CN102913418A - Efficient gain type gas compression structure - Google Patents

Abstract

The invention discloses an efficient gain type gas compression structure, which comprises a force feeding tank, a force feeding cover, a force feeding body, a force feeding disc, force feeding blocks, a force feeding body, a force feeding plate and a force feeding top, wherein the force feeding blocks are mounted on the periphery of the force feeding disc; a force feeding cylinder and the force feeding cover are respectively mounted above and under the force feeding disc and the force feeding blocks; the force feeding tank is mounted under the force feeding cover; and the force feeding bodies, the force feeding plate and the force feeding top are mounted on the force feeding cylinder. The efficient gain type gas compression structure has the benefits that firstly, the production cost is low, the production process is simple, the maintenance is convenient and the volume is small; and secondly, when the efficient gain type gas compression structure is used, little energy is consumed, the air intake quantity is small and little noise is produced.

Description

The high-efficiency gain type air compression structure

Technical field

The present invention relates to a kind of gas compression machinery structure, relate in particular a kind of high-efficiency gain type air compression structure.

Present technology

Present employed gas compression machinery structure all exists power consumption large, and operating process is loaded down with trivial details, the dissatisfactory defective of gas compression amount.

Summary of the invention

Be equipped with to the power piece at the periphery to the power dish, cover to the power dish with to being equipped with respectively up and down to the power cylinder with to power of power piece, be equipped with to the power body to being equipped with to the power tank under the power lid, giving on the power cylinder, push up to the power plate with to power.

Description of drawings

Figure 1A be high-efficiency gain type air compression structure of the present invention give the power piece and to power dish assembling worm's eye view

What Figure 1B, Fig. 1 C were respectively high-efficiency gain type air compression structure of the present invention gives mechanical axis front view and side view

Fig. 2 is high-efficiency gain type air compression structure front view of the present invention

Fig. 3 A gives power cylinder front view for high-efficiency gain type air compression structure of the present invention

Fig. 3 B, for high-efficiency gain type air compression structure of the present invention to power lid front view

What Fig. 4 A, Fig. 4 B were respectively high-efficiency gain type air compression structure of the present invention gives power piece front view and side view

Fig. 4 C gives power cylinder plan view for high-efficiency gain type air compression structure of the present invention

Fig. 5 A, for high-efficiency gain type air compression structure of the present invention to power lid plan view

Fig. 5 B, Fig. 5 C be respectively high-efficiency gain type air compression structure of the present invention to wearing axle front view and side view

Fig. 6 A, Fig. 6 B are respectively sliding plug plan view and the side view of high-efficiency gain type air compression structure of the present invention

Fig. 6 C gives power body plan view for high-efficiency gain type air compression structure of the present invention

Fig. 6 D is the sliding plug ring plan view of high-efficiency gain type air compression structure of the present invention

Fig. 6 E, Fig. 6 F are respectively sliding plug pin front view and the side view of high-efficiency gain type air compression structure of the present invention

Fig. 6 G gives power body front view for high-efficiency gain type air compression structure of the present invention

Fig. 7 A, Fig. 7 B are respectively fixing bolt front view and the side view of high-efficiency gain type air compression structure of the present invention

Fig. 7 C, Fig. 7 D are respectively unidirectional positioning cover plate front view and the plan view of high-efficiency gain type air compression structure of the present invention

Fig. 7 E is unidirectional plan view of high-efficiency gain type air compression structure of the present invention

What Fig. 7 F, Fig. 7 G were respectively high-efficiency gain type air compression structure of the present invention gives power tank front view and plan view

Fig. 8 A, Fig. 8 B be respectively high-efficiency gain type air compression structure of the present invention to power dish front view and worm's eye view

What Fig. 9 A, Fig. 9 B were respectively high-efficiency gain type air compression structure of the present invention gives power top elevation view and plan view

What Fig. 9 C, Fig. 9 D were respectively high-efficiency gain type air compression structure of the present invention gives power plate front view and plan view

Figure 10 A Figure 10 B is respectively master gear plan view and the front view of high-efficiency gain type air compression structure of the present invention

Figure 10 C Figure 10 D is respectively pinion front view and the plan view of high-efficiency gain type air compression structure of the present invention

Embodiment

In the hole of the certain depth at the lower plane center in giving power cylinder 18, successively put into plane bearing 20 and positioning bearing 19, then the lower plane protrusion partial response position in giving power cylinder 18 puts into corresponding positioning bearing 11 in boring a hole.

In the convex shape breach in giving the plane, front and back of power piece 9, after putting into respectively corresponding bearing 30, the front end of wearing axle 15 being aimed to inserting in the respective aperture on power piece 9 trailing flanks, be introduced in the respective aperture to power piece 9 trailing flanks wearing axle 15, then went here and there behind the hole in the middle of the bearing 30, seal in again in the hole on power piece 9 leading flanks until after putting in place, put into corresponding jump ring 31. in corresponding mouthful on giving power piece 9 trailing flanks.

The borehole jack in piston 8 rear cross sections in the outside of giving power piece 9 front ends, after this again inserting the respective aperture of sliding plug axle 10 outside the arc surface of sliding plug, then went here and there again to locating behind the hole on the power piece 9 front Transverse planes, put into jump ring 18 in two apertures outside the arc surface of sliding plug at last.

Put into sliding plug ring in the annular groove on the arc surface of sliding plug 8.

External at the ring-shaped cylinder to the periphery of power dish 13, respectively be equipped with bearing 30 give in the plane of power piece 9 the convex shape notch alignment its set up, sliding plug 8 end faces of some quantity and keeping a direction to set up to the central shaft rear end of power dish 13 after, to power dish 13 central shaft 12 back-end aligned seal in to the aperture of the certain depth at the lower plane center in the power cylinder 18, be mounted to power piece 9 front ends in sliding plug 8 then enters to the respective aperture in the lower plane in the power cylinder 18 naturally.Put into sliding plug ring in the annular groove on the arc surface of sliding plug 8.Giving on the spindle nose at mechanical axis 2 two ends, respectively put respectively a bearing 11, after this upper end spindle nose of giving mechanical axis 2 is aimed to the respective apertures string on the lower plane in the power cylinder 18.Face on to the upper plane of power lid 32 in the annular right-angle recess of nearly outer edge is coated and is received glue, and put seal ring 33, top also the coating of seal ring 33 received glue, give the lower end of mechanical axis and also aim at respectively on the upper plane to power lid 32 to central shaft 12 lower ends of power dish 13 accordingly perforation to be put in separately, after this setting up to the upper planar alignment of the power lid 32 lower end nozzle to power cylinder 18.successively put unidirectional 6 on the square aperture of giving on the upper plane of power plate 3 and unidirectional positioning cover plate 5 after in corresponding hole, sealing in bolt tightening.The front end of fixing bolt 7 is aimed to after sealing in from the bottom up in the respective apertures on the lower plane of power lid 32, from going here and there out to the upper plane of power lid 32, get on the front end sleeve of giving the corresponding aperture aligning fixing bolt on power body 4 lower planes this moment, also the sliding plug 8 that also is aligned in to the corresponding bump body aperture on power body 4 lower planes to protruding upward on the plane on the power cylinder 18 is set up simultaneously, after the front end of fixing bolt appears for the upper plane of power body 4, again successively after setting up to power plate 3 with to the respective apertures aligning anchor stud head on the lower plane on the power top 1, tighten at each bolt head cover upper cap nut respectively, after this insert again after the cotter pin sealing that minute breaks in the pore on the nearly nose-circle cambered surface of fixing bolt 7.

In the key pin groove to the central shaft 12 nearly lower ends of power dish 13, put into key pin, after this do again the bump body 28 of master gear 24 upwards, perforation and key pin groove are set up behind centering axle 12 and the key pin respectively in the middle of it, at last overlapping upper cap nut with arc surface and tighten to the central shaft 12 near lower ends of power dish 13, and to the central shaft 12 nearly lower ends of power dish 13 with the pore on the arc surface in insert cotter pin, minute break.

In the key pin groove of the nearly lower end of giving mechanical axis 2, put into key pin, after this do again the bump body 29 of pinion 23 upwards, perforation and key pin groove are aimed at respectively to setting up behind mechanical axis 2 and the key pin in the middle of it, at last giving tightening with arc surface cover upper cap nut of the nearly lower end of mechanical axis, and give mechanical axis 2 near lower ends with the pore on the arc surface in insert cotter pin after minute chap.

The tank mouth of giving power tank 27 coat receive glue after, put sealing gasket, still coat on the sealing gasket and receive glue, after this lower plane of the tank mouth of giving power tank 27 upwards being aimed to power lid 32 sticks, after position alignment separately, in each aperture, seal in bolt tightening from the bottom up, so far assembling finishes.

When giving mechanical axis 2 rotation, 23 of pinions drive master gear 24 and rotate together, also rotating to power dish 13 simultaneously, formation ceaselessly changes to the appearance curvilinerar figure height in the special position of the circular cylinder on the limit, power dish 13 outer in giving power cylinder 18, thereby drive to power piece 9 and also together up and down operation of piston 8, compress when piston 8 is up to the gas in the mutually reply perforation in the power body 4, it is backed down to being bent upwards for unidirectional 6 accordingly on the power plate 3, emit gas and enter pipeline 0, then increase when piston 8 is descending to the space in the mutually reply perforation in the power body 4, and make its top shut air outlet to flattening for unidirectional 6 accordingly on the power lid 32 downwards, prevent that gas from recharging, after piston 8 descending mistakes are to the lower aperture in the mutually reply perforation in the power body 4, then can pour to the space in the mutually reply perforation in the power body 4 for power body 4 outer gases, and piston 8 can compress to gas in the perforation of the mutually reply in the power body 4 when up, from put square hole, extruded by piston 8 again, the process of the repetition gas compression that goes round and begins again, thus reach the purpose of Efficient Compression gas.

Claims (9)

1. a high-efficiency gain type air compression structure by giving the power tank, to the power lid, is given the power body, to the power dish, gives the power piece, gives the power body, gives the power plate, forms to the power top, it is characterized in that; Be equipped with to the power piece at the periphery to the power dish, cover to the power dish with to being equipped with respectively up and down to the power cylinder with to power of power piece, be equipped with to the power body to being equipped with to the power tank under the power lid, giving on the power cylinder, push up to the power plate with to power.

High-efficiency gain type air compression structure of the present invention as claimed in claim 1 its be characterised in that for the power tank; Integral body is drum shape body, and there is the end lower end, has the shape of protrusion staving to protrude on the side arc surface, and the right angle type turning is done on the top outward on the arc surface of staving periphery, forms around the shape plane, has on this plane to distribute uniformly to boring a hole.

High-efficiency gain type air compression structure of the present invention as claimed in claim 1 its be characterised in that to power lid; Integral planar is circular flat substantially, one side on plane has square bump body toward extension, porose to wearing on the square bump body integral planar relevant position, the aperture is the inversion convex shape, integral planar outer side face becomes stepped shape, there is circular bump body up to protrude on the disk on the central position, have circular to boring a hole to wearing on the circular bump body planar central position, the aperture is inverted convex shape, the square to boring a hole to wearing and evenly distributing of respective numbers arranged on the relevant position of integral planar, there is the hole of certain depth at proximal edge place on the lower plane, and in the equally distributed hole screw thread is arranged.

High-efficiency gain type air compression structure of the present invention as claimed in claim 1 its be characterised in that for the power cylinder; Upper plane shape and to cover whole lower plane shape to power basic identical, the two ends external diameter is identical up and down for the exterior arc surface of staving, the lower plane shape of body and basic identical to the upper plane shape of power lid, respective numbers, equally distributed to perforation for circular port, under the bump body plane piercing aperture is convex shape.

High-efficiency gain type air compression structure of the present invention as claimed in claim 1 its be characterised in that to the power dish; Integral planar is oval, have on the planar central position perforation, there is major axis to run through wherein in the hole, be 90 degree right angles about the planar line on the plane, two places that the straight line that the kernel of section point is linked to be before and after the major axis and elliptic plane diameter are shorter, the planar line on the plane, two places that the straight line that the kernel of section point is linked to be before and after the major axis and elliptic plane diameter are grown is on one side less than an angle of 90 degrees, another side is greater than an angle of 90 degrees, and be connected and fixed, the arc surface on the nearly top, upper end of major axis is convex shape, the arc surface on the nearly top, lower end of major axis is the two-stage convex shape, on the top arc surface screw thread is arranged, and pore is arranged to wearing, have cylinder to be looped around the outside outside the arc surface limit of elliptic plane and be connected and fixed.

High-efficiency gain type air compression structure of the present invention as claimed in claim 1 its be for the power block feature; Basic shape is strip, there is the convex shape breach to exist on one side on strip plane, should respectively there be a hole two sides on convex shape breach both sides to wearing on the position mutually, convex shape breach end face protrudes from a side on strip plane, respectively there is one on two relevant positions of another side to boring a hole to wearing, in these two close two apertures of another side to perforation an inner card cage depression is arranged respectively, have on the plane perforation before and after the other end on strip plane, after circular arc was dwindled slightly, circular arc was amplified slightly again from one side in the aperture.

High-efficiency gain type air compression structure of the present invention as claimed in claim 1 its be for the power body characteristics; Integral planar is polygon, have on the relevant position, plane on the upper plane in each angle a circular hole between upper lower plane to wearing, each has the ring plane of certain width to protrude downwards to the perforation mouth is outer under the lower plane, to the nearly lower end of inner arc surface in the perforation mouthful have a bore obviously little to perforation outward to wearing, this on the perforation mouthful outer arced surface position, the left and right sides on the aperture of a certain depth is respectively arranged, screw thread is arranged in the hole, go up in addition have on the relevant position between each angle on the plane aperture between upper lower plane to wearing, giving on each side of power body has radiating fin to be connected and fixed outside.

High-efficiency gain type air compression structure of the present invention as claimed in claim 1 its be for the power plate features; Integral planar shape and basic identical to plane shape on the power body, a square hole is arranged to wearing on the relevant position, plane in angle, in the square hole mouth and on the relevant position outside the aperture leakage-preventing coating is arranged, the party aperture is near having two on the plane at exterior angle to perforation, screw thread is arranged in the hole, an aperture is respectively arranged to wearing on the relevant position on the plane between each square hole.

High-efficiency gain type air compression structure of the present invention as claimed in claim 1 its be characterised in that to power top; Integral planar profile and one-way cover profile are basic identical, and the part of the centre on plane is upwards protruded as the T font, and porose on the central position have screw thread to wearing in the hole, and the proximal edge position of top and bottom has some to the evenly distribution of boring a hole.

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