自動(dòng)螺絲刀設(shè)計(jì)【快速擰緊 松出螺絲的的多功能手動(dòng)螺絲刀】【說明書+PROE】
自動(dòng)螺絲刀設(shè)計(jì)【快速擰緊 松出螺絲的的多功能手動(dòng)螺絲刀】【說明書+PROE】,快速擰緊 松出螺絲的的多功能手動(dòng)螺絲刀,說明書+PROE,自動(dòng)螺絲刀設(shè)計(jì)【快速擰緊,松出螺絲的的多功能手動(dòng)螺絲刀】【說明書+PROE】,自動(dòng),螺絲刀,設(shè)計(jì),快速,擰緊,螺絲,多功能,手動(dòng),說明書,仿單
#include
#include
#define uchar unsigned char
#define uint unsigned int
//ads7825 P2為輸出數(shù)據(jù)
sbit CS=P1^0;
sbit RC=P1^1;
sbit BUSY=P1^2;
sbit BYTE=P1^3;
//電機(jī)
PWM=P1^4; //PWM輸出
En_m=P1^5; //電機(jī)的另一端
//定時(shí)器/PWM 先高電平再低電平
uchar T_Count=0; //當(dāng)前計(jì)數(shù)值
uchar T_Number=0; //電平轉(zhuǎn)換點(diǎn)
uchar T_Sum=100; //電平最長(zhǎng)時(shí)間
//正轉(zhuǎn)反轉(zhuǎn)按鍵
sbit ZF=P1^6; //低電平反轉(zhuǎn),高電平正轉(zhuǎn)
//扭矩臨界值
uint NJ=0x8000;
void PWM_time() interrupt 1
{
TH0=0xff; //約129us定時(shí)
TL0=0x80;
T_Count++;
if(T_Count==T_Sum) //達(dá)到一個(gè)周期
T_Count=0;
else if(T_Count<=T_Number) //當(dāng)計(jì)數(shù)小于電平轉(zhuǎn)換點(diǎn),設(shè)置高電平
PWM=1;
else //計(jì)數(shù)大于電平轉(zhuǎn)換點(diǎn),設(shè)置低電平
PWM=0;
}
Init_time()
{
TMOD=0x80; //定時(shí)器0 工作方式0
TH0=0xff; //約258us定時(shí)
TL0=0x80;
IE=0x82; //允許T0中斷
TR0=1;
}
Init_ads7825()
{
CS=0; //啟動(dòng)ads7825
}
uint Read_ads7825()
{
uint num=0;
RC=1; //一個(gè)超過25us的低脈沖
_nop_();_nop_();_nop_();_nop_();_nop_();_nop_();
RC=0;
_nop_();_nop_();_nop_();_nop_();_nop_();_nop_();
_nop_();_nop_();_nop_();_nop_();_nop_();_nop_();
_nop_();_nop_();_nop_();_nop_();_nop_();_nop_();
while(!BUSY); //忙等待
RC=1; //脈沖完畢
BYTE=1;
num=P2; //采集高8位
num<<=8;
BYTE=0
num=num|P2; //采集低8位
return num;
}
Contorl_M(uchar i,uchar j,) //控制電機(jī) 占空比 正反轉(zhuǎn)
{
En_m=j; //電機(jī)一端設(shè)置為低電平正轉(zhuǎn) 高電平反轉(zhuǎn)
T_Number=i; //PWM占空比i% 或者1-i%
T_Count=0; //PWM計(jì)數(shù)歸0
}
main()
{
Init_time();
Init_ads7825();
while(1)
{
while(ZF==1) //正轉(zhuǎn) 擰螺絲
{
Contorl_M(60,0); //占空比60
if(Read_ads7825()>NJ) //當(dāng)?shù)竭_(dá)扭矩力,關(guān)閉電機(jī)
Contol_M(0;0);
}
while(ZF==0) //反轉(zhuǎn) 松螺絲
Control_M(30,1); //占空比70
}
}
否
反
正
啟動(dòng)電動(dòng)機(jī)反旋轉(zhuǎn)
正反轉(zhuǎn)按鍵
關(guān)閉電動(dòng)機(jī)
是
電源開關(guān)打開
啟動(dòng)電動(dòng)機(jī)正旋轉(zhuǎn)
模數(shù)ADS7825測(cè)量扭矩
旋轉(zhuǎn)扭矩
大于一定值
一、市場(chǎng)調(diào)查研究:
螺絲是常見的一種工件,大到重型機(jī)械,小到日常生活用品,我們總能看到螺絲的身影。因此擰螺絲的螺絲刀在生活和生產(chǎn)中占有很重要的地位?,F(xiàn)在出現(xiàn)的比較多的螺絲刀有普通的手動(dòng)螺絲刀和電動(dòng)螺絲刀。普通手動(dòng)螺絲刀結(jié)構(gòu)簡(jiǎn)單,價(jià)格低廉,但是效率比較低,特別是有較長(zhǎng)的螺釘要擰時(shí)更明顯。電動(dòng)螺絲刀效率高,且省時(shí)省力,適合大規(guī)模生產(chǎn)使用,且可以設(shè)計(jì)成帶電池的電動(dòng)螺絲刀,從而可以抵消對(duì)電源線的依賴。
二、設(shè)計(jì)方案:
基于以上對(duì)市場(chǎng)現(xiàn)有螺絲刀的性能分析,設(shè)計(jì)一款電動(dòng)螺絲刀。
1、設(shè)計(jì)要求:
能快速擰緊/松出螺絲的的多功能手動(dòng)螺絲刀,其特征是:?jiǎn)问植僮?,可?shí)現(xiàn)快速正反轉(zhuǎn),也可變速為正常螺絲刀一樣工作;可更換多種規(guī)格的螺絲刀頭。
2、 結(jié)構(gòu)設(shè)計(jì) :
本產(chǎn)品由高效變速裝置、多功能刀頭裝置和變速裝置組成。
1) 高效變速裝置 主要由手柄、螺絲刀架、固定在螺絲刀柄內(nèi)的變速直齒輪組組成。工作時(shí),操作手法和普通螺絲刀相近,握住手柄正反轉(zhuǎn),簡(jiǎn)單并排的變速直齒輪組能使螺絲刀桿直接正反旋轉(zhuǎn)。為了結(jié)構(gòu)緊湊,設(shè)計(jì)的變速直齒輪組的傳動(dòng)比為1:3.5 ,當(dāng)用于快速擰緊/松開螺絲時(shí),轉(zhuǎn)一圈手柄,可以使螺絲旋進(jìn)/松開3.5圈,實(shí)現(xiàn)高效旋
高效變速裝置
2)多功能刀頭裝置 是便于拆裝更換螺絲刀頭的裝置,可以安裝不同規(guī)格的螺絲刀頭。
3)變速裝置 緊固螺釘需要較大力矩時(shí),將變速裝置小推件拉到如圖中所示位置,則螺絲刀的傳動(dòng)比為1比1,可以滿足擰緊要求,此時(shí)螺絲刀與普通螺絲刀無異。將變速小推件往右拉,則可實(shí)現(xiàn)1:3.5的高效旋轉(zhuǎn)。
作品整體效果圖如圖-4所示。
圖-2 多功能刀頭裝置
圖-3 變速裝置
圖-4 作品整體效果圖
3、螺絲刀控制部分設(shè)計(jì):
本設(shè)計(jì)產(chǎn)品帶有自動(dòng)停止控制功能,以下為該產(chǎn)品的控制模塊設(shè)計(jì)設(shè)計(jì)如下。
1) 硬件設(shè)計(jì) 如圖1。其主要由單片機(jī)、電機(jī)、開關(guān)電路、模數(shù)轉(zhuǎn)換、力傳感器等組成的。由單刀開關(guān)控制正反轉(zhuǎn),來實(shí)現(xiàn)擰螺絲和松螺絲兩個(gè)動(dòng)作。
當(dāng)需要擰螺絲時(shí),斷開開關(guān)S1,打開電源。單片機(jī)將控制模數(shù)轉(zhuǎn)換,把扭矩力電壓輸入到單片機(jī),當(dāng)扭矩力小于一定值時(shí),電機(jī)正轉(zhuǎn)。當(dāng)扭矩力達(dá)到一定值時(shí),關(guān)閉電機(jī)。
當(dāng)需要松螺絲時(shí),閉合開關(guān)S1,打開電源。單片機(jī)將控制電機(jī)一直反轉(zhuǎn),直到手動(dòng)關(guān)閉電源。
圖1
2)程序流程設(shè)計(jì)
3)程序軟件設(shè)計(jì)
程序預(yù)定義 如圖3。預(yù)先定義了有單片機(jī)封裝庫(kù),ADS7825模數(shù)轉(zhuǎn)換,電機(jī),PWM,按鍵,扭矩力調(diào)節(jié)值。
圖3
主程序 如圖4。通電以后,首先初始化各個(gè)寄存器,調(diào)整各個(gè)寄存器工作狀態(tài)。然后讀取張反轉(zhuǎn)按鍵ZF的狀態(tài)。如果是正轉(zhuǎn)狀態(tài),則控制電機(jī)以占空比60%正轉(zhuǎn),直到達(dá)到一定扭矩力才會(huì)停下來。如果是反轉(zhuǎn)狀態(tài),則控制電機(jī)以占空比70%反轉(zhuǎn),直到手動(dòng)關(guān)閉電源。
圖4
PWM定時(shí)器 如圖5.設(shè)置定時(shí)器T,定時(shí)129us中斷一次。以129us乘以100為一個(gè)PWM控制周期。在電平轉(zhuǎn)換點(diǎn)之前為高電平,之后為低電平。
圖5
寄存器初始化 如圖6。初始化定時(shí)器,啟動(dòng)模數(shù)轉(zhuǎn)換。
圖6
讀取扭矩力 如圖7.單片機(jī)以一個(gè)超過25us的低脈沖對(duì)ADS7825的RC引腳進(jìn)行操作,控制BYTE采集16位的扭矩力數(shù)據(jù)。
圖7
控制電機(jī) 如圖8。單片機(jī)控制定時(shí)器的電平轉(zhuǎn)換點(diǎn)來控制PWM的占空比和電機(jī)轉(zhuǎn)向。
圖8
三 創(chuàng)新點(diǎn)總結(jié):
1、此電動(dòng)螺絲刀可以使用電池操作,抵消了以前的電動(dòng)螺絲刀對(duì)電源線的依賴;
2、其巧妙利用齒輪的變速傳動(dòng),轉(zhuǎn)動(dòng)主動(dòng)輪,帶動(dòng)從動(dòng)輪高倍轉(zhuǎn)動(dòng),使被擰螺釘快速擰緊/松開,大大提高了工作效率;
3、還可以快速變換不同規(guī)格的螺絲刀頭,適合對(duì)各種規(guī)格的螺絲操作。;
4、其體積小巧、結(jié)構(gòu)緊湊、攜帶方便,操作時(shí)只需單手就可以完成,高空作業(yè)的操作人員無須雙手操作,大大提高了高空作業(yè)的安全系數(shù);
5、結(jié)構(gòu)簡(jiǎn)單、造價(jià)低廉,適合大眾的需求。
四、應(yīng)用前景:
現(xiàn)在市場(chǎng)上主要有普通手動(dòng)螺絲刀和帶電源線的電動(dòng)螺絲刀這兩種。普通手動(dòng)螺絲刀擰螺釘時(shí),受到手轉(zhuǎn)動(dòng)角度的限制,其速度慢、效率低,工作消耗人的體力高,而且,當(dāng)在高空仰頭工作時(shí),人容易勞累;而電動(dòng)螺絲刀的工作效率雖高,但由于其購(gòu)買價(jià)格也高,且受到用電的限制,只能在有電源供應(yīng)的地方使用,其體積較大,攜帶不方便。
高效變速螺絲刀克服了上面兩種螺絲刀的缺陷,其體積小巧,便于攜帶,工作時(shí)只需單手操作,傳動(dòng)比可達(dá)1:3.5甚至可以設(shè)計(jì)更高的傳動(dòng)比,工作方便快捷,省時(shí)省力,大大提高了工作效率;而且高效變速螺絲刀的生產(chǎn)流程相對(duì)簡(jiǎn)單,價(jià)格比較便宜,更適合大眾需求。
附件:部分零件圖
心 得 體 會(huì)
1、從設(shè)計(jì)創(chuàng)意到完成作品的加工制作,我們經(jīng)歷了資料的檢索、查詢、整理與分析,數(shù)據(jù)處理能力得到提升;方案的不斷修改與完善讓我們學(xué)會(huì)設(shè)計(jì)與加工要統(tǒng)籌兼顧;在機(jī)構(gòu)設(shè)計(jì)與產(chǎn)品加工中我們將專業(yè)知識(shí)充分運(yùn)用到了實(shí)際產(chǎn)品開發(fā)。在整個(gè)設(shè)計(jì)與制造過程中我們進(jìn)一步掌握了機(jī)械設(shè)計(jì)與加工的步驟和要領(lǐng),深刻體會(huì)到團(tuán)隊(duì)協(xié)作的重要性,同時(shí)團(tuán)隊(duì)成員綜合素質(zhì)和動(dòng)手能力得到了很大的提高。
2、本次制作充分將所掌握的課本知識(shí)融入其中,比如把《機(jī)械原理》,計(jì)算機(jī)編程語言知識(shí)運(yùn)用到機(jī)構(gòu)的設(shè)計(jì)中,運(yùn)用《工程力學(xué)》、《金屬工藝學(xué)》和《數(shù)控加工技術(shù)》知識(shí)結(jié)合CAD、PROE軟件對(duì)零件進(jìn)行了合理的選材和設(shè)計(jì)加工制造。
3、從早期的設(shè)計(jì)構(gòu)思到作品加工完成,我們深刻認(rèn)識(shí)到現(xiàn)實(shí)與理論往往有較大差距,理論設(shè)想需要得到實(shí)驗(yàn)和實(shí)際產(chǎn)品的驗(yàn)證,機(jī)械設(shè)計(jì)與制造是一個(gè)不斷循環(huán)反復(fù)完善的過程。通過參與作品制作,我們學(xué)到了不少實(shí)用知識(shí),真正體會(huì)到實(shí)踐出真知的道理。
4、當(dāng)我們耐心地解決一個(gè)又一個(gè)問題時(shí),體會(huì)到機(jī)械設(shè)計(jì)是一項(xiàng)牽一發(fā)而動(dòng)全身的工作。因此在加工制造之前考慮整體機(jī)構(gòu)各方面因素的時(shí)候要非常嚴(yán)謹(jǐn)和務(wù)求全面,在追求功能的實(shí)現(xiàn)的同時(shí),必須充分地考慮到實(shí)際加工的困難、產(chǎn)品的性價(jià)比等??傊?,機(jī)械設(shè)計(jì)要“理論結(jié)合實(shí)際”。
螺絲刀控制系統(tǒng)
1、 硬件設(shè)計(jì)
如圖1。其主要由單片機(jī)、電機(jī)、開關(guān)電路、模數(shù)轉(zhuǎn)換、力傳感器等組成的。
由單刀開關(guān)控制正反轉(zhuǎn),來實(shí)現(xiàn)擰螺絲和松螺絲兩個(gè)動(dòng)作。
當(dāng)需要擰螺絲時(shí),斷開開關(guān)S1,打開電源。單片機(jī)將控制模數(shù)轉(zhuǎn)換,把扭矩力電壓輸入到單片機(jī),當(dāng)扭矩力小于一定值時(shí),電機(jī)正轉(zhuǎn)。當(dāng)扭矩力達(dá)到一定值時(shí),關(guān)閉電機(jī)。
當(dāng)需要松螺絲時(shí),閉合開關(guān)S1,打開電源。單片機(jī)將控制電機(jī)一直反轉(zhuǎn),直到手動(dòng)關(guān)閉電源。
圖1
2、 程序流程設(shè)計(jì)
圖2
3、 程序軟件設(shè)計(jì)
程序預(yù)定義
如圖3。預(yù)先定義了有單片機(jī)封裝庫(kù),ADS7825模數(shù)轉(zhuǎn)換,電機(jī),PWM,按鍵,扭矩力調(diào)節(jié)值。
圖3
主程序
如圖4。通電以后,首先初始化各個(gè)寄存器,調(diào)整各個(gè)寄存器工作狀態(tài)。然后讀取張反轉(zhuǎn)按鍵ZF的狀態(tài)。如果是正轉(zhuǎn)狀態(tài),則控制電機(jī)以占空比60%正轉(zhuǎn),直到達(dá)到一定扭矩力才會(huì)停下來。如果是反轉(zhuǎn)狀態(tài),則控制電機(jī)以占空比70%反轉(zhuǎn),直到手動(dòng)關(guān)閉電源。
圖4
PWM定時(shí)器
如圖5.設(shè)置定時(shí)器T,定時(shí)129us中斷一次。以129us乘以100為一個(gè)PWM控制周期。在電平轉(zhuǎn)換點(diǎn)之前為高電平,之后為低電平。
圖5
寄存器初始化
如圖6。初始化定時(shí)器,啟動(dòng)模數(shù)轉(zhuǎn)換。
圖6
讀取扭矩力
如圖7.單片機(jī)以一個(gè)超過25us的低脈沖對(duì)ADS7825的RC引腳進(jìn)行操作,控制BYTE采集16位的扭矩力數(shù)據(jù)。
圖7
控制電機(jī)
如圖8。單片機(jī)控制定時(shí)器的電平轉(zhuǎn)換點(diǎn)來控制PWM的占空比和電機(jī)轉(zhuǎn)向。
圖8
畢業(yè)設(shè)計(jì)(論文)外文翻譯
題目 鈦合金攻螺紋技術(shù)及絲錐改進(jìn)
專 業(yè) 名 稱 機(jī)械設(shè)計(jì)制造及其自動(dòng)化
班 級(jí) 學(xué) 號(hào) 078105235
學(xué) 生 姓 名 曾 威
指 導(dǎo) 教 師 王細(xì)洋
填 表 日 期 2011 年 3 月 12 日
鈦合金攻螺紋技術(shù)及絲錐改進(jìn)
【摘要】鈦合金是一種比重小、強(qiáng)度高、耐腐蝕和耐熱等特性的金屬結(jié)構(gòu)材料。鈦合金攻螺紋切削時(shí)刀具極易磨損,刀具壽命很短。通過對(duì)鈦合金攻螺紋過程受力分析,將絲錐直槽變?yōu)槁菪郏梢允骨邢鳠岷颓邢髁Σ恢劣谶^分集中于切削刃附近,改善散熱條件,也可加強(qiáng)切削刃,減少崩損。
【關(guān)鍵字】鈦合金、攻螺紋、金屬結(jié)構(gòu)材料、熱處理強(qiáng)化、絲錐直槽、螺旋槽
鈦合金是一種比重小、強(qiáng)度高、耐腐蝕和耐熱等特性的金屬結(jié)構(gòu)材料。TA7屬單相組織的型鈦合金,不能熱處理強(qiáng)化,通常在退火狀態(tài)下使用,具有良好的熱穩(wěn)定性和熱強(qiáng)性。TC4屬雙粗組織的型合金,有較高的力學(xué)性能和高溫變形能力,良好的韌性和塑性,能進(jìn)行各種熱加工和熱處理強(qiáng)化。鈦合金在100~150仍有很高的強(qiáng)度,被廣泛應(yīng)用于火箭發(fā)動(dòng)機(jī)外殼、航空發(fā)動(dòng)機(jī)氣機(jī)盤、葉片、結(jié)構(gòu)鍛件等。
1.鈦合金攻螺紋切削過程特點(diǎn)
鈦合金是一種難切削材料,突出特點(diǎn)是刀具極易磨損,刀具壽命很短。主要體現(xiàn)在:
(1)切削層變形小由于鈦合金的塑性低和鈦的化學(xué)活潑性高,在高的切削溫度下化學(xué)親和性很強(qiáng),容易與大氣中的氧、氮等元素化合,從而脆性降低,切削變形小。
(2)切削溫度高鈦合金導(dǎo)熱性很差,導(dǎo)熱系數(shù)只相當(dāng)于45鋼的1/5~1/7切削熱不容易傳出,集中在切削區(qū)和切削刃附近較小范圍內(nèi)。
(3)冷硬現(xiàn)象嚴(yán)重一是切削過程中產(chǎn)生的塑性變形,另一方面在高的切削溫度下,鈦很容易吸收空氣中的氧和氮形成硬而脆的外皮,冷硬現(xiàn)象不僅會(huì)降低零件的疲勞強(qiáng)度,而且能加劇刀具磨損程度。
(4)刀具容易磨損主要有機(jī)械磨損:毛坯余量和組織不均勻,硬皮與刀具表面接觸發(fā)生強(qiáng)烈的機(jī)械摩擦,使刀具受到不均勻的負(fù)荷造成崩刃現(xiàn)象。此外切削過程中已加工表面較大的彈性恢復(fù),也使刀具磨損。粘接磨損:鈦合金對(duì)刀具材料的親和性很強(qiáng),在切削溫度高和切削力大的條件下,很容易與刀具中的某些元素如C、Ti、Co等粘附在一起,隨切屑的流出帶走刀具材料中的質(zhì)點(diǎn)。
2.鈦合金攻螺紋過程受力分析及改善措施
(1)切削層變化帶來的絲錐受力不均勻絲錐攻螺紋過程屬于半封閉式多刃薄切削過程,與車削螺紋相比較,切削條件惡劣。在工件底孔內(nèi)切出的螺紋,是由絲錐切削刃瓣上的各切削牙逐層切削而成的。不難看出,絲錐或工件旋轉(zhuǎn)一周后,每個(gè)切削牙都前進(jìn)一個(gè)螺距,并分別從工件上切除一層金屬。用機(jī)用絲錐攻螺紋時(shí),隨著絲錐切入孔中,切削層總面積逐漸增加。當(dāng)切削錐全部進(jìn)入孔中工作時(shí),切削層總面積達(dá)到最大值。當(dāng)絲錐再繼續(xù)前進(jìn)時(shí),由于校準(zhǔn)部不起切削作用,所以切削層總面積不再增加。對(duì)于鈦合金來說,因切削層巨大的摩擦力和塑性變形給運(yùn)動(dòng)中的絲錐受力帶來了波動(dòng)。一個(gè)最有效的改變辦法是將螺紋孔底孔直徑增加到所允許的上限,最大程度地減小切削層厚度。
(2)“陷切”造成的絲錐受力惡化攻螺紋時(shí),作用在絲錐各切削刃上的切削力可分解為軸向力、徑向力和切向力。切向力直接決定攻螺紋扭距的大小,其他兩個(gè)分力則影響攻螺紋的切削過程。從圖2中可以看出,開始攻螺紋時(shí),絲錐依靠在工件上切出的JI螺紋側(cè)面被引導(dǎo)前進(jìn)。但因JI面太小,加之鈦合金塑性變形,承受不了絲錐對(duì)工件的軸向力而產(chǎn)生接觸變形,使絲錐的軸向前進(jìn)量不足,各刃瓣滯后并在螺紋表面一側(cè)切出階臺(tái)而造成“陷切”現(xiàn)象。攻螺紋繼續(xù)進(jìn)行時(shí),在由KJ、GH、GF、CD等側(cè)刃、頂刃切削時(shí)產(chǎn)生的軸向力合力Fa(-)和由JI、EF、AB等側(cè)刃切削時(shí)產(chǎn)生的軸向力合力Fa(+)未趨平衡以前,“陷切”現(xiàn)象將繼續(xù)發(fā)生。但隨著絲錐與工件相接觸的螺紋引導(dǎo)表面的增大,“陷切”量將逐漸減??;攻螺紋的“陷切”現(xiàn)象直接影響螺紋一側(cè)面的正確成形,并使其表面粗糙度值高,嚴(yán)重時(shí)足以啃住絲錐,使之處于抱死狀態(tài)。
(3)攻螺紋過程中的擺動(dòng)容易使絲錐單向嵌入工件基體中在絲錐正常工作的條件下,如前所述,由于同時(shí)工作的絲錐各切削牙切削寬度不等,使前面切削牙的切削面積大于后面切削牙的切削面積,所以,作用在絲錐各刃瓣上的徑向力不等,也使徑向力的合力不等于零()。顯然,在攻螺紋時(shí),絲錐將偏向徑向力小的一邊,絲錐的軸線相對(duì)于孔的軸線將發(fā)生偏移,導(dǎo)致被加工的螺孔擴(kuò)大同時(shí)也使絲錐緊貼在一邊。當(dāng)絲錐的切削錐長(zhǎng)度較短,即導(dǎo)角較大時(shí),各刃瓣上切削牙的切削寬度差別愈大,中徑擴(kuò)大的可能性越大,故絲錐的切削錐長(zhǎng)度不宜太短。
(4)攻螺紋扭矩的非穩(wěn)定性攻螺紋的扭矩由三個(gè)部分組成,即切削扭矩、絲錐與已加工螺紋間的摩擦扭矩和由于切屑堵塞在容屑槽內(nèi)產(chǎn)生的扭矩。在正常切削的條件下,攻螺紋扭矩主要是切削扭矩,后一種扭矩所占的比重一般很小,可忽略不計(jì)。絲錐在通孔中攻螺紋時(shí)扭矩的變化情況。隨著絲錐切入底孔,進(jìn)行切削的牙數(shù)增加,攻螺紋扭矩增大。當(dāng)切削錐全部進(jìn)入底孔時(shí),扭矩達(dá)到最大值。當(dāng)絲錐的切削錐從孔的另一端露出時(shí),攻螺紋扭矩開始減小。顯而易見,攻螺紋扭矩基本上與絲錐切削層總面積成正比,攻螺紋扭矩的變化規(guī)律與絲錐切削層總面積的變化規(guī)律大致相同。為了避免在扭矩最大值時(shí)用力過猛,必須掌握所施加扭矩大小及緩急程度。另外還可以通過以下途徑來有效地減小攻螺紋扭矩:1、增大前角使攻螺紋扭矩減小,例如前角為時(shí),假設(shè)扭矩為100%,那么當(dāng)前角變?yōu)闀r(shí),則扭矩就減小到70%,前角時(shí)扭矩僅達(dá)到原來的53%,但是增大前角會(huì)使絲錐強(qiáng)度降低,也不利于散熱,這一點(diǎn)應(yīng)注意。
一.選擇盡可能少的絲錐刃瓣數(shù)即槽數(shù),這是因?yàn)椴蹟?shù)的增加,一方面使切削厚度變薄,難以切削,另一方面增加了絲錐與工件摩擦面積,使絲錐扭矩變大,一般的四槽比三槽約增加8%的扭矩。
二.選擇對(duì)口的切削液,減小摩擦。如濃度較大的硫化油,添加15%~20%的四氯化碳,可降低表面粗糙度值和減小絲錐咬死的可能性。
3.絲錐前面導(dǎo)向部分的導(dǎo)角既不能過大也不能太小,導(dǎo)角過大,切削層厚度大,受力容易崩牙咬死,切屑也不易卷曲,但導(dǎo)角過小,切屑過薄,在硬化層上摩擦,加劇絲錐磨損。另外絲錐校準(zhǔn)部分不宜過長(zhǎng),否則和螺紋孔壁摩擦將會(huì)加劇,一般為4~5個(gè)螺距。
4.絲錐改進(jìn)實(shí)例由于鈦合金材料在加工過程中容易產(chǎn)生表面加工硬化,特別是加工小直徑螺紋孔,成了難題。攻螺紋時(shí)由于縮孔,攻上幾扣,就抱住絲錐,切削力特別大,普通絲錐容易折斷,使工件無法繼續(xù)加工。基于上述受力分析過程,將絲錐的大徑、中徑、小徑磨小并分為四個(gè)等級(jí),每只絲錐相差0.1mm,以期減少切削力帶來的影響,但是由于切削量小,工件又容易產(chǎn)生加工硬化,加工起來比較費(fèi)勁,效率很低,攻上幾個(gè)螺紋孔就不能繼續(xù)使用了。后來我從改變切削的角度入手,經(jīng)過多次反復(fù)實(shí)驗(yàn),將絲錐直槽變?yōu)槁菪?,即在原切削牙上按螺旋角度磨?~2扣,以減小絲錐與切屑的接觸面積。前角由原來的減少至,使切屑與前刀面的接觸長(zhǎng)度小,既可以增加切屑與前刀面的接觸面積,使切削熱和切削力不至于過分集中于切削刃附近,改善散熱條件,也可加強(qiáng)切削刃,減少崩損。
參考文獻(xiàn):
[ 1] 高鐘锍.機(jī)電控制工程[M].北京:清華大學(xué)出版社,2002.
[2] 張建民.機(jī)電一體化系統(tǒng)設(shè)計(jì)[M].北京:北京理工大學(xué)出版社,2002.
[ 3] 王貴明.數(shù)控實(shí)用技術(shù)[M].北京:機(jī)械工業(yè)出版社,2000.
The alloy of titanium attacks whorl technology
and screwtap to improve
[Abstract] Titanium is of small specific gravity , high strength, strong corrosion resistance and heat resistance ,which are the characteristics of metallic structural materials. Titanium is a kind of material easily tapped cutting tool wear, shorting its using time . Titanium is tapping on stress analysis, tapping directly into the spiral groove that can make cutting heat and force without being unduly concentrated in the vicinity of the cutting edge ,not only improve heat dissipation, but also strengthen the cutting edge, in order to reduce losses collapse.
[Key word] Titanium, Gewinde scheiden, metal structural materials, heat resistance, Straight Fluted Taps, spiral chute
Titanium alloy is a kind of metal structural material , with characters of small proportion , high intensity, strong corrosion-resisting and heat-resisting and so on . TA7 belongs to the organized single-phase type of titanium alloy , which can't be strengthen under the heat treatment, used under the condition of putting out the fire in common situation , with good performence of hot stability and intensity . TC4 belongs to organized double-thick of type titanium alloy , which has higher mechanics performance and the ability of deformed under high temperature, good toughness and plasticity, which can work with all kinds of heat process and strengthen treatment. Titanium alloy still has very high intensity under. It is widely used in the outer shell of rocket engine, aviation engine chassis, blade, structural forging,etc..
1. The characteristics of the titanium alloy’s Gewinde scheiden whorl cut the process:
The titanium is a material which is very hard to cut. The outstanding characteristic is that the cutting tool is very easy to be polish and its life-span is very short . Main reflects are as following :
(1)Cut layer can transfigure small because Titanium alloy is plasticity lowness and the titanium chemistry is activity . Under the high temperature of cutting that have strong affine of chemistry and easy combination with element chemical such as oxygen , nitrogen easy to hit the target with atmosphere. It is brittleness lessening , cutting deformation are minor.
(2)Cut temperature high titanium alloy heat conductivity very bad, heat conduction coefficient whether 45 steel of 1/5~1/7s cut hot only, in smaller range near concentrating on the cutting area and cutting the edge.
(3)Cold hard phenomenon serious one cut out of shape plasticity that course produce, on the other hand at high cutting temperature, titanium very apt oxygen and nitrogen to absorb air form hard and fragile crust, the hard phenomenon of cold not only will reduce fatigue strength of the part but also can aggravate the cutter and wear and tear the intensity.
(4)The cutter is apt to wear and tear and mainly have machinery that is worn and torn: Blank surplus and organization even, hard skin with cutter surface exposed to, take place strong machinery rub, make the cutter caused and broken out the edge phenomenon by the load not even. Cut course process surface loud elasticity resume, make the cutter wear and tear too already. Sticking wears and tears: Titanium alloy affinity of material very strong to cutter, in cut temperature to be high cutting strength under the heavy terms, it is very easy to seize with some elements in the cutter such as C, Ti, Co,etc. together, with flowing out the particle taken away in the cutter material of smear metal.
2. Titanium alloy attacks the whorl course and is analyzed and improved the measure by strength.
(1)Cut layers of screwtap that change bring specialize in strength even screwtap whorl course belong to semi-closed many edge thin to cut the course, compared with whorl of turning, it is abominable to cut the condition. Whorl that cut out in work piece underport, to cut by screwtap edge every of petal cut tooth chase layers of cut, as shown in Fig. 1. It is easy to find out, after the screwtap or work piece rotates a circle, each one cuts the tooth and advances a pitch, and excise a layer of metal from work piece separately. Specialize in whorl, cut hole with machine with screwtap with screwtap, cut one layer of the whole area increase. When cutting all awls and entering and working in the hole, cut one layer of the whole area and reach the maximum. When the screwtap continues advancing again, do not play a cutting role because of the department of regulating, cut one layer of the whole area to no longer increase. To alloy of titanium, cut layers of enormous frictional force and plasticity deformation give screwtap of sport bring, fluctuate strength. A most effective change method increases underport diameters of hole of the whorl to the upper limit allowed, reduce and cut one layer of thickness to the greatest extent.
(2)" Fall into, cut " screwtap that cause worsen, specialize in whorl, act on in screwtap cutting strength cutting strength at the edge can resolve axial force, radial strength and tangential force into each ", as shown in Fig. 2. Tangential force determine, specialize in whorl size to sprain distance directly, other two component force influence cutting course to specialize in the whorl. Can find out begin specialize in whorl, JI that screwtap rely on at work piece cutting out lead, advance to the side of the whorl in 2 Fig.. But because JI too light, in addition titanium alloy plasticity out of shape, bear screwtap axial force in work piece produce, keep in touch out of shape, make the axial of the screwtap insufficient in advancing amount, every edge one lags behind and cuts out the steps platform and causes the " fall into and cut " phenomenon on one side of the surface of whorl. Specialize in whorl continue go on, by KJ, GH, GF, CD side edge, carry edge axial force that produce join forces cut, join forces Fa by JI, EF, axial force that AB produce when the side edge is cut '), trend towards before such as equilibrium, " fall into and cut " the phenomenon will continue taking place ". But the whorl contacted with the screwtap and work piece guides superficial increase, " fall into and cut " quantity will be reduced gradually "; Attack " falls into and cuts " the phenomenon influences the taking shape correctly of a side of whorl directly "ing of whorl, make surface its roughness enough to gnaw live in screwtap when being value serious high, make it in, embrace state extremely.
(3)Specialize in whorl swing of course apt to make screwtap to be one-way to imbed work piece of the matrices on terms that the screwtap work normally, as noted previously, because the screwtap working at the same time each cuts the tooth and cuts the width, make the cutting area of cutting the tooth above cut the cutting area of the tooth in the back of greater thanning, so, the radial strength of acting on screwtap every edge one makes the resultant of forces of radial strength not equal zero()As shown in Fig. 3. Obviously, while attacking the whorl, screwtap agree more on radial to be strength little axis axis in hole of screwtap take place skew, cause, expand at the same time making screwtap stick to aside closely spiral shell hole that process. Cutting in screwtap awl length relatively short, lead when angle heavy, every edge cut cutting of tooth width difference loud at the petal, the bigger possibility China expanded directly, so the awl length of cutting of the screwtap should not be too short.
(4)That attacked torsion of whorl is not that the torsion that stability attacks the whorl is made up of three parts, cut torsion, screwtap with process friction torsion of whorl already and because smear metal stop up in torsion that bits produce in the trough of holding. Under the terms of cutting normally, it mainly cuts the torsion to attack the torsion of whorl, the last one proportion that torsion account for generally very light, can ignore. In Fig. 3 is the change of the torsion while attacking the whorl in the open hole of the screwtap. Cut underport with screwtap, tooth cut to go on count, increase, specialize in torsion of whorl increase. When cutting all awls and entering the underport, the torsion reaches the maximum. When the cutting awl of the screwtap emerges from another end of the hole, specializing in the torsion of whorl begins to reduce. Obviously, specialize in whorl torsion cut one layer of the whole area directly proportional to with screwtap basically, specialize in whorl change law and screwtap of torsion cut layers of change of the whole area law roughly same. In order to avoid exerting oneself in the torsion maximum too quicklily, must grasp the torsion size and pressing or otherwise intensity exerted. In addition it come, reduce, specialize in whorl torsion effectively through following route:
One. It is before it increase for horn make specialize in there aren't whorl the torsions,such as before horn, suppose torsion have 100%, angle turn into, torsion reduce get 70% then, the torsion only reaches original 53% when the the previous corner at present then, but the angle will make the screwtap intensity reduce before increasing, unfavorable to dispelling the heat, this should notice.
Two. choose screwtap edge petal that lack as much as possible count the trough is counted promptly, this is because the increase that the trough counted, make, cut thickness thin, difficult to cut, increase screwtaps and work piece rub the area on the other hand on one hand, make the torsion of screwtap large, four general troughs nearly increase 8% of the torsion than three troughs.
3 .Chooses the fitting cutting liquid, reduce the friction. Such as density heavy vulcanization oil, add 15%0% tetrachloromethane, can reduce surface roughness value and reduce possibility that screwtap kill.4~5, Whom screwtap lead partly lead angle can too little either, lead angle to be too big, cut layers of thickness heavy, strength being apt to break out tooth kill, the smear metal is difficult to be curly, but lead horn to be too light, smear metal too thin, rub on hardening layer, aggravate screwtap wear and tear. In addition the calibration part of the screwtap should not be too long, otherwise rub against whorl hole wall and aggravate, it is generally 4 pieces of pitch.
4.The screwtap improves the embodiment and is prone to the work hardening of surface in the course of processing because of the titanium alloy material, especially process the small diameter whorl hole, become the difficult problem. Specialize in whorl, because of contract hole, several deduct attack, embrace screwtap, cut strength to be very much heavy, the ordinary screwtap is easy to break, make the work piece unable to continue processing. Because of described above to receive strength analytic process, large foot-path, hit foot-path, path rub little dividing 4 grades into of screwtap, each screwtap differs by 0.1mm, in the hope of reducing and cutting the influence that strength brings, but because the cutting amount is small, the work piece is prone to the work hardening again, process and stand up more strenuous, efficiency is very low, attack, have several whorl hole can continue and use. Later on I start with changing the angle that is cut, through testing repeatedly many times, turn spiral trough into by frank trough screwtap, in cut tooth rub, go, 1 spike according to spiral angle originally, as shown in Fig. 5, in order to reduce the contact area of screwtaps and smear metal. The previous horn come from original reduction, make smear metal and one hundred sheetses of Taxi contact length little ago, already can increase smear metal and one hundred sheetses of Taxi contact area ago, make, cut hot cutting strength to be unlikely to concentrate on, cut edge while being excessive, improve the heat dissipation condition, can also strengthen and cut the edge, reduce and break out and decrease.
effect of the process parameters on the rim thickness of glass fiber and Wollastonite filled PBT by conventional and microcellular injection-molding process has been conducted.
References:
[1]Gao Zhongshu. The electromechanics controls the project [M]. Beijing: The publishing house of Tsing-Hua University, 2002.
[2]Zhang JianMin. Electromechanics' integrated system is designed [M]. Beijing: Beijing BJ Universithy of Polytech Press, 2002.
[3]Wang GuiMing. Practical technique of numerical control [M]. Beijing: The publishing house of the mechanical industry, 2000.
收藏