CN218893789U - Ring rail mounting structure for spun yarn forming control - Google Patents

Abstract

The utility model provides a ring plate mounting structure for spun yarn forming control, which comprises a numerical control lifter, wherein a first storage box is arranged on the upper side of the numerical control lifter, double-layer spring sleeve rods are arranged on two inner sides of the first storage box, U-shaped sleeve plates are arranged on the outer sides of the double-layer spring sleeve rods, and an overhanging inserting cylinder can synchronously move outwards under the rotation driving effect of a gear turntable and be inserted into the reserved round opening. According to the ring plate mounting structure for controlling the spinning frame, the reverse threaded rotating rods at two sides can be driven to rotate through the gear turntable embedded in the U-shaped frame, the overhanging inserting cylinders at two sides are synchronously driven to move back and forth on the inner wall of the reserved circular opening, the ring plate can be controlled to be mounted, the mounting is convenient and rapid, meanwhile, the bolt fixing is not needed, and the problems that bolts are needed to be mounted at two sides, the dismounting process is still troublesome and the bolts are lost in the existing spinning frame forming control device are effectively solved.

Description

Ring rail mounting structure for spun yarn forming control

Technical Field

The utility model relates to the technical field of ring plates, in particular to a ring plate mounting structure for spun yarn forming control.

Background

The spinning machine is used for twisting a plurality of animal and plant fibers together to spin threads or yarns, the threads or yarns can be used for weaving cloth, the earliest spinning machine has very simple structure and is used in the beginning of the 14 th century, after the 18 th century, better spinning machines are invented, namely the spinning machine makes the textile industry become the first industry, all spinning machines only do two things, a large amount of short fibers are polymerized into loose cotton threads firstly, then the cotton threads are drawn out a little by little, the cotton threads are twisted into fine cotton threads, and the cotton threads are twisted.

In the working process of the textile machine, the steel collar plates are required to be adjusted according to the thickness of different yarns, the main specifications of the steel collar plates are provided with spinning frame series FA503, FA507, FA502, FA506 and the like, one-time stamping is completed, the hole pitch size, the inner gear size and the flatness are guaranteed, high-quality plates are adopted, the lengths are machined in place by adopting a special machine tool, the size precision is guaranteed, and the installation is convenient.

In the prior art, there is a spun yarn shaping controlling means as in application publication number CN216514329U, it includes base and support frame, because joint groove and ring plate looks adaptation, with the ring plate card to the joint inslot portion when the installation, and under the mutually supporting of fastener and preformed hole, make between joint groove and the ring plate fix can, consequently be convenient for the ring plate change, but its installation dismantlement need be in both sides mounting bolt, the dismantlement process is still comparatively troublesome, and there is the condition emergence of bolt loss, consequently, it is necessary to provide a ring plate mounting structure for spun yarn shaping control and solve above-mentioned technical problem.

Disclosure of Invention

The utility model provides a ring plate mounting structure for spun yarn forming control, which solves the problems that bolts are required to be mounted on two sides of the existing spun yarn forming control device for mounting and dismounting, the dismounting process is still troublesome, and the bolts are lost.

In order to solve the technical problems, the utility model provides a ring plate mounting structure for controlling spun yarn forming, comprising: a numerical control elevator;

the device comprises a numerical control lifter, a first storage box, a double-layer spring sleeve rod, a U-shaped sleeve plate and a U-shaped sleeve plate, wherein the first storage box is arranged on the upper side of the numerical control lifter, the double-layer spring sleeve rod is arranged on two sides of the inner portion of the first storage box, the U-shaped sleeve plate is arranged on the outer side of the double-layer spring sleeve rod, inserting grooves are formed in two sides of the surface of the U-shaped sleeve plate, and reserved round openings penetrating through the whole are formed in the surfaces of two ends of the U-shaped sleeve plate;

the embedded U-shaped frame, the embedded U-shaped frame install in the intermediate position department of U type sleeve board, the inside movable mounting of embedded U-shaped frame has the gear carousel, the both sides surface of U-shaped frame passes through the opposite screw thread bull stick is all installed to the gear carousel, the outside of screw thread bull stick is provided with overhanging cartridge, overhanging cartridge is in the rotation drive effect of gear carousel can be synchronous outside removal and insert reserve the inside of circle mouth.

The numerical control lifter is an existing automatic lifting device.

Preferably, the upper side of the U-shaped sleeve plate is inserted and installed with a main ring plate through the slot opening, and positioning sockets corresponding to the reserved round openings are arranged on two sides of the surface of the main ring plate.

Preferably, the sleeve is installed on the outer side surface of the embedded U-shaped frame, and the sleeve cover is installed on the upper side and the lower side of the inner wall of the sleeve.

Preferably, limiting plates are mounted on the outer side surfaces of the threaded rotating rods, nut sleeve plates are mounted on the inner wall of the sleeve cover through the threaded rotating rods, the overhanging plug tubes are connected to the outer side surfaces of the nut sleeve plates, and the limiting plates are used for preventing the overhanging plug tubes from being separated.

Preferably, the telescopic rod is installed at the upper side output end of the numerical control lifter, the tray sleeve plate is connected to the upper surface of the telescopic rod, and the first storage box is installed on the upper surface of the tray sleeve plate.

The telescopic rod is an existing automatic lifting device of the numerical control lifter.

Preferably, a plurality of second storage boxes are sequentially installed on the upper surface of the first storage box from bottom to top, the structures of the second storage boxes are identical to those of the first storage boxes, and auxiliary ring plates with different opening sizes of the main ring plates are installed inside the second storage boxes.

Compared with the related art, the ring plate mounting structure for controlling the spinning forming has the following beneficial effects:

the utility model provides a ring plate mounting structure for spun yarn forming control, which can drive screw thread rotating rods with opposite sides to rotate through a gear turntable embedded in a U-shaped frame, synchronously drive overhanging plug cylinders on two sides to move back and forth on the inner wall of a reserved circular opening, and can control the mounting of a ring plate.

Drawings

Fig. 1 is a schematic view of a first embodiment of a ring plate mounting structure for controlling spun yarn formation according to the present utility model;

fig. 2 is a schematic structural view of a first storage box of a ring rail mounting structure for controlling spun yarn formation according to the present utility model;

fig. 3 is a schematic view showing a structure of a main ring plate of a ring plate mounting structure for controlling spun yarn formation according to the present utility model;

fig. 4 is a schematic structural view showing the sleeve splitting effect of the ring plate mounting structure for controlling the spinning forming;

fig. 5 is a schematic structural view of a second embodiment of a ring plate mounting structure for controlling spun yarn formation according to the present utility model.

Reference numerals in the drawings: 1. the numerical control elevator, 2, the telescopic link, 3, the tray sleeve board, 4, first receiver, 5, the second receiver, 6, auxiliary ring board, 7, double-deck spring sleeve bar, 8, U sleeve board, 9, slot mouth, 10, reserved circle mouth, 11, embedded U type frame, 12, gear carousel, 13, sleeve, 14, screw thread bull stick, 15, limiting plate, 16, the cover, 17, nut sleeve board, 18, overhanging cartridge, 19, main ring board, 20, location socket, 21, model transparent insert frame.

Detailed Description

The utility model will be further described with reference to the drawings and embodiments.

First embodiment

Referring to fig. 1, fig. 2, fig. 3, and fig. 4 in combination, fig. 1 is a schematic structural view of a first embodiment of a ring plate mounting structure for controlling spinning forming according to the present utility model; fig. 2 is a schematic structural view of a first storage box of a ring rail mounting structure for controlling spun yarn formation according to the present utility model; fig. 3 is a schematic view showing a structure of a main ring plate of a ring plate mounting structure for controlling spun yarn formation according to the present utility model; fig. 4 is a schematic structural view showing the sleeve splitting effect of the ring plate mounting structure for controlling the spinning forming according to the present utility model. A ring plate mounting structure for controlling spun yarn formation includes: a numerical control elevator 1;

the first storage box 4 is arranged on the upper side of the numerical control lifter 1, double-layer spring sleeve rods 7 are arranged on two sides of the inner portion of the first storage box 4, U-shaped sleeve plates 8,U are arranged on the outer sides of the double-layer spring sleeve rods 7, inserting grooves 9,U are arranged on two sides of the surface of each sleeve plate 8, and reserved round openings 10 penetrating through the whole are formed in the surfaces of two ends of each sleeve plate 8;

the embedded U-shaped frame 11, the embedded U-shaped frame 11 is installed in the intermediate position department of U-shaped sleeve plate 8, the inside movable mounting of embedded U-shaped frame 11 has gear carousel 12, and opposite screw thread bull stick 14 is all installed through gear carousel 12 to the both sides surface of U-shaped frame 11, and the outside of screw thread bull stick 14 is provided with overhanging cartridge 18, and overhanging cartridge 18 can move outwards and insert the inside of reserving round mouth 10 in step under the rotation drive effect of gear carousel 12.

The numerical control lifter 1 is an existing automatic lifting device.

The upper side of the U-shaped sleeve plate 8 is inserted and provided with a main ring plate 19 through the inserting slot opening 9, and two sides of the surface of the main ring plate 19 are respectively provided with a positioning inserting opening 20 corresponding to the reserved round opening 10.

The sleeve 13 is installed on the outer side surface of the embedded U-shaped frame 11, and the sleeve cover 16 is installed on the upper side and the lower side of the inner wall of the sleeve 13.

The limiting plates 15 are installed on the outer side surfaces of the threaded rotating rods 14, the nut sleeve plates 17 are installed on the inner walls of the sleeve covers 16 through the threaded rotating rods 14, the overhanging plug tubes 18 are connected to the outer side surfaces of the nut sleeve plates 17, and the limiting plates 15 are used for preventing the overhanging plug tubes 18 from being separated.

The telescopic link 2 is installed to the upside output of numerical control lift 1, and the upper surface of telescopic link 2 is connected with tray nest plate 3, and first receiver 4 is installed in the upper surface of tray nest plate 3.

The telescopic rod 2 is an automatic lifting device of the existing numerical control lifter 1.

The upper surface of first receiver 4 is from down upwards installing a plurality of second receiver 5 in proper order, and the structure of second receiver 5 is the same with first receiver 4 structure, and auxiliary ring board 6 different with main ring board 19 opening size is all installed to the inside of second receiver 5.

The utility model provides a ring plate mounting structure for spun yarn forming control, which has the following working principle: when the numerical control lifter 1 is used, the numerical control lifter 1 is arranged at a fixed position of spun yarn forming processing, the fixed height of the main ring plate 19 is adjusted through the telescopic rod 2, the auxiliary ring plate 6 and the main ring plate 19 inside the first storage box 4 and the second storage box 5 can be pulled according to the needs in the working process, the main ring plate 19 and the auxiliary ring plate 6 can be rapidly switched according to the needs due to different opening sizes of the surfaces of the main ring plate 19 and the auxiliary ring plate 6, the reverse threaded rotating rods 14 on two sides can be driven to rotate through the gear turntable 12 inside the embedded U-shaped frame 11, the overhanging cartridges 18 on two sides are synchronously driven to move back and forth along the inner wall of the reserved circular opening 10 along the sleeve 16, the inner mounting ring plate 19 of the positioning socket 20 can be inserted, and the numerical control lifter is convenient and rapid and can be fixed without bolts.

Compared with the related art, the ring plate mounting structure for controlling the spinning forming has the following beneficial effects:

the gear turntable inside the embedded U-shaped frame can drive the screw thread rotating rods at the opposite sides to rotate, and the overhanging plug cylinders at the two sides are synchronously driven to move back and forth on the inner wall of the reserved round opening, so that the steel collar plate can be controlled to be installed, the installation is convenient and quick, the screw bolt is not needed, the problem that the bolts are needed to be installed and detached at the two sides in the existing spun yarn forming control device is effectively solved, the disassembling process is still more troublesome, and the problem that the bolts are lost occurs is solved.

Second embodiment

Referring to fig. 5, fig. 5 is a schematic structural view of a ring plate mounting structure for controlling spinning forming according to a second embodiment of the present utility model. Based on the ring plate mounting structure for controlling the spinning forming provided in the first embodiment of the present application, the second embodiment of the present application proposes another ring plate mounting structure for controlling the spinning forming. The second embodiment is merely a preferred manner of the first embodiment, and implementation of the second embodiment does not affect the implementation of the first embodiment alone.

Specifically, the second embodiment of the present application provides a ring plate mounting structure for controlling the formation of spun yarn, which is different in that a ring plate mounting structure for controlling the formation of spun yarn is provided, and a transparent insert frame 21 of a model is mounted on the front side surface of the main ring plate 19.

Working principle: when in use, the practicality and convenience of the device can be further improved by inserting the same card as the size and the model of the inner ring plate into the transparent inserting frame 21.

The beneficial effects are that: by inserting the same card as the inner ring plate in the transparent insert frame 21, the practicality and convenience of the device can be further improved.

The foregoing description is only illustrative of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structures or equivalent processes or direct or indirect application in other related technical fields are included in the scope of the present utility model.

Claims (6)

1. A ring plate mounting structure for spun yarn shaping control is characterized by comprising: a numerical control elevator;

the device comprises a numerical control lifter, a first storage box, a double-layer spring sleeve rod, a U-shaped sleeve plate and a U-shaped sleeve plate, wherein the first storage box is arranged on the upper side of the numerical control lifter, the double-layer spring sleeve rod is arranged on two sides of the inner portion of the first storage box, the U-shaped sleeve plate is arranged on the outer side of the double-layer spring sleeve rod, inserting grooves are formed in two sides of the surface of the U-shaped sleeve plate, and reserved round openings penetrating through the whole are formed in the surfaces of two ends of the U-shaped sleeve plate;

the embedded U-shaped frame, the embedded U-shaped frame install in the intermediate position department of U type sleeve board, the inside movable mounting of embedded U-shaped frame has the gear carousel, the both sides surface of U-shaped frame passes through the opposite screw thread bull stick is all installed to the gear carousel, the outside of screw thread bull stick is provided with overhanging cartridge, overhanging cartridge is in the rotation drive effect of gear carousel can be synchronous outside removal and insert reserve the inside of circle mouth.

2. The ring plate mounting structure for controlling spun yarn forming as claimed in claim 1, wherein the upper side of the U-shaped sleeve plate is provided with a main ring plate through the slot opening, and both sides of the surface of the main ring plate are provided with positioning sockets corresponding to the reserved circular openings.

3. The ring plate mounting structure for controlling spun yarn formation of claim 1, wherein the outer side surfaces of the embedded U-shaped frames are provided with sleeves, and the upper and lower sides of the inner wall of the sleeves are provided with covers.

4. A ring plate mounting structure for controlling spun yarn formation as defined in claim 3, wherein limiting plates are mounted on outer side surfaces of the screw thread rotating rods, nut sleeve plates are mounted on inner walls of the sleeve cover through the screw thread rotating rods, the overhanging plug tube is connected to outer side surfaces of the nut sleeve plates, and the limiting plates are used for preventing the overhanging plug tube from being separated.

5. The ring plate mounting structure for controlling spun yarn formation of claim 2, wherein a telescopic rod is mounted at an upper output end of the numerical control lifter, a tray sleeve plate is connected to an upper surface of the telescopic rod, and the first storage box is mounted on an upper surface of the tray sleeve plate.

6. The ring plate mounting structure for controlling spun yarn forming of claim 5, wherein a plurality of second storage boxes are mounted on the upper surface of the first storage box in sequence from bottom to top, the structure of the second storage box is identical to that of the first storage box, and auxiliary ring plates with different opening sizes from the main ring plates are mounted inside the second storage boxes.

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