CN104652840B - Double-liquid high pressure perfusion unit - Google Patents

Abstract

The present invention relates to a kind of equipment by two-component materials high pressure pouring to building tear, i.e. double-liquid high pressure perfusion unit.The hopper of existing perfusion unit, above material sucking port, belongs to gravity flow feeding.Shortcoming is that power consumption is big, and material easily gasifies；Owing to common perfusion unit only has one group of pressure, the parameter of flow, and pressure, traffic demand are varied by site operation situation.The present invention drives two set slider-crank mechanisms by a driving gear shaft, two set slider-crank mechanisms drive two set serosity cylinder assemblies and inhale pulp-expelling valve group, achieve biliquid perfusion, change serosity cylinder assembly by scene, inhale pulp-expelling valve group and power drill, can realize the regulation of pressure, flow, proportioning, the effect such as the convenience of site operation, high efficiency is the most obvious.

Description

Double-liquid high pressure perfusion unit

Technical field

The present invention relates to a kind of equipment by double-component chemicals high pressure pouring to the small spaces such as building tear, specifically a kind of double-liquid high pressure perfusion unit.

Background technology

In building waterproof leak stopping industry, the most general employing one-component material, such as polyurethane material, building gap is injected by common perfusion unit, owing to the coefficient of viscosity of this kind of material is relatively big, poor fluidity, the crackle depths that very difficult arrival is the trickleest, plugging effect is poor.Poor fluidity due to material, so the method that common perfusion unit uses vacuum intake, when plunger starts suction stroke, do not have material to enter plunger cavity, form a certain degree of vacuum, when plunger moves to material sucking port, by force material is sucked plunger cavity, subsequently into perfusion stroke, material is discharged, is fed into cracks by pipeline.The shortcoming of the method or structure is: power consumption is big, because forming vacuum space when inhaling material；Again owing to there being vacuum space, easily make material gasify, affect the performance of material；Due also to a Daepori leads to perfusion unit only has one group of pressure, the parameter of flow, and site operation situation varies, have needs flow big, have needs pressure big, construction team can not be equipped with the common perfusion unit of all models and it all takes to scene, the hopper of existing common perfusion unit, above material sucking port, belongs to gravity flow feeding, and hopper height necessarily be greater than material sucking port.

Summary of the invention

The technical problem to be solved is to provide one and is capable of biliquid and synchronizes perfusion, and suction power consumption is little, can allocate pressure, flow, proportioning and can be with the double-liquid high pressure perfusion unit of arbitrary height suction by changing accessory according to site operation situation.

In order to solve above-mentioned technical problem, the double-liquid high pressure perfusion unit of the present invention, including the bracing frame that power drill, the auger spindle shaft coupling that is connected with the axle of power drill for the pistol boring anchor fixing power drill, the left pump housing that is connected with the right pump housing for fixing the right pump housing of pistol boring anchor are affixed with the right pump housing and the left pump housing；It is characterized in that the suction pulp-expelling valve group that the serosity cylinder assembly that the slider-crank mechanism being connected with auger spindle shaft coupling is connected is connected with serosity cylinder assembly with slider-crank mechanism, slider-crank mechanism is positioned at the right pump housing and the inside of the left pump housing, its right-hand member connects driving gear shaft, threaded with the lower end of auger spindle shaft coupling in the upper end of driving gear shaft, the left end of slider-crank mechanism is connected with the right-hand member of serosity cylinder assembly, the left end of serosity cylinder assembly is connected in the middle of inhaling pulp-expelling valve group, and serosity cylinder assembly is fixed on the left pump housing.

Slider-crank mechanism is mainly made up of driven gear, camshaft, connection dish, bearing pin, push-pull bar, guide post, driven gear engages with the gear on driving gear shaft, driven gear is arranged on the upper end of camshaft, there is bias the lower end of camshaft, eccentric part connects with the right-hand member being connected dish, connecting end of facing left to be connected with the right-hand member of push-pull bar by bearing pin, the left end of push-pull bar is connected with the right-hand member of guide post.

Serosity cylinder assembly is mainly made up of spacing screw rod, seal pressure cap, plunger, valve body connector, the right-hand member of plunger is connected with the left end of guide post, plunger is positioned at the inside of valve body connector and seal pressure cap, seal pressure cap is positioned at the right-hand member of valve body connector the most threaded, and spacing screw rod connects right-hand member and the left end of the left pump housing of valve body connector.

Inhale pulp-expelling valve group mainly by Pressure gauge, threeway, upper valve base, upper valve base cone spring, upper valve base steel ball, valve body, lower valve base cone spring, lower valve base steel ball, lower valve base forms, Pressure gauge is connected in the middle of threeway, the lower end of threeway is connected with upper valve base, there are upper valve base cone spring and upper valve base steel ball in the inside of upper valve base, the lower end of upper valve base cone spring is pressed on upper valve base steel ball, upper valve base steel ball is against the upper surface of valve body, the upper end of valve body is connected with the lower end of upper valve base, the centre of valve body is connected with valve body connector left end, the lower end of valve body is connected with lower valve base, there are lower valve base cone spring and lower valve base steel ball in the inside of valve body, the lower end of lower valve base cone spring contacts with lower valve base steel ball, lower valve base steel ball is pressed on the upper surface of lower valve base.

Slider-crank mechanism, serosity cylinder assembly and suction pulp-expelling valve group are respectively arranged with two sets, and wherein, two set slider-crank mechanisms are engaged by the gear on driven gear and a driving gear shaft respectively.

The present invention drives two set slider-crank mechanisms by a driving gear shaft, two set slider-crank mechanisms drive two set serosity cylinder assemblies and inhale pulp-expelling valve group, achieve biliquid perfusion, change serosity cylinder assembly by scene, inhale pulp-expelling valve group and power drill, can realize the regulation of pressure, flow, proportioning, the effect such as the convenience of site operation, high efficiency is the most obvious.

Accompanying drawing explanation

Fig. 1 is the schematic front view of the embodiment of the present invention；

Fig. 2 is the schematic top plan view of the embodiment of the present invention；

Fig. 3 is the left view schematic diagram of the embodiment of the present invention；

Fig. 4 is the B-B cross-sectional schematic of the embodiment of the present invention；

Fig. 5 is the C-C cross-sectional schematic of the embodiment of the present invention.

Detailed description of the invention

Below in conjunction with accompanying drawing first embodiment, the present invention is described in further detail.

A kind of double-liquid high pressure perfusion unit, including the bracing frame 25 that power drill 1, the auger spindle shaft coupling 26 that is connected with the axle of power drill 1 for the pistol boring anchor 2 fixing power drill 1, the left pump housing 4 that is connected with the right pump housing 3 for fixing the right pump housing 3 of pistol boring anchor 2 are affixed with the right pump housing 3 and the left pump housing 4；It is characterized in that the suction pulp-expelling valve group that the serosity cylinder assembly that the slider-crank mechanism being connected with auger spindle shaft coupling 26 is connected is connected with serosity cylinder assembly with slider-crank mechanism, slider-crank mechanism is positioned at the right pump housing 3 and the inside of the left pump housing 4, its right-hand member connects driving gear shaft 24, threaded with the lower end of auger spindle shaft coupling 26 in the upper end of driving gear shaft 24, the left end of slider-crank mechanism is connected with the right-hand member of serosity cylinder assembly, the left end of serosity cylinder assembly is connected in the middle of inhaling pulp-expelling valve group, and serosity cylinder assembly is fixed on the left pump housing 4.

Slider-crank mechanism is mainly made up of driven gear 23, camshaft 22, connection dish 21, bearing pin 20, push-pull bar 19, guide post 18, driven gear 23 engages with the gear on driving gear shaft 24, driven gear 23 is arranged on the upper end of camshaft 22, there is bias the lower end of camshaft 22, eccentric part connects with the right-hand member being connected dish 21, connection dish 21 left end is connected with the right-hand member of push-pull bar 19 by bearing pin 20, and the left end of push-pull bar 19 is connected with the right-hand member of guide post 18.

Serosity cylinder assembly is mainly made up of spacing screw rod 17, seal pressure cap 16, plunger 15, valve body connector 14, the right-hand member of plunger 15 is connected with the left end of guide post 18, plunger 15 is positioned at valve body connector 14 and the inside of seal pressure cap 16, seal pressure cap 16 is positioned at the right-hand member of valve body connector 14 the most threaded, and spacing screw rod 17 connects right-hand member and the left end of the left pump housing 4 of valve body connector 14.

nullInhale pulp-expelling valve group mainly by Pressure gauge 5、Threeway 6、Upper valve base 7、Upper valve base cone spring 8、Upper valve base steel ball 9、Valve body 10、Lower valve base cone spring 11、Lower valve base steel ball 12、Lower valve base 13 forms，Pressure gauge 5 is connected in the middle of threeway 6，The lower end of threeway 6 is connected with upper valve base 7，There are upper valve base cone spring 8 and upper valve base steel ball 9 in the inside of upper valve base 7，The lower end of upper valve base cone spring 8 is pressed on upper valve base steel ball 9，Upper valve base steel ball 9 is against the upper surface of valve body 10，The upper end of valve body 10 is connected with the lower end of upper valve base 7，The centre of valve body 10 is connected with valve body connector 14 left end，The lower end of valve body 10 is connected with lower valve base 13，There are lower valve base cone spring 11 and lower valve base steel ball 12 in the inside of valve body 10，The lower end of lower valve base cone spring 11 contacts with lower valve base steel ball 12，Lower valve base steel ball 12 is pressed on the upper surface of lower valve base 13.

Slider-crank mechanism, serosity cylinder assembly and suction pulp-expelling valve group are respectively arranged with two sets, and wherein, two set slider-crank mechanisms are engaged with the gear on a driving gear shaft 24 by driven gear 23 respectively.

Claims (5)

1. a double-liquid high pressure perfusion unit, including power drill (1), is used for fixing the pistol boring anchor (2) of power drill (1), is used for fixing auger spindle shaft coupling (26) and the right pump housing (3) that the left pump housing (4) that the right pump housing (3) of pistol boring anchor (2) is connected with the right pump housing (3) is connected with the axle of power drill (1) and the affixed bracing frame (25) of the left pump housing (4)；It is characterized in that the slider-crank mechanism being connected with auger spindle shaft coupling (26), the serosity cylinder assembly being connected with slider-crank mechanism, the suction pulp-expelling valve group being connected with serosity cylinder assembly, slider-crank mechanism is positioned at the right pump housing (3) and the inside of the left pump housing (4), its right-hand member connects driving gear shaft (24), threaded with the lower end of auger spindle shaft coupling (26) in the upper end of driving gear shaft (24), the left end of slider-crank mechanism is connected with the right-hand member of serosity cylinder assembly, the left end of serosity cylinder assembly is connected in the middle of inhaling pulp-expelling valve group, serosity cylinder assembly is fixed on the left pump housing (4).

Double-liquid high pressure perfusion unit the most according to claim 1, it is characterized in that slider-crank mechanism is mainly by driven gear (23), camshaft (22), connection dish (21), bearing pin (20), push-pull bar (19), guide post (18) forms, driven gear (23) engages with the gear on driving gear shaft (24), driven gear (23) is arranged on the upper end of camshaft (22), there is bias the lower end of camshaft (22), eccentric part connects with the right-hand member being connected dish (21), connection dish (21) left end is connected with the right-hand member of push-pull bar (19) by bearing pin (20), the left end of push-pull bar (19) is connected with the right-hand member of guide post (18).

Double-liquid high pressure perfusion unit the most according to claim 1, it is characterized in that serosity cylinder assembly is mainly made up of spacing screw rod (17), seal pressure cap (16), plunger (15), valve body connector (14), the right-hand member of plunger (15) is connected with the left end of guide post (18), plunger (15) is positioned at valve body connector (14) and the inside of seal pressure cap (16), seal pressure cap (16) is positioned at the right-hand member of valve body connector (14) the most threaded, and spacing screw rod (17) connects right-hand member and the left end of the left pump housing (4) of valve body connector (14).

nullDouble-liquid high pressure perfusion unit the most according to claim 1，It is characterized in that inhaling pulp-expelling valve group mainly by Pressure gauge (5)、Threeway (6)、Upper valve base (7)、Upper valve base cone spring (8)、Upper valve base steel ball (9)、Valve body (10)、Lower valve base cone spring (11)、Lower valve base steel ball (12)、Lower valve base (13) forms，Pressure gauge (5) is connected in the middle of threeway (6)，The lower end of threeway (6) is connected with upper valve base (7)，There are upper valve base cone spring (8) and upper valve base steel ball (9) in the inside of upper valve base (7)，The lower end of upper valve base cone spring (8) is pressed on upper valve base steel ball (9)，Upper valve base steel ball (9) is against the upper surface of valve body (10)，The upper end of valve body (10) is connected with the lower end of upper valve base (7)，The centre of valve body (10) is connected with valve body connector (14) left end，The lower end of valve body (10) is connected with lower valve base (13)，There are lower valve base cone spring (11) and lower valve base steel ball (12) in the inside of valve body (10)，The lower end of lower valve base cone spring (11) contacts with lower valve base steel ball (12)，Lower valve base steel ball (12) is pressed on the upper surface of lower valve base (13).

5. according to the double-liquid high pressure perfusion unit described in Claims 2 or 3 or 4, it is characterized in that slider-crank mechanism, serosity cylinder assembly and suction pulp-expelling valve group are respectively arranged with two sets, wherein, two set slider-crank mechanisms are engaged with the gear on a driving gear shaft (24) by driven gear (23) respectively.