CN210060961U - Slider steel ball filling device - Google Patents

Abstract

The utility model provides a slider steel ball fills ware belongs to slider technical field. The utility model provides a can be for the hand-held type equipment of slider filling steel ball, adopts compressed air as power, fills up the steel ball in the ball groove of slider through compressed air, in order to guarantee that the steel ball can smooth and easy flow in the conveying hose, sheathes the hose winding in the telescopic ripple, when the slot in the slider is filled up by the steel ball, compressed air can enter into in the ripple cover through the air duct, drives the hose and stretches and contract, promotes the flow of steel ball in the hose. Meanwhile, in order to ensure that the steel balls cannot fall off in a non-operation state, a telescopic guide taper sleeve is arranged at the head of the shell, an elastic shifting ball is arranged at the head of the guide taper sleeve, when the spring is in a free state, the shifting ball is popped out by the spring to block a ball outlet hole of the guide taper sleeve, the guide taper sleeve is stressed to move upwards, the elastic shifting ball is pressed by the first guide pipe and the second guide pipe to retract, and the steel balls are filled into a slide block groove under the compression of compressed air.

Description

Slider steel ball filling device

Technical Field

The utility model belongs to the technical field of the slider technique and specifically relates to a slider steel ball fills ware.

Background

Filling the steel ball in the slider is the important one step of slider assembly, and traditional filling mode is manual loading, and the handheld steel ball of operator is aimed at the ball groove of slider and is loaded, and such filling mode efficiency is lower, and the in-process of loading has a large amount of steel columns unrestrained to the workstation on, simultaneously because the steel ball only relies on the gravity of self to fall the slot of slider in, causes the jam of slot easily at this in-process.

SUMMERY OF THE UTILITY MODEL

The technical task of the utility model is to solve the not enough of prior art, provide a slider steel ball filler.

The utility model provides a technical scheme that its technical problem adopted is:

the core thought of this design is, design a hand-held type equipment that can load the steel ball for the slider, adopt compressed air as power, fill up the steel ball in the ditch groove through compressed air to the slider, flow that can be smooth and easy in the conveying hose in order to guarantee the steel ball, with the hose winding on telescopic ripple cover, when the ditch groove in the slider is filled up by the steel ball, compressed air can enter into in the ripple cover through the air duct, make ripple cover inflation rise, and then drive the hose and stretch and contract, promote the flow of steel ball in the hose.

Meanwhile, in order to ensure that the steel balls cannot fall from the equipment in a non-operation state, a telescopic guide taper sleeve is arranged at the head of the shell, an elastic poking ball is arranged at the head of the guide taper sleeve, when the spring is in a free state, the poking ball is popped out by the spring to block a ball outlet hole of the guide taper sleeve, when the guide taper sleeve works, the guide taper sleeve is stressed to move upwards, the elastic poking ball is pressed by the first guide pipe and the second guide pipe to retract, and the elastic poking ball is filled into a sliding block groove under the compression of compressed air.

A slider steel ball filler comprises a corrugated sleeve, wherein the corrugated sleeve is arranged in a cylinder body of a shell, a hose is spirally wound in an external groove of the corrugated sleeve, an expansion spring is arranged inside the corrugated sleeve, an end cover is arranged at the top of the corrugated sleeve, an air inlet is arranged at the bottom of the corrugated sleeve, the expansion spring is in contact with the end cover, the top of the hose is connected with a ball bin, and the bottom of the hose is connected with a flow guide cap; the end cover is provided with an exhaust port.

The water conservancy diversion cap is installed on the end cover of the bottom of the ripple cover, and its structure includes first honeycomb duct, second honeycomb duct and advances the pearl pipe, and first air duct and second air duct are gone up the branch of branch to first honeycomb duct, second honeycomb duct, and first air duct and second air duct insert ripple cover bottom air inlet, advance pearl pipe and hose and be linked together, have the valve with advancing 90 degrees contained angle departments of pearl pipe axis on the water conservancy diversion cap.

The ball storehouse is installed at the top of shell, has conical water conservancy diversion mouth in the ball storehouse, stores the steel ball in the ball storehouse.

The air valve is connected with an air inlet valve through a pipeline, the air inlet valve is provided with a pressure-release button, and the air inlet valve is connected with an external air source through an air inlet pipe.

The top of the shell is provided with a sealing cover, and a silencer with the sealing cover is installed on the sealing cover.

The utility model discloses a slider steel ball fills ware compares produced beneficial effect with prior art and is:

1) the compressed air is used for providing power for filling the steel balls, so that the steel balls in the grooves of the sliding blocks can be tightly arranged together, the reject ratio in the production process is reduced, and the quality of the sliding blocks is improved.

2) After each filling operation, the residual compressed air can drive the corrugated sleeve to automatically stretch out and draw back, and the possible blocking risk of the hose is eliminated.

3) The shell is of a handheld structure, an operator can operate with one hand, the switch of the compressed air is located on the handle portion, and the device can be started and stopped conveniently in real time.

4) The designed conical cap structure can prevent the steel ball from falling off from the equipment during non-operation, and unlocking can be realized by pressing the conical cap during work.

5) The ball bin is internally provided with an air flow back blowing structure, so that the bridging phenomenon of the steel balls can be prevented, and the smooth flowing of the steel balls is facilitated.

Drawings

FIG. 1 is a front view of the structure of the present invention with air flow blowing;

FIG. 2 is a front view of the structure of the present invention;

FIG. 3 is a front view of the structure of the present invention in a gas-off state;

the reference numerals in the figures denote:

1. the ball bin comprises a shell, 2, a ball bin, 3, an end cover, 4, a corrugated sleeve, 5, an air inlet pipe, 6, an air inlet valve, 7, a hose, 8, a flow guide cap, 801, a first flow guide pipe, 802, a second flow guide pipe, 803, a first air guide pipe, 804, a second air guide pipe, 805, a ball inlet pipe, 9, a conical cap, 10, a sliding block, 11, a ball groove, 12, a locking steel ball, 13, an air valve, 14, a hair pressing spring, 15, an air outlet, 16, a flow guide opening, 17, a sealing cover, 18, a silencer, 19, an expansion spring, 20 and a steel ball.

Detailed Description

Embodiments of the present invention will be described with reference to the accompanying drawings.

A slider steel ball filler comprises a corrugated sleeve 4, wherein the corrugated sleeve 4 is arranged in a cylinder body of a shell 1, a hose 7 is spirally wound in an external groove of the corrugated sleeve, an expansion spring 19 is arranged inside the corrugated sleeve 4, an end cover 3 is arranged at the top of the corrugated sleeve 4, an air inlet is arranged at the bottom of the corrugated sleeve 4, the expansion spring 19 is in contact with the end cover 3, the top of the hose 7 is connected with a ball bin 2, and the bottom of the hose is connected with a flow guide cap 8; the end cap 3 is provided with an exhaust port 15.

As a first embodiment of the present invention, the bottom of the bellows 4 has a support, and the bellows is fixed in the housing 1 through the support.

As a first embodiment of the present invention, the diameter of the top end cap of the bellows 4 is equal to the inner diameter of the housing 1.

Furthermore, a rubber sealing ring is arranged on the circumferential surface of the top end cover of the corrugated sleeve 4.

As the first embodiment of the present invention, the inner diameter of the hose 7 is equal to the outer diameter of the steel ball.

The flow guide cap 8 is arranged on the bottom end cover of the corrugated sleeve 4, and structurally comprises a first flow guide pipe 801, a second flow guide pipe 802 and a bead inlet pipe 805, a first air guide pipe 803 and a second air guide pipe 804 are branched from the first flow guide pipe 801 and the second flow guide pipe 802, the first air guide pipe 803 and the second air guide pipe 804 are inserted into an air inlet at the bottom of the corrugated sleeve 4, the bead inlet pipe 805 is communicated with a hose 7, and an air valve 13 is arranged at a 90-degree included angle between the flow guide cap 8 and the axis of the bead inlet pipe 805.

As a first embodiment of the present invention, the first air duct 803 and the second air duct 804 are directly connected to the bottom of the bellows 4.

As a second embodiment of the present invention, the check valve is installed on the first air duct 803 and the second air duct 804, so that the air flow can only flow into the corrugated sleeve 4 through the diversion cap 8, and cannot flow backwards.

As the utility model discloses a first embodiment, when no external force oppresses, the pressure send out spring 14 and be in free telescopic state, and at this moment, 8 downwardly protruding of water conservancy diversion caps, the inside locking steel ball 12 of water conservancy diversion caps pops out at the opening part of first honeycomb duct 801 and second honeycomb duct 802, and the steel ball in first honeycomb duct 801 and the second honeycomb duct 802 can't flow out.

As the utility model discloses a first embodiment, receiving external force oppression back, the upwards withdrawal of water conservancy diversion cap 8, the inside locking steel ball 12 of water conservancy diversion cap is by the oppression of first honeycomb duct 801 and second honeycomb duct 802 and contracts, and the steel ball in first honeycomb duct 801 and the second honeycomb duct 802 can flow along the opening.

The ball bin 2 is arranged at the top of the shell 1, a conical flow guide opening 16 is arranged in the ball bin, and steel balls 20 are stored in the ball bin 2.

The air valve 13 is connected with the air inlet valve 6 through a pipeline, the air inlet valve 6 is provided with a pressure-release button, and the air inlet valve is connected with an external air source through the air inlet pipe 5.

As the first embodiment of the present invention, after ventilation, the high pressure air flow first pushes the steel ball to enter the bead groove 11 of the slider from the first flow guide pipe 801 and the second flow guide pipe 802, and after the left and right bead grooves 11 are filled, the high pressure air flow pushes the check valve on the first air guide pipe 803 and the second air guide pipe 804 to enter the bellows sleeve.

Further, the compressed air entering the bellows first causes the bellows to expand and extend, and the compressed air enters the housing cavity along the opening at the top of the bellows and then enters the bead chamber along the diversion port 16.

Further, after the high-pressure air enters the ball bin, the steel balls in the ball bin are disturbed firstly, and then the steel balls are discharged to the outside through the one-way valve and the silencer.

The top of the housing 1 has a sealing cover 17 on which a silencer 18 is mounted.

As the first embodiment of the utility model, the silencer 18 is provided with the check valve, which ensures that the air flow can only flow outwards from the bead bin and can not flow backwards.

It should be noted that the above-mentioned contents are only used for illustrating the technical solutions of the present invention, and not for limiting the protection scope of the present invention, and although the detailed description of the present invention is given to the detailed description of the present invention, it should be understood by those skilled in the art that the technical solutions of the present invention can be modified or replaced equivalently without departing from the spirit and scope of the technical solutions of the present invention.

Claims (5)

1. The slider steel ball filler is characterized by comprising a corrugated sleeve (4), wherein the corrugated sleeve (4) is arranged in a cylinder body of a shell (1), a hose (7) is spirally wound in a groove outside the corrugated sleeve, an expansion spring (19) is arranged inside the corrugated sleeve (4), an end cover (3) is arranged at the top of the corrugated sleeve (4), an air inlet is formed in the bottom of the corrugated sleeve, the expansion spring (19) is in contact with the end cover (3), the top of the hose (7) is connected with a ball bin (2), and the bottom of the hose is connected with a diversion cap (8); the end cover (3) is provided with an exhaust port (15).

2. The slider steel ball filler according to claim 1, wherein the flow guide cap (8) is mounted on the bottom end cover of the corrugated sleeve (4), and the structure of the flow guide cap comprises a first flow guide pipe (801), a second flow guide pipe (802) and a ball inlet pipe (805), a first air guide pipe (803) and a second air guide pipe (804) are branched from the first flow guide pipe (801) and the second flow guide pipe (802), the first air guide pipe (803) and the second air guide pipe (804) are inserted into the air inlet at the bottom of the corrugated sleeve (4), the ball inlet pipe (805) is communicated with the hose (7), an air valve (13) is arranged on the flow guide cap (8) at a 90-degree included angle with the axis of the ball inlet pipe (805), the distance between the first flow guide pipe (801) and the second flow guide pipe (802) is the same as that between the ball grooves (11) on the slider (10), and a locking steel ball (12) is mounted in the flow guide cap (8), the flow guide cap (8) is connected with the shell (1) through a hair pressing spring (14).

3. The slider steel ball filler according to claim 1, characterized in that the ball bin (2) is installed on the top of the shell (1), a conical diversion port (16) is arranged in the ball bin, and steel balls (20) are stored in the ball bin (2).

4. The slider steel ball filler according to claim 2, characterized in that the air valve (13) is connected with the air inlet valve (6) through a pipeline, the air inlet valve (6) is provided with a pressure-release button, and the air inlet valve is connected with an external air source through the air inlet pipe (5).

5. A slider steel ball filler as claimed in claim 1, characterized in that the top of the housing (1) is provided with a sealing cover (17), and the sealing cover (17) is provided with a silencer (18).

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