CN218169335U - Valve core assembling device - Google Patents

Abstract

The utility model relates to a medical three-way valve equipment design field especially relates to a case assembly device. The valve core assembling device comprises a feeding assembly, a material bearing assembly, a material transferring assembly and a material moving assembly; the material bearing assembly and the material transferring assembly are sequentially arranged at the discharge end of the feeding assembly in an adjacent manner; the material moving component is arranged above the material bearing component and the material transferring component. The utility model relates to a case assembly device through the pay-off subassembly, hold the material subassembly, change the material subassembly and move the setting of material subassembly, degree of automation is high, the transport of case and the efficient of equipment, and then very big improvement the equipment production efficiency of medical three-way valve, be suitable for industrial application.

Description

Valve core assembling device

Technical Field

The utility model relates to a medical three-way valve equipment design field especially relates to a case assembly device.

Background

The medical three-way valve is usually used in combination with other medical instruments, is used for intravenous injection or transfusion and blood transfusion of patients, and has wide application in the medical field.

The valve core is used as one of the components of the medical three-way valve, and in the process of composing the medical three-way valve, the device for assembling and conveying the valve core has low working efficiency due to unreasonable arrangement, thereby greatly reducing the industrial production efficiency of the medical three-way valve.

Therefore, it is necessary to provide a technical solution to solve the above-mentioned drawbacks.

SUMMERY OF THE UTILITY MODEL

The utility model adopts the following technical scheme:

a valve core assembling device comprises a feeding component, a material bearing component, a material transferring component and a material moving component; the material bearing component and the material transferring component are sequentially arranged at the discharge end of the feeding component in an adjacent mode; the material moving component is arranged above the material bearing component and the material transferring component.

Preferably, the feeding assembly comprises a direct vibration feeder; the material transferring component is arranged on one side of the output end of the direct vibration feeder.

Preferably, the material bearing assembly comprises a material bearing plate and a rotating module for rotating the material bearing plate; and the material bearing plate is provided with a limit groove for placing the valve core.

Preferably, a vacuum suction hole used for being connected with an external vacuum generator is formed in one side part, away from the limiting groove, of the material bearing plate; the vacuum suction hole is communicated with the limiting groove.

Preferably, the material transferring assembly comprises a fixed seat, a moving plate, a butting block and a first driving module; the fixed seat is arranged on one side of the material bearing component far away from the feeding component; the fixed seat is provided with an accommodating hole for accommodating the valve core; one side of the containing hole is provided with a limiting sliding chute; the moving plate is arranged in the limiting sliding chute; the abutting block is arranged above the moving plate; the first driving module is arranged on one side of the limiting sliding groove, connected with the moving plate and used for driving the moving plate to move in the limiting sliding groove.

Preferably, the first driving module comprises a first cylinder and a transmission block; the first air cylinder is arranged on one side of the limiting sliding groove far away from the containing hole; an avoidance groove is arranged below the limiting sliding groove; the transmission block is arranged in the avoiding groove and connected with the first cylinder and the moving plate positioned in the limiting sliding groove.

Preferably, the material moving assembly comprises a material taking module for taking the valve core, a lifting module for driving the material taking module to lift, and a second driving module for driving the material taking module and the lifting module to horizontally move; the material taking module is arranged above the material bearing module and the material transferring module.

Preferably, the material taking module comprises a first vacuum suction head, a second vacuum suction head and a connecting plate; the first vacuum suction head is arranged above the material bearing assembly; the second vacuum suction head is arranged above the material transferring assembly; the connecting plate is arranged above the first vacuum suction head and the second vacuum suction head and is connected with the first vacuum suction head and the second vacuum suction head; the lifting module is arranged above the connecting plate and connected with the connecting plate.

Preferably, the lifting module comprises a second cylinder; the second cylinder is connected with the connecting plate.

Preferably, the second driving module comprises a third cylinder; the third cylinder is arranged on one side of the upper part of the second cylinder and is connected with the second cylinder.

The utility model relates to a case assembly device through the pay-off subassembly, hold the material subassembly, change the material subassembly and move the setting of material subassembly, degree of automation is high, the transport of case and the efficient of equipment, and then very big improvement the equipment production efficiency of medical three-way valve, be suitable for industrial application.

Drawings

Fig. 1 is an overall schematic view of one of the angles of the valve core assembling device of the present invention;

fig. 2 is an overall schematic view of one of the angles of the valve core assembling device of the present invention;

fig. 3 is a schematic structural view of a feeding assembly, a material bearing assembly and a material transferring assembly in the valve core assembly device of the present invention;

fig. 4 is an overall schematic view of a material-receiving plate in the valve core assembly device of the present invention;

fig. 5 is an overall schematic view of a fixing seat in the valve core assembly device of the present invention;

fig. 6 is an overall schematic view of a material moving assembly in the valve core assembly device of the present invention;

fig. 7 is an overall schematic view of the valve cartridge.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the accompanying drawings, and obviously, the described embodiments are some, but not all embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected" and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

As shown in fig. 1 and 7, the valve core assembling device includes a feeding assembly 10, a material bearing assembly 20, a material transferring assembly 30 and a material transferring assembly 40; the material bearing component 20 and the material transferring component 30 are sequentially arranged at the discharge end of the feeding component in an adjacent mode; the material moving component 40 is arranged above the material bearing component and the material transferring component.

Specifically, the feeding assembly 10 is used for input and output of the valve core a; the material bearing component 20 is used for bearing the valve core A output from the output end of the material feeding component 10; the material transferring assembly 30 is used for rotating the placing position of the valve core A so that the valve core A can be placed according to the preset placing position; the material transferring assembly 40 is used for transferring the valve core a from the material bearing assembly 20 to the material transferring assembly 30, and transferring the valve core a in the material transferring assembly 30 to an external positioning jig for installing the valve core a.

Specifically, during operation, the valve core a is loaded through the feeding assembly 10 and then enters the material bearing assembly 20 located on one side of the material output end of the feeding assembly 10, at this time, the material transferring assembly 40 transfers the valve core a located in the material bearing assembly 20 to the material transferring assembly 30, the material transferring assembly 30 then adjusts the placement position of the valve core a, and after the adjustment is completed, the material transferring assembly 40 moves the valve core a located in the material transferring assembly 30 to the external positioning jig.

The utility model relates to a case assembly device through pay-off subassembly 10, hold material subassembly 20, change material subassembly 30 and move the setting of material subassembly 40, degree of automation is high, and the transport of case A and the efficient of equipment, and then very big improvement the equipment production efficiency of medical three-way valve, be suitable for industrial application.

In one particular embodiment, the feed assembly 10 includes a direct vibratory feeder 101; the material transferring assembly 30 is arranged at one side of the output end of the direct vibration feeder 101.

Through the arrangement of the direct vibration feeder 101, the equipment structure is optimized, the equipment assembly difficulty is reduced, and meanwhile, the conveying efficiency of the valve core A is improved.

In a specific embodiment, the material holding assembly 20 includes a material holding plate 201 and a rotating module 202 for rotating the material holding plate 201; the retainer plate 201 is provided with a limit groove 203 for placing the valve core A.

When the feeding assembly 10 is in operation, the limiting groove 203 on the material bearing plate 201 faces one side of the valve core a output by the feeding assembly 10, so that the valve core a enters the limiting groove 203 from the output end of the feeding assembly 10, when the valve core a at the foremost end of the feeding assembly 10 enters the limiting groove 203 of the material bearing plate 201, the rotating module 202 drives the material bearing plate 201 to rotate, so that the limiting groove 203 on the material bearing plate 201 rotates to one side facing the material moving assembly 40, in addition, it should be noted that after the material bearing plate 201 rotates in the rotating module 202, the side part of the material bearing plate 201 blocks the discharge port of the feeding assembly 10, and the subsequent valve core a is placed to fall from the output end of the feeding assembly 10; when the limiting groove 203 and the valve core a are driven by the rotating module 202 to rotate to one side facing the material moving assembly 40, the material moving assembly 40 works to move the valve core a located in the limiting groove 203 to the material transferring assembly 30, the material transferring assembly 30 adjusts the placing position of the valve core a, and after the adjustment is completed, the material moving assembly 40 moves the valve core a located in the material transferring assembly 30 to an external positioning jig.

In a specific embodiment, a side portion of the material bearing plate 201 away from the limiting groove 203 is provided with a vacuum suction hole 204 for connecting with an external vacuum generator; the vacuum suction hole 204 communicates with the stopper groove 203.

Through the arrangement of the vacuum suction holes 204, the valve core A positioned in the limiting groove 203 can be firmly placed in the limiting groove 203, and the valve core A is prevented from falling out of the limiting groove 203 in the rotating process of the material bearing plate 201.

In one embodiment, the rotating module 202 includes a rotating device 205, and the rotating device 205 may be a motor, and the material supporting plate 201 is driven to rotate by the motor.

In a specific embodiment, the transferring assembly 30 includes a fixed base 301, a moving plate 302, an abutting block 303 and a first driving module; the fixed seat 301 is arranged on one side of the material bearing component 20 far away from the feeding component 10; the fixed seat 301 is provided with a containing hole 304 for placing the valve core A; a limiting sliding groove 305 is arranged on one side of the accommodating hole 304; the moving plate 302 is arranged in the limiting sliding groove 305; the abutting block 303 is arranged above the moving plate 302; the first driving module is disposed at one side of the limit sliding slot 305, and connected to the moving plate 302 for driving the moving plate 302 to move in the limit sliding slot 305.

Specifically, during operation, the material moving assembly 40 moves the valve core a in the material bearing assembly 20 into the accommodating hole 304, at this time, the valve tube B of the valve core a is located in the accommodating hole 304, one rotor C above the valve tube B is erected above the moving plate 302, and then the first driving module operates to drive the moving plate 302 to move in the limiting chute 305, and further drive the abutting block 303 above the moving plate 302 to move, and the abutting block 303 abuts against the rotor C in the moving process and drives the rotating movement, so that the valve core a is rotated to the preset placing position; after the valve core a is rotated, the material moving assembly 40 moves the valve core a to an external positioning fixture.

In one specific embodiment, the first driving module comprises a first cylinder 306 and a transmission block 307; the first cylinder 306 is arranged on one side of the limit chute 305 far away from the containing hole 304; an avoidance groove 308 is arranged below the limiting sliding groove 305; the driving block 307 is disposed in the avoiding groove 308 and connected to the first cylinder 306 and the moving plate 302 in the limiting sliding groove 305.

In operation, the first cylinder 306 drives the moving plate 302 to move in the limiting sliding groove 305 through the transmission block 307, so as to drive the abutting block 303 to move.

In one embodiment, the material moving assembly 40 includes a material taking module 401 for taking a valve core a, a lifting module 402 for driving the material taking module 401 to lift, and a second driving module 403 for driving the material taking module 401 and the lifting module 402 to move horizontally; the material taking module 401 is arranged above the material bearing module and the material transferring module.

When the automatic feeding device works, when a valve core A is conveyed into the material bearing assembly 20 through the feeding assembly 10, the material taking module 401 is driven by the lifting module 402 to move downwards and take the valve core A in the material bearing module, then the second driving module 403 works to move the material taking module 401 to the position above the material transferring module, at the moment, the material taking module 401 and the lifting module 402 work again, then the valve core A is placed in the material transferring assembly 30, after the material transferring assembly 30 works, the material taking module 401 takes out the valve core A under the cooperation of the lifting module 402 and moves the valve core A to the position above an external positioning jig under the driving of the second driving module 403, and the material taking module 401 places the valve core A in the positioning jig again under the cooperation of the lifting module 402; at this point the co-completion process ends.

In one embodiment, the pick-up module 401 includes a first vacuum head 404, a second vacuum head 405, and an adapter plate 406; a first vacuum head 404 is disposed above the loading assembly 20; the second vacuum suction head 405 is arranged above the transferring assembly 30; a connection plate 406 is provided above the first vacuum nozzle 404 and the second vacuum nozzle 405, and is connected to the first vacuum nozzle 404 and the second vacuum nozzle 405; the lifting module 402 is disposed above the connection plate 406 and connected to the connection plate 406.

In operation, under the cooperation of the lifting module 402 and the second driving module 403, the first vacuum head 404 is used to take out the valve core a located in the material-holding assembly 20 and transfer it to the material-transferring assembly 30; the second vacuum suction head 405 is used to take out the valve core a located in the material transferring assembly 30, and then transfer it to an external positioning fixture. Through the arrangement of the connecting plate 406, the first vacuum suction head 404 and the second vacuum suction head 405 are ensured to be driven by the lifting module 402 to lift synchronously and to move horizontally synchronously, so that the valve core A in the material bearing assembly 20 is taken out and transferred to the material transferring assembly 30, the valve core A in the material transferring assembly 30 is taken out and transferred to an external positioning jig synchronously, the assembly efficiency of the valve core A is improved, and the industrial production efficiency of the medical three-way valve is improved.

In one embodiment, the lift module 402 includes a second cylinder 407; the second cylinder 407 is connected to the connection plate 406. During operation, drive connecting plate 406 oscilaltion through second cylinder 407, through the setting of second cylinder 407, optimized the structure, the device of being convenient for assembly moulding.

In one particular embodiment, the second drive module 403 includes a third cylinder 408; the third cylinder 408 is provided at one side of the upper portion of the second cylinder 407 and connected to the second cylinder 407. During operation, drive second cylinder 407 and get material module 401 horizontal migration through third cylinder 408, optimized the structure, the device of being convenient for is assembled the shaping.

The utility model relates to a case assembly device through pay-off subassembly 10, hold material subassembly 20, change material subassembly 30 and move the setting of material subassembly 40, degree of automation is high, and the transport of case A and the efficient of equipment, and then very big improvement the equipment production efficiency of medical three-way valve, be suitable for industrial application.

The above examples only represent some embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. A valve core assembling device is characterized in that: the valve core assembling device comprises a feeding assembly, a material bearing assembly, a material transferring assembly and a material moving assembly; the material bearing component and the material transferring component are sequentially arranged at the discharge end of the feeding component in an adjacent mode; the material moving assembly is arranged above the material bearing assembly and the material transferring assembly.

2. The valve cartridge assembly device of claim 1, wherein: the feeding assembly comprises a direct vibration feeder; the material transferring component is arranged on one side of the output end of the direct vibration feeder.

3. The valve cartridge assembly device of claim 1, wherein: the material bearing assembly comprises a material bearing plate and a rotating module for rotating the material bearing plate; and the material bearing plate is provided with a limit groove for placing the valve core.

4. The valve cartridge assembly device of claim 3, wherein: a vacuum suction hole used for being connected with an external vacuum generator is formed in one side part, far away from the limiting groove, of the material bearing plate; the vacuum suction hole is communicated with the limit groove.

5. The valve cartridge assembly device of claim 1, wherein: the material transferring component comprises a fixed seat, a movable plate, an abutting block and a first driving module; the fixed seat is arranged on one side of the material bearing component far away from the feeding component; the fixed seat is provided with a containing hole for placing the valve core; one side of the accommodating hole is provided with a limiting sliding chute; the moving plate is arranged in the limiting sliding groove; the abutting block is arranged above the moving plate; the first driving module is arranged on one side of the limiting sliding groove, connected with the moving plate and used for driving the moving plate to move in the limiting sliding groove.

6. The valve cartridge assembly device of claim 5, wherein: the first driving module comprises a first air cylinder and a transmission block; the first air cylinder is arranged on one side of the limiting sliding groove far away from the containing hole; an avoidance groove is arranged below the limiting sliding groove; the transmission block is arranged in the avoiding groove and connected with the first cylinder and the moving plate positioned in the limiting sliding groove.

7. The valve cartridge assembly device of claim 1, wherein: the material moving assembly comprises a material taking module for taking the valve core, a lifting module for driving the material taking module to lift and a second driving module for driving the material taking module and the lifting module to horizontally move; the material taking module is arranged above the material bearing module and the material transferring module.

8. The valve cartridge assembly device of claim 7, wherein: the material taking module comprises a first vacuum suction head, a second vacuum suction head and a connecting plate; the first vacuum suction head is arranged above the material bearing assembly; the second vacuum suction head is arranged above the material transferring assembly; the connecting plate is arranged above the first vacuum suction head and the second vacuum suction head and is connected with the first vacuum suction head and the second vacuum suction head; the lifting module is arranged above the connecting plate and connected with the connecting plate.

9. The valve cartridge assembly device of claim 8, wherein: the lifting module comprises a second cylinder; the second cylinder is connected with the connecting plate.

10. The valve cartridge assembly device of claim 9, wherein: the second driving module comprises a third air cylinder; the third cylinder is arranged on one side of the upper part of the second cylinder and is connected with the second cylinder.

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