating tune.
On existing ceramic tile production line, ceramic tile is not rotated the device of tune, therefore in rectangular ceramic tile spraying or stamp operation, otherwise spraying or printing area on expanding production line, easy like this waste and the raising productive costs of causing; In original spraying or printing area, spray or stamp, the two ends on the long limit of above-mentioned like this oblong ceramic tile just do not spray or stamp on, like this with regard to many operations of subsequent treatment.
Utility model content
The utility model provides a kind of full automatic rotation steering device, and its main purpose is to overcome rectangular ceramic tile on existing ceramic tile production line cannot be rotated tune to adapt to the defect of spraying or stamp.
For solving the problems of the technologies described above, the utility model adopts following technical scheme:
A kind of full automatic rotation steering device, comprise roller rod transmission device, be positioned at the rotary lifting mechanism of this roller rod transmission device below and hold up frame, roller rod on described roller rod transmission device is arranged with roller, in the gap of the deckle board of this picking-up frame between adjacent roller, the height of the deckle board of described picking-up frame is less than the semidiameter between described roller and roller rod, described picking-up frame is provided with support zone, the mouth of described rotary lifting mechanism is connected in below this support zone, described rotary lifting mechanism comprises the slewing arrangement for being rotated by the bont of described picking-up frame jack-up and by the picking-up frame after jack-up.
Further, described slewing arrangement is installed in described bont top, described slewing arrangement comprises flange, the rotating machine being fixedly connected with described bont and the rotation dispenser that is fixed on this flange upside, described rotating machine and this rotation dispenser are in transmission connection, and the mouth of described rotation dispenser is connected in below described picking-up frame.
Further, described bont comprises lifting bracket, eccentric wheel assembly and control the lifting dispenser that this eccentric wheel assembly rotates, the input end of this lifting dispenser is connected with a lifting motor, described lifting bracket comprises bracing frame and is connected in the pilot sleeve of this bracing frame top, described eccentric wheel assembly comprises the guide pillar being inserted in described pilot sleeve, the rotating shaft being connected with the mouth of described lifting dispenser, the fixed block that is sheathed on the eccentric wheel in this rotating shaft and is connected with described rotating shaft by a bearing, the upper end of described guide pillar is connected in described rotating control assembly, lower end is connected in described fixed block, described eccentric below is provided with this eccentric wheel and rotates the pillar stiffener matching.
Further, the below of described slewing arrangement is also provided with left and right weight box, the left and right side of described rotation dispenser is fixedly equiped with respectively left and right sprocket wheel, on this left and right sprocket wheel, be arranged with respectively left and right chain, one end of this left chain is fixedly connected with described left weight box, the other end is fixed on described flange, and one end of this right chain is fixedly connected with described right weight box, and the other end is fixed on described flange.
Further, described picking-up frame is the latticed picking-up frame being formed by a plurality of horizontal deckle boards and longitudinal deckle board square crossing, described roller is made up of a plurality of spaced apart section of shape rollers, and the grid on shared area and the described picking-up frame of each section of shape roller is suitable.
Further, on described picking-up frame, each sizing grid is consistent, the shared area of each section of shape roller is consistent, and in the gap of described horizontal deckle board between adjacent roller, described longitudinal deckle board is on each roller in the gap between adjacent section shape roller.
Further, described support zone is located at the center of described picking-up frame, and this support zone is a support cover plate.
Further, the fixing installing of described rotating machine described flange lower right side, the input shaft of described rotation dispenser is positioned at the upper left side of flange, and the mode that this input shaft coordinates by belt pulley and described rotating machine are in transmission connection.
Compared to the prior art the beneficial effect that, the utility model produces is:
1, the utility model is simple in structure, degree of automation is high, by utilizing rotary lifting mechanism to realize the rotation tune operation of ceramic tile to holding up the automatic control of frame, in the time holding up frame by jack-up, because its upper surface is higher than the roller height on roller rod transmission device, therefore the transmission of roller rod transmission device reverses end for end can not exert an influence to ceramic tile; In the time that picking-up frame puts down, can make the ceramic tile on it be positioned on the driving face of roller, therefore complete ceramic tile after tune just automatic transport to next process, because whole process is all to have coordinated by equipment, therefore the utlity model has efficiently feature easily, in addition due to hold up frame size can with the size of ceramic tile suitable arrange, therefore whole rotation tune process is steady.
2, in the utility model, thereby described bont is to carry out control eccentric rotation by lifting dispenser to realize batch (-type) lifting operation, described slewing arrangement is controlled and carried out batch (-type) rotation operation by rotation dispenser, can the most advantageously lifting operation and rotation operation be combined by slewing arrangement being installed on bont.
3, in the utility model, described picking-up frame is latticed picking-up frame, described roller is several section shape rollers consistent with sizing grid, holding up frame is set to netted, can on the basis of guarantee and section shape roller no-float, increase as much as possible the stress area of ceramic tile, make ceramic tile more steady in the process of rotation tune, avoid the situation that occurs that ceramic tile damages.
4, in the utility model, a described left side is set, the object of right weight box is to consider that slewing arrangement is very large together with holding up frame on it and holding up the weight that on frame, ceramic tile three adds up, only utilizing described bont is to carry out effectively and efficiently lifting operation frequently, therefore a described left side, right weight box is shared slewing arrangement is raised up to needed most of bearing force, and described bont only need to provide a small amount of bearing force just can carry out lifting operation, and can suitably reduce lifting motor horsepower output on bont, and then extend service life of described bont.
5, in the utility model, because all only need carrying out intermittent moment control by dispenser, described slewing arrangement and bont just can realize rotation tune operation, degree of automation is high and sport join is smooth, thereby without just realizing by controller or control circuit a series of actions that ceramic tile is promoted, rotates, puts down and carried.
Brief description of the drawings
Fig. 1 is the structural representation in the utility model.
Fig. 2 is the structural representation of Fig. 1 in side-looking direction.
Fig. 3 is the structural representation of bont described in the utility model.
Detailed description of the invention
Detailed description of the invention of the present utility model is described with reference to the accompanying drawings.
See figures.1.and.2.A kind of full automatic rotation steering device, comprise roller rod transmission device 1, be positioned at the rotary lifting mechanism 2 of this roller rod transmission device 1 below and hold up frame 3, roller rod on described roller rod transmission device 1 is arranged with roller, this roller is provided with multiple and is a section shape roller 10, and each section of shape roller 10 arranged along interval on the length direction of roller rod.Described picking-up frame 3 is for by a plurality of horizontal deckle boards and latticed picking-up frame that longitudinally deckle board square crossing forms, and the grid 33 on shared area and the described picking-up frame 3 of each section of shape roller 10 is suitable.On described picking-up frame 3, each grid 33 is in the same size, the shared area of each section of shape roller 10 is consistent, in the gap 31 of described horizontal deckle board between adjacent roller, described longitudinal deckle board is on each roller in the gap 32 between adjacent section shape roller 10.The height of described picking-up frame 3 is less than the semidiameter between described roller 10 and roller rod, arrange like this and can ensure to hold up frame 3 in the time putting down, ceramic tile on it can be positioned on the conveyor surface of roller 10, be set to netted hold up frame 3, can on the basis of guarantee and described roller 10 no-floats, increase as much as possible the stress area of ceramic tile, make ceramic tile more steady in the process of rotation tune, avoid the situation that occurs that ceramic tile damages.Described picking-up frame 3 is provided with support zone, and this support zone is a support cover plate 30, and described support cover plate 30 is located at the center of described picking-up frame 3.The mouth of described rotary lifting mechanism 2 is connected in the bottom of supporting cover plate 30, the slewing arrangement 21 that described rotary lifting mechanism 2 comprises for being rotated by the bont 20 of described picking-up frame 3 jack-up and by the picking-up frame 3 after jack-up.By utilizing rotary lifting mechanism 2 to realize the rotation tune operation of ceramic tile to holding up the automatic control of frame 3, in the time holding up frame 3 by jack-up, because its upper surface is higher than the height of roller rod transmission device 1 upper roller 10, therefore the transmission of roller rod transmission device 1 reverses end for end can not exert an influence to ceramic tile; In the time that picking-up frame 3 puts down, can make the ceramic tile on it be positioned on the driving face of roller 10, therefore complete ceramic tile after tune just automatic transport to next process, because whole process is all to have coordinated by equipment, therefore the utlity model has simple in structure, degree of automation is high and efficient feature easily.
See figures.1.and.2.Described slewing arrangement 21 is installed in described bont 20 tops, described slewing arrangement 21 comprises flange 210, the rotating machine 211 being fixedly connected with described bont 20 and the rotation dispenser 212 that is fixed on these flange 210 upsides, the fixing installing of described rotating machine 211 described flange 210 lower right sides, the input shaft of described rotation dispenser 212 is positioned at the upper left side of flange 210, and the mode that this input shaft coordinates by belt pulley and described rotating machine 211 are in transmission connection.The mouth of described rotation dispenser 212 is connected in the bottom of described support cover plate 30.Described rotation dispenser 212 is general dispenser, because dispenser is comparatively commonly in the middle of this area to realize the equipment that batch (-type) output is controlled, thereby its concrete inner structure is not described in detail at this.
With reference to Fig. 1, Fig. 2 and Fig. 3.Described bont 20 comprises lifting bracket 201, eccentric wheel assembly 202 and controls the lifting dispenser 203 that this eccentric wheel assembly 202 rotates, the input end of this lifting dispenser 203 is connected with a lifting motor 204, promote dispenser 203 and can adopt general dispenser, only need this kind can realize batch (-type) rotation and can realize the utility model.Described lifting bracket 201 comprises bracing frame 205 and is connected in the pilot sleeve 206 of these bracing frame 205 tops, described eccentric wheel assembly 202 comprises the guide pillar 207 being inserted in described pilot sleeve 206, the rotating shaft 208 being connected with the mouth of described lifting dispenser 203, the fixed block 2020 that is sheathed on the eccentric wheel 209 in this rotating shaft 208 and is connected with described rotating shaft 208 by a bearing, the upper end of described guide pillar 207 is connected in described flange 210, lower end is connected in described fixed block 2020, the below of described eccentric wheel 209 is provided with this eccentric wheel 209 and rotates the pillar stiffener 2021 matching.The below of described slewing arrangement 21 is also provided with left weight box 220 and right weight box 221, the left and right side of described rotation dispenser 212 is fixedly equiped with respectively left sprocket wheel 222 and right sprocket wheel 223, on this left sprocket wheel 222, be arranged with left chain, on this right sprocket wheel 223, be arranged with right chain, one end of this left chain is fixedly connected with described left weight box 220, the other end is fixed on the left part of described flange 210, one end of this right chain is fixedly connected with described right weight box 221, and the other end is fixed on the right part of described flange 210.The object that described left weight box 220 and right weight box 221 are set is to consider that slewing arrangement 21 is very large together with holding up frame 3 on it and holding up the weight that on frame 3, ceramic tile three adds up, only utilizing described bont 20 is to carry out effectively and efficiently lifting operation frequently, therefore described left weight box 220 and right weight box 221 can be shared slewing arrangement 21 is raised up to needed most of bearing force, and 20 needs of described bont provide a small amount of bearing force just can carry out lifting operation, and can suitably reduce lifting motor 204 horsepower outputs on bont 20, and then the service life of prolongation bont 20.
With reference to Fig. 1, Fig. 2 and Fig. 3.Working process of the present utility model is as follows: when the top that delivers into described picking-up frame 3 that ceramic tile is subject to roller rod transmission device 1, described eccentric wheel 209 rotates to vertex from nadir just, therefore now hold up frame 3 just by jack-up, ceramic tile on it is in the time being lifted extreme higher position, the lifting dispenser 203 that control eccentric 209 rotates is just in time in state at intermittence, this be rotation dispenser 212 just from intermittence state forward output state to, therefore after being lifted to extreme higher position, ceramic tile can be rotated at once, the angle of rotation is 90 degree in the present embodiment, mainly to consider conveniently the long limit of ceramic tile to spray or stamp, can certainly be according to other demands of reality, rotate by modulation the angle that the opening time of dispenser 212 and the layout of INT COMP are rotated other.Complete after 90 degree rotation tune operations at ceramic tile, at this moment rotate dispenser 212 and just forward intermittently state to from output state, the lifting dispenser 203 that simultaneously control eccentric 209 rotates just from intermittence state forward output state to, therefore now eccentric wheel 209 just can rotate to nadir from vertex, holding up frame 3 is just put down, ceramic tile is just placed on the conveyor surface of roller 10, therefore just automatic transport is to next process to complete ceramic tile after tune, and next piece ceramic tile just repeats above-mentioned action afterwards.In the utility model, because all only need carrying out intermittent moment control by dispenser, described slewing arrangement 21 and bont 20 just can realize rotation tune operation, degree of automation is high and sport join is smooth, thereby without just realizing by controller or control circuit a series of actions that ceramic tile is promoted, rotates, puts down and carried.
Above are only detailed description of the invention of the present utility model, but design concept of the present utility model is not limited to this, allly utilizes this design to carry out the change of unsubstantiality to the utility model, all should belong to the behavior of invading the utility model protection domain.
Claims (8)
1. a full automatic rotation steering device, it is characterized in that: comprise roller rod transmission device, be positioned at the rotary lifting mechanism of this roller rod transmission device below and hold up frame, roller rod on described roller rod transmission device is arranged with roller, in the gap of the deckle board of this picking-up frame between adjacent roller, the height of the deckle board of described picking-up frame is less than the semidiameter between described roller and roller rod, described picking-up frame is provided with support zone, the mouth of described rotary lifting mechanism is connected in below this support zone, described rotary lifting mechanism comprises the slewing arrangement for being rotated by the bont of described picking-up frame jack-up and by the picking-up frame after jack-up.
2. a kind of full automatic rotation steering device as claimed in claim 1, it is characterized in that: described slewing arrangement is installed in described bont top, described slewing arrangement comprises flange, the rotating machine being fixedly connected with described bont and the rotation dispenser that is fixed on this flange upside, described rotating machine and this rotation dispenser are in transmission connection, and the mouth of described rotation dispenser is connected in below described picking-up frame.
3. a kind of full automatic rotation steering device as claimed in claim 2, it is characterized in that: described bont comprises lifting bracket, eccentric wheel assembly and control the lifting dispenser that this eccentric wheel assembly rotates, the input end of this lifting dispenser is connected with a lifting motor, described lifting bracket comprises bracing frame and is connected in the pilot sleeve of this bracing frame top, described eccentric wheel assembly comprises the guide pillar being inserted in described pilot sleeve, the rotating shaft being connected with the mouth of described lifting dispenser, the fixed block that is sheathed on the eccentric wheel in this rotating shaft and is connected with described rotating shaft by a bearing, the upper end of described guide pillar is connected in described rotating control assembly, lower end is connected in described fixed block, described eccentric below is provided with this eccentric wheel and rotates the pillar stiffener matching.
4. a kind of full automatic rotation steering device as claimed in claim 2, it is characterized in that: the below of described slewing arrangement is also provided with left and right weight box, the left and right side of described rotation dispenser is fixedly equiped with respectively left and right sprocket wheel, on this left and right sprocket wheel, be arranged with respectively left and right chain, one end of this left chain is fixedly connected with described left weight box, the other end is fixed on described flange, and one end of this right chain is fixedly connected with described right weight box, and the other end is fixed on described flange.
5. a kind of full automatic rotation steering device as described in any one in claim 1-4, it is characterized in that: described picking-up frame is the latticed picking-up frame being formed by a plurality of horizontal deckle boards and longitudinal deckle board square crossing, described roller is made up of a plurality of spaced apart section of shape rollers, and the grid on shared area and the described picking-up frame of each section of shape roller is suitable.
6. a kind of full automatic rotation steering device as claimed in claim 5, it is characterized in that: on described picking-up frame, each sizing grid is consistent, the shared area of each section of shape roller is consistent, in the gap of described horizontal deckle board between adjacent roller, described longitudinal deckle board is on each roller in the gap between adjacent section shape roller.
7. a kind of full automatic rotation steering device as claimed in claim 5, is characterized in that: described support zone is located at the center of described picking-up frame, this support zone is a support cover plate.
8. a kind of full automatic rotation steering device as claimed in claim 2, it is characterized in that: the fixing installing of described rotating machine described flange lower right side, the input shaft of described rotation dispenser is positioned at the upper left side of flange, and the mode that this input shaft coordinates by belt pulley and described rotating machine are in transmission connection.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201320671164.8U CN203667518U (en) | 2013-10-29 | 2013-10-29 | Full-automatic rotary turning machine |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201320671164.8U CN203667518U (en) | 2013-10-29 | 2013-10-29 | Full-automatic rotary turning machine |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN203667518U true CN203667518U (en) | 2014-06-25 |
Family
ID=50963838
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201320671164.8U Withdrawn - After Issue CN203667518U (en) | 2013-10-29 | 2013-10-29 | Full-automatic rotary turning machine |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN203667518U (en) |
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN103523503A (en) * | 2013-10-29 | 2014-01-22 | 南安市信捷机械有限公司 | Full-automatic rotary u-turn machine |
| CN110126462A (en) * | 2019-05-08 | 2019-08-16 | 东莞市唯美陶瓷工业园有限公司 | An a kind of ink-jet printing equipment and its control method based on the production of brick |
| CN111965196A (en) * | 2019-05-20 | 2020-11-20 | 厦门蚨祺自动化设备有限公司 | Four-station rotating device for automatic AOI detection |
-
2013
- 2013-10-29 CN CN201320671164.8U patent/CN203667518U/en not_active Withdrawn - After Issue
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN103523503A (en) * | 2013-10-29 | 2014-01-22 | 南安市信捷机械有限公司 | Full-automatic rotary u-turn machine |
| CN110126462A (en) * | 2019-05-08 | 2019-08-16 | 东莞市唯美陶瓷工业园有限公司 | An a kind of ink-jet printing equipment and its control method based on the production of brick |
| CN111965196A (en) * | 2019-05-20 | 2020-11-20 | 厦门蚨祺自动化设备有限公司 | Four-station rotating device for automatic AOI detection |
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Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| C56 | Change in the name or address of the patentee |
Owner name: FUJIAN NAN AN XINJIE MACHINERY CO., LTD. Free format text: FORMER NAME: NANAN XINJIE MACHINERY CO.,LTD. |
|
| CP03 | Change of name, title or address |
Address after: 362300, Fujian City, Quanzhou province Nanan City banyan bridge project concentration area Patentee after: Xin Jie Machinery Co., Ltd. of Fujian Province Address before: Guan Qiao town Nanan City, Fujian province 362341 city of Quanzhou Lianhu CuO Cun Industrial Zone Patentee before: Nanan Xinjie Machinery Co.,Ltd. |
|
| AV01 | Patent right actively abandoned |
Granted publication date: 20140625 Effective date of abandoning: 20150722 |
|
| RGAV | Abandon patent right to avoid regrant |