CN216376372U - Part turnover mechanism for reed stacking machine - Google Patents

Abstract

The utility model relates to a part turnover mechanism for a reed stacking machine, which is characterized in that: the device comprises a rack, a motor base, an integral rotating motor shaft, a left rotating plate, a right rotating plate, a connecting plate, a clamping cylinder, an upper clamping claw, a lower clamping claw, an upper transmission roller, a lower transmission roller, an upper transmission roller gear, a lower transmission roller gear, a transmission power gear, a transmission conduction gear, a transmission motor base, a transmission motor shaft and product parts; the whole rotating motor of the mechanism provides power for the overturning part of the mechanism, the transmission motor provides power for the transmission of product parts, and the clamping cylinder provides power for the mechanism to clamp the product parts.

Description

Part turnover mechanism for reed stacking machine

Technical Field

The utility model belongs to the technical field of textile equipment manufacturing, relates to a production process of reed blades of an air jet loom, and particularly relates to reed blade stacking and arranging equipment.

Background

The reed is a key device part of the air jet loom, and has the functions of separating warp yarns, keeping the warp yarn distance, and driving weft yarns to move in the reed airflow groove through airflow so as to realize the function that the weft yarns are close to straight in place in the weft insertion and beating-up processes. The high-quality reed is required to be manufactured firstly, the production process of the reed is generally carried out by manually combing twice, so that the front and back positions of parts are consistent, the labor intensity is high in the process, the production efficiency is low, the cost is high, and equipment capable of automatically overturning and automatically arranging workpieces is required.

Disclosure of Invention

The utility model aims to solve the problems, and designs a part turnover mechanism for a reed stacking machine, namely a mechanism for changing the front and rear end directions of a product by taking the motion reversal as a reference under the condition that the motion direction is not changed in the product conveying process.

The technical scheme of the utility model is as follows: the utility model provides a part tilting mechanism for reed hacking machine which characterized in that: the transmission device comprises a frame, a motor base, an integral rotating motor shaft, a left rotating plate, a right rotating plate, a connecting plate, a clamping cylinder, an upper clamping claw, a lower clamping claw, an upper transmission roller, a lower transmission roller, an upper transmission roller gear, a lower transmission roller gear, a transmission power gear, a transmission conduction gear, a transmission motor base, a transmission motor shaft and product parts. The transmission machine is characterized in that a motor base is installed on the rack, a whole rotating motor is installed on the motor base, a whole rotating motor shaft is arranged on the whole rotating motor, a left rotating plate is installed on the whole rotating motor shaft, a connecting plate is installed on the left rotating plate, a right rotating plate is installed on the connecting plate, a clamping cylinder is further installed on the left rotating plate, an upper clamping claw and a lower clamping claw are installed on the clamping cylinder, a plurality of upper transmission rollers and a plurality of lower transmission rollers are installed on the left rotating plate and the right rotating plate together and can rotate freely, an upper transmission roller gear is installed on the upper transmission roller, a lower transmission roller gear is installed on the lower transmission roller, a transmission motor base is further installed on the right rotating plate, a transmission motor is installed on the transmission motor base, a transmission motor shaft is installed on the transmission motor shaft, a transmission power gear is installed on the transmission motor shaft, and a part of the transmission power gear is connected with a part of the transmission roller gear, The lower transmission roller gears are respectively meshed, the upper transmission roller gear and the lower transmission roller gear which are meshed with the transmission power gear are simultaneously meshed with the transmission conduction gear, and the transmission conduction gear is also meshed with the upper transmission roller gear and the lower transmission roller gear which are not meshed with the transmission power gear, so that the power of the transmission motor is transmitted to all the upper transmission roller gear and the lower transmission roller gear.

The integral rotating motor provides power for the mechanism overturning part, the transmission motor provides power for product part transmission, and the clamping cylinder provides power for the mechanism clamping product parts.

The utility model has the beneficial effects that: when the product part moves into the mechanism, the mechanism rotates to change the movement front end of the part into the movement tail end of the part while the integral movement direction of the part is not changed.

Drawings

Fig. 1 is a front view of the present invention.

Fig. 2 is a side view of the present invention.

In the drawings

1. The frame 2, the motor base 3, the integral rotating motor 4, the integral rotating motor shaft 5 and the left rotating plate

6. A right rotating plate 7, a connecting plate 8, a clamping cylinder 9, an upper clamping jaw 10 and a lower clamping jaw

11. An upper transmission roller 12, a lower transmission roller 13, an upper transmission roller gear 14, a lower transmission roller gear 15 and a transmission power gear

16. The transmission gear 17, the transmission motor base 18, the transmission motor 19, the transmission motor shaft 20 and the product parts.

Detailed Description

As shown in fig. 1 and 2, the utility model relates to a part turnover mechanism for a reed stacking machine, which comprises a frame 1, a motor base 2, an integral rotating motor 3, an integral rotating motor shaft 4, a left rotating plate 5, a right rotating plate 6, a connecting plate 7, a clamping cylinder 8, an upper clamping claw 9, a lower clamping claw 10, an upper transmission roller 11, a lower transmission roller 12, an upper transmission roller gear 13, a lower transmission roller gear, 14, a transmission power gear 15, a transmission gear 16, a transmission motor base 17, a transmission motor 18, a transmission motor shaft 19 and a product part 20; the machine frame is characterized in that a motor base 2 is installed on the machine frame 1, a whole rotating motor 3 is installed on the motor base 2, a whole rotating motor shaft 4 is arranged on the whole rotating motor, a left rotating plate 5 is installed on the whole rotating motor shaft 4, a connecting plate 7 is installed on the left rotating plate, a right rotating plate 6 is installed on the connecting plate 7, a clamping cylinder 8 is further installed on the left rotating plate, an upper clamping claw 9 and a lower clamping claw 10 are installed on the clamping cylinder 8, a plurality of upper transmission rollers 11 and lower transmission rollers 12 are installed on the left rotating plate 5 and the right rotating plate 6 together, the upper transmission rollers 11 and the lower transmission rollers 12 can rotate freely, an upper transmission roller gear 13 is installed on the upper transmission roller 11, a lower transmission roller gear 14 is installed on the lower transmission roller 12, a transmission motor base 17 is also installed on the right rotating plate 6, a transmission motor 18 is installed on the transmission motor base 17, a transmission motor shaft 19 is arranged on the transmission motor 18, A transmission power gear 15 is installed on a transmission motor shaft 19, the transmission power gear 15 is respectively meshed with part of the upper transmission roller gear 13 and the lower transmission roller gear 14, the upper transmission roller gear 13 and the lower transmission roller gear 14 meshed with the transmission power gear 15 are simultaneously meshed with a transmission conduction gear 16, and the transmission conduction gear 16 is also meshed with the upper transmission roller gear 13 and the lower transmission roller gear 14 which are not meshed with the transmission power gear 15 to realize that the power of the transmission motor 18 is transmitted to all the upper transmission roller gear 13 and the lower transmission roller gear 14.

The integral rotating motor 2 provides power for the mechanism overturning part, the transmission motor 17 provides power for the product part 20 transmission, and the clamping cylinder 7 provides power for the mechanism clamping product part 20.

The working process of the utility model is as follows:

as shown in fig. 1 and 2, power is derived from the integral rotating electric machine 2, the transmission motor 17, and the clamp cylinder 7. When the device works, a transmission motor 17 is electrified, a transmission motor shaft 18 rotates clockwise, the transmission motor shaft 18 drives a transmission power gear 15 connected with the transmission motor shaft to rotate clockwise, the transmission power gear 15 drives an upper transmission roller gear 13 and a lower transmission roller gear 14 meshed with the transmission power gear to rotate anticlockwise, the upper transmission roller gear 13 drives an upper transmission roller 11 meshed with the upper transmission roller gear to rotate anticlockwise, the lower transmission gear 14 drives a lower transmission roller 12 meshed with the lower transmission roller to rotate anticlockwise, the upper transmission roller gear 13 and the lower transmission roller gear 14 which are meshed with the transmission power gear 15 drive the transmission gear 16 which is meshed with the transmission power gear together to rotate clockwise, and the transmission gear 16 drives other upper transmission roller gear 13 and other lower transmission roller gear 14 which are not meshed with the transmission power gear 15 to rotate anticlockwise, so that all the upper transmission roller 11 and the lower transmission roller 12 rotate anticlockwise. The plurality of lower transmission rollers 12 rotate anticlockwise synchronously, the product parts 20 contacted with the lower transmission rollers are conveyed to the position shown in the figure, at the moment, the clamping cylinder 7 is ventilated in the positive direction, the upper clamping claw 9 and the lower clamping claw 10 are closed to the central position to clamp the product parts 20, the product parts 20 are separated from the lower transmission rollers 12 at the same time, the power moving towards the integral motion direction is lost, the integral rotating motor 3 is electrified in the positive direction, the integral rotating motor shaft 4 rotates 180 degrees clockwise, the integral rotating motor shaft 4 drives the left rotating plate 5, the right rotating plate 6, the connecting plate 7, the clamping cylinder 8, the upper clamping claw 9, the lower clamping claw 10, the upper transmission roller 11, the lower transmission roller 12, the upper transmission roller gear 13, the lower transmission roller gear 14, the transmission power gear 15, the transmission gear 16, the transmission motor seat 17, the transmission motor 18, the transmission motor shaft 19 and the product parts 20 which are connected with the integral rotating 180 degrees clockwise, and (3) ventilating the clamping cylinder 7 reversely, separating the upper clamping claw 9 and the lower clamping claw 10 towards the direction away from the central position, dropping the product part 20 onto the plurality of upper conveying rollers 11 to be contacted with the plurality of upper conveying rollers 11, regaining the power for continuously moving towards the integral movement direction, and continuously moving the product part 20 away from the mechanism.

The foregoing is illustrative of the preferred embodiments of this invention and is not to be construed as limiting the utility model in any way as to the shape, materials or construction thereof. Any simple modification, equivalent change and modification of the above embodiments according to the technical spirit of the present invention shall still fall within the scope of the present patent.

Claims (2)

1. The utility model provides a part tilting mechanism for reed hacking machine which characterized in that: the device comprises a rack, a motor base, an integral rotating motor shaft, a left rotating plate, a right rotating plate, a connecting plate, a clamping cylinder, an upper clamping claw, a lower clamping claw, an upper transmission roller, a lower transmission roller, an upper transmission roller gear, a lower transmission roller gear, a transmission power gear, a transmission conduction gear, a transmission motor base, a transmission motor shaft and product parts; the transmission machine is characterized in that a motor base is installed on the rack, a whole rotating motor is installed on the motor base, a whole rotating motor shaft is arranged on the whole rotating motor, a left rotating plate is installed on the whole rotating motor shaft, a connecting plate is installed on the left rotating plate, a right rotating plate is installed on the connecting plate, a clamping cylinder is further installed on the left rotating plate, an upper clamping claw and a lower clamping claw are installed on the clamping cylinder, a plurality of upper transmission rollers and a plurality of lower transmission rollers are installed on the left rotating plate and the right rotating plate together and can rotate freely, an upper transmission roller gear is installed on the upper transmission roller, a lower transmission roller gear is installed on the lower transmission roller, a transmission motor base is further installed on the right rotating plate, a transmission motor is installed on the transmission motor base, a transmission motor shaft is installed on the transmission motor shaft, a transmission power gear is installed on the transmission motor shaft, and a part of the transmission power gear is connected with a part of the transmission roller gear, The lower transmission roller gears are respectively meshed, an upper transmission roller gear and a lower transmission roller gear which are meshed with the transmission power gear are simultaneously meshed with the transmission conduction gear, and the transmission conduction gear is also meshed with an upper transmission roller gear and a lower transmission roller gear which are not meshed with the transmission power gear, so that the power of the transmission motor is transmitted to all the upper transmission roller gear and the lower transmission roller gear.

2. The part turnover mechanism for the reed stacking machine as claimed in claim 1, wherein the integral rotating motor powers the mechanism turnover part, the transmission motor powers the product part transmission, and the clamping cylinder powers the mechanism clamps the product part.

Images