TWI803342B - Adjustment assembly for a roller of straightening machine - Google Patents
Adjustment assembly for a roller of straightening machine Download PDFInfo
- Publication number
- TWI803342B TWI803342B TW111121331A TW111121331A TWI803342B TW I803342 B TWI803342 B TW I803342B TW 111121331 A TW111121331 A TW 111121331A TW 111121331 A TW111121331 A TW 111121331A TW I803342 B TWI803342 B TW I803342B
- Authority
- TW
- Taiwan
- Prior art keywords
- carrier
- roller
- seat
- adjustment assembly
- transmission rod
- Prior art date
Links
Images
Landscapes
- Straightening Metal Sheet-Like Bodies (AREA)
- Rolls And Other Rotary Bodies (AREA)
Abstract
Description
本發明是關於一種矯直機的輥輪調整總成,尤其是用以輥軋及/或矯直一板材的輥輪調整總成。The invention relates to a roller adjustment assembly of a straightening machine, especially a roller adjustment assembly for rolling and/or straightening a plate.
台灣發明專利申請第104117365號「滾壓機之夾合間隙與夾合力檢測控制裝置」揭露將一第二滾輪13的二端分別結合於二擺臂16,各該擺臂16的一端樞設於一架體11處,且各該擺臂16的另一端分別連結一驅動裝置20,藉由各該驅動裝置20分別帶動各該擺臂16,以調整該第二滾輪13及一第一滾輪12之間的一滾壓夾合間隙14,各該驅動裝置20以一減速器22分別帶動一螺桿21,利用各該螺桿21帶動各該擺臂16擺動,二荷重元(Load cells)40分別設置於各該驅動裝置20的各該螺桿21,並由各該螺桿21帶動各該荷重元(Load cells)40,以分別測得該第一滾輪12與該第二滾輪13之間的左右二側力量值。Taiwan Invention Patent Application No. 104117365 "Clamping Gap and Clamping Force Detection and Control Device for Rolling Press" discloses that the two ends of a second roller 13 are respectively combined with two swing arms 16, and one end of each swing arm 16 is pivotally arranged on A frame body 11, and the other end of each swing arm 16 is respectively connected with a drive device 20, and each drive device 20 drives each swing arm 16 respectively to adjust the second roller 13 and a first roller 12 A rolling clamping gap 14 between them, each driving device 20 drives a screw 21 with a speed reducer 22, and uses each screw 21 to drive each swing arm 16 to swing, and two load cells (Load cells) 40 are respectively set Each of the screw rods 21 on each of the driving devices 20, and each of the load cells (Load cells) 40 are driven by each of the screw rods 21, so as to measure the left and right sides between the first roller 12 and the second roller 13 respectively. strength value.
然,由於各該擺臂16分別被各該驅動裝置20的各該螺桿21帶動,因此,當各該螺桿21不當帶動各該擺臂16時,會造成該第二滾輪13傾斜地滾壓一物料A(如板材),而使該物料A受壓不均,進而造成該物料A受壓後,發生曲率分佈不均,而產生波浪狀的問題,此外,由於各該荷重元(Load cells)40分別設置於各該驅動裝置20的各該螺桿21,因此只能分別測得該第一滾輪12與該第二滾輪13之間的左右二側力量值,並無法準確地感測該第一滾輪12與該第二滾輪13之間的輥軋力。However, since each of the swing arms 16 is driven by each of the screw rods 21 of each of the driving devices 20, when each of the screw rods 21 improperly drives each of the swing arms 16, the second roller 13 will be caused to roll a material obliquely. A (such as a plate), so that the material A is compressed unevenly, and then the curvature of the material A is unevenly distributed after being compressed, resulting in a wave-like problem. In addition, due to the load cells (Load cells) 40 Each of the screw rods 21 of each of the driving devices 20 is respectively arranged, so the force values on the left and right sides between the first roller 12 and the second roller 13 can only be measured respectively, and the first roller cannot be accurately sensed. 12 and the rolling force between the second roller 13.
本發明的主要目的是在提供一種矯直機的輥輪調整總成,藉由一傳動桿帶動一第一載體,使該第一載體沿著一軸向帶動一第二載體、一荷重元及一輥輪座移動,並使結合於該輥輪座的一輥輪接觸一待輥軋件以進行一輥軋及/或矯直製程,並藉由設置於該輥輪座與該第二載體之間的該荷重元量測該輥輪輥軋一待輥軋件的輥軋力,以做為是否調整輥輪間的距離之依據。The main purpose of the present invention is to provide a roller adjustment assembly of a straightening machine, which drives a first carrier through a transmission rod, so that the first carrier drives a second carrier, a load cell and a load cell along an axial direction. A roller seat moves, and a roller combined with the roller seat contacts a workpiece to be rolled to perform a rolling and/or straightening process, and by being arranged on the roller seat and the second carrier The load cell in between measures the rolling force of the roller rolling a piece to be rolled, as a basis for whether to adjust the distance between the rollers.
本發明之一種矯直機的輥輪調整總成,用以結合於一基座,以調整一第一輥輪與一第二輥輪的一軸向距離,使該第一輥輪與該第二輥輪對一待輥軋件進行一輥軋及/或矯直製程,該輥輪調整總成包含一固定座、一第一載體、一輥輪座、一第二載體、一荷重元及一傳動桿,該固定座用以與該基座結合成一體,該第一載體沿著一第一軸向,該第一載體活動地結合於該固定座,該輥輪座用以結合該第一輥輪,該第二載體設置於該輥輪座與該第一載體之間,該第二載體與該第一載體結合成一體,且該第一載體與該第二載體之間具有一固定間距,該荷重元設置於該輥輪座與該第二載體之間,且該荷重元結合於該輥輪座與該第二載體,該傳動桿結合該第一載體,該傳動桿用以帶動該第一載體,使該第一載體沿著該第一軸向帶動該第二載體、該荷重元及該輥輪座移動,並使該第一輥輪接觸位於該第一輥輪與該第二輥輪之間的該待輥軋件以進行該輥軋及/或矯直製程。A roller adjustment assembly of a straightening machine of the present invention is used to be combined with a base to adjust an axial distance between a first roller and a second roller, so that the first roller and the second roller Two rollers perform a rolling and/or straightening process on a piece to be rolled, and the roller adjustment assembly includes a fixed seat, a first carrier, a roller seat, a second carrier, a load cell and A transmission rod, the fixed base is used to integrate with the base, the first carrier is along a first axial direction, the first carrier is movably combined with the fixed base, and the roller seat is used to combine with the second A roller, the second carrier is arranged between the roller base and the first carrier, the second carrier is integrated with the first carrier, and there is a fixed between the first carrier and the second carrier spacing, the load cell is arranged between the roller seat and the second carrier, and the load cell is combined with the roller seat and the second carrier, the transmission rod is combined with the first carrier, and the transmission rod is used to drive For the first carrier, the first carrier drives the second carrier, the load cell and the roller base to move along the first axial direction, and makes the first roller contact the first roller and the second roller. The workpiece to be rolled between the two rollers is used for the rolling and/or straightening process.
本發明藉由設置於該輥輪座與該第一載體之間的該第二載體結合該荷重元,以準確的感測該第一輥輪與該第二輥輪輥軋該待輥軋件的輥軋力,及藉由該傳動桿帶動該第一載體,使該第一載體沿著該第一軸向帶動該第二載體、該荷重元及該輥輪座移動,以避免該待輥軋件受壓不均,而造成該待輥軋件(如板材)受壓後,發生曲率分佈不均,而產生波浪狀的問題。The present invention combines the load cell with the second carrier arranged between the roller seat and the first carrier to accurately sense the rolling of the workpiece to be rolled by the first roller and the second roller The rolling force, and the first carrier is driven by the transmission rod, so that the first carrier drives the second carrier, the load cell and the roller seat to move along the first axial direction, so as to avoid the Uneven pressure on the rolled piece causes the problem that the curvature distribution of the piece to be rolled (such as a plate) is uneven after being pressed, resulting in a wavy problem.
請參閱第1圖,本發明的一種矯直機的輥輪調整總成100結合於一基座200以形成一矯直機10,該基座200設置於一輸送機構500的一輸送路徑,藉由該輸送機構500以將一待輥軋件(如板材,圖未繪出)輸送至該矯直機10以進行一輥軋及/或矯直製程。Please refer to Fig. 1, a
請參閱第1至3圖,該輥輪調整總成100包含一固定座110、一第一載體120、一輥輪座130、一第二載體140、一荷重元(Load cells)150及一傳動桿160,在本實施例中,一第一輥輪300轉動地結合於該輥輪座130,至少一第二輥輪400轉動地結合於該基座200,請參閱第3、4及5圖,該第一輥輪300與該第二輥輪400之間具有一軸向距離D1,該第一輥輪300及該第二輥輪400被一動力組件(如齒輪組、鍊條及馬達等組件,圖未繪出)帶動,以對該待輥軋件(如板材,圖未繪出)進行該輥軋及/或矯直製程。Please refer to Figures 1 to 3, the
請參閱第1至3圖,該輥輪調整總成100以該固定座110與該基座200結合成一體,該輥輪調整總成100可藉由該固定座110沿著一第二軸向Y調整與該基座200的結合位置,並以至少一固定件111(如螺栓等)與該基座200結合成一體,該第一載體120沿著一第一軸向Z活動地結合於該固定座110,請參閱第3至5圖,在本實施例中,沿著該第一軸向Z,該固定座110具有一導槽112,該第一載體120的一端部120a容置於該導槽112中,該第一載體120的該端部120a被限制於該導槽112,使該第一載體120僅可沿著該第一軸向Z移動。Please refer to Figures 1 to 3, the
請參閱第3至5圖,該第二載體140設置於該輥輪座130與該第一載體120之間,該第二載體140與該第一載體120結合成一體,請參閱第5圖,該第一載體120與該第二載體140之間具有一固定間距D2,在本實施例中,該輥輪調整總成100另包含一第一連接件171,該第二載體140以該第一連接件171與該第一載體120結合成一體,並使該第一載體120與該第二載體140之間形成該固定間距D2,請參閱第3及5圖,在本實施例中,該輥輪調整總成100另包含一第二連接件172,該第二載體140以該第一連接件171及該第二連接件172連接該第一載體120及該第二載體140,使該第一載體120及該第二載體140結合成一體,沿著該第一軸向Z,一第一軸線C1通過該第一連接件171及該輥輪座130,一第二軸線C2通過該第二連接件172及該輥輪座130。Please refer to Figures 3 to 5, the
請參閱第3至5圖,該荷重元150設置於該輥輪座130與該第二載體140之間,且該荷重元150的二端分別結合於該輥輪座130與該第二載體140,在本實施例中,該荷重元150選自於S型荷重元,該荷重元150以螺栓等元件分別結合於該輥輪座130與該第二載體140,使該荷重元150設置於該輥輪座130與該第二載體140之間,較佳地,該荷重元150位於該第一軸線C1與該第二軸線C2之間。Please refer to Figures 3 to 5, the
請參閱第3及5圖,該傳動桿160結合該第一載體120,以帶動該第一載體120沿著該第一軸向Z移動,在本實施例中,該傳動桿160轉動地穿設於該固定座110,且該傳動桿160的一端部161螺合於該第一載體120,較佳地,該第一載體120設有一螺合件121,該傳動桿160以該端部161螺合於該螺合件121,當轉動該傳動桿160時,藉由該傳動桿160帶動該第一載體120,使該第一載體120藉由該第一連接件171及該第二連接件172沿著該第一軸向Z帶動該第二載體140、該荷重元150及該輥輪座130移動,並使該第一輥輪300接觸位於該第一輥輪300與該第二輥輪400之間的該待輥軋件以進行該輥軋及/或矯直製程。Please refer to Figures 3 and 5, the
請參閱第3、4及6圖,該輥輪調整總成100另包含一驅動件180,在本實施例中,該驅動件180轉動地樞設於該固定座110,該驅動件180結合該傳動桿160,該驅動件180用以帶動該傳動桿160轉動,較佳地,該傳動桿160包含一傳動部160a,該驅動件180囓接該傳動部160a,該驅動件180可選自於蝸桿,該傳動部160a可選自於蝸輪,但不以此為限制,當轉動該驅動件180時,藉由該驅動件180囓接該傳動部160a以帶動該傳動桿160轉動,以帶動該第一載體120沿著該第一軸向Z移動。Please refer to Figures 3, 4 and 6. The
請參閱第3及5圖,該輥輪調整總成100另包含至少一導桿190,該導桿190沿著該第一軸向Z活動地穿設於該第二載體140,且該導桿190的一固定端191與該輥輪座130結合成一體,該導桿190可在該第二載體140滑移,較佳地,該第二載體140中設有一襯套141,該導桿190活動地穿設於該襯套141中,藉由該導桿190及該襯套141限制該輥輪座130,以導引該輥輪座130沿著該第一軸向Z移動,並可避免該輥輪座130傾斜,在本實施例中,該第一載體120具有一讓位孔122,該導桿190的一自由端192對準該讓位孔122,較佳地,該自由端192活動地穿設於該讓位孔122中,以避免該第一輥輪300與該第二輥輪400輥軋該待輥軋件時,造成該導桿190撞擊該第一載體120,而損壞該矯直機10。Please refer to Figures 3 and 5, the
請參閱第1及5圖,當該待輥軋件(如板材,圖未繪出)被輸送至該矯直機10時,藉由該第一輥輪300與該第二輥輪400輥軋該待輥軋件,輥軋該待輥軋件的一輥軋力並經由該輥輪座130傳導至設置於該輥輪座130與該第二載體140之間該荷重元150,以量測輥軋該待輥軋件的輥軋力,且由於該荷重元150位於該第一軸線C1與該第二軸線C2之間,因此可增加該荷重元150量測輥軋力的準確度。Please refer to Figures 1 and 5, when the piece to be rolled (such as a plate, not shown in the figure) is transported to the
本發明藉由設置於該輥輪座130與該第一載體120之間的該第二載體140結合該荷重元150,使結合於該輥輪座130與該第二載體140之間的該荷重元150能準確的感測輥軋該待輥軋件的輥軋力,以做為是否調整該第一輥輪300與該第二輥輪400之間的該軸向距離D1之依據,且藉由該傳動桿160帶動該第一載體120沿著該第一軸向Z移動,使該第一載體120沿著該第一軸向Z帶動該第二載體140、該荷重元150及該輥輪座130移動,以避免該待輥軋件被該第一輥輪300及該第二輥輪400輥軋矯直時,因受壓不均,而造成該待輥軋件(如板材)受壓後,發生曲率分佈不均,而產生波浪狀的問題。The present invention combines the
本發明之保護範圍,當視後附之申請專利範圍所界定者為準,任何熟知此項技藝者,在不脫離本發明之精神和範圍內所作之任何變化與修改,均屬於本發明之保護範圍。The scope of protection of the present invention shall be subject to the scope of the appended patent application. Any changes and modifications made by anyone who is familiar with this technology without departing from the spirit and scope of the present invention shall all belong to the protection of the present invention. scope.
10:矯直機100:輥輪調整總成
110:固定座111:固定件
112:導槽120:第一載體
120a:端部121:螺合件
122:讓位孔130:輥輪座
140:第二載體141:襯套
150:荷重元160:傳動桿
160a:傳動部161:端部
171:第一連接件172:第二連接件
180:驅動件190:導桿
191:固定端192:自由端
200:基座300:第一輥輪
400:第二輥輪500:輸送機構
C1:第一軸線C2:第二軸線
D1:軸向距離D2:固定間距
Z:第一軸向Y:第二軸向
10: Straightening machine 100: Roller adjustment assembly
110: fixed seat 111: fixed piece
112: guide groove 120:
第1圖:本發明的矯直機與輸送機構的立體圖。 第2圖:本發明的矯直機的立體圖。 第3圖:本發明的矯直機的輥輪調整總成的立體圖。 第4圖:本發明的矯直機的輥輪調整總成的上視圖。 第5圖:沿著第4圖A-A線的剖視圖。 第6圖:沿著第4圖B-B線的剖視圖。 Figure 1: a perspective view of the straightening machine and the conveying mechanism of the present invention. Figure 2: A perspective view of the straightening machine of the present invention. Figure 3: a perspective view of the roller adjustment assembly of the straightener of the present invention. Fig. 4: The top view of the roller adjustment assembly of the straightener of the present invention. Figure 5: Sectional view along line A-A of Figure 4. Figure 6: Sectional view along line B-B in Figure 4.
100:輥輪調整總成 100: Roller adjustment assembly
110:固定座 110: fixed seat
112:導槽 112: guide groove
120:第一載體 120: First carrier
121:螺合件 121: screw fittings
122:讓位孔 122: Give way hole
130:輥輪座 130: roller seat
140:第二載體 140: second carrier
141:襯套 141: Bushing
150:荷重元 150: load cell
160:傳動桿 160: transmission rod
160a:傳動部 160a: transmission part
171:第一連接件 171: The first connector
172:第二連接件 172: Second connector
180:驅動件 180: Driver
190:導桿 190: guide rod
300:第一輥輪 300: the first roller
400:第二輥輪 400: Second roller
Y:第二軸向 Y: the second axis
Z:第一軸向 Z: the first axis
Claims (8)
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
TW111121331A TWI803342B (en) | 2022-06-08 | 2022-06-08 | Adjustment assembly for a roller of straightening machine |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
TW111121331A TWI803342B (en) | 2022-06-08 | 2022-06-08 | Adjustment assembly for a roller of straightening machine |
Publications (2)
Publication Number | Publication Date |
---|---|
TWI803342B true TWI803342B (en) | 2023-05-21 |
TW202348327A TW202348327A (en) | 2023-12-16 |
Family
ID=87424620
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
TW111121331A TWI803342B (en) | 2022-06-08 | 2022-06-08 | Adjustment assembly for a roller of straightening machine |
Country Status (1)
Country | Link |
---|---|
TW (1) | TWI803342B (en) |
Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPH03114612A (en) * | 1989-09-27 | 1991-05-15 | Daido Kikai Seisakusho:Kk | Automatic control method for correction load of straightening machine |
JPH05111716A (en) * | 1991-10-21 | 1993-05-07 | Kawasaki Steel Corp | Method for operating roller leveler |
US6216940B1 (en) * | 1997-09-10 | 2001-04-17 | Kawasaki Steel Corporation | Pipe forming roll apparatus and method |
WO2013038837A1 (en) * | 2011-09-14 | 2013-03-21 | スチールプランテック株式会社 | Roller leveler and method for leveling plate using same |
CN113714335A (en) * | 2021-08-31 | 2021-11-30 | 江苏江海机床集团有限公司 | Steel pipe straightening machine with real-time detection straightening effect |
-
2022
- 2022-06-08 TW TW111121331A patent/TWI803342B/en active
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPH03114612A (en) * | 1989-09-27 | 1991-05-15 | Daido Kikai Seisakusho:Kk | Automatic control method for correction load of straightening machine |
JPH05111716A (en) * | 1991-10-21 | 1993-05-07 | Kawasaki Steel Corp | Method for operating roller leveler |
US6216940B1 (en) * | 1997-09-10 | 2001-04-17 | Kawasaki Steel Corporation | Pipe forming roll apparatus and method |
WO2013038837A1 (en) * | 2011-09-14 | 2013-03-21 | スチールプランテック株式会社 | Roller leveler and method for leveling plate using same |
CN113714335A (en) * | 2021-08-31 | 2021-11-30 | 江苏江海机床集团有限公司 | Steel pipe straightening machine with real-time detection straightening effect |
Also Published As
Publication number | Publication date |
---|---|
TW202348327A (en) | 2023-12-16 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
US6857301B1 (en) | Displacement-type shape sensor for multi-roll leveler | |
KR101569544B1 (en) | Cable transport device | |
WO2018158266A1 (en) | Device and method for testing and/or calibrating a test stand | |
US5497928A (en) | Apparatus for feeding wire having a linearly movable roller pinch pair with guide rod | |
JP2010511893A5 (en) | ||
CN109226351B (en) | Full-automatic H-shaped steel horizontal straightening machine | |
TWI803342B (en) | Adjustment assembly for a roller of straightening machine | |
CN109127782B (en) | Straightening machine | |
CN114858610A (en) | Whole ring resistance to compression testing arrangement of section of jurisdiction | |
CN113878780B (en) | Polytetrafluoroethylene film calendering equipment | |
US20110027057A1 (en) | Supply station | |
EP1175269B1 (en) | Adjustable monitoring guide | |
CN117380787A (en) | Automatic straightening equipment for linear guide rail bending | |
CN106311767B (en) | Rolling mill roll gap measuring device and method | |
US5551619A (en) | Tread strip centering guide for tire building machines | |
CN212093798U (en) | A school shape equipment for people's air defense door school shape detects | |
CN211538289U (en) | Side gauge mechanism capable of adjusting position of side gauge of conveyor according to width of metal plate | |
TWI712456B (en) | Straightening device | |
DE102017104327B3 (en) | Device and method for testing and / or calibrating a test bench | |
CN112960365A (en) | Conveying device with quick detection mechanism for electronic components | |
CN112849918A (en) | Continuous flexible gradual shaping clamping and conveying device for plates | |
JP2004017131A (en) | Rolling method | |
TWI580489B (en) | Sheet thickness precision control equipment | |
CN220161172U (en) | Flux-cored wire straightener | |
CN216027224U (en) | Straightening device for pipe bender and pipe bender machining line |