CN210803899U - Pipeline bubble discharging device - Google Patents

Abstract

The utility model relates to a bubble device is arranged to pipeline, including handle (1), shock dynamo (2) and movable fastener (3), wherein, shock dynamo (2) are installed the inside of handle (1), shock dynamo (2)'s vibrations pole (21) stretch out the tip and the connection of handle (1) movable fastener (3). The pipeline bubble discharging device adopts the movable fastening piece, can match polygonal nuts of different sizes of the liquid crystal pipeline, does not need frequent switching wrenches, and improves the practicability and efficiency of the device for discharging bubbles; simultaneously set up vibrating motor in the handle, shake through vibrating motor's vibrations and disperse the bubble in the liquid crystal pipeline in order to discharge the bubble for the bubble of discharging of liquid crystal pipeline is more standardized, makes the bubble in the pipeline discharge completely, has promoted the bubble efficiency of discharging moreover, has promoted the utilization rate and the productivity of equipment.

Description

Pipeline bubble discharging device

Technical Field

The utility model belongs to the technical field of the liquid crystal display panel production, concretely relates to bubble device is arranged to pipeline.

Background

In the liquid crystal display industry, a liquid crystal dropping apparatus is a device for dropping liquid crystal on a glass substrate. In general, liquid crystal is applied by a liquid drop dropping method, in which a row of liquid crystal dropping heads is moved back on a glass substrate and liquid crystal is dropped while the row of liquid crystal dropping heads is moving.

The liquid supply system of the liquid crystal dripping device mainly comprises a liquid crystal bottle, a liquid crystal dripping nozzle, a liquid crystal buffer container and a pipeline. In the production process, the air bubbles are formed in the liquid crystal of the pipeline due to the abnormal sealing performance of the pipeline connection part and the damage of the pipeline, and the air bubbles can cause the leakage condition to occur, so that the shutdown of the equipment is caused.

At present, the main bubble removing method for the liquid crystal dripping device is manual tube bouncing. The manual bullet pipe need fix the nut of different models on the pipeline with the spanner, then the manual bubble of bullet makes the bubble discharge of manual work. However, the manual and manual pipe springing requires frequent switching of the wrench, which increases the complexity of the work and reduces the efficiency of bubble removal; moreover, the bubble force of the manual pipe springing is not easy to master, the personnel difference is large, the standardized management cannot be carried out, incomplete bubble arrangement is easy to cause, and the influence on the utilization rate and the capacity of equipment is great.

SUMMERY OF THE UTILITY MODEL

In order to solve the above problems existing in the prior art, the utility model provides a bubble device is arranged to pipeline. The to-be-solved technical problem of the utility model is realized through following technical scheme:

the embodiment of the utility model provides a pipeline bubble removing device, which comprises a handle, a vibration motor and a movable fastener, wherein,

the vibration motor is installed in the handle, and a vibration rod of the vibration motor extends out of the end part of the handle and is connected with the movable fastener.

In an embodiment of the present invention, the portable electronic device further comprises a fastener controller, the fastener controller is disposed on the handle near one end of the movable fastener, and is connected to the movable fastener to control the open/close state of the movable fastener.

In one embodiment of the present invention, the movable fastener comprises a first collet, a second collet, a collet coupler, a first collet control rod, a second collet control rod, and a control rod coupler, wherein,

the first chuck and the second chuck are respectively movably connected to two ends of the chuck connecting part, and can rotate around respective connecting shafts to switch the opening and closing states of the movable fastener;

the first end of the first chuck control rod is fixedly connected to the first chuck, the first end of the second chuck control rod is fixedly connected to the second chuck, the second end of the first chuck control rod and the second end of the second chuck control rod are both movably connected with the first end of the control rod connecting part, the first end of the control rod connecting part is fixed on the chuck connecting part, and the second end of the control rod connecting part is connected with the vibration rod;

the fastener controller is connected with both the first chuck control rod and the second chuck control rod.

The utility model discloses an in the embodiment, still include vibrations frequency adjustment button, vibrations frequency adjustment button sets up the surface of handle and with shock dynamo connects.

In an embodiment of the present invention, the handle further comprises a torque value display, the torque value display is disposed on the surface of the handle and connected to the movable fastener.

In an embodiment of the present invention, the vibration motor is an eccentric motor.

In an embodiment of the present invention, the vibration motor is an ultrasonic motor.

In an embodiment of the present invention, an ultrasonic probe is embedded on the movable fastener, and the ultrasonic probe is connected to the ultrasonic motor.

The utility model discloses an in an embodiment, still include liquid crystal test probe, liquid crystal pilot lamp and liquid crystal concentration display screen, wherein, liquid crystal test probe inlays on the movable fastener, the liquid crystal pilot lamp sets up the surface of handle and with the liquid crystal concentration display screen is connected, the liquid crystal concentration display screen sets up the surface of handle and with the liquid crystal test probe is connected.

Compared with the prior art, the beneficial effects of the utility model are that:

the pipeline bubble discharging device of the utility model adopts the movable fasteners, can match liquid crystal pipelines with different sizes, does not need frequent switching wrenches, and improves the practicability and efficiency of discharging bubbles of the device; simultaneously set up vibrating motor in the handle, shake through vibrating motor's vibrations and disperse the bubble in the liquid crystal pipeline in order to discharge the bubble for the row's of liquid crystal pipeline bubble is more standardized, thereby makes the bubble in the pipeline discharge completely, has promoted row's bubble efficiency moreover, has promoted the utilization rate and the productivity of equipment.

The present invention will be described in further detail with reference to the accompanying drawings and examples.

Drawings

Fig. 1 is a schematic structural diagram of a pipeline bubble removing device according to an embodiment of the present invention;

fig. 2 is a schematic diagram illustrating a principle of bubble removal by a pipeline bubble removal device according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of another pipeline bubble removing device according to an embodiment of the present invention;

fig. 4 is a schematic structural view of a movable fastener according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of another pipeline bubble discharging device according to an embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to specific examples, but the present invention is not limited thereto.

Example one

Referring to fig. 1, fig. 1 is a schematic structural diagram of a pipeline bubble discharging device according to an embodiment of the present invention. The pipeline foam discharging device comprises a handle 1, a vibration motor 2 and a movable fastener 3.

The vibration motor 2 is provided with a motor part and a vibration rod 21 connected with the motor part, the motor part is arranged inside the handle 1, one part of the vibration rod 21 is positioned inside the handle 1, the other part of the vibration rod 21 extends out of the end part of the handle 1, the extended vibration rod 21 is connected with a movable fastener 3, and the movable fastener 3 is used for fastening the pipeline bubble discharging device on a liquid crystal pipeline.

The surface mounting of handle 1 has the vibrations of on-off control shock dynamo 2, and the vibrations of shock dynamo 2 pass through movable fastener 3 with vibrations energy transfer to liquid crystal pipeline, make the bubble in the liquid crystal pipeline shaken and scattered, shake the little bubble after scattering and rise along liquid crystal pipeline to reach bubble exhaust effect. Referring to fig. 2, fig. 2 is a schematic diagram illustrating a principle of bubble removal by using a pipeline bubble removal device according to an embodiment of the present invention. In fig. 2, when the bubbles are dispersed and discharged, the bubble-like leakage in the liquid crystal dropping head caused by the bubbles also disappears.

The vibration motor 2 can be an eccentric motor which adopts a mechanical vibration mode to shake and disperse bubbles; the vibrating motor 2 can also be an ultrasonic motor, and meanwhile, an ultrasonic probe can be arranged on one side of the movable fastener 3, which is in contact with the pipeline, and the ultrasonic probe is connected with the ultrasonic motor, and the ultrasonic probe and the ultrasonic motor are matched with each other to vibrate the bubbles in an ultrasonic mode.

This embodiment sets up vibrating motor in the handle, and the vibrations through vibrating motor are shaken scattered with the bubble in the liquid crystal pipeline in order to discharge the bubble for the row bubble of liquid crystal pipeline is more standardized, thereby makes the bubble in the pipeline discharge completely, has promoted row bubble efficiency, has promoted the utilization rate and the productivity of equipment.

The movable fastening piece 3 is used for locking the fastening part of the pipeline to be movable, the size of the fastening part can be adjusted at will to adapt to pipelines with different sizes, and the adjusting mode can be manual or automatic. The movable fastener 3 can be formed by a connecting rod and a fastening part connected to one end of the connecting rod, the other end of the connecting rod is connected with the vibration rod 21, the fastening part is used for fastening the liquid crystal pipeline, and the fastening part can be a movable clamp or a movable wrench which can be switched to be in a large or small state at will so as to adapt to pipelines in different sizes. The movable fastening member 3 may be formed of only a movable fastening portion, without a connecting rod, which is directly connected to the vibration rod 21.

This embodiment adopts movable fastener can match to the not liquid crystal pipeline of unidimensional, need not frequent switching spanner, promotes the practicality and the row bubble efficiency that the device arranged the bubble.

Example two

On the basis of the first embodiment, please refer to fig. 3, and fig. 3 is a schematic structural diagram of another pipeline bubble discharging device according to an embodiment of the present invention. The pipeline bubble discharging device comprises a handle 1, a vibration motor 2, a movable fastener 3, a fastener controller 4, a vibration frequency adjusting button 5 and a torsion value display 6.

The relationship between the handle 1, the vibrating motor 2 and the movable fastener 3 is shown in the first embodiment.

The fastener controller 4 is provided at an end of the handle surface near the movable fastener 3, and the fastener controller 4 is connected with the movable fastener 3 to control the open and close state of the movable fastener 3.

Specifically, the fastener controller 4 may be connected at a specific position of the movable fastener 3 by a medium (such as a wire, a spring, etc.), and the medium is moved by the movement of the fastener controller 4 to move the movable fastener 3. For example, the fastener controller 4 may slide in the axial direction of the handle 1, that is, the fastener controller 4 may be close to or far from the movable fastener 3 along the surface of the handle 1 to control the open-close state of the movable fastener 3; that is, when the fastener controller 4 is pushed toward the movable fastener 3, the driving medium pushes the movable fastener 3 to be in an open state so as to be sleeved on the outer wall of the pipeline, and then the fastener controller 4 is pushed back toward the movable fastener 3 so that the opening of the movable fastener 3 is gradually reduced to be locked on the pipeline. For another example, the fastener controller 4 may also rotationally drive the medium (i.e., change the driving mode to the rotating mode) so that the movable fastener 3 changes the opening state.

The vibration frequency adjusting button 5 is provided on the surface of the handle 1 and connected to the vibration motor 2 inside the handle 1. Shock dynamo 2 takes the design with adjustable the multistage, and shock frequency adjustment button 5 can be directed against the different position of pipeline or the different bubble condition regulation shock dynamo 2's of vibrations frequency to make different pipelines, not the bubble of equidimension all can discharge completely, thereby improve the device's adaptability and arrange bubble efficiency.

The torque value display 6 is provided on the surface of the handle and is connected to the movable fastener 3, and its connection line may be provided inside the handle 1. The torque value display 6 can display the fastening degree of the movable fastening piece 3 to the pipeline by detecting the deformation of the movable fastening piece 3, so as to prevent the fastening degree from being insufficient to achieve the effect of completely discharging bubbles or damage to the pipeline due to the excessively large fastening degree.

The pipeline bubble discharging device of the embodiment solves the problem that the pipeline joint of the existing liquid crystal dripping device is easy to cause the risk of dripping leakage, and greatly improves the accuracy and efficiency of operation.

EXAMPLE III

On the basis of the second embodiment, please refer to fig. 4, and fig. 4 is a schematic structural view of a movable fastener according to an embodiment of the present invention. The movable fastener 3 includes a first chuck 31, a second chuck 32, a chuck connecting part 33, a first chuck control lever 34, a second chuck control lever 35, and a control lever connecting part 36.

The first clip 31, the second clip 32, and the clip connecting portion 33 collectively form a fastening portion of the movable fastener 3. One end of the first cartridge 31 is connected to one end of the cartridge connecting portion 33, and the first cartridge 31 is rotatable about its connecting shaft. One end of the second chuck 32 is connected to the other end of the chuck connecting portion 33, and the second chuck 32 is rotatable about its connecting axis. When the first chuck 31 and the second chuck 32 rotate to a state of contacting with each other, the first chuck 31, the second chuck 32 and the chuck connecting part 33 together form a closed ring shape, and the closed ring shape may be a hexagon or a circle; when the first chuck 31 and the second chuck 32 rotate to a state of being away from each other, the first chuck 31 and the second chuck 32 and the chuck connecting portion 33 form a ring shape having an opening, and the degree of the opening can be adjusted, so that the size of the ring shape can be adjusted to adapt to different pipelines.

A first end of the first chuck control rod 34 is fixedly connected to the first chuck 31. A first end of a second chuck control rod 35 is fixedly connected to the second chuck 32. The second end of the first chuck control rod 34 and the second end of the second chuck control rod 35 are both movably connected to the first end of the control rod connecting portion 36, the second end of the first chuck control rod 34, the second end of the second chuck control rod 35 and the first end of the control rod connecting portion 36 may be movably connected to the same point, or the first chuck control rod 34 and the second chuck control rod 35 may be movably connected to the first end of the control rod connecting portion 36 respectively. A first end of the control rod connecting part 36 is fixed to the chuck connecting part 33, and a second end of the control rod connecting part 36 is connected to the vibration rod 21.

The chuck control levers 34, 35 are mainly used to control the opening and closing states of the chucks 31, 32, and therefore, the fastener controller 4 is connected to the chuck control levers 34, 35, and specifically, the fastener controller 4 may be connected to the middle portions of the chuck control levers 34, 35 through a medium. The movement of the fastener controller 4 causes the movement of the chuck control levers 34, 35, which in turn causes the rotation of the chucks 31, 32, thereby changing the opening and closing states of the chucks 31, 32.

The movable fastener of this embodiment can match the liquid crystal pipeline of not unidimensional, and easily operation can improve the efficiency of arranging the bubble operation.

Example four

On the basis of the first, second and third embodiments, please refer to fig. 5, and fig. 5 is a schematic structural diagram of another pipeline bubble removing device according to an embodiment of the present invention.

The pipeline bubble discharging device comprises a handle 1, a vibration motor 2, a movable fastener 3, a fastener controller 4, a vibration frequency adjusting button 5, a torsion value display 6, a liquid crystal detection probe 7, a liquid crystal indicator lamp 8 and a liquid crystal concentration display screen 9.

The relationship among the handle 1, the vibration motor 2, the movable fastener 3, the fastener controller 4, the vibration frequency adjusting button 5, and the torque value display 6 is shown in the second embodiment.

The liquid crystal detection probe 7 can be arranged at the contact position of the movable fastener 3 and the liquid crystal pipeline to form an annular detection area, so that the detection completeness is guaranteed. The liquid crystal indicator lamp 8 can be arranged on the surface of the handle 1 and is connected with a liquid crystal concentration display screen 9. The liquid crystal concentration display screen 9 is arranged on the surface of the handle 1 and is connected with the liquid crystal detection probe 7. Wherein, the liquid crystal concentration display screen 9 can be integrated with the torsion value display 6 into a display screen.

The pipeline bubble discharging device of the embodiment is mainly used for detecting the conditions of pipeline damage of the liquid crystal dripping device or abnormal sealing performance of the pipeline connection part and the like so as to avoid more serious bubble phenomenon. The detection method comprises the following steps: firstly, setting an alarm standard of a liquid crystal indicator lamp 8 according to the liquid crystal concentration around the pipeline under the abnormal condition; then, detecting the liquid crystal detection probe 7 around the pipeline, detecting the concentration of liquid crystal molecules (organic matters) in the air around the pipeline by the liquid crystal detection probe 7, and then transmitting the concentration to a liquid crystal concentration display screen 9; when the concentration displayed by the liquid crystal concentration display screen 9 exceeds the alarm standard, the indicator light 8 gives an alarm, then an operator checks whether bubbles exist in the pipeline at the position, if the bubbles exist, the bubbles are discharged by adopting a vibration function, and if the bubbles do not exist, the pipeline is checked.

The pipeline bubble discharging device of the embodiment detects the conditions of pipeline damage or abnormal sealing property at the joint by detecting the liquid crystal molecule concentration around the liquid crystal pipeline, so that the abnormal conditions can be found in time, and the pipeline can be repaired before serious bubble phenomenon is generated in the liquid crystal pipeline; and will detect the function and arrange bubble function integration an organic whole, promoted the accuracy and the efficiency of operation, and improved the operating efficiency.

The foregoing is a more detailed description of the present invention, taken in conjunction with the specific preferred embodiments thereof, and it is not intended that the invention be limited to the specific embodiments shown and described. To the utility model belongs to the technical field of ordinary technical personnel, do not deviate from the utility model discloses under the prerequisite of design, can also make a plurality of simple deductions or replacement, all should regard as belonging to the utility model discloses a protection scope.

Claims (9)

1. A pipeline bubble removing device is characterized by comprising a handle (1), a vibration motor (2) and a movable fastener (3), wherein,

the vibration motor (2) is installed in the handle (1), and a vibration rod (21) on the vibration motor (2) extends out of the end part of the handle (1) and is connected with the movable fastener (3).

2. The piping foam discharging device according to claim 1, further comprising a fastener controller (4), wherein the fastener controller (4) is provided at an end of the handle (1) near the movable fastener (3), and the fastener controller (4) is connected to the movable fastener (3) to control an open/close state of the movable fastener (3).

3. The piping foam discharging device according to claim 2, wherein said movable fastener (3) comprises a first collet (31), a second collet (32), a collet coupler (33), a first collet control lever (34), a second collet control lever (35) and a control lever coupler (36), wherein,

the first chuck (31) and the second chuck (32) are movably connected to two ends of the chuck connecting part (33) respectively, and the first chuck (31) and the second chuck (32) can rotate around respective connecting shafts to switch the opening and closing states of the movable fastening piece (3);

the first end of the first chuck control rod (34) is fixedly connected to the first chuck (31), the first end of the second chuck control rod (35) is fixedly connected to the second chuck (32), the second end of the first chuck control rod (34) and the second end of the second chuck control rod (35) are movably connected with the first end of the control rod connecting part (36), the first end of the control rod connecting part (36) is fixed to the chuck connecting part (33), and the second end of the control rod connecting part (36) is connected with the vibration rod (21);

the fastener controller (4) is connected to both the first chuck control rod (34) and the second chuck control rod (35).

4. The piping bubble removing device according to claim 1, further comprising a vibration frequency adjusting button (5), wherein the vibration frequency adjusting button (5) is provided on the surface of the handle (1) and connected to the vibration motor (2).

5. The piping foam discharging device according to claim 1, further comprising a torque value display (6), wherein the torque value display (6) is disposed on the surface of the handle (1) and connected to the movable fastening member (3).

6. The piping bubble removing device according to claim 1, wherein the vibration motor (2) is an eccentric motor.

7. The piping bubble removing device according to claim 1, wherein the vibration motor (2) is an ultrasonic motor.

8. The pipeline bubble removing device according to claim 7, wherein an ultrasonic probe is embedded in the movable fastener (3), and the ultrasonic probe is connected with the ultrasonic motor.

9. The pipeline bubble discharging device according to claim 1, further comprising a liquid crystal detection probe (7), a liquid crystal indicator lamp (8) and a liquid crystal concentration display screen (9), wherein the liquid crystal detection probe (7) is embedded on the movable fastening piece (3), the liquid crystal indicator lamp (8) is arranged on the surface of the handle (1) and connected with the liquid crystal concentration display screen (9), and the liquid crystal concentration display screen (9) is arranged on the surface of the handle (1) and connected with the liquid crystal detection probe (7).

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