CN114620349A

CN114620349A - Dustless strorage device that precision devices made

Info

Publication number: CN114620349A
Application number: CN202210139758.8A
Authority: CN
Inventors: 孔前进
Original assignee: Xuzhou Chenxiao Precision Machinery Manufacturing Co ltd
Current assignee: Xuzhou Chenxiao Precision Machinery Manufacturing Co ltd
Priority date: 2022-02-16
Filing date: 2022-02-16
Publication date: 2022-06-14
Anticipated expiration: 2042-02-16
Also published as: CN114620349B

Abstract

The invention relates to the technical field of storage devices and discloses a dust-free storage device for manufacturing precision devices. Through mutually supporting between rope and the reset spring that resets, along with the distance crescent of the drive block downstream, reset spring is also along with the increase by tensile degree, so the drive block receives vertical ascending pulling force just bigger, and produced inertial force when the ascending pulling force that the drive block received can with the drive block downstream offsets each other, and then makes precision piece reduce at the in-process speed of whereabouts gradually, thereby reached not only can reduce staff's work load at to a great extent, also can prevent that precision piece from causing the effect of great damage at the in-process of whereabouts because of the impact of inertial force.

Description

Dustless strorage device that precision devices made

Technical Field

The invention relates to the technical field of storage devices, in particular to a dust-free storage device for manufacturing precision devices.

Background

The precision device is generally used in high-grade or intelligent large-scale equipment and can play a vital role in the working process of the large-scale equipment; precision devices, whether during transportation or long-term storage, have relatively high requirements for storage environments because substances such as dust and moisture in the air affect the precision of the precision devices.

In the prior art, in order to prevent precision devices from being damaged due to collision in the transportation process, workers often wrap the precision devices by using a cloth bag made of coral fleece materials, and then place the wrapped precision devices in a damp-proof wooden container according to a certain sequence, so that although mutual friction between the precision components in the transportation process can be avoided to a certain extent, dust in the air can be prevented from adhering to the surfaces of the precision devices to a large extent, the workers are required to perform manual operation in both the wrapping process and the placing process, and sufficient care is required for the workers, so that the workload of the workers is greatly increased, and the processing and transportation cost is increased invisibly; in addition, when the transportation vehicle runs on a bumpy road section, the precision devices in the container are often damaged due to mutual impact, and more importantly, some radioactive substances are contained in the precision devices in the medical aspect, so that once the precision devices are broken, the consequences are serious.

Therefore, the inventor of the invention provides a dust-free storage device for manufacturing precision devices, which can not only greatly reduce the workload of workers, but also prevent the precision devices from being damaged in the transportation process, and can also greatly prevent a large amount of dust from adhering to the surfaces of the precision devices during storage, thereby solving the problems.

Disclosure of Invention

The invention provides a dust-free storage device for manufacturing precision devices, which can reduce the workload of workers to a great extent, prevent the precision devices from being damaged in the transportation process, prevent a great amount of dust from adhering to the surfaces of the precision devices during storage to a great extent and solve the problems that the precision devices are time-consuming and labor-consuming in the packaging and transportation processes and are often damaged due to collision at present.

The technical scheme is as follows: in order to achieve the purposes of reducing the workload of workers to a great extent, preventing the precision device from being damaged in the transportation process and preventing a great amount of dust from adhering to the surface of the precision device during storage to a great extent, the invention provides the following technical scheme: the utility model provides a dustless strorage device that precision devices made, includes the casing, storage cavity has been seted up to the inside of casing, and the lower extreme of storage cavity inner chamber is provided with the installing support, and the inside demountable installation of installing support has a drive motor, and the upper end of storage cavity inner chamber is provided with prevents the whereabouts mechanism that collides, and the precision piece has been placed to the inside of preventing the whereabouts mechanism that collides, and the upper end movable mounting of installing support has floated storage mechanism.

Preferably, the anti-collision falling mechanism comprises a feeding circular tube, a blanking channel is arranged inside the feeding circular tube, a reciprocating cavity is vertically formed inside the feeding circular tube, a steering guide wheel is movably mounted at the upper end of an inner cavity of the reciprocating cavity, a reset rope is wound on the steering guide wheel, one end of the reset rope is fixedly connected with a reset spring, the other end of the reset rope is fixedly connected with a driving block, the feeding circular tube is detachably mounted at the upper end of the shell, the reciprocating cavity is symmetrically arranged at the left side and the right side of the blanking channel in an equal number mode, the upper end of the reset spring is fixedly connected with one end of the reset rope, the lower end of the reset spring is fixedly connected with the inner wall of the reciprocating cavity, one end of the driving block is fixedly connected with the reset rope, and the other end of the driving block extends into the blanking channel, so that when the driving block moves downwards under the action of external force, the reset spring can be stretched through the reset rope, when the external force disappears, the driving block moves upwards and resets under the matching of the reset spring and the reset rope.

Preferably, the end of the driving block is fixedly provided with a sliding block, the interior of the sliding block is movably provided with a contraction plate, the contraction plate is in an extension state in an initial state, and when the sliding block moves to the lower end of the blanking channel, the contraction plate can contract into the interior of the sliding block under the action of the driving block.

Preferably, the upper end of installing support is provided with fixed disc, and the centre of fixed disc is provided with touch switch, and a plurality of blowpit has been seted up to the upper end of fixed disc, and fixed disc is located the below of blanking passageway, and touch switch and the coaxial setting of blanking passageway to when precision piece drops downwards from the blanking passageway, can cause to press touch switch, touch switch passes through electric wire and driving motor electric connection, so touch switch can make driving motor begin to operate after being pressed the switch-on.

Preferably, the outer part of the touch switch and the upper surface of the fixed disc are both wrapped by a layer of rubber material, so that the precision part can be prevented from being damaged due to collision in the contact process with the touch switch.

Preferably, floated storage mechanism includes the guide bracket, and the blanking spout has been seted up to the inside of guide bracket, and the upper end of guide bracket is the ring form and the movable sleeve is established in the outside of fixed disc, and the blanking spout has certain slope, and the width of blanking spout and the width phase-match of blowpit.

Preferably, the shutoff spout has been seted up to the upper end of guide bracket, the inside sliding connection of shutoff spout has the shutoff slider, fixedly connected with extension spring between the inner wall of shutoff slider and shutoff spout, the lower extreme of shutoff slider is provided with fixed lug, fixed lug's fixed surface is connected with flexible rope, shutoff spout opening side's lower extreme movable mounting has supplementary runner, the one end of shutoff spout and the inside switch-on of blanking spout, under the initial condition, extension spring is in the primary importance state, when the other end of flexible rope received along the decurrent pulling force of blanking spout, the shutoff slider can stretch out the inside of blanking spout under flexible rope and fixed lug mating reaction, in order to reach the shutoff effect to blanking spout upper end.

Preferably, the lower extreme movable mounting of guide bracket has the piece of placing, and the upper and lower both sides of placing piece and guide bracket junction all are provided with the buffering shell fragment to when jolting about the guide bracket takes place, place the piece and can keep balance under the effect of buffering shell fragment, in order to reach the effect that prevents that precision piece from dropping from the inside of placing the piece.

Preferably, the inside sliding connection who places a inner chamber has the elastic plate, and the lower extreme fixedly connected with compression spring of elastic plate, the upper surface spraying of elastic plate have one deck epoxy to when the precision is located the upper end of elastic plate, the elastic plate can move certain distance downwards under the action of gravity of precision, make the precision be located the inside of placing the piece.

Preferably, the one end and the fixed lug fixed connection of flexible rope, the other end of flexible rope is walked around the auxiliary runner and with elastic plate fixed connection to when the elastic plate moves down, can make the shutoff slider stretch out the inside of blanking spout through the cooperation with flexible rope, the upper end of blanking spout can be in the encapsulated situation afterwards.

(III) the beneficial effects are as follows: compared with the prior art, the invention provides a dust-free storage device for manufacturing precision devices, which has the following beneficial effects: 1. this dustless strorage device that precision device was made, through mutually supporting between rope and the reset spring that resets, when the staff placed precision in the upper end of shrink board, along with the distance crescent of drive block downstream, reset spring also can be along with the increase by tensile degree, so the drive block receives vertical ascending pulling force just bigger, and produced inertial force offsets each other when ascending pulling force that the drive block received can with the drive block downstream, and then make precision reduce gradually at the in-process speed of whereabouts, thereby reached not only can reduce staff's work load at to a great extent, also can prevent that precision from leading to the fact the effect of great damage at the in-process of whereabouts because the impact of inertial force.

2. This dustless strorage device that precision device made, through setting up floated storage mechanism, the upper and lower both sides of placing piece and guide bracket junction all are provided with the buffering shell fragment, and the lower extreme of elastic plate still is provided with compression spring, so can prevent to a great extent in the transportation because the vehicle takes place to jolt and lead to the damage of precision piece, and precision piece is in the state of motion at the in-process of storing always, can avoid precision piece surface because the air subsides and the adhesion dust, thereby reached and can prevent that precision piece from taking place to damage in the transportation, also can prevent the effect of precision piece adhesion dust in the storage process.

Description of the drawings: FIG. 1 is a schematic cross-sectional view of the overall structure of the present invention; FIG. 2 is a schematic sectional view of the overall structure of the present invention during feeding; FIG. 3 is a schematic sectional view of the overall structure of the present invention in operation; FIG. 4 is a schematic view of the installation relationship of the internal structure of the present invention; FIG. 5 is a schematic top view of a fixed disk structure according to the present invention; FIG. 6 is an enlarged view of the structure at C in FIG. 3; FIG. 7 is an enlarged view of the structure of the guide bracket according to the present invention; FIG. 8 is an enlarged view of the structure at A in FIG. 7; FIG. 9 is an enlarged view of the structure at B in FIG. 2; FIG. 10 is a schematic view showing the connection between the internal components of the present invention.

In the figure: 1. a housing; 2. a storage cavity; 3. mounting a bracket; 4. a drive motor; 5. a bump-proof falling mechanism; 6. precision parts; 7. a suspension type storage mechanism; 501. a feeding circular pipe; 502. a blanking channel; 503. a reciprocating cavity; 504. a steering guide wheel; 505. a restoring rope; 506. a return spring; 507. a drive block; 508. a slider; 509. a shrink plate; 510. a touch switch; 511. fixing the disc; 512. a discharge chute; 701. a guide bracket; 702. a blanking chute; 703. blocking the sliding groove; 704. plugging the sliding block; 705. an extension spring; 706. fixing the bump; 707. a flexible cord; 708. an auxiliary runner; 709. placing the blocks; 710. buffering the elastic sheet; 711. an elastic plate; 712. compressing the spring.

The specific implementation mode is as follows: the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The first embodiment is as follows: referring to fig. 1-10, a dust-free storage device for manufacturing precision devices comprises a housing 1, a storage cavity 2 is formed in the housing 1, a mounting bracket 3 is arranged at the lower end of an inner cavity of the storage cavity 2, a driving motor 4 is detachably mounted in the mounting bracket 3, a collision-proof falling mechanism 5 is arranged at the upper end of the inner cavity of the storage cavity 2, a precision part 6 is placed in the collision-proof falling mechanism 5, a suspension-type storage mechanism 7 is movably mounted at the upper end of the mounting bracket 3, the collision-proof falling mechanism 5 comprises a circular feeding pipe 501, the circular feeding pipe 501 is detachably mounted at the upper end of the housing 1, a blanking channel 502 is arranged in the circular feeding pipe 501, reciprocating cavities 503 are vertically formed in the circular feeding pipe 501, the reciprocating cavities 503 are symmetrically arranged at the left side and the right side of the blanking channel 502 in an equal number manner, a steering guide wheel 504 is movably mounted at the upper end of the inner cavity of the reciprocating cavity 503, a reset rope 505 is wound on the steering guide wheel 504, one end of the reset rope 505 is fixedly connected with a reset spring 506, the upper end of the reset spring 506 is fixedly connected with one end of the reset rope 505, the lower end of the reset spring 506 is fixedly connected with the inner wall of the reciprocating cavity 503, the other end of the reset rope 505 is fixedly connected with a driving block 507, one end of the driving block 507 is fixedly connected with the reset rope 505, the other end of the driving block 507 extends into the blanking channel 502, so that when the driving block 507 moves downwards under the action of external force, the reset rope 505 stretches the reset spring 506, when the external force disappears, the driving block 507 moves upwards and resets under the matching of the reset spring 506 and the reset rope 505, a sliding block 508 is fixedly installed at the end part of the driving block 507, a contraction plate 509 is movably installed inside the sliding block 508, and in the initial state, the contraction plate 509 is in an extension state, when the sliding block 508 moves to the lower end of the blanking channel 502, the contraction plate 509 can contract into the sliding block 508 under the action of the driving block 507, the upper end of the mounting bracket 3 is provided with a fixed disc 511, the middle of the fixed disc 511 is provided with a touch switch 510, the outer part of the touch switch 510 and the upper surface of the fixed disc 511 are both wrapped with a layer of rubber material, thereby avoiding the precision piece 6 from being damaged due to collision in the process of contacting with the touch switch 510, the upper end of the fixed disc 511 is provided with a plurality of discharge chutes 512, the fixed disc 511 is positioned below the blanking channel 502, the touch switch 510 and the blanking channel 502 are coaxially arranged, when the precision part 6 falls down from the blanking channel 502, the touch switch 510 can be pressed, and the touch switch 510 is electrically connected with the driving motor 4 through an electric wire, so that the driving motor 4 starts to operate after the touch switch 510 is pressed.

The working principle is as follows: in the initial state, the driving block 507 is located at the upper end of the blanking channel 502 under the combined action of the return rope 505 and the return spring 506, and the contraction plate 509 is in the extended state.

Firstly, the staff places precision 6 gently in the top of shrink board 509 from the upper end of blanking passageway 502, and afterwards, sliding block 508 can be vertical downstream under the action of gravity of precision 6, owing to seted up on the lateral wall of blanking passageway 502 and dodged the groove, the drive block 507 is worn out and with sliding block 508 fixed connection from dodging the groove, so the in-process that sliding block 508 moved down can make drive block 507 move down in step.

Since one end of the return rope 505 is fixedly connected with the return spring 506 and the other end thereof passes by the guide pulley 504 and is fixedly connected with the upper end of the driving block 507, the return spring 506 is stretched by the cooperation with the return rope 505 during the downward movement of the driving block 507.

Along with the distance that the driving block 507 moves downwards gradually increasing, the degree that the return spring 506 is stretched also increases, so the driving block 507 receives vertical upward pulling force more, and the upward pulling force that the driving block 507 receives can offset each other with the inertia force that produces when the driving block 507 moves downwards, thereby make precision piece 6 in the in-process speed that falls reduce gradually, so as to reach the effect that avoids precision piece 6 to receive the damage in the in-process that falls.

When the precision part 6 falls to the lower end of the blanking channel 502, the return spring 506 is in the longest state, the return spring 506 is stretched to the preset length to enable the driving screw rod inside the driving block 507 to rotate, and then the contraction plate 509 is retracted under the action of the driving screw rod inside the driving block 507.

After the shrinking plate 509 shrinks, the precision piece 6 falls to the upper end of the touch switch 510 under the action of gravity, and the touch switch 510 is electrically connected with the driving motor 4 through an electric wire, so that the driving motor 4 starts to operate after the touch switch 510 is touched and turned on.

After the precision part 6 falls, the driving block 507 will move upwards and reset under the combined action of the reset rope 505 and the reset spring 506, and the contraction plate 509 will extend out to the inside of the blanking channel 502 under the action of the driving screw rod in the driving block 507 during the upward movement of the driving block 507.

Subsequently, the precision part 6 enters the inside of the discharge chute 512 under the guiding action of the touch switch 510, and since the discharge chute 512 is inclined at a certain angle, the precision part 6 slides to the edge of the fixed disk 511 under the guiding action of the discharge chute 512 after entering the inside of the discharge chute 512, but is blocked by the guiding bracket 701.

Thereby guaranteed precision 6 can not cause great impact because of inertia at the in-process of whereabouts, avoided precision 6 to take place to damage when dropping at to a great extent, and only need the simple inside of putting into blanking passageway 502 gently with precision 6 of staff can to the staff's work load that has significantly reduced.

Example two: referring to fig. 1-10, a dust-free storage device for manufacturing precision devices comprises a housing 1, a storage cavity 2 is formed in the housing 1, a mounting bracket 3 is arranged at the lower end of an inner cavity of the storage cavity 2, a driving motor 4 is detachably mounted in the mounting bracket 3, a collision-proof falling mechanism 5 is arranged at the upper end of the inner cavity of the storage cavity 2, a precision part 6 is placed in the collision-proof falling mechanism 5, a suspension storage mechanism 7 is movably mounted at the upper end of the mounting bracket 3, the suspension storage mechanism 7 comprises a guide bracket 701, a blanking chute 702 is formed in the guide bracket 701, the upper end of the guide bracket 701 is annular and movably sleeved outside a fixed disc 511, the blanking chute 702 has a certain gradient, the width of the blanking chute 702 is matched with that of a discharge chute 512, a blocking chute 703 is formed at the upper end of the guide bracket 701, one end of the plugging chute 703 is communicated with the inside of the blanking chute 702, the inside of the plugging chute 703 is connected with a plugging slider 704 in a sliding manner, an extension spring 705 is fixedly connected between the plugging slider 704 and the inner wall of the plugging chute 703, the lower end of the plugging slider 704 is provided with a fixed bump 706, the surface of the fixed bump 706 is fixedly connected with a flexible rope 707, one end of the flexible rope 707 is fixedly connected with the fixed bump 706, and the other end of the flexible rope 707 bypasses an auxiliary runner 708 and is fixedly connected with an elastic plate 711, so that when the elastic plate 711 moves downwards, the plugging slider 704 can extend out of the blanking chute 702 through the cooperation with the flexible rope 707, then the upper end of the blanking chute 702 is in a closed state, the auxiliary runner 708 is movably mounted at the lower end of the opening side of the plugging chute, in an initial state, the extension spring 703 is in an original length state, and when the other end of the flexible rope 707 receives a downward pulling force along the blanking chute 702, the plugging slider 704 protrudes into the blanking chute 702 under the cooperation of the flexible rope 707 and the fixing bump 706, so as to achieve the effect of blocking the upper end of the blanking chute 702, the lower end of the guide bracket 701 is movably provided with a placing block 709, the upper and lower sides of the joint of the placing block 709 and the guide bracket 701 are both provided with buffering elastic sheets 710, so that when the guide bracket 701 jolts up and down, the placing block 709 can keep balance under the action of the buffering elastic sheet 710, so as to achieve the effect of preventing the precision part 6 from falling from the inner part of the placing block 709, the inner part of the inner cavity of the placing block 709 is connected with an elastic plate 711 in a sliding way, the lower end of the elastic plate 711 is fixedly connected with a compression spring 712, the upper surface of the elastic plate 711 is sprayed with a layer of epoxy resin, so that when the precision part 6 is located at the upper end of the elastic plate 711, the elastic plate 711 moves downward by a certain distance under the gravity of the precision part 6, so that the precision part 6 is located inside the placing block 709.

The working principle is as follows: pressing the touch switch 510 on will cause the driving motor 4 to start operating, and the driving motor 4 will cause the guide bracket 701 to rotate around the fixed disc 511 at a constant speed.

The guiding bracket 701 continues to rotate at a constant speed, and since the plugging slider 704 is located inside the plugging chute 703 under the action of the extension spring 705 in the initial state, the upper end of the blanking chute 702 is in an open state at this time, and when the upper end opening of the blanking chute 702 rotates to be aligned with the lower end of the discharge chute 512, the precision part 6 located at the lower end of the discharge chute 512 enters the inside of the blanking chute 702.

Subsequently, the precision part 6 will slide slowly downward along the inner wall of the blanking chute 702 under the action of its own gravity, and finally the precision part 6 will stop at the upper end of the placing block 709.

At the moment when the precision part 6 contacts the elastic plate 711, the elastic plate 711 moves downwards for a certain distance under the action of the gravity of the precision part 6, and the elastic plate 711 is connected with the blocking sliding block 704 through the flexible rope 707, so that the blocking sliding block 704 extends out of the blanking sliding groove 702 under the cooperation action of the flexible rope 707 when the elastic plate 711 moves downwards, and then the blanking sliding groove 702 is in a closed state, so that when the blanking sliding groove 702 is aligned with the next discharging groove 512, no other precision part 6 enters the blanking sliding groove 702.

Because the upper surface of the elastic plate 711 is sprayed with a layer of epoxy resin, the surface of the precision part 6 can be well prevented from generating static electricity, and the guide bracket 701 can always be in a uniform rotation state under the action of the driving motor 4, so that the precision part 6 always follows the placing block 709 to do uniform circular motion in the storage process, thereby not only preventing dust from adhering to the surface of the precision part 6 due to the electrostatic adsorption effect, but also preventing dust from falling off due to overlong standing time of the precision part 6.

When the precision part 6 inside the placing block 709 is manually removed, the elastic plate 711 moves upward under the action of the compression spring 712, the blocking slider 704 returns to the inside of the blocking chute 703 under the action of the extension spring 705, and then the blanking chute 702 is opened again.

In addition, when the haulage vehicle travels on the road section with poor road conditions, casing 1 may take place great rocking, casing 1 takes place to make guide bracket 701 take place the shake from top to bottom when rocking, but owing to place the upper and lower both sides of piece 709 and the junction of guide bracket 701 and all be provided with buffering shell fragment 710, so even guide bracket 701 takes place the shake, it can not receive great influence to place piece 709, and the lower extreme of elastic plate 711 still is provided with compression spring 712, thereby can prevent to a great extent that to cause precision 6 to take place to damage because the vehicle takes place to jolt in the transportation.

Example three: referring to fig. 1-10, a dust-free storage device for manufacturing precision devices comprises a housing 1, a storage cavity 2 is formed in the housing 1, a mounting bracket 3 is arranged at the lower end of an inner cavity of the storage cavity 2, a driving motor 4 is detachably mounted in the mounting bracket 3, a collision-proof falling mechanism 5 is arranged at the upper end of the inner cavity of the storage cavity 2, a precision part 6 is placed in the collision-proof falling mechanism 5, a suspension-type storage mechanism 7 is movably mounted at the upper end of the mounting bracket 3, the collision-proof falling mechanism 5 comprises a circular feeding pipe 501, the circular feeding pipe 501 is detachably mounted at the upper end of the housing 1, a blanking channel 502 is arranged in the circular feeding pipe 501, reciprocating cavities 503 are vertically formed in the circular feeding pipe 501, the reciprocating cavities 503 are symmetrically arranged at the left side and the right side of the blanking channel 502 in an equal number manner, a steering guide wheel 504 is movably mounted at the upper end of the inner cavity of the reciprocating cavity 503, a reset rope 505 is wound on the steering guide wheel 504, one end of the reset rope 505 is fixedly connected with a reset spring 506, the upper end of the reset spring 506 is fixedly connected with one end of the reset rope 505, the lower end of the reset spring 506 is fixedly connected with the inner wall of the reciprocating cavity 503, the other end of the reset rope 505 is fixedly connected with a driving block 507, one end of the driving block 507 is fixedly connected with the reset rope 505, the other end of the driving block 507 extends into the blanking channel 502, so that when the driving block 507 moves downwards under the action of external force, the reset rope 505 stretches the reset spring 506, when the external force disappears, the driving block 507 moves upwards and resets under the matching of the reset spring 506 and the reset rope 505, a sliding block 508 is fixedly installed at the end part of the driving block 507, a contraction plate 509 is movably installed inside the sliding block 508, and in the initial state, the contraction plate 509 is in an extension state, when the sliding block 508 moves to the lower end of the blanking channel 502, the shrinking plate 509 can shrink into the sliding block 508 under the action of the driving block 507, the upper end of the mounting bracket 3 is provided with a fixed disc 511, the middle of the fixed disc 511 is provided with a touch switch 510, the outer part of the touch switch 510 and the upper surface of the fixed disc 511 are both wrapped with a layer of rubber material, so that the precision piece 6 can be prevented from being damaged due to collision in the process of contacting with the touch switch 510, the upper end of the fixed disc 511 is provided with a plurality of discharging slots 512, the fixed disc 511 is positioned below the blanking channel 502, the touch switch 510 and the blanking channel 502 are coaxially arranged, so that when the precision piece 6 falls down from the blanking channel 502, the touch switch 510 can be pressed, the touch switch 510 is electrically connected with the driving motor 4 through an electric wire, and the driving motor 4 can start to operate after the touch switch 510 is pressed and connected, the suspension storage mechanism 7 comprises a guide bracket 701, a blanking chute 702 is arranged in the guide bracket 701, the upper end of the guide bracket 701 is annular and movably sleeved outside a fixed disc 511, the blanking chute 702 has a certain gradient, the width of the blanking chute 702 is matched with that of a discharge chute 512, a blocking chute 703 is arranged at the upper end of the guide bracket 701, one end of the blocking chute 703 is communicated with the inside of the blanking chute 702, a blocking slider 704 is slidably connected in the blocking chute 703, an extension spring 705 is fixedly connected between the blocking slider 704 and the inner wall of the blocking chute 703, a fixed bump 706 is arranged at the lower end of the blocking slider 704, a flexible rope 707 is fixedly connected to the surface of the fixed bump 706, one end of the flexible rope 707 is fixedly connected to the fixed bump 706, the other end of the flexible rope 707 bypasses an auxiliary rotating wheel 708 and is fixedly connected to an elastic plate 711, so that when the elastic plate 711 moves downwards, the blocking slide block 704 can extend into the blanking chute 702 through the cooperation with the flexible rope 707, then the upper end of the blanking chute 702 is in a closed state, the auxiliary rotating wheel 708 is movably installed at the lower end of the opening side of the blocking chute 703, the extension spring 705 is in an original long state in an initial state, when the other end of the flexible rope 707 is pulled downwards along the blanking chute 702, the blocking slide block 704 extends into the blanking chute 702 under the cooperation of the flexible rope 707 and the fixed lug 706 to achieve the blocking effect on the upper end of the blanking chute 702, the lower end of the guiding bracket 701 is movably installed with the placing block 709, the upper side and the lower side of the joint of the placing block 709 and the guiding bracket 701 are both provided with the buffering elastic pieces 710, so that when the guiding bracket 701 jolts up and down, the placing block 709 can keep balance under the effect of the buffering elastic pieces 710 to prevent the precision piece 6 from falling from the inside of the placing block 709, place the inside sliding connection of piece 709 inner chamber and have elastic plate 711, elastic plate 711's lower extreme fixedly connected with compression spring 712, elastic plate 711's upper surface spraying has a layer epoxy to when precision 6 is located the upper end of elastic plate 711, elastic plate 711 can move certain distance downwards under the action of gravity of precision 6, make precision 6 be located the inside of placing piece 709.

The working principle is that in the initial state, the driving block 507 is positioned at the upper end of the blanking channel 502 under the combined action of the reset rope 505 and the reset spring 506, and the contraction plate 509 is in an extension state at the moment.

Since one end of the return rope 505 is fixedly connected to the return spring 506 and the other end thereof bypasses the guide pulley 504 and is fixedly connected to the upper end of the driving block 507, the return spring 506 is stretched by the cooperation with the return rope 505 during the downward movement of the driving block 507.

As the distance of the downward movement of the driving block 507 is gradually increased, the degree of the stretching of the return spring 506 is also increased, so that the driving block 507 is subjected to a vertical upward pulling force, and the upward pulling force applied to the driving block 507 and the inertia force generated when the driving block 507 moves downward are offset with each other, so that the speed of the precision part 6 is gradually reduced in the falling process, and the effect of preventing the precision part 6 from being damaged in the falling process is achieved.

After the precision part 6 falls, the driving block 507 moves upwards and resets under the combined action of the reset rope 505 and the reset spring 506, and the contraction plate 509 extends out of the blanking channel 502 under the action of a driving screw rod in the driving block 507 in the process of moving the driving block 507 upwards.

Pressing the touch switch 510 on will cause the driving motor 4 to start operating, and the driving motor 4 will cause the guide holder 701 to rotate around the fixed disk 511 at a constant speed.

Subsequently, the precision part 6 will slide slowly downwards along the inner wall of the blanking chute 702 under the action of its own weight, and finally the precision part 6 will stop at the upper end of the placing block 709.

Because the upper surface of the elastic plate 711 is sprayed with a layer of epoxy resin, the surface of the precision part 6 can be well prevented from generating static electricity, and the guide bracket 701 can be always in a constant-speed rotation state under the action of the driving motor 4, so that the precision part 6 always performs constant-speed circular motion along with the placing block 709 in the storage process, thereby not only preventing dust from adhering to the surface of the precision part 6 due to the electrostatic adsorption effect, but also preventing dust from falling off due to overlong standing time of the precision part 6.

Thereby ensuring that the precision part 6 does not cause large impact due to inertia during falling, the precision part 6 is prevented from being damaged to a great extent when falling off, and only a worker needs to simply put the precision part 6 into the blanking channel 502, thereby greatly reducing the workload of the workers, and in addition, when the transport vehicle runs on the road section with poor road conditions, the housing 1 may largely shake, and the guide holder 701 may shake up and down when the housing 1 shakes, but since the upper and lower sides of the joint of the placing block 709 and the guide bracket 701 are provided with the buffering elastic pieces 710, even if the guide bracket 701 shakes, the placement block 709 is not greatly affected, and the lower end of the elastic plate 711 is provided with a compression spring 712, so that damage to the precision part 6 due to bumping of the vehicle during transportation can be prevented to a large extent.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. A dust-free storage device for manufacturing precision devices, which comprises a shell (1) and is characterized in that: storage cavity (2) have been seted up to the inside of casing (1), and the lower extreme of storage cavity (2) inner chamber is provided with installing support (3), and the inside demountable installation of installing support (3) has driving motor (4), and the upper end of storage cavity (2) inner chamber is provided with prevents falling mechanism (5) of colliding with, and precision (6) have been placed to the inside of preventing falling mechanism (5) of colliding with, and the upper end movable mounting of installing support (3) has floated storage mechanism (7).

2. A precision device manufacturing dust-free storage apparatus according to claim 1, wherein: the anti-collision falling mechanism (5) comprises a feeding circular tube (501), a blanking channel (502) is arranged inside the feeding circular tube (501), a reciprocating cavity (503) is vertically formed inside the feeding circular tube (501), a steering guide wheel (504) is movably arranged at the upper end of the inner cavity of the reciprocating cavity (503), a reset rope (505) is wound on the steering guide wheel (504), one end of the reset rope (505) is fixedly connected with a reset spring (506), the other end of the reset rope (505) is fixedly connected with a driving block (507), the feeding circular tube (501) is detachably arranged at the upper end of the shell (1), the reciprocating cavity (503) is symmetrically arranged at the left side and the right side of the blanking channel (502) in an equal number manner, the upper end of the reset spring (506) is fixedly connected with one end of the reset rope (505), the lower end of the reset spring (506) is fixedly connected with the inner wall of the reciprocating cavity (503), one end of the driving block (507) is fixedly connected with the reset rope (505), and the other end of the driving block (507) extends into the blanking channel (502).

3. A precision device manufacturing dust-free storage apparatus according to claim 1, wherein: the end part of the driving block (507) is fixedly provided with a sliding block (508), and the inside of the sliding block (508) is movably provided with a contraction plate (509).

4. A precision device manufacturing dust-free storage apparatus according to claim 1, wherein: the automatic blanking device is characterized in that a fixed disc (511) is arranged at the upper end of the mounting support (3), a touch switch (510) is arranged in the middle of the fixed disc (511), a plurality of discharging grooves (512) are formed in the upper end of the fixed disc (511), the fixed disc (511) is located below the blanking channel (502), and the touch switch (510) and the blanking channel (502) are coaxially arranged.

5. A precision device manufacturing dust-free storage unit as claimed in claim 1, wherein: the outer part of the touch switch (510) and the upper surface of the fixed disc (511) are both wrapped with a layer of rubber material.

6. A precision device manufacturing dust-free storage apparatus according to claim 1, wherein: the suspension type storage mechanism (7) comprises a guide support (701), and a blanking chute (702) is formed in the guide support (701).

7. A precision device manufacturing dust-free storage apparatus according to claim 1, wherein: the blanking device is characterized in that a blocking sliding groove (703) is formed in the upper end of the guide support (701), a blocking sliding block (704) is connected to the inside of the blocking sliding groove (703) in a sliding mode, a tension spring (705) is fixedly connected between the blocking sliding block (704) and the inner wall of the blocking sliding groove (703), a fixing bump (706) is arranged at the lower end of the blocking sliding block (704), a flexible rope (707) is fixedly connected to the surface of the fixing bump (706), an auxiliary rotating wheel (708) is movably mounted at the lower end of the opening side of the blocking sliding groove (703), and one end of the blocking sliding groove (703) is communicated with the inside of the blanking sliding groove (702).

8. A precision device manufacturing dust-free storage apparatus according to claim 1, wherein: the lower extreme movable mounting of guide bracket (701) places piece (709), places the upper and lower both sides of piece (709) and guide bracket (701) junction and all is provided with buffering shell fragment (710).

9. A precision device manufacturing dust-free storage apparatus according to claim 1, wherein: the inner part of the inner cavity of the placing block (709) is connected with an elastic plate (711) in a sliding mode, the lower end of the elastic plate (711) is fixedly connected with a compression spring (712), and a layer of epoxy resin is sprayed on the upper surface of the elastic plate (711).

10. A precision device manufacturing dust-free storage apparatus according to claim 1, wherein: one end of the flexible rope (707) is fixedly connected with the fixed convex block (706), and the other end of the flexible rope (707) bypasses the auxiliary rotating wheel (708) and is fixedly connected with the elastic plate (711).