CN104005929B - A kind of potent high speed compressor - Google Patents

Abstract

A kind of potent high speed compressor, it relates to a kind of pump, housing 1 is provided with 24 cavitys along same circumference uniform distribution, two spiral chutes on slider seat outer surface be arranged in parallel, 24 clutch shaft bearings are housed in each spiral chute, the corresponding link of each clutch shaft bearing and a piston, clutch shaft bearing is packed on link, link is fixedly connected with piston, 24 pistons are separately positioned in 24 cavitys, on first member plate corresponding each cavity position on a left one-way valve is installed, and the left valve block on left one-way valve is positioned at cavity, the end face of the corresponding left one-way valve side of each piston is provided with water port and valve block hole, a slide bar is provided with in valve block hole, slide bar is connected with piston valve, piston valve is arranged in the endoporus of piston, on first member plate corresponding each cavity position on a right one-way valve is installed, and the right valve block on right one-way valve is positioned at right cylinder cap, intake pipe is arranged on left cylinder cap, waste pipe is arranged on right cylinder cap.The present invention is used for water suction.

Description

A kind of potent high speed compressor

Technical field

The present invention relates to a kind of self-priming pump, be specifically related to a kind of potent high speed compressor.

Background technique

Existing compressor is one-sided turnover, as shown in figure 13, intake valve 20-1 and exhaust valve 20-2 is arranged on same cylinder cap 20, make the limited diameter of intake valve 20-1 and exhaust valve 20-2, cause intake and exhaust amount little, therefore, output power is little, thus compressor is consumed energy increase, decrease compressor working life.

Summary of the invention

The present invention for overcoming the problems referred to above, and provides a kind of potent high speed compressor.

The present invention includes housing, slider seat, main shaft, second bearing, first member plate, left cylinder cap, right end plate, right cylinder cap, wheel for inputting, intake pipe, waste pipe, 24 clutch shaft bearings, 24 links, 24 pistons, 24 left one-way valves, 24 slide bars, 24 piston valves and 24 right one-way valves, housing is provided with 24 cavitys along same circumference uniform distribution, the outer surface of slider seat is provided with two spiral chutes, two spiral chutes be arranged in parallel, the center of slider seat is provided with mounting hole, slider seat is packed on main shaft, 24 clutch shaft bearings are housed in each spiral chute, the corresponding link of each clutch shaft bearing and a piston, and clutch shaft bearing is packed on link, link is fixedly connected with piston, 24 pistons are separately positioned in 24 cavitys, first member plate and left cylinder cap are successively set on the left end of housing from the inside to the outside, right end plate and right cylinder cap are successively set on the right-hand member of housing from the inside to the outside, the two ends of main shaft are respectively by the second bearings in the housing central hole, the input end of main shaft is connected with wheel for inputting with right cylinder cap through right end plate, on first member plate corresponding each cavity position on a left one-way valve is installed, and the left valve block on left one-way valve is positioned at cavity, the end face of the corresponding left one-way valve side of each piston is provided with water port and valve block hole, a slide bar is provided with in valve block hole, slide bar is connected with piston valve, piston valve is arranged in the endoporus of piston, on first member plate corresponding each cavity position on a right one-way valve is installed, and the right valve block on right one-way valve is positioned at right cylinder cap, intake pipe is arranged on left cylinder cap, waste pipe is arranged on right cylinder cap.

The present invention has following beneficial effect:

The present invention adopts an axle to drive the working principle of multi-cavity, air inlet with give vent to anger on a passage, the velocity of liquid assets of fluid and gas is increased, namely add turnover tolerance, compare existing compressor, improve output power, decrease compressor power consumption, thus improve compressor working life.

Accompanying drawing explanation

Fig. 1 is the main sectional view of overall structure of the present invention;

Fig. 2 is the structural front view of slider seat 2;

Fig. 3 is the left view of Fig. 2;

Fig. 4 is the structural front view of piston 6;

Fig. 5 is the K direction view of Fig. 4;

Fig. 6 is the structural front view of main shaft 3;

Fig. 7 is the structural front view of first member plate 8;

Fig. 8 is the left view of Fig. 7;

Fig. 9 is the structural front view of right end plate 10;

Figure 10 is the left view of Fig. 9;

Figure 11 is the structural front view of left cylinder cap 9;

Figure 12 is the structural front view of right cylinder cap 11;

Figure 13 is the main sectional view of overall structure of existing compressor.

Embodiment

Embodiment one: composition graphs 1 ~ Figure 12 illustrates present embodiment, present embodiment housing 1, slider seat 2, main shaft 3, second bearing 7, first member plate 8, left cylinder cap 9, right end plate 10, right cylinder cap 11, wheel for inputting 12, intake pipe 17, waste pipe 18,24 clutch shaft bearings 4,24 links 5,24 pistons 6,24 left one-way valves 13,24 slide bars 14,24 piston valves 15 and 24 right one-way valves 16

Housing 1 is provided with 24 cavity 1-1 along same circumference uniform distribution, the outer surface of slider seat 2 is provided with two spiral chute 2-1, two spiral chute 2-1 be arranged in parallel, the center of slider seat 2 is provided with mounting hole 2-2, slider seat 2 is packed on main shaft 3, 24 clutch shaft bearings 4 are housed in each spiral chute 2-1, the corresponding link 5 of each clutch shaft bearing 4 and a piston 6, and clutch shaft bearing 4 is packed on link 5, link 5 is fixedly connected with piston 6, 24 pistons 6 are separately positioned in 24 cavity 1-1, first member plate 8 and left cylinder cap 9 are successively set on the left end of housing 1 from the inside to the outside, right end plate 10 and right cylinder cap 11 are successively set on the right-hand member of housing 1 from the inside to the outside, the two ends of main shaft 3 are supported in housing central bore 1-2 respectively by the second bearing 7, the input end of main shaft 3 is connected with wheel for inputting 12 with right cylinder cap 11 through right end plate 10, on first member plate 8 corresponding each cavity 1-1 position on a left one-way valve 13 is installed, and the left valve block 13-1 on left one-way valve 13 is positioned at cavity 1-1, the end face of corresponding left one-way valve 13 side of each piston 6 is provided with water port 6-1 and valve block hole 6-2, a slide bar 14 is provided with in the 6-2 of valve block hole, slide bar 14 is connected with piston valve 15, piston valve 15 is arranged in the endoporus 6-3 of piston 6, on first member plate 10 corresponding each cavity 1-1 position on a right one-way valve 16 is installed, and the right valve block 16-1 on right one-way valve 16 is positioned at right cylinder cap 11, intake pipe 17 is arranged on left cylinder cap 9, waste pipe 18 is arranged on right cylinder cap 11.

Working principle: wheel for inputting 12 drives main shaft 3 and slider seat 2 to rotate under driver part drives, piston 6 side-to-side movement in cavity 1-1 is driven by clutch shaft bearing 4 and link 5, when piston 6 moves to left end, left valve block 13-1 on left one-way valve 13 opens, valve block hole 6-2 closes by piston valve 15, and water or air enter in left cylinder cap 9 by intake pipe 17, enter in cavity 1-1 through left one-way valve 13, entered in right cylinder cap 11 by right one-way valve 16 again, finally discharged by waste pipe 18; When piston 6 moves to right-hand member, left valve block 13-1 on left one-way valve 13 closes, and valve block hole 6-2 opens by piston valve 15, and the water in cavity 1-1 or air are passed through by the endoporus 6-3 of piston 6, entered in right cylinder cap 11 by right one-way valve 16 again, finally discharged by waste pipe 18.

Embodiment two: composition graphs 1 and Fig. 2 illustrate present embodiment, the rotation direction that the spiral chute 2-1 of present embodiment is is dextrorotation.Because the intake pipe 17 in Fig. 1 is arranged on right side, the rotation direction of spiral chute 2-1 should be dextrorotation; If intake pipe 17 is arranged on left side, the rotation direction of spiral chute 2-1 should be left-handed.Other forms and connects identical with embodiment one.

Embodiment three: composition graphs 1 illustrates present embodiment, the diameter of the piston valve 15 of present embodiment is greater than the diameter of water port 6-1.When such design makes piston valve 15 close, this water port 6-1 can close by piston valve 15 completely.Other forms and connects identical with embodiment two.

Claims (3)

1. a potent high speed compressor, it is characterized in that: described potent high speed compressor comprises housing (1), slider seat (2), main shaft (3), second bearing (7), first member plate (8), left cylinder cap (9), right end plate (10), right cylinder cap (11), wheel for inputting (12), intake pipe (17), waste pipe (18), 24 clutch shaft bearings (4), 24 links (5), 24 pistons (6), 24 left one-way valves (13), 24 slide bars (14), 24 piston valves (15) and 24 right one-way valves (16), housing (1) is provided with 24 cavitys (1-1) along same circumference uniform distribution, the outer surface of slider seat (2) is provided with two spiral chutes (2-1), two spiral chutes (2-1) be arranged in parallel, the center of slider seat (2) is provided with mounting hole (2-2), slider seat (2) is packed on main shaft (3), 24 clutch shaft bearings (4) are housed in each spiral chute (2-1), the corresponding link (5) of each clutch shaft bearing (4) and a piston (6), and clutch shaft bearing (4) is packed on link (5), link (5) is fixedly connected with piston (6), 24 pistons (6) are separately positioned in 24 cavitys (1-1), first member plate (8) and left cylinder cap (9) are successively set on the left end of housing (1) from the inside to the outside, right end plate (10) and right cylinder cap (11) are successively set on the right-hand member of housing (1) from the inside to the outside, the two ends of main shaft (3) are supported in housing central bore (1-2) respectively by the second bearing (7), the input end of main shaft (3) is connected with wheel for inputting (12) with right cylinder cap (11) through right end plate (10), the position of the upper corresponding each cavity (1-1) of first member plate (8) is provided with a left one-way valve (13), and the left valve block (13-1) on left one-way valve (13) is positioned at cavity (1-1), the end face of each piston (6) corresponding left one-way valve (13) side is provided with water port (6-1) and valve block hole (6-2), a slide bar (14) is provided with in valve block hole (6-2), slide bar (14) is connected with piston valve (15), piston valve (15) is arranged in the endoporus (6-3) of piston (6), the position of the upper corresponding each cavity (1-1) of first member plate (10) is provided with a right one-way valve (16), and the right valve block (16-1) on right one-way valve (16) is positioned at right cylinder cap (11), intake pipe (17) is arranged on left cylinder cap (9), waste pipe (18) is arranged on right cylinder cap (11).

2. a kind of potent high speed compressor according to claim 1, is characterized in that: the rotation direction of described spiral chute (2-1) is dextrorotation.

3. a kind of potent high speed compressor according to claim 2, is characterized in that: the diameter of described piston valve (15) is greater than the diameter of water port (6-1).