IES86681B2 - Triggering wheel for fluid transfer device - Google Patents

Abstract

The invention relates to a triggering wheel for fluid transfer device. The wheel comprises a disc-shaped fixed sheet with a transmission bore; a triggering block uniformly arranged in a ring array, the triggering block is axially clamped between two fixed sheets, the triggering block is coaxially provided with an interior arcuate surface and an exterior arcuate surface, both the head side surface and the tail side surface of the triggering block is tangentially connected with the interior arcuate surface and the exterior arcuate surfaces are coaxial, and the axises of the interior and exterior arcuate surfaces are coaxial with the axis of the fixe sheet, a tangent condition between the exterior arcuate surface and the triggering end will be achieved, such tangent condition makes the cartridge retain at the present position, that is leaving the receiving chamber communicated with the input passage or the output passage. <Figure 4>

Description

Triggering wheel for fluid transfer device Field of the Invention The invention relates to a fluid transfer device, especially to a triggering wheel for the fluid transfer device.

Description of prior art The working process of the internal combustion engine is roughly such, the piston moves downward, the mixed combustible gas goes into the cylinder; the piston moves upward to compress combustible gas, the spark plug 10 ignites combustible gas to explode the gas, the exploded gas with high temperature and high pressure drives the piton moving downward, the linear movement of the piston is converted to the rotational movement of the crankshaft by the connecting rod; the crankshaft goes on rotating because of the inertia, the rotational movement of the crankshaft is is converted to the linear movement of the piston by the connecting rod, the piston moves upward to push exhaust gas out of the cylinder. In brief, inhale —compression -* work^exhaust.

So, there is provided a device using reciprocal movement of the piston to 20 transfer fluid. The working process of the device is that, the piston moves upward to create a negative pressure area in the receiving chamber, fluid is compressed into the receiving chamber through the input passage by the effect of the atmosphere. The downward movement of the piston within the receiving chamber compresses fluid therein out of the receiving 25 chamber through the output passage. in A single cycle of motion is separated into an input phase and an output phase. The receiving chamber communicates with the input passage during the input phase, the receiving chamber communicates with the output passage during the output phase. A cartridge freely hermetically rotating 5 inside the receiving chamber achieves the switching between the input phase and the output phase, it is a problem to achieve that the rotation of the cartridge interacts with the movement of the piston.

Summary of the present invention The object of the invention is to provide a triggering wheel for the fluid transfer device so as to solve the above problem.

A triggering wheel for the fluid transfer device comprises a disc-shaped fixed sheet with a transmission bore; the triggering wheel further comprises a is triggering block uniformly arranged in a ring array, the axis of the array is the axis of the fixed sheet, the triggering block is axially clamped between two fixed sheets, the triggering block is coaxially provided with an interior arcuate surface and an exterior arcuate surface, both the head side surface and the tail side surface of the triggering block tangentially connects with 20 the interior arcuate surface and the exterior arcuate surface through the arcuate surface, the interior and exterior arcuate surfaces are coaxial with the fixed sheet.

Preferably, the quantity of the triggering block is 2.

Specifically, the fixed sheet and the triggering block are fastened together by rivet. 3/7 Advantageous Effects The intermittent interaction between the triggering block and the triggering end achieves the interaction between the upward-and-downward s movement of the piston and the rotation of the cartridge.

Because the interior and exterior arcuate surfaces are coaxial, and the axises of the interior and exterior arcuate surfaces are coaxial with the axis of the fixed sheet, a tangent condition between the exterior arcuate surface and the triggering end will be achieved, such tangent condition makes the 10 cartridge retain at the present position, that is leaving the receiving chamber communicated with the input passage or the output passage.

Brief description of the drawing In the following, the invention will be described in greater detail by means is of some embodiments with reference to the accompanying drawings, in which Fig.l is a sectional front view of the fluid transfer device; Fig.2 is a 3d~drawing of the triggering wheel; Fig.3 is a front view of the triggering wheel without a piece of fixed sheet; Fig.4 is an exploded 3d-drawing of the triggering wheel. 1. the receiving chamber; 2. the piston; 3. the cartridge; 4. the input passage; 5. the output passage; 6. the fixed sheet; 7. the triggering block; 8. the triggering end; 9. the first passage; . the second passage; 11. the interior arcuate surface; 12. the exterior arcuate surface; 13. the arcuate surface.

Detailed description of the preferred embodiment Referring to Fig.l, it is a fluid transfer device of the invention, in order to increase the transferring efficiency of the device, the device includes four piston units, four piston units are uniformly arranged in a ring array, the 5 axis of the array is the axis of the cartridge 3. Three of the four input passages 4 are sealed by plugs, and three of the four output passages 5 are sealed by plugs, the transfer device only keeps one input passage 4 and one output passage 5.

For better understanding the triggering wheel, one piece of fixed sheet 6 of io the triggering wheel in Fig.l is hidden, the triggering end 8 with a round tail end mates with the triggering block 7, the triggering end 8 is fixedly connected with the cartridge 3, the triggering end 8 is located between two fixed sheets 6 of the triggering wheel. The rotation of the crankshaft drives the piston 2 moving reciprocally in the receiving chamber 1, the crankshaft is transfers the power to the transmission shaft through the belt wheel, the transmission shaft drives the triggering wheel rotating through the transmission bore configured on the fixed sheet 6.

The triggering end 8 retains at the position shown in Fig.l under the elastic 20 force of the reset component, the end portion of the triggering end 8 is at the middle position between two triggering blocks 7, and the distance between the triggering end 8 and the triggering block 7 is equal. The first passage 9 of the cartridge 3 communicates with the receiving chamber 1, the second passage 10 of the cartridge 3 communicates with the output 25 passage 5, that is the receiving chamber 1 communicates with the output passage 5 with the help of the cartridge 3. /7 The triggering wheel rotates in a clockwise direction during the piston 2 moving downward, when the triggering wheel rotates a certain angle, the piston 2 is near to the constriction of the receiving chamber 1, the arcuate surface 13 of the head side surface of the triggering block 7 touches the end s portion of the triggering end 8, after this, the piston 2 goes on moving downward, meanwhile the triggering block 7 pushes the triggering end 8 to rotate, the cartridge 3 rotates as the triggering end 8 rotates, the second passage 10 and the output passage 5 are gradually staggered till the piston 2 moves downward to the extreme position, that is the bottom dead center, io the second passage 10 do not communicate with output passage 5 at all.

The piston 2 moves from the bottom dead center to the top dead center with the help of the crankshaft, meanwhile, the triggering wheel goes on rotating, the triggering block 7 goes on driving the cartridge 3 rotating, the is second passage 10 gradually turns to the input passage 4 till the second passage 10 totally communicates with the input passage 4, at this time, the piston 2 is at the position 2, the cartridge 3, the triggering end 8 and the triggering block 7 shown in dashed line in Fig.l.

The piston 2 goes on moving upward, the triggering wheel goes on rotating in clockwise direction, because the triggering end 8 is tangent to the exterior arcuate surface 12 of the triggering block 7, the exterior arcuate surface 12 of the rotating triggering block 7 do not go on pushing the triggering end 8 to rotate, that is the cartridge 3 stops rotating to leave the 25 second passage 10 communicated with the input passage 4.

The piston 2 goes on moving upward, the triggering wheel goes on rotating Mi in clockwise direction, when the piston 2 moves upward to the top dead center, the triggering block 7 of the triggering wheel separates from the triggering end 8, due to the elastic force of the extension spring, the cartridge 3 rotates in clockwise direction till the triggering end 8 touches the s limit component, the cartridge 3 stops rotating and retains at the present position, that is the second passage 10 is switched from the input passage 4 to the output passage 5 and maintained a communication with the output passage 5, so far, a single cycle of motion is done, in a sigle cycle, the first passage 9 always communicates with the receiving chamber 1, while the io second passage 10 communicates with the output passage 5 or the input passage 4 with the cooperation of the triggering wheel.

Referring to Fig.2 and Fig.4, the triggering wheel is provided with two disc-shaped fixed sheets 6, two arcuate triggering blocks 7 and four rivets, is Two triggering blocks 7 are uniformly arranged in a ring array, the axis of the array is the axis of the fixed sheet 6, two triggering blocks 7 are clamped between two fixed sheets 6, the head and tail ends of each triggering block 7 are fastened to the two fixed sheets 6 by rivet. Each fixed sheet 6 at the center portion is provided with a through hole for matting with the 20 crankshaft and the key.

Referring to Fig.3, the triggering block 7 is coaxially provided with an interior arcuate surface 11 and an exterior arcuate surface 12, both the head side surface and the tail side surface of the triggering block 7 are tangentially 25 connected with the interior arcuate surface 1 and the exterior arcuate surface 12 by the arcuate surface 13, the interior and exterior arcuate surfaces are coaxial with the fixed sheet 6.

Claims (3)

Claims

1. A triggering wheel for the fluid transfer device, comprising a disc-shaped fixed sheet (6) with a transmission bore; characterized in that the triggering wheel further comprises a triggering block (7) uniformly arranged in a ring array, the axis of the array being the axis of the 5 fixed sheet (6), the triggering block (7) axially clamped between two fixed sheets (6), the triggering block (7) coaxially provided with an interior arcuate surface (11) and an exterior arcuate surface (12), both the head side surface and the tail side surface of the triggering block (7) tangentially connected with the interior arcuate surface (1) and the exterior arcuate io surface (12) by the arcuate surface (13), the interior and exterior arcuate surfaces being coaxial with the fixed sheet (6).

2. A triggering wheel for the fluid transfer device according to claim 1, characterized in that is the quantity of the triggering block (7) is 2.

3. A triggering wheel for the fluid transfer device according to claim 1, characterized in that the fixed sheet (6) and the triggering block (7) are fastened together 20 by rivet.