CN212531662U - Slide strip centering device - Google Patents

Abstract

The utility model belongs to the technical field of the centering device, concretely relates to draw runner centering device. The slide centering device comprises an assembling case, a supporting seat and a connecting case body; the automatic correction device is characterized in that assembling machine cases are symmetrically arranged on two sides of the connecting box body and fixedly connected with the connecting box body, supporting seats are correspondingly assembled on the two assembling machine cases respectively, a correction mechanism is arranged between the assembling machine cases at two ends of the connecting box body, a rotating shaft is arranged on the correction mechanism, two ends of the rotating shaft are located in the assembling machine cases respectively, one end of the rotating shaft is driven by a correction driving motor, an expanding roller is arranged between the two supporting seats on one side of the correction mechanism, and the expanding roller is driven by an expanding driving motor on one of the supporting seats. The beneficial effects are as follows: simple structure, convenient to use, base expand good fortune, centering, rectify in an organic whole, need not artificial interference, and the signal utilization that detects well pipe through photoelectricity drives actuating cylinder and drives, and degree of automation is high, and work efficiency is high.

Description

Slide strip centering device

Technical Field

The utility model belongs to the technical field of the centering device, concretely relates to draw runner centering device.

Background

Centering and expanding are always the most critical process links in the printing and dyeing industry, the degree of automation of the existing centering device is low, manual work and the addition of a deviation correcting device are required for interference, the centering effect is not ideal, and the centering and expanding device cannot effectively work on oblique weft and sensitive fabrics.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a remedy prior art's defect provides a draw runner centering device.

The utility model discloses a realize through following technical scheme:

a slide centering device comprises an assembly case, a supporting seat and a connecting case body; the automatic correction device is characterized in that assembling machine cases are symmetrically arranged on two sides of the connecting box body and fixedly connected with the connecting box body, supporting seats are correspondingly assembled on the two assembling machine cases respectively, a correction mechanism is arranged between the assembling machine cases at two ends of the connecting box body, a rotating shaft is arranged on the correction mechanism, two ends of the rotating shaft are located in the assembling machine cases respectively, one end of the rotating shaft is driven by a correction driving motor, an expanding roller is arranged between the two supporting seats on one side of the correction mechanism, and the expanding roller is driven by an expanding driving motor on one of the supporting seats.

Furthermore, the connecting box body is communicated with the assembling machine case, the transmission mechanism of the deviation rectifying mechanism is positioned in the connecting box body, the transmission mechanism comprises a driving cylinder and a swinging plate, the driving cylinder is positioned in the connecting box body, the swinging plate is positioned on one side of a rotating shaft in the assembling machine case, a bearing seat is arranged on the swinging plate, a transmission sleeve is sleeved on the bearing seat, and a plurality of connecting rods are arranged on the transmission sleeve.

Furthermore, the deviation correcting mechanism comprises a slide bar, limiting support rings and a transmission sleeve, a plurality of limiting support rings are arranged on the rotating shaft, a plurality of sliding grooves are formed in the limiting support rings, the sliding grooves between the limiting support rings correspond to each other, the slide bars are buckled between the sliding grooves of the limiting support rings, the slide bar is supported and buckled on the rotating shaft through the limiting support rings, connecting arm rings are fixed at the end parts of the slide bars respectively, and the transmission mechanism drives the connecting arm rings to drive the slide bars to move in the sliding grooves.

Furthermore, the connecting rods are respectively connected with connecting arm rings on corresponding sliding strips on the deviation rectifying mechanism, and the driving air cylinder drives the oscillating plate to drive the transmission sleeve through the bearing seat so as to drive the sliding strips to slide on the limiting support rings on the rotating shaft, so that the deviation rectifying effect is achieved.

Furthermore, one end of the swinging plate is connected with the output end of the driving cylinder, the other end of the swinging plate is fixed in the assembling case through the vertical shaft, the swinging plate is connected with the vertical shaft, the upper end and the lower end of the vertical shaft are respectively connected with the assembling case through a shaft seat, and the upper end and the lower end of the vertical shaft are respectively sleeved in the shaft seat.

Furthermore, the end part of the deviation rectifying mechanism extends into the assembling case, and the end part of the deviation rectifying mechanism, which is positioned at the assembling case, is sleeved with a limiting sliding ring.

Furthermore, a photoelectric centering pipe is arranged between the two assembling machine boxes at the bottom of the deviation rectifying mechanism, and protective cross rods are symmetrically arranged on two sides of the photoelectric centering pipe.

Furthermore, each sliding strip on the deviation correcting mechanism is divided into two parts from the middle, connecting arm rings are respectively fixed at the end parts of the sliding strips at the two ends of the deviation correcting mechanism, and the connecting arm rings are driven by the transmission mechanism to drive the sliding strips to move in the sliding grooves, so that the sliding strips on the deviation correcting mechanism can simultaneously slide towards the two sides and the middle, and the deviation correcting mechanism can play a role in extending the benefits in the deviation correcting process.

The utility model has the advantages that: simple structure, convenient to use, base expand good fortune, centering, rectify in an organic whole, need not artificial interference, and the signal utilization that detects well pipe through photoelectricity drives actuating cylinder and drives, and degree of automation is high, and work efficiency is high.

Drawings

The present invention will be further described with reference to the accompanying drawings.

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of a driving cylinder arranged at one end of the deviation correcting mechanism of the utility model;

FIG. 3 is a schematic cross-sectional view of the deviation correcting mechanism of the present invention;

FIG. 4 is a schematic structural view of the transmission sleeve of the present invention;

FIG. 5 is a schematic view of the connection structure of the slide bar and the connecting arm ring of the present invention;

figure 6 is the utility model discloses the mechanism both ends of rectifying are equipped with the schematic structure drawing who drives actuating cylinder.

In the figure, a case is assembled 1, a support seat 2, a connecting box body 3, a deviation rectifying driving motor 4, a deviation rectifying driving motor 5, a deviation rectifying mechanism 6, a protective cross rod 7, a photoelectric counter middle pipe 8, a width expanding roller 9, a rotating shaft 10, a slide bar 11, a limiting sliding ring 12, a swinging plate 13, a shaft seat 14, a driving cylinder 15, a transmission sleeve 16, a vertical shaft 17, a connecting rod 18, a connecting arm ring 19, a limiting support ring 20, a sliding chute 21 and a bearing seat 22.

Detailed Description

Fig. 1-6 show an embodiment of the present invention. The utility model relates to a slide centering device, which comprises an assembly case 1, a supporting seat 2 and a connecting case 3; 3 bilateral symmetry of connecting box is equipped with assembly machine case 1, assembly machine case 1 and 3 fixed connection of connecting box, and correspond respectively on two assembly machine case 1 and be equipped with supporting seat 2, be equipped with the mechanism 6 of rectifying between the assembly machine case 1 at 3 both ends of connecting box, be equipped with pivot 10 on the mechanism 6 of rectifying, the pivot 10 both ends are located assembly machine case 1 respectively, and pivot 10 wherein one end is through rectifying driving motor 4 drive, it is equipped with expander roller 9 to rectify that mechanism 6 one side is located between two supporting seats 2, and expander roller 9 drives through expander driving motor 5 on one of them supporting seat 2.

Further, the connection box body 3 is communicated with the assembly case 1, the transmission mechanism of the deviation rectifying mechanism 6 is located in the connection box body 3, the transmission mechanism comprises a driving cylinder 15 and a swinging plate 13, the driving cylinder 15 is located in the connection box body 3, the swinging plate 13 is located on one side of a rotating shaft 10 in the assembly case 1, a bearing seat 22 is arranged on the swinging plate 13, a transmission sleeve 16 is sleeved on the bearing seat 22, and a plurality of connecting rods 18 are arranged on the transmission sleeve 16.

Further, the deviation correcting mechanism 6 comprises a slide bar 11, limiting support rings 20 and a transmission sleeve 16, a plurality of limiting support rings 20 are arranged on the rotating shaft 10, a plurality of sliding grooves 21 are arranged on the limiting support rings 20, the sliding grooves 21 between the limiting support rings 20 correspond to each other, the slide bar 11 is buckled between the sliding grooves 21 of the limiting support rings 20, the slide bar 11 is supported and buckled on the rotating shaft 10 through the limiting support rings 20, connecting arm rings 19 are respectively fixed at the end parts of the slide bar 11, and the connecting arm rings 19 are driven by the transmission mechanism to drive the slide bar 11 to move in the sliding grooves 21.

Further, the connecting rods 18 are respectively connected with connecting arm rings 19 on the corresponding sliding strips 11 on the deviation rectifying mechanism 6, and the driving cylinder 15 drives the swinging plate 13 to drive the transmission sleeve 16 through the bearing seat 22 so as to drive the sliding strips 11 to slide on the limiting support rings 20 on the rotating shaft 10, thereby achieving the deviation rectifying effect.

Furthermore, one end of the swinging plate 13 is connected with the output end of the driving cylinder 15, the other end of the swinging plate is fixed in the assembly case 1 through a vertical shaft 17, the swinging plate 13 is connected with the vertical shaft 17, the upper end and the lower end of the vertical shaft 17 are respectively connected with the assembly case 1 through a shaft seat 14, and the upper end and the lower end of the vertical shaft 17 are respectively sleeved in the shaft seat 14.

Furthermore, the end part of the deviation rectifying mechanism 6 extends into the assembling case 1, and the end part of the deviation rectifying mechanism 6 at the assembling case 1 is sleeved with a limiting sliding ring 12.

Furthermore, a photoelectric counter center tube 8 is arranged between the two assembling machine boxes 1 at the bottom of the deviation rectifying mechanism 6, and protective cross rods 7 are symmetrically arranged on two sides of the photoelectric counter center tube 8.

Furthermore, each slide bar 11 on the deviation correcting mechanism 6 is divided into two parts from the middle, the end parts of each slide bar 11 at the two ends of the deviation correcting mechanism 6 are respectively fixed with a connecting arm ring 19, and each connecting arm ring 19 is driven by a transmission mechanism to drive each slide bar 11 to move in a sliding groove 21, so that each slide bar 11 on the deviation correcting mechanism 6 can simultaneously slide to the two sides and the middle, and the deviation correcting mechanism can also play a role in extending benefits in the deviation correcting process.

The utility model relates to a slide centering device, when in use, each slide 11 of a deviation rectifying mechanism 6 can be selected as one end to be driven or each slide 11 is divided into two parts from the middle part, the two ends are respectively driven by a driving cylinder 15 and a swinging plate 13, when the sliding strips 11 are used as one end for driving, the driving cylinder 15 starts the swinging plate 13 to drive the sliding strips 11 on the rotating shaft 10 to realize the deviation rectifying effect when passing through the rotating deviation rectifying mechanism 6, when each slide bar 11 is driven by the driving cylinder 15 and the swinging plate 13 respectively at two ends with the middle part being two, two ends of a deviation rectifying mechanism 6 driven by a deviation rectifying driving motor 4 are respectively driven by a driving air cylinder 15, so that in the process of rectifying deviation of the cloth passing through the deviation rectifying mechanism 6, and the driving cylinders 15 at the two ends can drive the sliding strips 11 to extend the fortune from the middle outwards, so that the correction is realized and the fortune extending effect can be realized.

The present invention is not limited to the above embodiments, and any person should learn to make under the teaching of the present invention and the present invention has the same or similar technical solution, and all fall into the protection scope of the present invention.

The technology, shape and construction parts which are not described in detail in the present invention are all known technology.

Claims (8)

1. A slide centering device comprises an assembly case, a supporting seat and a connecting case body; the automatic correction device is characterized in that assembling machine cases are symmetrically arranged on two sides of the connecting box body, the assembling machine cases are fixedly connected with the connecting box body, supporting seats are correspondingly assembled on the two assembling machine cases respectively, a correction mechanism is arranged between the assembling machine cases at two ends of the connecting box body, a rotating shaft is arranged on the correction mechanism, two ends of the rotating shaft are located in the assembling machine cases respectively, one end of the rotating shaft is driven by a correction driving motor, an expanding roller is arranged between the two supporting seats on one side of the correction mechanism, and the expanding roller is driven by an expanding driving motor on one of the supporting seats.

2. The slide centering device of claim 1, wherein: the connecting box body is communicated with the assembling machine case, the transmission mechanism of the deviation rectifying mechanism is positioned in the connecting box body and comprises a driving cylinder and a swinging plate, the driving cylinder is positioned in the connecting box body, the swinging plate is positioned on one side of a rotating shaft in the assembling machine case, a bearing seat is arranged on the swinging plate, a transmission sleeve is sleeved on the bearing seat, and a plurality of connecting rods are arranged on the transmission sleeve.

3. The slide centering device of claim 1, wherein: the deviation correcting mechanism comprises a slide bar, limiting support rings and a transmission sleeve, a plurality of limiting support rings are arranged on the rotating shaft, a plurality of sliding grooves are formed in the limiting support rings, the sliding grooves between the limiting support rings correspond to each other, the slide bar is buckled between the sliding grooves of the limiting support rings and supported on the rotating shaft through the limiting support rings, connecting arm rings are fixed at the end parts of the slide bar respectively, and the transmission mechanism drives the connecting arm rings to transmit the slide bar to move in the sliding grooves.

4. The slide centering device of claim 2, wherein: the connecting rods are respectively connected with connecting arm rings on the corresponding sliding strips on the deviation rectifying mechanism, and the driving air cylinder drives the swinging plate to drive the sliding strips to slide on the limiting supporting rings on the rotating shaft by driving the transmission sleeve through the bearing seat, so that the deviation rectifying effect is achieved.

5. The slide centering device of claim 2, wherein: one end of the swinging plate is connected with the output end of the driving cylinder, the other end of the swinging plate is fixed in the assembling case through the vertical shaft, the swinging plate is connected with the vertical shaft, the upper end and the lower end of the vertical shaft are respectively connected with the assembling case through a shaft seat, and the upper end and the lower end of the vertical shaft are respectively sleeved in the shaft seat.

6. A slide centering device according to claim 1 or 2, wherein: the end part of the deviation rectifying mechanism extends into the assembling case, and the end part of the deviation rectifying mechanism, which is positioned at the assembling case, is sleeved with a limiting sliding ring.

7. The slide centering device of claim 1, wherein: the bottom of the deviation rectifying mechanism is provided with a photoelectric centering tube between the two assembling machine cases, and protective cross rods are symmetrically arranged on two sides of the photoelectric centering tube.

8. A slide centering device according to claim 3, wherein: the sliding strips on the deviation correcting mechanism are divided into two parts from the middle, connecting arm rings are respectively fixed at the end parts of the sliding strips at the two ends of the deviation correcting mechanism, and the connecting arm rings are driven by the transmission mechanism to drive the sliding strips to move in the sliding grooves, so that the sliding strips on the deviation correcting mechanism can simultaneously slide towards the two sides and the middle, and the deviation correcting mechanism can play a role in expanding the benefits in the deviation correcting process.

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