TWI357466B - - Google Patents

Description

1357466 IX. Description of the invention: [Technical field to which the invention pertains] The present invention relates to a fluid transfer device, which is a step-by-step t-rotor wraparound pump, and a cylinder interior is provided with a rotor, and a drive wheel drive of the second day... ^ Recombination on the rotor forming side "Limiting ^ = = The rotor is inside the cylinder, in the revolution mode, following the circular path, the body forms a suction and push action, and the pump is used to pump the fluid. # L无技术] The first diagram is a schematic chamber (1) of a conventional rotary pump, a rotary member (2), a drive shaft (3) and a slide chamber (1). The cylinder chamber (1) has a chamber of __, and the open hole communicates with the outside. The through hole is the suction port (102), the other pass is: the discharge port (104), the circular component for the fluid inlet and outlet cylinders n '", = to (1), and the rotary member (2) The center of the circle deviates from this, and the periphery thereof is tangentially abutted against the inner peripheral wall of the cylinder chamber ,), the drive shaft (3) is axially coupled to the eccentric wheel (6), and the eccentric wheel (6) and the rotary member (2) are driven by the pivot joint (2) inside the cylinder chamber (1), following a circular jk rotation as a moving δ pin (4) pivoted to the suction population (10) 2) and the discharge (10)) between the red chamber (1) peripheral wall, the sliding pin (4) extending from the red chamber (1) at the end of the three-i is provided with a spring (7)' to provide the sliding pin (4) axially toward the elastic force The sliding pin (4) extends at the other end of the cylinder chamber (1), and the end thereof forms an arc-shaped head end (402) to the outside of the rotating member (2), and the sliding is performed according to the 4 cylinder to (1) space. The pin (4) and the rotating member (?) are separated into a suction zone (1〇6) and a discharge zone (1〇8), and the suction zone ((10)) is in communication with the 1357466 suction port G2) Discharge_8) is in communication with the discharge port (10). When the driving shaft (3) rotates, the eccentric wheel (6) drives the rotating member (2) to follow a rotation of the circular path with the driving shaft (3) as a center, and the sliding pin (4) is subjected to the two-phase shaft of the Wei rotor (2) and the 郷t (7).遂 The rotating member (2) is turned into a correction, the red reciprocating object, # is rotated by the rotating member (2) to make the space capacity of the suction (10) and the discharge area (10) change, so as to reach the suction port (10) The fluid is pumped and the fluid is discharged by the discharge port (104) for pumping purposes. In order to rotate the rotary member (2), the outer peripheral surface of the rotary member (2) and the end of the slide pin (4) are relatively slid, and the slide pin (4) is a circular orphan end (402) at the end thereof and the rotary member. (2) The circular outer peripheral surface is in contact, so that the rotating member (2) and the sliding pin (4) are in line contact with each other, and the contact area is small, and the spring (7) is used to form her force in the axial direction of the riding pin (4), so that the sliding pin (4) The contact state with the Wei rotor (2) is such that the sliding pin (4) and the rotating member (2) have a high compressive stress, and the sliding pin (4) = the rotating member (2) is in contact with each other _ the wear is also high, resulting in high wear, The sliding pin (4) and the rotating member (2) have a short service life. Furthermore, the rotating member (2) moves forward in the forward movement, and the relative force direction formed by the rotating member (2) on the sliding lock (4) is along the outer circular arc of the rotating member (2) and the contact point of the Lai (4) The tangential direction makes the rotating member (2) and the sliding lock (4) easy to slide relative to each other during the rotation of the rotating member (2), and even the two sides are smashed and mutually jammed, and the smoothness of the operation is particularly disadvantageous. The operation is carried out under the condition of high viscosity fluid or high pressure, and the vibration and running noise of the rotating member (2) and the sliding pin (4) are caused. 6 1357466 In view of this, the inventor of this case actively carried out research and creation, carefully and repeatedly experimented, and produced the invention with innovation and progress. , work eve fire

[Jobs of the Invention] The rotor of the present invention is a type of rotor rewinding type, in which the rotor is retracted, and the rotor is reduced by the fluid axis. The utility model mainly comprises a rotor, a main shaft and a sliding lock, wherein the body forms a chamber, the rotor is arranged inside the red chamber, the rotor is about two disc bodies, and the scale has no cylinder chamber _郷= The second drive has a wheel, and the drive wheel and the center β η enable the main vehicle to drive the rotor back inside the red chamber by the drive wheel; the spindle end extends through the body and extends outside. According to the power device, the main vehicle is rotated to rotate the rotor, and the rotor is actuated; according to the inner side of the body, a chamber is opened laterally, and one end of the chamber is closed with the cylinder chamber, and the sliding pin shaft is closed. Anchored in the chamber, and the axial direction U, 'passing the sliding pin, the end surface of the sliding pin-end forms a first -=/Hail-plane perpendicular to the axial direction of the sliding lock, The rotor is adjacent to the sleek region, the first plane, and the first plane is in contact with the second plane, and the limit is formed on the rotor by the = pin俾 该 该 该 该 : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : According to the axial pushing of the sliding lock, the sliding pin maintains a lateral restraining restriction on the rotor; the body opens-inflow passage, an outflow passage, and the inlet and outlet passage end 7 1357466 and the cylinder The chamber is connected, the other end is connected to the outside, and the outlet and outlet channels are adjacent to the sliding pin. The cylinder chamber space forms a suction bow area and a discharge area by the sliding pin and the rotor area, and the suction area and the suction area The inflow channel is in communication, and the discharge zone is in communication with the outflow channel, and the fluid is introduced into and out of the cylinder chamber for pumping fluid. [Embodiment] In order to make the composition of the present invention and its innovative specifics, it is further fully disclosed, and the specific possible embodiments are illustrated and described with reference to the drawings. The second drawing is a perspective view of the first embodiment of the present invention. The third figure is an exploded perspective view of the first embodiment of the present invention. The fourth drawing is a schematic cross-sectional view of a first embodiment of the present invention. The fifth figure is a 5-5 sectional view of the fourth figure. Figure 6 is a schematic view (1) of the actuation state of the first embodiment of the present invention. The seventh drawing is a schematic diagram (2) of the actuation state of the first embodiment of the present invention. The eighth figure is a schematic diagram (3) of the actuation state of the first embodiment of the present invention. The ninth drawing is an axial sectional view of a second embodiment of the present invention. The tenth drawing is an exploded perspective view of a third embodiment of the present invention. Figure 11 is a schematic longitudinal cross-sectional view showing a third embodiment of the present invention. The twelfth figure is a 12-12 cross-sectional view of the eleventh figure. Figure 11 is an axial cross-sectional view showing a fourth embodiment of the present invention. Figure 14 is an axial cross-sectional view showing a fifth embodiment of the present invention. Referring to Figures 2 to 5, the first embodiment of the rotor rewind pump of the present invention mainly comprises a first cover (1), a base (10), a second cover (13), a rotor (14), a main shaft (15) and a sliding pin (16), wherein the base (12) is disposed between the second cover ((1) and (10), and the plurality of screws (10) are threaded through the 帛-i body (π) and The wire 2) is screwed with the second cover body (10) 8 1357466, and the first cover body (11), the base (12) and the second cover body (13) constitute a pump body (1) The base (12) axially extends through a circular hole, and the hole is axially surrounded by the first and second covers, thereby forming a circular cylinder chamber (122) for receiving Fluid in the cylinder chamber (122) 'The rotor (14) is disposed inside the cylinder chamber (122), the rotor (14) is a substantially circular disk body, and the outer circumference of the rotor (14) and the cylinder chamber ( The inner peripheral wall of 122) forms an inner cutting abutment, the main shaft (15) is axially eccentrically provided with a driving wheel (152), and the driving wheel (152) is pivotally connected to the rotor (14) eccentrically, according to When the main shaft (15) rotates, the drive wheel (152) is driven The rotor (14) is driven back to the inside of the β-Xihong to (122); one end of the main shaft (15) is pivoted through the second cover (13) and extends outside the body (1〇), so that the motor or the engine is A power unit (not shown) is configured to move the spindle (15) to rotate, and the drive wheel (152) drives the rotor (14) to actuate. The pedestal (12) laterally defines a chamber (124), the chamber (124) is in communication with the cylinder chamber (122), and the other end is closed, and the sliding pin (16) is pivoted thereto ( 124), and the axial extension line of the sliding pin (16) just passes through the center of the cylinder chamber (I) and is perpendicular to the axis of the main shaft (15), and the end surface of the sliding pin (16) Forming a first plane (162), the first plane (162) is axially perpendicular to the sliding pin (16), and the rotor (14) forms a second plane (142) adjacent to the sliding pin (16). The first plane (162) is in agreement with the second plane (142) to restrict the rotor (14) by the sliding pin (16), so that the rotor (H) cannot be centered on its center Rotating, the rotor (14) is circulated in a circular path inside the cylinder chamber (122) in a revolution mode to pump fluid; the chamber (124) is internally provided with an elastic member (17), the elasticity The end of the element (17) is abutted against the sliding pin (16), and the other end is abutted against the closed end phase 9 1357466 of the chamber (124), thereby axially pushing against the sliding pin (16) for the purpose The sliding pin (16) remains on the rotor 14) forming a lateral relief limit; the base (12) defines an inflow channel (123) and an outflow channel (125), and one end of the inflow and outflow channel (123χ125) is connected to the cylinder chamber (122) The other end is in communication with the outside, the inlet and outlet passages (123) (125) are adjacent to the sliding pin (16), and the cylinder chamber (122) is formed by the sliding pin (π) and the rotor (14). a suction zone (126), a discharge zone (128), a 5H attraction zone (126) is in communication with the human flow channel (123), and the drainage zone (128) is in communication with the outlet channel (125), The cylinder chamber (122) is fed in and out via the inlet and outlet passages (123) (125) for pumping fluid. Referring to Figures 6 to 8, when a power unit such as a motor or an engine shakes the main shaft (15), the driving wheel (152) drives the rotor (14) to rewind inside the cylinder chamber (122), since The sliding pin ((6) the rotor ((4) is formed in the lateral direction, so that the rotor ((4) is viewed by the circular path revolving operation] without forming a self-rotation according to the axis of the rotor (10), according to which The volume of the suction zone (126) and the discharge zone (10), so that the external fluid can be drawn through the spin runner (10) to the cylinder chamber (122), and the fluid is pushed by the outlet passage (125). Discharge to achieve the effect of the fluid. 'When the rotor (14) is actuated, the rotor ((4) and the sliding pin (10) are relatively slid in the tangential direction of the first and second planes (10) (10)) Since the rotor (14) is in planar contact with the sliding pin (10) by the first and second planes (162) (142), the relative compressive stress of the sliding pin ((6) and the rotor ((4) is reduced) It can effectively reduce the use of the sliding pin (10) and the _ sub (14) _ to the county, and to improve the use of the (14). During the rewinding operation of the rotor (14) in the revolution mode, the relative force direction of the rotor (14) against the sliding pin (16) is along the first and second planes abutting each other (162). The tangential direction of (142), and the direction of the force is perpendicular to the direction in which the elastic member (丨7) pushes against the axial reciprocating displacement of the sliding pin (丨6), so that the rotor (14) is rotated During the process, the smoothness of the relative sliding of the rotor (14) and the sliding pin (16) is improved, and the problem that the rotor (14) and the sliding pin (16) are mutually smashed and mutually jammed is avoided. The running vibration is generated due to the relative friction between the rotor ((4) and the lag (10), and the running noise can be effectively reduced and reduced. The second embodiment of the present invention is changed according to the foregoing first embodiment, and the same place is no longer heavy. Referring to the ninth embodiment, the main shaft (25) of the second embodiment of the present invention pivots to extend the second cover body (23) to the outside, so that the power unit (not shown) can move the main shaft (5). Rotating, the main shaft (2)) another: the end shaft is pivoted to the first cover (9), The main shaft (25) is positioned by the first and second covers (8) (10), thereby improving the reliability of the positioning of the main shaft (25), reducing and reducing the possibility of polarization of the main (10) 5), thereby improving the driving wheel of the driving wheel (252). (24) Reliability of the rewinding operation. The third embodiment of the present invention is changed according to the foregoing first embodiment, and the second embodiment is more suitable for the high-viscosity fluid or the waste pump. The third embodiment and the first implementation of the specific embodiment of the 'required to operate at a higher torque will not be repeated; please refer to the tenth, tenth and twelfth The third embodiment of the present invention mainly comprises a H body (31), a base (32), a second cover (10), a rotor (34), a main shaft (35), a sliding pin (10) and an auxiliary shaft. (38), wherein the first cover body (31), the base (32) and the second cover body (33) are grouped together to form a pump body (30), the auxiliary shaft (38) and the main shaft ( 35) parallel to each other, such that the axis of the main shaft (35) is a, the axis of the auxiliary shaft (10) is b, and the center of the cylinder chamber (322) is located at the axis of the main shaft (35) and the auxiliary shaft (10). Connection a midpoint of the line segment ab, the auxiliary shaft (10) is pivoted to the second cover body (10) to position the auxiliary shaft (10) to the body (10), and the auxiliary shaft (38) is axially eccentrically provided with an auxiliary wheel (10) The auxiliary wheel (382) is in contact with the rotor (10) and is parallel to the driving wheel (352), and the eccentric distance between the auxiliary (10) and the _ wheel (382) is applied to the auxiliary shaft (35) and the auxiliary. The distance of the wheel (10)), according to the main shaft (35), the auxiliary shaft (10), the auxiliary wheel (10) 2), the driving wheel (352) constitutes a parallel linkage mechanism, when the main shaft (35) borrows the driving wheel (10) When the rotor (10) is driven to rewind, the relative force between the rotor (10) and the pin (36) is reduced by the formation of the parallel link mechanism, and the rotor (10) and the sliding pin (36) are further Riding more, and improving the reliability of operation. The fourth embodiment of the present invention is changed according to the foregoing third embodiment, and the same portion is not repeated. Referring to the thirteenth embodiment, the auxiliary shaft (10) of the fourth embodiment of the present invention can select the pivot. In the first cover (4), the cymbal is used to position the distal auxiliary shaft (48) to the pump body (4 〇). The fifth embodiment of the present invention is changed according to the foregoing third embodiment, "the same portion will not be repeatedly described; referring to the fourteenth embodiment, the main vehicle (55) of the fifth embodiment of the present invention is pivoted to the second end. The cover body (53) extends to the outside, the other end of the main shaft (55) is pivoted to the first cover body (8), and the two ends of the auxiliary shaft (10) are respectively pivoted to the 4th and 2nd cover bodies (5)) (5)). According to the reliability of the main pumping ((6) and the auxiliary shaft (58) positioning, the reliability of the high-torque running pumping is improved. In summary, the present invention has undergone repeated tests to confirm that the pre-fill can be fully satisfied. "The purpose of 'excellent efficacy' has not been seen in public publications and public use before, and it is in line with the invention of the invention, Newfati (4), please pray for detailed review and early grant of patents, the applicant has no sense of charge. BRIEF DESCRIPTION OF THE DRAWINGS The first drawing is a schematic view of a conventional rotary pump. The second drawing is a perspective view of a first embodiment of the present invention. The third drawing is an exploded perspective view of the first embodiment of the present invention. A schematic cross-sectional view of a first embodiment of the present invention. The fifth figure is 5-5 of the fourth figure. The sixth figure is a schematic diagram of the actuation state of the first embodiment of the present invention (1). The seventh diagram is a schematic diagram of the actuation state of the first embodiment of the present invention (2). The eighth figure is the first embodiment of the present invention. The ninth diagram is an axial cross-sectional view of a second embodiment of the present invention. The eleventh diagram is an exploded perspective view of a third embodiment of the present invention. Figure 12 is a cross-sectional view taken along line 12 - 12 of the eleventh figure. Figure 13 is an axial cross-sectional view of a fourth embodiment of the present invention. Figure 14 is a shaft of a fifth embodiment of the present invention. Cross-sectional view. [Main component symbol description] Cylinder chamber (1) Suction port (102) Discharge port (104) Suction area (106) Discharge area (108) Rotary part (2) Drive shaft (3) Eccentric wheel (6) Slip Pin (4) Spring (7) Head end (402) 1357466 Pump body (10) First cover (11) Base (12) Cylinder chamber (122) Inlet (123) Chamber (124) Outlet (125) Attraction zone (126) Drainage zone (128) Second cover (13) Rotor (14) Second plane (142) Spindle (15 Drive wheel (152) Slide pin (16) First plane (162) Elastic element (17) Bolt (19) First cover (21) Second cover (23) Rotor (24) Spindle (25) Drive wheel (252) Pump body (30) First cover (31) Base (32) Cylinder chamber (322) Second cover (33) Rotor (34) Main shaft (35) Auxiliary wheel (382) Slide pin (36 Auxiliary shaft (38) Pump body (40) First cover (41) Auxiliary shaft (48) First cover (51) Auxiliary shaft (58) Second cover (53) Main shaft (55) # 14

Claims (1)

1357466 f*, the scope of application for patent: Yang Weipu, mainly includes a pump body, a rotor, a main shaft and a sliding pin, wherein the inside of the body forms a circular 1::: circumference and the inner wall of the cylinder chamber Forming an inscribed abutment, the main shaft is biased toward the main driving wheel and the driving wheel is dragged with the eccentric shaft of the rotor, and the rotor is driven by the wrong wheel to make a return in the interior of the red chamber. The body is extended to the outside, and the power is “pulsed by the spindle of the sea, and the rotor is actuated; the g body is laterally opened—the chamber”, and the chamber-end is connected with the red chamber l= a ^_ 'the sliding pin _ in the chamber, and the axial direction of the sliding pin passes through the center of the cylinder chamber, the sliding pin-end end face shape]: the μ thousand face is perpendicular to the tear pin axis, the rotor is adjacent to To the sliding, the pin is limited to the rotor, and the rotor is provided with a loop-shaped path in the rotor mode to rewind the actuator; the chamber is provided with an elastic reading of the elastic member-end and the sliding The pin is resisted, and the other end, such as the head of the sea, pushes against the slide lock, and the slide pin maintains a lateral restraining limit on the rotor; - Inflow channel, one outflow channel 'The inflow' is one end of the flow channel, and the other end is connected to the outside, and the inlet and outlet channels are separated from the outside by the sliding lock and the rotor to form an attraction = A discharge zone 'the zone is in communication with the human flow channel, and the discharge zone is in communication with the outlet> to cause fluid to enter and exit the cylinder chamber. 2. According to the middle of the article, the first item · _ Wei Wei pump, 15 1357466, the system consists of a first cover, a base and a second cover string, and the base It is disposed between the first and second covers. The rotor rewinding pump according to claim 2, wherein the base axially penetrates a hole, and the hole is axially surrounded by the first and second covers.俾 for the formation of the cylinder room. 4. The rotor rewind pump of claim 3, wherein the spindle-end pivots through the second cover and the vehicle power supply device tilts the spindle. 5. According to the rotor rewinding pump described in claim 4 of the patent application scope, the other end shaft of the main shaft is pivoted to the first cover body, thereby improving the reliability of the spindle clamping position, thereby improving the rotor Rewinding the reliability of the action. 6. The auxiliary shaft according to claim 1, wherein the auxiliary shaft is flat with the main axis of the main axis, the axis of the lion shaft is b, and the shape of the cylinder chamber is between ab The midpoint of the auxiliary axis is pivoted to the body, (4) The axial offset is - the observation wheel, the contact wheel and the scale eccentric two pivotal connection 'and parallel to the drive wheel, the auxiliary axis and the auxiliary wheel center distance is equal to the auxiliary axis and the auxiliary wheel. Therefore, the borrowing link mechanism reduces the rotor and the sliding pin relative to each other = the relative sliding with the sliding pin is smoother, and the lifting is improved. 7. The rotor according to the sixth item of the patent scope is claimed. In the case of the burn-in type, the system consists of a - cover body, a base and a string, and the recording seat is set in the material - and the second is heard.盍 串 · · · · · · · · · · · · · · · · · · · · 转子 转子 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 The bag is used to form the cylinder room. 9. The rotor rewinding fruit-pull according to item 8 of the patent scope, wherein the main vehicle is pivoted through the second cover body and extends outside the body, and the power supply device shakes the spindle rotation . 10. The rotor rewind pump according to claim 8 or 9, wherein one of the auxiliary shafts is pivoted to the second position of the auxiliary shaft to the pump body.疋11. According to the shot, Xiangfan 1!1, item 8 or item 9, the rotor rewinds the 'pump' of the towel, the lion shaft-end shaft is pivoted to the first cover body, and the auxiliary shaft is positioned for The pump body is the person. VIII. According to the rotor rewinding type of fruit pump according to claim 9 of the patent application scope, the other end shaft of the second middle shaft is pivoted to the first cover body, thereby increasing the main shaft and the two shafts for lifting Rewinding the reliability of the action. 13. According to the rotor rewinding type of the rotor/,/, in the rotor of the patent (4), the two ends of the auxiliary shaft are respectively pivoted to the first and second covers, and the reliability of the auxiliary hard positioning is improved. The sin of high-torque running pumping. 14. The rotor rewinding according to claim 2, wherein the plurality of bolts are threaded through the first cover and the base is screwed to the body to form the pump. Ontology. If the rotor is recirculating pumping as described in claim 2 or 7, the chamber is formed on the base. ^ According to the lion's patent scope, the rotor rewinding according to item 2 or item 7 of the patent scope, the person's flow path and the outflow channel system are formed on the base 17 1357466