CN111392342B - Temporary storage mechanism of positioning die in fan machining assembly line - Google Patents

Abstract

The invention provides a temporary storage mechanism of a positioning die in a fan machining production line, and belongs to the technical field of machinery. It has solved prior art and has had the poor problem of stability. This positioning die's temporary storage mechanism in fan flow direction of packaging line is located between frame and the conveyer belt, including link firmly plectrum and the locating piece in the frame, above-mentioned locating piece and plectrum are located the both sides department of conveyer belt respectively, the locating piece is close to one side department that is close to the conveyer belt and has recessed location notch, and above-mentioned plectrum slope sets up and has elasticity, plectrum inner links firmly with the frame, and the plectrum outer end is close to in location notch. This positioning die's temporary storage mechanism among fan flow direction of packaging line stability is high.

Description

Temporary storage mechanism of positioning die in fan machining assembly line

Technical Field

The invention belongs to the technical field of machinery, and relates to a temporary storage mechanism of a positioning die in a fan machining production line.

Background

In order to improve the working efficiency of the fan in the machining process, a flow line system is generally adopted.

The existing production line system generally comprises a rack, a driving wheel, a driven wheel and a conveying belt, wherein the driving wheel and the driven wheel are respectively connected to two ends of the rack, the conveying belt is sleeved on the driving wheel and the driven wheel, and the conveying belt moves along with the driving wheel in the rotating process.

The fan processing device comprises a conveying belt, a plurality of processing fans and a plurality of processing fans, wherein the processing fans are arranged beside the conveying belt along the moving direction of the conveying belt, and when the processing fans move to the corresponding processing stations, an operator manually takes the processing fans on the conveying belt.

It can be seen that the above-mentioned in-process needs the operator to make a response fast, in case can not follow up the removal speed of conveyer belt, will lead to the fan can not accomplish the processing operation at corresponding process. The stability is poor.

Disclosure of Invention

The invention aims to solve the problems in the prior art and provides a temporary storage mechanism of a positioning mold in a fan machining production line, which has high stability and a compact structure.

The purpose of the invention can be realized by the following technical scheme:

the utility model provides a positioning die's temporary storage mechanism in fan flow direction of packaging line, fan flow direction of packaging line include frame, conveyer belt, action wheel and follow the driving wheel, and above-mentioned action wheel and follow the both ends department of driving wheel connection in the frame, and above-mentioned conveyer belt is annular and conveyer belt cover at the action wheel and follow the driving wheel, and its characterized in that, this temporary storage mechanism are located between frame and the conveyer belt, including link firmly plectrum and the locating piece in the frame, above-mentioned locating piece and plectrum are located the both sides department of conveyer belt respectively, the locating piece is close to one side department that is close to the conveyer belt and has recessed location notch, and above-mentioned plectrum slope sets up and has elasticity, plectrum inner links firmly with the frame, and the plectrum outer end is close to in the location notch.

In the temporary storage mechanism for the positioning die in the fan machining line, the shifting piece is made of brass.

In the temporary storage mechanism for the positioning mold in the fan processing line, the shifting piece is made of plastic.

In foretell fan flow direction of packaging line orientation mould's temporary storage mechanism, the both ends of conveyer belt are pan feeding portion and ejection of compact portion respectively, and above-mentioned location notch has the leading-in portion of smooth transition near one side of pan feeding portion, leading-in portion just right with the plectrum.

The driving wheel is connected with the driving part, and the driving part drives the driving wheel to rotate, so that the conveying belt sleeved on the driving wheel and the driven wheel translates along with the driving wheel and the driven wheel. The driving member is a motor.

The positioning mould is in a block shape and is used for positioning and connecting the fan to be processed on the positioning mould. The positioning mould is placed on the conveying belt, and the positioning mould is stably translated along with the conveying belt.

The positioning die entering from the feeding part is pushed by the shifting piece, the pushed positioning die smoothly enters the positioning notch of the positioning block, the positioning die is positioned and blocked through the positioning notch, and at the moment, an operator at the positioning notch carries out corresponding processing treatment on the fan to be processed on the positioning die. After the processing is finished, the positioning mold is pushed out of the positioning notch by applying skewing, and the positioning mold on the conveying belt translates along with the conveying again.

Finally, the positioning die is output from the discharging part, and certainly, the fan to be processed on the positioning die can complete the corresponding processing procedure in the stopping process. The positioning die can not move horizontally along with the conveying belt when the positioning die is processed.

The shifting sheet made of brass material or plastic material can stably push and position the die.

In the temporary storage mechanism for the positioning mold in the fan machining production line, the leading-in part is an inclined plane and is parallel to the shifting sheet.

After the positioning mold is separated from the positioning notch, the structure enables the positioning mold to smoothly enter the conveying belt.

In the temporary storage mechanism of the positioning die in the fan machining production line, the rack is fixedly connected with the correcting piece, and the correcting piece is close to the discharging part.

The positioning mould can be positioned in the middle of the conveying belt through the correcting piece, and the positioning mould is prevented from falling off from the conveying belt.

The positioning die pushed out from the positioning block is close to one side of the conveying belt, and the positioning die can be corrected under the action of the correcting piece, so that the positioning die is stably positioned in the middle of the conveying belt.

Of course, to further improve stability, another solution may be adopted:

the number of the straightening pieces is two, and the two straightening pieces are respectively positioned at the two sides of the conveying belt.

In the temporary storage mechanism of the positioning die in the fan processing line, a concave avoiding part is arranged on the positioning block close to the discharging part, and the avoiding part is opposite to the correcting sheet.

The dodging part is recessed into the positioning block and is just opposite to the correcting piece, and the structure enables the positioning die to smoothly enter the discharging part.

In the temporary storage mechanism for the positioning die in the fan machining line, the correcting sheet is made of brass.

In the temporary storage mechanism of the positioning die in the fan processing line, the straightening sheet is made of plastic.

In foretell fan flow direction of packaging line orientation mould's temporary storage mechanism, link firmly in the frame and be platelike fixed plate, above-mentioned plectrum links firmly on the fixed plate with correcting the piece, and above-mentioned plectrum is close to in pan feeding portion, and the piece is close to in ejection of compact portion to the aforesaid is corrected to the aforesaid.

The poking sheet and the correcting sheet can be stably connected to the rack through the fixing plate.

Compared with the prior art, the temporary storage mechanism of the positioning die in the fan machining production line can stably machine the fan in a static state because the positioning die is stably positioned on the positioning block when the fan is machined. Certainly, once processing is accomplished the back, exert external force with positioning die push conveyer belt department can, its stability not only is higher, convenient to use moreover.

Meanwhile, the positioning die entering from the feeding part is acted by the shifting piece, the positioning die can be stably embedded into the positioning notch of the positioning block, and the stability of the positioning die is higher.

Drawings

Fig. 1 is a schematic top view of a temporary storage mechanism for positioning a mold in the fan processing line.

Fig. 2 is a schematic top view of the temporary storage mechanism for positioning the mold in the fan processing line.

Fig. 3 is a schematic front view structure diagram of a temporary storage mechanism for positioning molds in the fan processing line.

In the figure, 1, a frame; 2. a conveyor belt; 2a, a feeding part; 2b, a discharging part; 3. a driving wheel; 4. a driven wheel; 5. a shifting sheet; 6. positioning blocks; 6a, a positioning notch; 6a1, an introduction part; 6b, an avoidance part; 7. straightening sheets; 8. a fixing plate; 9. and (5) positioning the mold.

Detailed Description

As shown in fig. 1, 2 and 3, the fan processing line includes a frame 1, a conveyer belt 2, a driving wheel 3 and a driven wheel 4, the driving wheel 3 and the driven wheel 4 are connected at two ends of the frame 1, the conveyer belt 2 is ring-shaped, and the conveyer belt 2 is sleeved on the driving wheel 3 and the driven wheel 4.

This positioning die's temporary storage mechanism is located between frame 1 and conveyer belt 2 in the fan flow direction of packaging line, including link firmly plectrum 5 and locating piece 6 on frame 1, above-mentioned locating piece 6 and plectrum 5 are located the both sides department of conveyer belt 2 respectively, locating piece 6 is close to one side department that is close to conveyer belt 2 and has recessed location notch 6a, and the slope of above-mentioned plectrum 5 sets up and has elasticity, 5 the inner and frame 1 of plectrum link firmly, and 5 outer ends of plectrum are close to in location notch 6 a.

The plectrum 5 is made of brass. According to practical conditions, the plectrum 5 is made of plastic.

The two ends of the conveying belt 2 are respectively a feeding part 2a and a discharging part 2b, one side of the positioning notch 6a close to the feeding part 2a is provided with a smoothly-transiting leading-in part 6a1, and the leading-in part 6a1 is opposite to the shifting piece 5.

The introduction portion 6a1 is an inclined slope and the introduction portion 6a1 is parallel to the paddle 5.

The frame 1 is also fixedly connected with a correction piece 7, and the correction piece 7 is close to the discharging part 2 b.

The positioning block 6 is provided with a concave avoidance part 6b close to the discharging part 2b, and the avoidance part 6b is opposite to the correcting piece 7.

The material of the correction piece 7 is brass. Depending on the circumstances, it is also possible for the material of the correction flap 7 to be plastic.

Frame 1 is last to be linked firmly and is platelike fixed plate 8, and above-mentioned plectrum 5 links firmly on fixed plate 8 with correcting piece 7, and above-mentioned plectrum 5 is close to in pan feeding portion 2a, and above-mentioned piece 7 of correcting is close to in ejection of compact portion 2 b.

The positioning mould can be positioned in the middle of the conveying belt through the correcting piece, and the positioning mould is prevented from falling off from the conveying belt.

The positioning die pushed out from the positioning block is close to one side of the conveying belt, and the positioning die can be corrected under the action of the correcting piece, so that the positioning die is stably positioned in the middle of the conveying belt.

Of course, to further improve stability, another solution may be adopted:

the number of the straightening pieces is two, and the two straightening pieces are respectively positioned at the two sides of the conveying belt.

Claims (1)

1. A temporary storage mechanism of a positioning die in a fan processing assembly line comprises a rack, a conveying belt, a driving wheel and a driven wheel, wherein the driving wheel and the driven wheel are connected to two ends of the rack;

the plectrum is made of brass or plastic;

the two ends of the conveying belt are respectively provided with a feeding part and a discharging part, one side of the positioning notch close to the feeding part is provided with a smoothly-transiting lead-in part, and the lead-in part is opposite to the shifting sheet;

the leading-in part is an inclined plane and is parallel to the shifting piece;

the rack is also fixedly connected with a correction piece which is close to the discharging part;

a concave avoidance part is arranged on the positioning block close to the discharging part, and the avoidance part is opposite to the straightening sheet;

the material of the correction piece is brass, or the material of the correction piece is plastic;

the frame is fixedly connected with a platy fixed plate, the poking sheet and the correcting sheet are fixedly connected on the fixed plate, the poking sheet is close to the feeding part, and the correcting sheet is close to the discharging part.

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