CN218313268U - Printer Y type connects intubate tool - Google Patents

Abstract

The invention belongs to the field of printer assembly, and discloses a Y-shaped connector pipe inserting jig for a printer, which comprises a support plate, a chuck and a slide block follow-up unit, wherein: the carrier plate is coaxially connected with the chuck and can rotate relatively; a Y-shaped joint positioning device is arranged on the carrier plate, and each socket of the Y-shaped joint is correspondingly provided with a slide block follow-up unit capable of linearly displacing; a driving device for driving the slide block follow-up unit to make linear displacement is arranged on the chuck; the slide block follow-up unit can approach or be far away from the Y-shaped joint under the action of the driving device when the chuck rotates relative to the carrier plate. The invention realizes the action of butting and inserting the rubber tube and the Y-shaped joint, and overcomes the industrial current situations of low manual tube inserting efficiency and improper assembly, thereby achieving the purposes of saving labor cost, improving working efficiency and reducing labor intensity.

Description

Y-shaped joint pipe inserting jig for printer

Technical Field

The invention relates to the field of printer rubber tube assembly, in particular to a jig for connecting a Y-shaped connector of a printer with a rubber tube.

Background

At present, the reason that printer Y type connects that assembly efficiency is low is because the rubber tube is connected with the printer, exists inside the printer, and large-scale tool can't be put into to lead to generally for manual assembly, nevertheless because of the rubber tube is softer during the assembly, difficult stereotyping, so cause the rubber tube after the assembly not in place, insert length not deep enough, the rubber tube is not high with the joint degree of cooperation, promote the phenomenon that the assembly quality is not too much, research and development intubate tool is used for solving this problem very much.

Disclosure of Invention

The invention aims to provide a Y-shaped connector pipe inserting jig for a printer, which can assemble three rubber pipes in the printer at the same time, is simple to operate, can assemble the rubber pipes in a narrow space, reduces the labor intensity of workers when ensuring the assembly quality and efficiency, and saves the cost.

In order to solve the technical problem, the invention provides a Y-shaped joint pipe inserting jig for a printer, which comprises a support plate, a chuck and a slide block follow-up unit, wherein: the carrier plate is coaxially connected with the chuck, the chuck is positioned below the carrier plate, and the chuck can relatively rotate relative to the carrier plate; a Y-shaped joint positioning device is arranged on the carrier plate, and each socket of the Y-shaped joint is correspondingly provided with a slide block follow-up unit capable of linearly displacing; a driving device for driving the slide block follow-up unit to make linear displacement is arranged on the chuck; the slide block follow-up unit can approach or depart from the Y-shaped joint under the action of the driving device when the chuck rotates relative to the carrier plate.

Preferably, the Y-joint positioning device comprises a Y-joint positioning slot arranged on the carrier plate and a Y-joint pressing buckle clamped on the Y-joint positioning slot.

Preferably, a fixing seat and a fastening position are respectively arranged on the carrier plate on two opposite sides of the Y-shaped joint positioning groove; the Y-shaped joint pressing buckle is rotatably arranged on the fixed seat, and can be buckled on the buckling position when being pressed on the Y-shaped joint positioning groove.

Preferably, the Y-shaped joint pressing buckle comprises a pressing block and a fastening block, and a Y-shaped joint limiting groove corresponding to the Y-shaped joint positioning groove is formed below the pressing block; the pressing block is rotatably arranged on the fixed seat, and the fastening block is rotatably arranged on one side of the pressing block through a spring; when the compressing block is compressed on the Y-shaped joint positioning groove, the fastening block can be fastened on the fastening position.

Preferably, the sliding block follow-up unit comprises a rubber tube mounting block, a rubber tube pressing buckle, a fixing buckle, a carrier plate sliding block and a chuck guide shaft; the rubber tube pressing buckle and the fixing buckle are respectively and rotatably arranged at two sides of the rubber tube mounting block, the carrier plate sliding block is fixedly arranged below the rubber tube mounting block, and the chuck guide shaft is rotatably arranged below the carrier plate sliding block; the rubber tube pressing buckle and the rubber tube mounting block are used for pressing the rubber tube, and the fixing buckle is used for pressing the rubber tube pressing buckle on the rubber tube mounting block; the driving device drives the chuck guide shaft to drive the carrier plate sliding block to linearly displace along the carrier plate so as to be close to or far away from the Y-shaped joint positioning device.

Preferably, a rubber tube installation limiting groove is formed in the rubber tube installation block, and a pressing rubber tube limiting groove is formed in the position, corresponding to the rubber tube installation limiting groove, of the rubber tube pressing buckle.

Preferably, linear sliding grooves are respectively formed in the positions, corresponding to the three insertion holes of the Y-shaped joint, on the carrier plate; the driving device is an arc-shaped guide hole formed in the chuck; the carrier plate sliding block slides and is arranged in the sliding groove, and the chuck guide shaft is rotatably arranged in the arc-shaped guide hole.

Preferably, a handle for rotation is attached to each of the carrier plate and the chuck.

Preferably, a limit notch is arranged on the carrier plate, and a convex handle mounting block is arranged below one side of the limit notch; a limiting support notch is formed in the position, corresponding to the handle mounting block, of the chuck, and a protruding handle mounting block is arranged on one side of the limiting support notch; the handle mounting block of the chuck is positioned in the limiting notch of the carrier plate, and the handle mounting block of the carrier plate is positioned on the limiting support notch of the chuck; handles are respectively arranged on the handle mounting blocks.

The Y-shaped joint pipe inserting jig for the printer is small in size, light in weight, convenient to carry and store, free of manpower consumption for maintaining and watching, simple in operation steps, capable of reducing equipment cost, guaranteeing production efficiency and product quality, and capable of controlling labor intensity and labor cost of workers.

Drawings

Fig. 1 is a schematic structural view of an intubation instrument.

Fig. 2 is a schematic diagram of a carrier structure, wherein ABC is a schematic diagram of a carrier structure with different viewing angles.

FIG. 3 is a schematic view of a Y-shaped connector clamp, wherein the structure of the Y-shaped connector clamp is shown in the drawing A and the drawing B respectively with different viewing angles

FIG. 4 is a schematic diagram of a chuck structure, wherein, the schematic diagrams of the chuck structure in different viewing angles are shown in A and B.

Fig. 5 is a schematic diagram of the structure of the slider follow-up unit.

Fig. 6 is a schematic view of the assembled structure of the carrier plate and the chuck with a slide moving unit mounted thereon.

Fig. 7 is a schematic view of the structure of fig. 6 from another angle.

Detailed Description

To the above technical solution, referring to fig. 1, a Y-joint pipe inserting jig for a printer includes a carrier plate 1, a chuck 2, a slider follow-up unit 3, and a Y-joint positioning device 4, referring to fig. 1, in which:

the carrier plate 1 is a jig main body, and referring to fig. 2, 4 and 6, is mounted on the chuck 2, and the carrier plate 1 and the chuck 2 are fixedly connected at their central portions by a rotating shaft 10. A handle mounting block 12 protruding the lower surface of the carrier plate 1 is arranged at the edge of the lower surface of the carrier plate 1, and a limit notch 14 is arranged at the edge of the carrier plate at one side of the handle mounting block 12. A limiting support gap 22 is arranged at the edge of the upper surface of the chuck 2, and a handle mounting block 23 which protrudes out of the surface of the chuck 2 is arranged at one side of the limiting support gap 22; when the carrier plate 1 is mounted on the chuck 2, the handle mounting block 12 of the carrier plate 1 is located in the limit support notch 22 of the chuck 2, and the handle mounting block 23 of the chuck 2 is located in the limit notch 14 of the carrier plate 1. A handle 11 is mounted in a handle mounting block 12 of the carrier plate 1 and a handle 21 is mounted in a handle mounting block 23 of the chuck. The carrier plate 1 and the chuck 2 can be rotated relatively towards or away from each other by turning the handle, the areas of rotation being defined in the limit support notch 22 and the limit notch 14 of the chuck 2.

The Y-joint positioning device 4, referring to fig. 1 and 2, includes a Y-joint positioning slot 41 formed in the center of the upper surface of the carrier plate 1, and a Y-joint pressing buckle 42 and a buckle buckling position 43 respectively located on two opposite sides of the Y-joint positioning slot 41. The shape of the Y-shaped joint positioning groove 41 satisfies: when the Y-shaped joint A is placed on the Y-shaped joint positioning groove 12, three insertion openings of the Y-shaped joint respectively extend out of the outer side of the Y-shaped joint positioning groove 12.

A fixing seat 44 is arranged on the carrier plate 1 at one side of the Y-shaped joint positioning slot 41, and the Y-shaped joint pressing buckle 42 is rotatably mounted on the fixing seat 44 through a mounting shaft penetrating through the fixing seat 44.

The Y-shaped joint pressing buckle 42, see fig. 3, includes a pressing block 421 and a fastening block 422, and a Y-shaped joint limiting groove 4211 corresponding to the Y-shaped joint positioning groove 41 is provided below the pressing block 421. The pressing block 421 is provided with an installation notch for accommodating the fixing seat 44, and when the pressing block is installed, the installation shaft 4212 passes through the installation notch of the pressing block 421 and the fixing seat 44, so that the pressing block 421 is rotatably installed on the fixing seat 44. The fastening block 422 is arranged on the other side of the pressing block 421 through a spring, and a fastening structure corresponding to the fastening position 43 is arranged on the fastening block 422.

After Y type connects compresses tightly buckle 42 and installs at the fixing base, connects A with the Y type and places on Y type connects constant head tank 41, then rotates Y type and connects and compress tightly buckle 42 and make it press on Y type connects constant head tank 41, then rotates the block 422 that buckles and make its straining on buckle straining position 43, realizes that the Y type connects the location.

Referring to fig. 2, three linear sliding grooves 13 are respectively formed at three insertion openings of the Y-shaped connectors on the carrier plate 1 corresponding to the Y-shaped connector positioning grooves 41, and a limiting step is arranged below the sliding grooves 13.

Referring to fig. 4, arc-shaped guide holes 24 are respectively formed at positions of the chuck 2 corresponding to the linear slide grooves 13.

The slide block following unit 3, referring to fig. 1, 5, 6 and 7, includes a rubber tube mounting block 31, a rubber tube pressing buckle 32, a fixing buckle 33, a carrier plate slide block 34 and a chuck guide shaft 35. A rubber tube mounting limiting groove 311 is formed on the rubber tube mounting block 31 and used for placing the rubber tube B. A carrier plate sliding block 34 is integrally formed below the rubber tube mounting block 31, and a limiting step is arranged on the carrier plate sliding block 34 and is used for matching with the limiting step on the sliding groove 13 on the carrier plate. A rotatable chuck guide shaft 35 is provided below the carrier plate slide block 34. The rubber tube pressing buckle 32 is rotatably arranged on one side of the rubber tube mounting block 31, and a pressing rubber tube limiting groove 321 is formed in the position, corresponding to the rubber tube mounting limiting groove 311, of the rubber tube pressing buckle 32. A fixed buckle 33 is rotatably arranged on the other side of the upper surface of the carrier plate sliding block 34. After the rubber tube is placed on the rubber tube installation limiting groove 311, the rubber tube pressing buckle 32 is rotated to be pressed on the rubber tube installation block 31, the rubber tube pressing limiting groove 321 on the rubber tube pressing buckle 32 is pressed on the rubber tube, and then the fixing buckle 34 is rotated to be pressed on the rubber tube pressing buckle 32 to achieve rubber tube fixing. The carrier plate slide blocks 34 are arranged in the slide grooves 13 of the carrier plate 1 in a penetrating manner, and the chuck guide shafts 35 are arranged in the arc-shaped guide holes 24 of the chuck 2. The arc-shaped guide hole 24 is used as a driving device for driving the slide block follow-up unit 3, and when the carrier plate and the chuck are rotated, the slide block follow-up unit 3 linearly displaces along the sliding groove 13 under the driving action of the arc-shaped guide hole 24.

The working process of the invention is as follows:

1) Placing the Y-shaped joint on a Y-shaped joint positioning groove 41 on the carrier plate 1, rotating the Y-shaped joint pressing buckle 42 to press the Y-shaped joint A, and buckling the Y-shaped joint pressing buckle 42 on a buckling position 43;

2) Rubber tubes B are respectively placed in rubber tube installation limiting grooves 311 of rubber tube installation blocks 31 of the three sliding block follow-up units 3, a rubber tube pressing buckle 32 is rotated to press the rubber tubes, and then a fixing buckle 33 is rotated to press the rubber tubes to press the buckle 32. When the rubber tube B is placed, the placing position of one end, close to the Y-shaped joint, of the rubber tube B meets the requirement that the rubber tube B can be inserted into a corresponding inserting opening of the Y-shaped joint after the sliding block follow-up unit linearly displaces towards the Y-shaped joint to a proper position.

3) The handle on the drive support plate and the handle on the chuck are closed and combined to drive the chuck to rotate relative to the support plate, and in the process, each sliding block follow-up unit moves towards the center along the sliding groove 13 under the action of the arc-shaped guide hole, and the sliding block follow-up unit drives the rubber tube B to be inserted into the Y-shaped joint.

4) And (3) respectively opening the Y-shaped joint positioning device 4 and the slide block follow-up unit 3, and taking out the Y-shaped joint and the rubber tube to finish a complete intubation action. Then the two handles are driven to separate to the initial position, and the intubation operation is repeated.

The pipe inserting jig disclosed by the invention does not need manual pipe inserting, only needs to place the Y-shaped joint and the rubber pipe on the jig for fixing, and can finish pipe inserting operation of the Y-shaped joint in three directions at one time. The operation difficulty is reduced, the operation efficiency is improved, the pipe inserting quality is improved, and the consistency of the pipe inserting quality is ensured.

Claims (9)

1. The utility model provides a Y type of printer connects intubate tool which characterized in that, includes support plate, chuck, slider follow-up unit, wherein:

the carrier plate is coaxially connected with the chuck, the chuck is positioned below the carrier plate, and the chuck can rotate relative to the carrier plate;

a Y-shaped joint positioning device is arranged on the carrier plate, and each socket of the Y-shaped joint is correspondingly provided with a slide block follow-up unit capable of linearly displacing;

a driving device for driving the sliding block follow-up unit to linearly displace is arranged on the chuck;

the slide block follow-up unit can approach or depart from the Y-shaped joint under the action of the driving device when the chuck rotates relative to the carrier plate.

2. The Y-joint intubation fixture of claim 1, wherein the Y-joint positioning device includes a Y-joint positioning slot disposed on the carrier and a Y-joint compression buckle disposed on the Y-joint positioning slot.

3. The Y-shaped joint intubation fixture for printers according to claim 2, wherein a fixing seat and a fastening position are respectively disposed on the carrier at two opposite sides of the Y-shaped joint positioning slot; the Y-shaped joint pressing buckle is rotatably arranged on the fixed seat, and can be buckled on the buckling position when being pressed on the Y-shaped joint positioning groove.

4. The Y-shaped joint pipe inserting jig for the printer according to claim 3, wherein the Y-shaped joint pressing buckle comprises a pressing block and a buckling block, and a Y-shaped joint limiting groove corresponding to the Y-shaped joint positioning groove is formed in the lower surface of the pressing block; the pressing block is rotatably arranged on the fixed seat, and the fastening block is rotatably arranged on one side of the pressing block through a spring; when the compressing block is compressed on the Y-shaped joint positioning groove, the fastening block can be fastened on the fastening position.

5. The Y-shaped connector pipe inserting jig for the printer as claimed in claim 1, wherein the slider follow-up unit comprises a rubber pipe mounting block, a rubber pipe pressing buckle, a fixing buckle, a carrier plate sliding block and a chuck guide shaft;

the rubber tube pressing buckle and the fixing buckle are respectively and rotatably arranged at two sides of the rubber tube mounting block, the carrier plate sliding block is fixedly arranged below the rubber tube mounting block, and the chuck guide shaft is rotatably arranged below the carrier plate sliding block; the rubber tube pressing buckle and the rubber tube mounting block are used for pressing the rubber tube, and the fixing buckle is used for pressing the rubber tube pressing buckle on the rubber tube mounting block; the driving device drives the chuck guide shaft to drive the carrier plate sliding block to linearly displace along the carrier plate so as to be close to or far away from the Y-shaped joint positioning device.

6. The Y-shaped joint pipe inserting jig for the printer according to claim 5, wherein a rubber pipe installation limiting groove is formed in the rubber pipe installation block, and a pressing rubber pipe limiting groove is formed in the rubber pipe pressing buckle at a position corresponding to the rubber pipe installation limiting groove.

7. The Y-shaped joint pipe inserting jig for the printer according to claim 5, wherein linear sliding grooves are respectively formed in the positions, corresponding to the three inserting holes of the Y-shaped joint, on the carrier plate; the driving device is an arc-shaped guide hole formed in the chuck; the carrier plate sliding block slide set up in the spout, the chuck guiding axle rotationally set up with in the arc guiding hole.

8. The Y-shaped joint intubation jig for printers according to claim 1, wherein a handle for rotation is attached to each of the side surfaces of the carrier and the chuck.

9. The Y-shaped joint intubation fixture for printers according to claim 8, wherein a limiting notch is provided on said carrier plate, and a protruded handle mounting block is provided under one side of said limiting notch; a limiting support notch is formed in the position, corresponding to the handle mounting block, of the chuck, and a protruding handle mounting block is arranged on one side of the limiting support notch; the handle mounting block of the chuck is positioned in the limiting notch of the carrier plate, and the handle mounting block of the carrier plate is positioned on the limiting support notch of the chuck; handles are respectively arranged on the handle mounting blocks.

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