TARIFNAME Çift Emici Basici Aparatli, Çift Hazneli Gaz Veya Akiskan Transfer Sistemi Bulus, "çift (iki adet) emici basici aparat ve bunlarin girdigi sol hazne ve sag hazneli gövdeye sahip emme basma özellikli gaz veya akiskan transfer sisteminde" , Çift emici basici aparatin, motordan aldigi güçle gövdedeki girdigi sol hazne ve sag hazne içerisinde yalpalama duvarina temas ederek yalpalama/ salinim yapmasi, Emme borusundan gelen gaz veya akiskanin hem sol hazneye hem de sag hazneye giris yapmasi, Çift eliptik diskin salinim yaparak uyguladigi baski sonucu, hem sol hazneden hem de sag hazneden çikan gaz veya akiskanin basma borusundan çikis yapmasi, Emici ve basici aparatlarin sol haznede ve sag haznede yalpalama yapmasi sonucunda emilen ve basilan gazin/akiskanlarin emme ve basma islemlerinin es zamanli ve sürekli yapilmasi, emme ve basma islemlerinin kesintiye ugramamasi, emdigi gaz/akiskan kadar gaz/akiskan basmasi ile ilgilidir. Teknigin bilinen durumu: 2019/20652 nolu patent basvurularinda; Bir adet emici basici aparatin (yalpalama aparatinin) tek gövde haznesinde, motor yardimiyla döndürülerek yalpalama duvarina temas ederek yatay konumda salinim yaparak emme borusundan aldigi gazi/ akiskani gövdenin emme bölgesine, oradan da basma bölgesine alarak basma borusuna basildigi düzenek/pompa/vakum makinesi/ cihaz anlatilmistir. Tek gövde haznesi içerisinde tek emici basici aparatli sistemde çalisma asamasinda balans/denge sorunu çiktigindan, tek gövde içerisindeki iki haznede çift (iki adet) emici basici aparatli pompa/vakum makinesi gelistirilmistir. Bulusun amaci: Tek gövde içerisindeki iki haznede yalpalama yapan çift emici basici aparatli transfer sistemi/pompasi/vakum makinesi gelistirilerek; Çalisma esnasinda titremeyi önlemek, balans/denge sorununu gidermek, Emilen ve basilan gaz ve/veya akiskanlarin miktarini arttirmaktir. Bulusun özelligi; l-Tek gövde içerisinde iki adet hazne (sol hazne ve sag hazne) bulunmasi, 2-Gövdenin solunda ve saginda bulunan emme borusunun baglandigi emme borusu giris agzi, basma borusunun baglandigi basma borusu giris agzi içermesi, 3-Sol haznede milin girecegi sol hazne mil giris deligi, sag haznede milin girecegi sag hazne mil giris deligi olmasi, 4-Emici basici aparatin, mil üzerindeki safta yerlestirilen iki küre arasina konumlandirilan eliptik diskten olusmasi, -Sol hazne ve sag hazne içerisine emici basici aparat yerlestirilmesi, (millerin sol hazne mil giris deliginden ve sag hazne mil giris deliginden sokulmasi), 6-Bir motor yardimiyla dönen millerin üzerindeki eliptik diskleri dairesel hareket yapmaya zorladigi, 7-Yalpalama duvari içbükey yüzüne temas eden eliptik disklerin dairesel hareketi yapamayip salinim/yalpalama yapmasi, 8-Eliptik disklerin yalpalamasi sonucunda emme borusundan gelen gaz veya akiskanlarin hazne içerisinde uygulanan basinçla basma borusuna ilerletilmesidir. Bulusun daha iyi anlasilmasi için hazirlanan sekiller sunlardir; Sekil l-Emici basici aparati olusturan parçalarin demonte konumda perspektif görünüsü, Sekil 2-Kürenin sol taraftan perspektif görünüsü, Sekil 3-Kürenin sag taraftan perspektif görünüsü, Sekil 4-Eliptik diskin demonte perspektif görünüsü, Sekil 5-Eliptik diskin iki parçasinin monteli halde perspektif görünüsü, Sekil 6-Eliptik disk olmadan emici basici aparatin perspektif görünüsü, Sekil 7-Eliptik disk olmadan emici basici aparatin önden görünüsü, Sekil 8-Emici basici aparatta eliptik disk ile kürenin demonte konumda perspektif görünüs, Sekil 9-Emici basici aparatta eliptik disk ile kürenin monteli konumda perspektif görünüs, Sekil lO-Gövdeyi olusturan iki parçanin perspektif demonte görünüsü, Sekil ll-Gövdeyi olusturan iki parçanin monteli perspektif görünüsü, Sekil 12-Gövde sag haznesinin distan perspektif görünüsü, Sekil l3-Gövde sag haznesinin önden görünüsü, Sekil l4-Gövde sag haznesinin yalpalama duvari ile demonte konumda perspektif görünüsü, Sekil 15-Emicibasici aparatlarin yalpalama duvari ile demonte konumda perspektif görünüsü, Sekil 16-Emici basici aparatlarin yalpalama duvari ile temasli konumda perspektif görünüsü, Sekil l7-Yalpalama duvari takili, çift emici basici aparatin yarim gövdeye demonte konumda perspektif görünüsü, Sekil 18-Yalpalama duvari takili, çift emici basici aparatin yarim gövdeye monteli konumda perspektif görünüsü, Sekil l9-Yalpalama duvari takili, çift emici basici aparatin yarim gövdeye monteli konumda, emme borusu ve basma borusu ile demonte konumda perspektif görünüsü, Sekil 20-Emici basici aparatlarin, emme borusu ve basma borusu gövdeye monteli konumda perspektif görünüsü, Sekil 21-Motor ve disli hazneyi olusturan parçalarin demonte perspektif görünüsü, Sekil 22-Motor ve disli haznenin m0nteli perspektif görünüsü, Sekil 23-Disli milinin döndürdügü iki dislinin perspektif görünüsü, Sekil 24-Motor takili disli haznenin gövde ile demonte perspektif görünüsü, Sekil 25-Motor takili disli haznenin gövde ile monteli konumda perspektif görünüsü, Sekil 26-Emici basici aparatlarin sol hazne ve sag hazne içerisindeki çalismasinin birinci asamasinin kesitten perspektif görünüsü, Sekil 27-Emici basici aparatlarin sol hazne ve sag hazne içerisindeki çalismasinin ikinci asamasinin kesitten perspektif görünüsü, Sekil 27-Soldaki eliptik disk ve sagdaki eliptik disklerin ters yönde yalpalama duvarina temasinin birinci asamasinin önden kesit görünüsü, Sekil 28-Soldaki eliptik disk ve sagdaki eliptik disklerin ters yönde yalpalama duvarina temasinin ikinci asamasinin önden kesit görünüsü, Sekil 30-Soldaki eliptik disk ve sagdaki eliptik disklerin ters yönde yalpalama duvarina temasinin üstten görünüsü. Bulusun daha iyi anlasilmasi için hazirlanan sekillerdeki her parçaya ayri ayri numara verilmistir. Numara verilen her parçanin açiklamasi söyledir; l-Emici basici aparat, 1.2-Küre, 1.2.l-Saft geçis kanali, 1.2.2-Sabitleme tirnagi, 1.2.3-Disk oturum yüzeyi, 1.2.4-Diger küreye temas yüzeyi, 1.3-Eliptik disk, 1.3.1-Yalpalama duvari oturum alani, 1.3.2-Disk tirnagi, 1.3.2.1-Timak sabitleme deligi, 1.3.3-Disk timagi yuvasi, 1.3.4-Disk tirnagini sikistirma deligi, 1.3 .5-Saft kavrama kanali, 2-Mil, 3-Yalpalama duvari, 3. 1-Içbükey yüzey, 4-Gövde, 4.1-Sol hazne, 4.2-Sag hazne, 4.3-Sol hazne mil giris deligi, 4.4-Sag hazne mil giris deligi, 4.5-Emme borusu giris agzi, 4.6-Basma borusu giris agzi, 4.7-Hazne baglanti deligi, 4.8-Yalpalama duvari giris kanali, -Emme borusu, 6-Basma borusu, 7-Motor, 7.1-Motor mili, 8-Disli hazne, 8.1-Ön kapak, 8.1.1-Ön kapak mil giris deligi, 8.2-Arka kapak, 8.2.1-Sol hazneye giden mil giris deligi, 8.2.2-Sag hazneye giden mil giris deligi, 8.3-Disli mili, 8.4-Disli, 8.4.1-Emici basici aparat mil giris deligi, 8.5-Rulman, 8.6-Sizdirmazlik, 9-Disli miline baglanti aparati, 9.1-Baglanti aparati giris deligi. ve onun girdigi tek hazneli gövdenin oldugu düzenek olarak anlatilmistir. Bu tarifnamede çift (ikili/ iki adet) emici basici aparatin (1) ve iki adet emici basici aparatin (1) girdigi sol hazne (4.1) ve sag hazneden (4.2) olusan ikili gövdenin (4) oldugu /transfer sistemi/ düzenek/pompa anlatilmistir. Emici basici aparati (1) olusturan parçalarin demonte konumda perspektif görünüsü sekil 1 de verilmistir. Emici basici aparat (1), bir saft (1 . 1) üzerine karsilikli konumlandirilmis iki adet küre (1.2) ve kürelerin (1.2) arasina konumlandirilmis eliptik diskten (1.3) olusur. Kürenin (1.2) sol taraftan perspektif görünüsü sekil 2 de, Kürenin (1.2) sag taraftan perspektif görünüsü sekil 3 de verilmistir. Kürenin (1.2) ortasinda saftin (1.1) geçtigi saft geçis kanali (1.2.1), safti (1 . 1) sabitleyen sabitleme tirnagi (1 .2.2), eliptik diskin (1.3) oturdugu disk oturum yüzeyi (1.2.3) ve uç kisminda diger küreye temas yüzeyi (1.2.4) bulunur. Eliptik diskin (1.3) demonte perspektif görünüsü sekil 4 de, Eliptik diskin (1.3) iki parçasinin monteli halde perspektif görünüsü sekil 5 de verilmistir. Eliptik disk (1.3) simetrik görünümlü ve iki parçalidir. Üstteki parçada yalpalama duvari oturum alani (1.3.1), iki ucunda disk tirnaklar (1.3.2) ve disk timaklarinda (1.3.2) tirnak sabitleme deligi (1.3.2.1) bulunur. Alttaki parçada disk tirnagi yuvalari (1.3.3) ve disk tirnagini sikistirma delikleri (1.3.4) Disk tirnaklari (1.3.2) disk tirnagi yuvalari (1.3.3) içerisine sokularak vida ve benzeri aparatla sabitleme yapilir. Simetrik görünümlü iki parça arasinda saftin (1 . 1) geçecegi saft kavrama kanali (1.3.5) olusur. Eliptik disk (1.3) olmadan emici basici aparatin (1) perspektif görünüsü sekil 6 da, Eliptik disk (1.3) olmadan emici basici aparatin (1) önden görünüsü sekil 7 de verilmistir. Safta (1.1) mil (2) geçirilmistir. Emici basici aparatta (1) eliptik disk (1.3) ile kürenin (1.2) demonte konumda perspektif görünüsü sekil 8 de, Emici basici aparatta (1) eliptik disk (1.3) ile kürenin (1.2) ile monteli konumda perspektif görünüsü sekil 9 da verilmistir. Gövde (4) simetrik görünümlü, birbirine monte edilebilir iki parçadan olusur. Gövdeyi (4) olusturan iki parçanin perspektif demonte görünüsü sekil 10 da, Gövdeyi (4) olusturan iki parçanin monteli perspektif görünüsü sekil 11 de verilmistir. Gövde (4), sol hazne (4.1) ve sag hazneden (4.2) olusur. Sol haznede (4.1) sol hazne mil giris deligi (4.3), sag haznede (4.2) sag hazne mil giris deligi (4.4) vardir. Sol hazne (4.1) ve sag hazne (4.2) arasinda gaz veya akiskani içeriye tasiyan emme borusunun (5) baglandigi emme borusu giris agzi (4.5) ile emilen gaz veya akiskani disariya veren basma borusunun (6) baglandigi basma borusu giris agzi (4.6) bulunur. Hazne baglanti deliklerinden (4.7) simetrik görünümlü iki gövde (4) parçasini birbirine vida ve benzeri baglanti aparati ile baglanir. Gövde (4) sag haznesinin (4.2) distan perspektif görünüsü sekil 12 de, Gövde (4) sag haznesinin (4.2) önden görünüsü sekil 13 de verilmistir. Yalpalama duvarinin (3) girdigi yalpalama duvari giris kanali (4.8), emme borusu giris agzi (4.5) ve basma borusu giris agzi (4.6) kesit olarak gösterilmistir. Gövde (4) sag haznesinin (4.2) yalpalama duvari (3) ile demonte konumda perspektif görünüsü sekil 14 de verilmistir. Yalpalama duvari (3) dikey konumda yalpalama duvari giris kanalina (4.8) sokulur. Yalpalama duvari (3) yan yüzeyleri eliptik diskin (1.3) temas edecegi yüzey oldugu için içbükey duvar (3.1) olarak tasarlanmistir. Emici basici aparatlarin (1) yalpalama duvari (3) ile demonte konumda perspektif görünüsü sekil 15 de, Emici basici aparatlarin (1) yalpalama duvari (3) ile temasli konumda perspektif görünüsü sekil 16 de verilmistir. Yalpalama duvari (3) takili, çift emici basici aparatin (1) yarim gövdeye (4) demonte konumda perspektif görünüsü sekil 17 de, Yalpalama duvari (3) takili, çift emici basici aparatin (1) yarim gövdeye (4) monteli konumda perspektif görünüsü sekil 18 de verilmistir. Üstteki emici basici aparata (1) bagli mil (2), sol hazne mil giris deliginden (4.3) girer, Alttaki emici basici aparata (1) bagli mil (2), sag hazne mil giris deligine (4.4) girer. Yalpalama duvari (3) da, sekil 14 ve sekil 17 de gösterilen yalpalama duvari giris kanalina (4.8) girer. Sol hazne (4.1) ve sag hazne (4.2) olarak iki ayri bölüm olusturur. Gövdedeki (4) emme borusu giris agzina (4.5) emme borusu (5) ve basma borusu giris agzina (4.6) basma borusu (6) monte edilir. Yalpalama duvari (3) takili, çift emici basici aparatin (1) yarim gövdeye (4) monteli konumda, emme borusu (5) ve basma borusu (6) ile demonte konumda perspektif görünüsü sekil 19 da, Emici basici aparatlarin (1), emme borusu (5) ve basma borusu (6) gövdeye (4) monteli konumda perspektif görünüsü sekil 20 de verilmistir. Motor (7) ve disli hazneyi (8) olusturan parçalarin demonte perspektif görünüsü sekil 21 de, Motor (7) ve disli haznenin (8) monteli perspektif görünüsü sekil 22 de verilmistir. Motora (7) bagli motor mili (7.1) vardir. Disli hazne (8) ön kapak (8.1) ve arka kapaktan (8.2) olusur. Ön kapakta (8.1) ön kapak mil giris deligi (8. 1 . 1) bulunur. Disli haznede (8) iki adet disli (8.4), rulman (8.5) ve sizdiimazlik (8.6) bulunur. Disli miline (8.3) rulman (8.5) ve sizdirmazlik (8.6) takildiktan sonra bir tarafindan ön kapak mil giris deliginden (8.1.1) sokularak, baglanti aparati giris deliginden (9.1) sokularak, disli miline baglanti aparatina (9) baglanir. Emici basici aparat mil giris deliginden (8.4.1) geçirilerek disli (8.4) ile irtibatlandirilir ve ön kapaktaki (8.2) sol hazneye giden mil giris deligine (8.2.1) geçirilir. Disli milinin (8.3) döndürdügü iki dislinin (8.4) perspektif görünüsü sekil 23 de verilmistir. Iki adet disli (8.4) birbiriyle irtibatlandirilmistir. Üstteki disliye (8.4) bir tarafindan disli mili (8.3) diger taraftan mil (2) sokulmustur. Alttaki disliye (8.4) ise bir tarafindan mil (2) sokulmustur. Ön kapak (8. 1) ve arka kapak (8.2) birbirine baglandiktan sonra disarida kalan disli mili (8.3) uç kismindan disli miline baglanti aparatina (9) baglanir. Motor mili de (7.1) disli miline baglanti aparati giris deliginden (9.1) baglanti aparatina (9) baglanir. Arka kapakta (8.2) sol hazneye giden mil giris deligi (8.2.1), ve sag hazneye giden mil giris deligi (8.2.2) bulunur. Gövdedeki (4) miller (2) sol hazneye giden mil giris deligine (8.2.1), ve sag hazneye giden mil giris deligine (8.2.2) sokulur. Motor (7) takili disli haznenin (8) gövde (4) ile demonte perspektif görünüsü sekil 24 de, Motor (7) takili disli haznenin (8) gövde (4) ile monteli konumda perspektif görünüsü sekil de verilmistir. Akiskan transfer pompasinin çalismasi: Motor (7) çalisinca, motor mili (7.1) dönmeye baslar. (sekil 21, sekil 22). Dönen motor mili (7.1) içerisine girdigi disli miline baglanti aparati da (9) dönmeye baslar ve içerisindeki disli milini (8.3) döndürür. Dönen disli mili (8.3) içerisine girdigi disliyi (8.4) döndürür. Dönen disli de (8.4) irtibatli oldugu disliyi (8.4) döndürür. Dönen disliler (8.4), arka kapaktan (8.2) bagli oldugu milleri (2) döndürür. Emici basici aparatlarin (1) sol hazne (4. 1) ve sag hazne (4.2) içerisindeki çalismasinin birinci asamasinin kesitten perspektif görünüsü sekil 26 da, Emici basici aparatlarin (1) sol hazne (4.1) ve sag hazne (4.2) içerisindeki çalismasinin ikinci asamasinin kesitten perspektif görünüsü sekil 27 de verilmistir. Küre (1.2) ve eliptik disk (1.3) yalpalama duvarina (3) temas edip salinim yapinca sol haznede (4.1) ve sag haznede (4.2) geçici olarak iki ayri bölüm olusur. Sekil 26 da eliptik disk (1.3) yalpalama duvarina (3) temas edip saga dogru yatinca sol haznenin (4.1) üst kisminda olusan bosluga emme borusu giris agzindan (4.5) gaz veya akiskan dolar. Mil (2) dönmeye devam edip eliptik disk (1.3) sol hazne (4.1) sola dogru yatinca sol hazne (4.1) alt kisminda bosluk olusur. Sikistirilan gaz/akiskan bu bosluktan basma borusu giris agzina (4.6) yönlendirilir. Sekil 26 da ve sekil 27 de kesik çizgili oklarla gösterilmistir. Sag haznedeki (4.2) emici basici aparatta (1) bulunan eliptik disk (1.3), sol hazne (4.1) içerisindeki emici basici aparatta (1) bulunan eliptik diskin (1.3) ters yönünde dönüs yapar. Emme borusu giris agzindan (4.5) gelip alt haznenin (4.2) sag tarafindaki bosluga giren gaz veya akiskan (sekil 27), eliptik diskin (1.3) yalpalama duvarina (3) temas ederek yön degistirmesiyle basma borusu giris agzindan (4.6) çikis yapar. Sekil 27 ve sekil 26 da bu hareket noktali oklarla gösterilmistir. Soldaki eliptik disk (1.3) ve sagdaki eliptik disklerin (1.3) ters yönde yalpalama duvarina (3) temasinin birinci asamasinin önden kesit görünüsü sekil 28 de, Soldaki eliptik disk (1.3) ve sagdaki eliptik disklerin (1.3) ters yönde yalpalama duvarina (3) temasinin ikinci asamasinin önden kesit görünüsü sekil 29 da gösterilmistir. Soldaki eliptik disk (1.3) ve sagdaki eliptik disklerin (1.3) ters yönde yalpalama duvarina (3) temasinin üstten görünüsü sekil 30 da verilmistir. Gövde (4) ve emici basici aparatlar (l) metalden veya plastikten mamul olabilir. TR TR DESCRIPTION Double Suction Basic Apparatus, Double Chambered Gas or Fluid Transfer System The invention is "in the gas or fluid transfer system with suction and pressure feature, which has a double (two) absorbent basic apparatus and a left chamber and a right chamber body into which they fit", the double absorbent basic apparatus is separated from the engine. It wobbles/oscillates by contacting the wobbling wall in the left chamber and the right chamber in the body with the power it receives, The gas or fluid coming from the suction pipe enters both the left chamber and the right chamber, As a result of the pressure applied by the double elliptical disc by oscillating, it flows from both the left chamber and the right chamber. The gas or fluid coming out of the chamber comes out of the discharge pipe, as a result of the absorbing and pumping apparatus wobbling in the left chamber and the right chamber, the suction and discharge processes of the absorbed and discharged gas/fluids are carried out simultaneously and continuously, the suction and pressure processes are not interrupted, as much as the gas/fluid absorbed. It is related to gas/fluid pressure. Known state of the technique: In patent applications no. 2019/20652; A mechanism/pump/vacuum machine/device in which a suction base apparatus (wobble apparatus) is rotated with the help of a motor and oscillates in a horizontal position, touching the wobble wall, in a single body chamber, taking the gas/fluid from the suction pipe to the suction zone of the body, and from there to the discharge zone, and pressing it into the discharge pipe. has been explained. Since there was a balance/equilibrium problem in the system with a single suction foundation apparatus in a single body chamber, a pump/vacuum machine with double (two) suction foundation apparatus in two chambers in a single body was developed. Purpose of the invention: By developing a transfer system/pump/vacuum machine with a double suction base apparatus that oscillates in two chambers in a single body; To prevent shaking during operation, to eliminate balance problems, and to increase the amount of gases and/or fluids absorbed and discharged. Feature of the invention; l-There are two chambers (left chamber and right chamber) in a single body, 2-It contains the suction pipe inlet mouth to which the suction pipe on the left and right of the body is connected, and the discharge pipe inlet mouth to which the discharge pipe is connected, 3-The left chamber contains the shaft into which the shaft will enter. entry hole, right chamber shaft entry hole into which the shaft will enter, 4- The absorbent foundation apparatus consists of an elliptical disk positioned between two spheres placed in the shaft on the shaft, - Placement of the absorbent foundation apparatus in the left chamber and the right chamber, (the shaft entrance of the left chamber of the shafts). hole and right hub shaft entry hole), 6-It forces the elliptical disks on the shafts rotating with the help of a motor to make a circular movement, 7-The elliptical disks in contact with the concave face of the wobble wall cannot make a circular movement and oscillate/wobble, 8-Suction as a result of the wobble of the elliptical disks. It is the advancement of gas or fluids coming from the pipe to the discharge pipe with the pressure applied in the chamber. The figures prepared for a better understanding of the invention are as follows; Figure 1-Perspective view of the parts forming the absorbent foundation apparatus in disassembled position, Figure 2-Perspective view of the sphere from the left side, Figure 3-Perspective view of the sphere from the right side, Figure 4-Disassembled perspective view of the elliptical disk, Figure 5-Perspective view of the two parts of the elliptical disk in the assembled state Figure 6-Perspective view of the suction base apparatus without the elliptical disc, Figure 7-Front view of the suction basic apparatus without the elliptical disk, Figure 8-Perspective view of the sphere in the disassembled position with the elliptical disk in the suction foundation apparatus, Figure 9-With the elliptical disk in the suction foundation apparatus Perspective view of the sphere in the assembled position, Figure 10-Perspective disassembled view of the two parts forming the body, Figure ll-Assembled perspective view of the two parts forming the body, Figure 12-External perspective view of the right body chamber, Figure l3-Front view of the right body chamber, Figure l4- Perspective view of the right body chamber in the disassembled position with the wobble wall, Figure 15-Perspective view of the suction pressure apparatus in the disassembled position with the wobble wall, Figure 16-Perspective view of the suction foundation apparatus in contact with the wobble wall, Figure l7- Half of the double suction foundation apparatus with the wobble wall installed Perspective view of the apparatus in a disassembled position on the body, Figure 18- Perspective view of the double suction foundation apparatus with the wobble wall attached, in a half-body mounted position, Figure l9- Perspective view of the double suction foundation apparatus with the wobble wall attached, in a half-body mounted position, with the suction pipe and discharge pipe in a disassembled position. , Figure 20-Perspective view of the absorber foundation apparatus, suction pipe and discharge pipe mounted on the body, Figure 21-Disassembled perspective view of the parts forming the motor and gear chamber, Figure 22- Perspective view of the motor and gear chamber assembled, Figure 23-The two parts rotated by the gear shaft Perspective view of the gear, Figure 24- Perspective view of the gear chamber with the motor attached, disassembled with the body, Figure 25- Perspective view of the gear chamber with the motor attached, in the assembled position with the body, Figure 26- Sectional perspective view of the first stage of the operation of the absorber foundation apparatus in the left chamber and the right chamber, Figure 27-Perspective sectional view of the second stage of the operation of the absorber foundation apparatus in the left chamber and right chamber, Figure 27-Front sectional view of the first stage of the contact of the elliptical disk on the left and the elliptical disks on the right to the wobbling wall in the opposite direction, Figure 28-The elliptical disk on the left and the elliptical disks on the right Front cross-sectional view of the second stage of contact with the wobble wall in the reverse direction, Figure 30-Top view of the elliptical disk on the left and the elliptical disks on the right contacting the wobble wall in the reverse direction. For a better understanding of the invention, each part in the figures has been given a separate number. The description of each numbered part is as follows; l-Absorber base apparatus, 1.2-Sphere, 1.2.l-Shaft transition channel, 1.2.2-Fixing tab, 1.2.3-Disk seating surface, 1.2.4-Contact surface with other sphere, 1.3-Elliptical disk, 1.3.1 -Witching wall seating area, 1.3.2-Disc claw, 1.3.2.1-Timak fixing hole, 1.3.3-Disc lug slot, 1.3.4-Disc claw clamping hole, 1.3.5-Shaft grip channel, 2-Shaft, 3-Walking wall, 3. 1-Concave surface, 4-Body, 4.1-Left chamber, 4.2-Right chamber, 4.3-Left chamber shaft entry hole, 4.4-Right chamber shaft entry hole, 4.5-Suction pipe inlet mouth, 4.6 -Discharge pipe inlet port, 4.7-Chamber connection hole, 4.8-Sway wall inlet channel, -Suction pipe, 6-Discharge pipe, 7-Motor, 7.1-Motor shaft, 8-Toothed chamber, 8.1-Front cover, 8.1.1 -Front cover shaft entry hole, 8.2-Rear cover, 8.2.1-Shaft entry hole to the left chamber, 8.2.2-Shaft entry hole to the right chamber, 8.3-Gear shaft, 8.4-Gear, 8.4.1-Absorber base apparatus shaft entry hole, 8.5-Bearing, 8.6-Sealing, 9-Gear shaft connection apparatus, 9.1-Connection apparatus entry hole. It is described as a mechanism with a single chamber body into which it enters. In this description, the transfer system/mechanism/pump includes the double (double) suction basic apparatus (1) and the double body (4) consisting of the left chamber (4.1) and the right chamber (4.2), into which the two absorbent basic apparatus (1) enter. has been explained. The perspective view of the parts forming the absorbent foundation apparatus (1) in the disassembled position is given in Figure 1. The absorbent basic apparatus (1) consists of two spheres (1.2) positioned opposite each other on a shaft (1.1) and an elliptical disk (1.3) positioned between the spheres (1.2). The perspective view of the Sphere (1.2) from the left side is given in Figure 2, and the perspective view of the Sphere (1.2) from the right side is given in Figure 3. The shaft transition channel (1.2.1) through which the shaft (1.1) passes in the middle of the sphere (1.2), the fixing nail (1.2.2) that fixes the shaft (1.1), the disk seating surface (1.2.3) on which the elliptical disk (1.3) sits, and the tip. There is a contact surface (1.2.4) with the other sphere. The disassembled perspective view of the elliptical disk (1.3) is given in figure 4, and the assembled perspective view of the two parts of the elliptical disk (1.3) is given in figure 5. The elliptical disc (1.3) is symmetrical in appearance and has two parts. The upper part has the wobble wall seating area (1.3.1), disc tabs (1.3.2) at both ends, and a nail fixing hole (1.3.2.1) on the disc tabs (1.3.2). In the lower part, disc tab slots (1.3.3) and disc tab clamping holes (1.3.4). Disc tabs (1.3.2) are inserted into the disc tab slots (1.3.3) and fixed with screws or similar devices. The shaft coupling channel (1.3.5) through which the shaft (1. 1) will pass is formed between the two symmetrical parts. The perspective view of the suction basic apparatus (1) without the elliptical disk (1.3) is given in Figure 6, and the front view of the suction basic apparatus (1) without the elliptical disk (1.3) is given in Figure 7. Shaft (2) is inserted into the shaft (1.1). The perspective view of the elliptical disk (1.3) and the sphere (1.2) in the disassembled position in the suction base apparatus (1) is given in figure 8, and the perspective view of the elliptical disk (1.3) and the sphere (1.2) in the mounted position in the suction base apparatus (1) is given in figure 9. The body (4) consists of two symmetrical parts that can be assembled together. The perspective disassembled view of the two parts forming the body (4) is given in Figure 10, and the assembled perspective view of the two parts forming the Body (4) is given in Figure 11. The body (4) consists of the left chamber (4.1) and the right chamber (4.2). There is a left chamber shaft entry hole (4.3) in the left chamber (4.1), and there is a right chamber shaft entry hole (4.4) in the right chamber (4.2). Between the left chamber (4.1) and the right chamber (4.2), the suction pipe inlet port (4.5) to which the suction pipe (5) that carries the gas or fluid inside is connected, and the discharge pipe inlet port (4.6) to which the discharge pipe (6) that discharges the absorbed gas or fluid is connected. is available. Two symmetrical looking body (4) parts are connected to each other using screws or similar connection devices through the chamber connection holes (4.7). The external perspective view of the right chamber (4.2) of the Body (4) is given in Figure 12, and the front view of the right chamber (4.2) of the Body (4) is given in Figure 13. The wobble wall inlet channel (4.8), where the wobble wall (3) enters, the suction pipe inlet port (4.5) and the discharge pipe inlet port (4.6) are shown in cross-section. The perspective view of the right chamber (4.2) of the body (4) with the wobble wall (3) in the disassembled position is given in Figure 14. The wobble wall (3) is inserted into the wobble wall inlet channel (4.8) in a vertical position. The wobble wall (3) is designed as a concave wall (3.1) since its side surfaces are the surface with which the elliptical disk (1.3) will contact. The perspective view of the absorber foundation apparatus (1) in the disassembled position with the wobble wall (3) is given in Figure 15, and the perspective view of the Absorber foundation apparatus (1) in the position in contact with the wobble wall (3) is given in Figure 16. The perspective view of the double suction base apparatus (1) with the wobble wall (3) attached, in the disassembled position on the half body (4) is shown in Figure 17. The perspective view of the double suction base apparatus (1) with the wobble wall (3) attached, in the position mounted on the half body (4) is shown in Figure 17. It is given in figure 18. The shaft (2) connected to the upper absorbent foundation apparatus (1) enters from the left chamber shaft entry hole (4.3). The shaft (2) connected to the lower absorbent foundation apparatus (1) enters the right chamber shaft entry hole (4.4). The wobble wall (3) also enters the wobble wall inlet channel (4.8) shown in Figure 14 and Figure 17. It forms two separate sections: left chamber (4.1) and right chamber (4.2). The suction pipe (5) is mounted on the suction pipe inlet port (4.5) on the body (4) and the discharge pipe (6) is mounted on the discharge pipe inlet port (4.6). The perspective view of the double suction base apparatus (1) with the wobble wall (3) installed, in the half body (4) mounted position, and in the disassembled position with the suction pipe (5) and discharge pipe (6) is shown in Figure 19. The perspective view of the pipe (5) and discharge pipe (6) mounted on the body (4) is given in Figure 20. The disassembled perspective view of the parts forming the motor (7) and the gear chamber (8) is given in Figure 21, and the assembled perspective view of the Motor (7) and the gear chamber (8) is given in Figure 22. There is a motor shaft (7.1) connected to the motor (7). The gear chamber (8) consists of the front cover (8.1) and the rear cover (8.2). There is a front cover shaft entry hole (8.1 .1) on the front cover (8.1). There are two gears (8.4), bearings (8.5) and seals (8.6) in the gear chamber (8). After the bearing (8.5) and seal (8.6) are installed on the gear shaft (8.3), the front cover is inserted into the shaft entry hole (8.1.1) from one side, and the connection apparatus is inserted through the entry hole (9.1) and connected to the gear shaft connection apparatus (9). The absorber foundation is passed through the shaft entry hole (8.4.1) and connected to the gear (8.4) and passed to the shaft entry hole (8.2.1) leading to the left chamber on the front cover (8.2). The perspective view of the two gears (8.4) rotated by the gear shaft (8.3) is given in Figure 23. Two gears (8.4) are connected to each other. The gear shaft (8.3) is inserted into the upper gear (8.4) from one side and the shaft (2) is inserted from the other side. A shaft (2) is inserted into the lower gear (8.4) from one side. After the front cover (8.1) and the rear cover (8.2) are connected to each other, the outer gear shaft (8.3) is connected to the gear shaft connection apparatus (9) from its end. The motor shaft (7.1) is connected to the connection apparatus (9) through the connection apparatus entry hole (9.1) to the gear shaft. There is a shaft entry hole (8.2.1) leading to the left chamber and a shaft entry hole (8.2.2) leading to the right chamber on the rear cover (8.2). The shafts (2) in the body (4) are inserted into the shaft entry hole (8.2.1) leading to the left chamber, and into the shaft entry hole (8.2.2) leading to the right chamber. The disassembled perspective view of the gear chamber (8) with the Motor (7) attached and the body (4) is given in Figure 24. The perspective view of the gear chamber (8) with the Motor (7) attached in the mounted position with the body (4) is given in Figure 24. Operation of the fluid transfer pump: When the motor (7) starts, the motor shaft (7.1) starts to rotate. (figure 21, figure 22). The gear shaft connection apparatus (9), into which the rotating motor shaft (7.1) enters, also begins to rotate and rotates the gear shaft (8.3) inside. The rotating gear shaft (8.3) rotates the gear (8.4) into which it is inserted. The rotating gear (8.4) also rotates the gear (8.4) with which it is connected. The rotating gears (8.4) rotate the shafts (2) to which they are connected from the rear cover (8.2). The cross-sectional perspective view of the first phase of the operation of the absorber base apparatus (1) in the left chamber (4.1) and the right chamber (4.2) is shown in Figure 26. The second phase of the operation of the absorber base apparatus (1) in the left chamber (4.1) and right chamber (4.2) is shown in Figure 26. The cross-sectional perspective view of the phase is given in Figure 27. When the sphere (1.2) and the elliptical disk (1.3) contact the wobbling wall (3) and oscillate, two separate sections are temporarily formed in the left chamber (4.1) and the right chamber (4.2). In Figure 26, when the elliptical disk (1.3) touches the wobbling wall (3) and tilts to the right, gas or fluid fills the space formed at the top of the left chamber (4.1) from the suction pipe inlet port (4.5). As the shaft (2) continues to rotate and the elliptical disc (1.3) and the left chamber (4.1) tilt to the left, a gap is created at the bottom of the left chamber (4.1). The compressed gas/liquid is directed from this gap to the discharge pipe inlet port (4.6). They are shown with dashed arrows in Figure 26 and Figure 27. The elliptical disk (1.3) located in the absorbent basic apparatus (1) in the right chamber (4.2) rotates in the opposite direction of the elliptical disk (1.3) located in the absorbent basic apparatus (1) in the left chamber (4.1). The gas or fluid (Figure 27) coming from the suction pipe inlet port (4.5) and entering the space on the right side of the lower chamber (4.2) exits from the discharge pipe inlet port (4.6) by changing direction by contacting the wobbling wall (3) of the elliptical disk (1.3). This movement is shown with dotted arrows in Figure 27 and Figure 26. The front section view of the first stage of the contact of the elliptical disk (1.3) on the left and the elliptical disks (1.3) on the right to the wobble wall (3) in the opposite direction is shown in Figure 28. The front section view of the second stage of the contact is shown in Figure 29. The top view of the elliptical disk (1.3) on the left and the elliptical disks (1.3) on the right contacting the wobble wall (3) in the opposite direction is given in Figure 30. The body (4) and the absorber base apparatus (l) may be made of metal or plastic.TR TR