CN221417751U - Double-glass-tank electromagnetic valve ink tank assembly - Google Patents

Double-glass-tank electromagnetic valve ink tank assembly Download PDF

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Publication number
CN221417751U
CN221417751U CN202323429826.3U CN202323429826U CN221417751U CN 221417751 U CN221417751 U CN 221417751U CN 202323429826 U CN202323429826 U CN 202323429826U CN 221417751 U CN221417751 U CN 221417751U
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China
Prior art keywords
glass
cover plate
tank
wall
upper cover
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Application number
CN202323429826.3U
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Chinese (zh)
Inventor
凌文韬
陈太军
程子明
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Anhui Weitong Fluid Control System Co ltd
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Anhui Weitong Fluid Control System Co ltd
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Abstract

The utility model discloses a double-glass-tank electromagnetic valve ink tank assembly which comprises a lower cover plate, an upper cover plate and a glass tank, wherein the upper cover plate is arranged at the top end of the glass tank, the bottom end of the glass tank is arranged at the top end of the lower cover plate, the middle parts of the upper cover plate and the lower cover plate on the outer wall of the glass tank are connected through a screw rod in a supporting manner, a communication port in the middle part of the lower cover plate is connected to the top end of a valve seat, a liquid level sensor is arranged in the middle part of the inner side of the upper cover plate, and an oscillation preventing plate is arranged at the upper end of the middle part of the outer wall of the liquid level sensor. According to the utility model, the fluid capacity can be automatically controlled through the liquid level switch and the multi-caliber outlet can be automatically controlled through the coil, so that the device is more convenient and faster than a manual switch, and is accurate in multi-outlet design; the number of outlets can be adjusted according to the actual use requirements.

Description

Double-glass-tank electromagnetic valve ink tank assembly
Technical Field
The utility model belongs to the technical field of press-fitting devices, and particularly relates to an ink tank assembly of a double-glass-tank electromagnetic valve.
Background
Normally open solenoid valve ink pipe among the prior art is when opening the liquid outlet of bottom, is mostly manually by the staff and goes to open one by one, and the operation is relatively consuming time, influences work efficiency not convenient enough.
We have therefore proposed a dual glass tank solenoid valve ink tank assembly to address the above problems.
Disclosure of utility model
Aiming at the problems in the prior art, the utility model provides the following technical scheme:
The utility model provides a double glass jar solenoid valve ink jar assembly, includes lower apron, upper cover plate and glass jar, the upper cover plate is installed to glass jar top, the apron top under is installed to glass jar bottom, the upper cover plate of glass jar outer wall and lower apron middle part are through the screw rod supporting connection, apron middle part intercommunication mouth is connected on the disk seat top down, upper cover plate inboard mid-mounting has level sensor, and the mid-upper end of level sensor outer wall installs the anti-oscillation board, anti-oscillation board both sides top passes through the nut and installs on the outer wall of first bolt, first bolt top is installed in upper cover plate bottom both sides, lower apron lateral wall mid-mounting has into the ink joint, the circulation interface is installed to the outer wall on lower apron top right side, multiunit steel ball is installed to disk seat middle part cavity inboard equidistance, the cavity outer wall is connected with the end cap, end cap lateral wall butt is on moving the iron core inside wall, moving the iron core inner wall welding and installing the preceding guide head inside wall, first guide head and moving the iron core installation again mid-section, the disk seat bottom is installed through the second and is connected with the first tower middle part of the second tower is installed to the second tower side wall through the second is installed to the second tower middle part.
When the coil is not electrified, the movable iron core is pressed by the plug to the second communicating pipe orifice under the action force of the spring, and the normally closed state is kept; the pressure difference is formed in the second communication pipeline of the valve seat, so that the stability of the fluid pressure in the valve seat and the pipeline is maintained; when the fluid is required to circulate again, the fluid can flow out of the outlet in time, so that risks such as delay and interruption when the fluid flows out are prevented;
when the coil is electrified, the movable iron core moves under the action of electromagnetic force, wherein the opening on the movable iron core can ensure that liquid can circulate and release pressure, the communicating pipe orifice is opened, and the normally open state is kept.
As the preferable mode of the technical scheme, the liquid level sensors are arranged on the inner sides of the two groups of glass tanks, and the fluid volume in the glass tanks is automatically controlled by the liquid level sensors.
When the fluid volume level in the glass tank does not float the floating ball of the liquid level sensor, the sensor in the liquid level sensor is in a communication state, and a sensing signal is sent to keep the fluid continuously fed; the ink inlet joint discharges pressure fluid to flow into the glass tank from the circulating interface through the lower cover plate;
When the floating ball of the liquid level sensor floats due to the capacity of the fluid in the glass tank, the sensor in the liquid level sensor is disconnected, and the sensing signal stops supplying the fluid; to prevent the risk of oversupply, spillage, etc.
As the preferable of the technical scheme, the outer side wall of the lower cover plate is additionally provided with an ink inlet joint.
Can be used for fluid circulation, heating, heat preservation and cleaning.
Preferably, the glass tank is provided with an anti-oscillation plate.
When the machine is in operation, the electromagnetic valve ink tank assembly moves, and the anti-shake plate can prevent bubbles and unstable fluid pressure caused by fluid shake.
As a preference of the above-described solution, the glass tanks are designed side by side.
The double-glass tank is designed, the installation is compact, the space is saved, and the transparent visual tank body is adopted, so that the state of fluid stock in the tank body can be observed very conveniently and intuitively, and meanwhile, the same or different fluids can be filled, the two tanks can be used separately and can also be used simultaneously.
Preferably, in the above technical solution, the plug is made of rubber.
The corrosion-resistant rubber plug is designed, durable and better in sealing effect.
As the preferable choice of the technical proposal, the movable iron core is provided with holes.
Is used for ensuring the circulation of liquid and pressure relief.
As the preferable choice of the technical proposal, the sealing design of the glass tank mouth is that the outer wall of the glass tank is matched with the shape of a star-shaped ring.
After the glass tank is assembled and locked, the glass tank opening can be effectively sealed, and the star-shaped ring is pressed to deform outwards, so that the side face can also have a good sealing effect.
The beneficial effects of the utility model are as follows:
the fluid capacity can be automatically controlled through the liquid level switch and the multi-caliber outlet can be automatically controlled through the coil, so that the device is more convenient and faster than a manual switch, and is accurate in multi-outlet design; the number of outlets can be adjusted according to the actual use requirement;
meanwhile, when the printer or the printer system is suddenly powered off, the electromagnetic valve can automatically cut off the ink in the ink path, so that the continuous flowing of the ink is avoided.
Drawings
FIG. 1 is a schematic diagram of a structure provided by an embodiment of the present utility model;
FIG. 2 is a schematic view of the cross-sectional structure D-D in FIG. 1 according to an embodiment of the present utility model;
FIG. 3 is a schematic view of the cross-sectional E-E structure of FIG. 1 according to an embodiment of the present utility model;
fig. 4 shows a schematic view of a bottom view according to an embodiment of the present utility model.
Legend description:
1. A lower cover plate; 2. an upper cover plate; 3. a screw; 4. a glass jar; 5. an anti-oscillation plate; 6. a star-shaped ring; 7. a first bolt; 8. a nut; 9. a valve seat; 10. steel balls; 11. a liquid level sensor; 12. a first pagoda joint; 13. a second pagoda joint; 14. a second bolt; 15. a coil; 16. a leading head; 17. a movable iron core; 18. a plug; 19. a spring; 20. an ink inlet joint; 21. and (5) a loop interface.
Detailed Description
In order to make the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions of the present utility model will be clearly and completely described below with reference to the embodiments.
As shown in fig. 1, 2, 3 and 4, in the embodiment of the present utility model: including lower apron 1, upper cover plate 2 and glass jar 4, upper cover plate 2 is installed on glass jar 4 top, glass jar 4 bottom is installed on lower apron 1 top, upper cover plate 2 and lower apron 1 middle part of glass jar 4 outer wall are supported through screw rod 3 and are connected, lower apron 1 middle part intercommunication mouth is connected on disk seat 9 top, upper cover plate 2 inboard mid-mounting has liquid level sensor 11, and the mid-upper end of liquid level sensor 11 outer wall installs and prevents oscillating plate 5, the both sides top of preventing oscillating plate 5 passes through nut 8 and installs on the outer wall of first bolt 7, first bolt 7 top is installed in upper cover plate 2 bottom both sides, lower apron 1 lateral wall mid-mounting has into black joint 20, circulation interface 21 is installed to the outer wall on lower apron 1 top right side, multiunit steel ball 10 is installed to disk seat 9 middle part cavity inboard equidistance, cavity outer wall connection has end cap 18, end cap 18 lateral wall butt is on moving core 17 inside wall, moving core 17 inner wall welding installs spring 19, moving core 17 outside wall installs at first guide head 16 inside wall, first guide head 16 and moving core 17 install again at coil 15 middle part, disk seat 9 bottom is installed through second lid 14 first tower 12, multiunit tower 2 is installed to be connected through second tower 13 equidistance.
When the coil 15 is not electrified, the movable iron core 17 is pressed by the plug 18 to the second communicating pipe orifice under the acting force of the spring 19, and the normally closed state is kept; a pressure difference is formed in the second communication pipeline of the valve seat 9, so that the stability of the fluid pressure in the valve seat 9 and the pipeline is maintained; when the fluid is required to circulate again, the fluid can flow out of the outlet in time, so that risks such as delay and interruption when the fluid flows out are prevented;
when the coil 15 is electrified, the movable iron core 17 moves under the action of electromagnetic force, wherein the opening on the movable iron core 17 can ensure liquid circulation and pressure relief, the communicating pipe orifice is opened, and the normally open state is kept.
As shown in fig. 2, liquid level sensors 11 are installed inside the two groups of glass tanks 4, and the fluid volume in the glass tanks 4 is automatically controlled by the liquid level sensors 11.
When the fluid volume level in the glass tank 4 does not float the floating ball of the liquid level sensor 11, the sensor in the liquid level sensor 11 is in a communication state, and a sensing signal is sent to keep the fluid continuously fed; the fluid discharged from the ink inlet joint 20 flows into the glass tank 4 from the circulation joint 21 through the lower cover plate 1;
when the floating ball of the liquid level sensor 11 floats due to the capacity of the fluid in the glass tank 4, the sensor in the liquid level sensor 11 is disconnected, and the sensing signal stops supplying the fluid; to prevent the risk of oversupply, spillage, etc.
As shown in fig. 2, the outer wall of the lower cover plate 1 is further provided with an ink inlet connector 20.
Can be used for fluid circulation, heating, heat preservation and cleaning.
As shown in fig. 2, the glass tank 4 is provided with an oscillation preventing plate 5.
When the machine is operated and the electromagnetic valve ink tank assembly is moved, the anti-shake plate 5 can prevent bubbles and unstable fluid pressure caused by fluid shaking.
As shown in fig. 2 and 3, the glass cans 4 are designed side by side.
The double-glass tank is designed, the installation is compact, the space is saved, and the transparent visual tank body is adopted, so that the state of fluid stock in the tank body can be observed very conveniently and intuitively, and meanwhile, the same or different fluids can be filled, the two tanks can be used separately and can also be used simultaneously.
As shown in fig. 2, the plug 18 is made of rubber.
The corrosion-resistant rubber plug 18 is designed, durable and good in sealing effect.
As shown in fig. 2, the movable iron core 17 is provided with a hole.
Is used for ensuring the circulation of liquid and pressure relief.
As shown in fig. 3, the opening of the glass tank 4 is sealed, and the outer wall of the glass tank 4 is matched with the shape of the star-shaped ring 6.
After the assembly and locking, the glass tank opening can be effectively sealed, and the star-shaped ring 6 is pressed to deform outwards, so that the side face can also have a good sealing effect.
The above embodiments are only for illustrating the technical solution of the present utility model, and are not limiting.

Claims (8)

1. Double glass jar solenoid valve ink jar assembly, including lower apron (1), upper cover plate (2) and glass jar (4), upper cover plate (2) are installed on glass jar (4) top, glass jar (4) bottom is installed on lower apron (1) top, its characterized in that: the upper cover plate (2) and the middle part of the lower cover plate (1) of the outer wall of the glass tank (4) are connected in a supporting way through a screw rod (3), the middle communicating port of the lower cover plate (1) is connected to the top end of the valve seat (9), a liquid level sensor (11) is installed in the middle of the inner side of the upper cover plate (2), an anti-oscillation plate (5) is installed at the middle upper end of the outer wall of the liquid level sensor (11), the top ends of the two sides of the anti-oscillation plate (5) are installed on the outer wall of a first bolt (7) through nuts (8), the top ends of the first bolt (7) are installed at the two sides of the bottom end of the upper cover plate (2), an ink inlet connector (20) is installed in the middle of the side wall of the lower cover plate (1), a circulating interface (21) is installed on the outer wall of the right side of the top end of the lower cover plate (1), a plurality of groups of steel balls (10) are installed at equal distance inside a middle cavity of the valve seat (9), a plug (18) is connected to the outer wall of the cavity, the outer side wall of the plug (18) is abutted to the inner side wall of a movable iron core (17), a spring (19) is installed on the inner wall of the movable iron core (17), the inner wall of the movable iron core (17) is installed in a welding way, the guide wall (17) is installed on the outer side of the movable iron core (16) and the inner side of the coil (16), the bottom of the valve seat (9) is provided with a plurality of groups of first pagoda joints (12) in a distributed mode through second bolts (14), and the middle part of the side wall of the upper cover plate (2) is provided with a second pagoda joint (13).
2. The double-glass-tank electromagnetic valve ink tank assembly according to claim 1, wherein liquid level sensors (11) are arranged on the inner sides of two groups of glass tanks (4), and the fluid volume in the glass tanks (4) is automatically controlled by the liquid level sensors (11).
3. The double-glass-tank electromagnetic valve ink tank assembly according to claim 1, wherein the outer side wall of the lower cover plate (1) is additionally provided with an ink inlet joint (20).
4. The dual glass tank solenoid valve ink tank assembly of claim 1 wherein the glass tank (4) houses an anti-slosh plate (5).
5. A double glass tank solenoid valve ink tank assembly according to claim 1, characterised in that the glass tanks (4) are designed side by side.
6. A dual glass tank solenoid valve ink tank assembly according to claim 1, wherein the plug (18) is provided as a rubber material.
7. The double-glass-tank electromagnetic valve ink tank assembly according to claim 1, wherein the movable iron core (17) is provided with a hole.
8. The dual glass tank solenoid valve ink tank assembly of claim 1 wherein the glass tank (4) tank port seal design, the glass tank (4) outer wall being used in cooperation with a star ring (6) shape.
CN202323429826.3U 2023-12-15 Double-glass-tank electromagnetic valve ink tank assembly Active CN221417751U (en)

Publications (1)

Publication Number Publication Date
CN221417751U true CN221417751U (en) 2024-07-26

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