CN218230715U - Screw machine with feeding anti-blocking device - Google Patents

Abstract

The utility model discloses a screw machine with a feeding anti-jamming device, which comprises a rolling feeding mechanism, a feeding mechanism and a material distributing mechanism, wherein the feeding mechanism conveys materials in the rolling feeding mechanism to the material distributing mechanism for distributing; the feeding anti-blocking device is arranged at the driving mechanism and comprises a position sensor and a controller which are arranged on the driving mechanism, and an alarm is connected to the controller. The utility model discloses a drive actuating cylinder to feed mechanism top and set up the stroke that position sensor comes the inductor to release to judge the screens condition that whether screw form mistake leads to appear, if the screens condition appears then control and drive actuating cylinder and return the normal position and give the chance that equipment was automatic to be revised, if all can't revise many times, then report to the police through the alarm and signal artifical the participation, can effectual improvement divide material efficiency, reduce operator's work load.

Description

Screw machine with feeding anti-blocking device

Technical Field

The utility model relates to a divide material technical field, especially relate to a take screw machine of dead device of pay-off anti-sticking.

Background

At present, divide material screw machine to carry out the unloading with the mode that adopts the slider slip unloading usually, but the incorrect condition of form probably appears in materials such as screw when reacing the blanking mouth, the screens will appear when the slider that transversely promotes like this to trigger the alarm, current device generally adopts the manual work to correct, divides the material again, and is inefficient, and the human cost is high.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the problem in the background art, and the screw machine of taking the dead device of pay-off anti-sticking that provides.

In order to realize the purpose, the utility model adopts the following technical scheme:

a screw machine with a feeding anti-jamming device comprises a rolling feeding mechanism, a feeding mechanism and a distributing mechanism, wherein the feeding mechanism conveys materials in the rolling feeding mechanism to the distributing mechanism for distributing, the distributing mechanism comprises a distributing frame with a blanking port and a blanking slider which is arranged on the distributing frame and driven by a driving mechanism to slide on the distributing frame, at least one blanking channel and at least one discharging channel are respectively arranged on the blanking slider and the distributing frame, the blanking slider slides to the blanking channel from left to right, the blanking port of the distributing mechanism and the discharging channel are arranged on the same straight line for blanking, and each discharging channel is provided with an air inlet used for being connected with an air blowing device; the driving mechanism is provided with a feeding anti-blocking device, the feeding anti-blocking device comprises a position sensor and a controller which are arranged on the driving mechanism, and the controller is connected with an alarm.

The material distributing mechanism comprises a sealing plate arranged at the top of the material distributing frame and a blanking baffle arranged below the sealing plate, a material distributing opening is formed in the sealing plate, the tail end of the material feeding mechanism extends to the material distributing opening, and the material distributing opening extends from the tail end of the material feeding mechanism to one side to form a blanking opening.

The driving mechanism is a driving cylinder arranged on the blanking frame, and one blanking slide block is driven by one or two driving cylinders.

The blanking mechanism is characterized in that a plug-in type baffle is further arranged on the material distributing frame, a strip-shaped socket is arranged on the blanking sliding block at the top, the inner end of the baffle extends into the socket, and a blanking channel on the blanking sliding block at the top can be sealed.

The blanking slide block is a single layer and is provided with a blanking channel, the discharging channel is provided with one blanking channel which is opposite to one blanking port of the material distribution mechanism in the vertical direction, and the blanking slide block slides to the blanking port, the blanking channel and the discharging channel to discharge when the blanking channel, the blanking channel and the discharging channel are positioned on the same straight line.

When the blanking slide block is located at the right limit position, the blanking channel is located below the blanking port of the distributing mechanism and communicated with the discharging channel.

The screw machine comprises a rolling feeding mechanism, a feeding mechanism and a distributing mechanism, wherein the feeding mechanism conveys materials in the rolling feeding mechanism to the distributing mechanism for distributing, the distributing mechanism comprises a distributing frame with a blanking port and a blanking slider which is arranged on the distributing frame and driven by a driving mechanism to slide on the distributing frame, the blanking slider and the distributing frame are respectively provided with at least one blanking channel and at least one discharging channel, the blanking slider slides left and right to the blanking channel, the blanking port of the distributing mechanism and the discharging channel are arranged on the same straight line for discharging, and each discharging channel is provided with an air inlet used for connecting an air blowing device.

The rolling feeding mechanism comprises a storage bin and a rotatable material tray, the feeding mechanism is a direct vibration type feeder, the head end of a material receiving plate of the feeding mechanism extends into the storage bin and extends to the position of the material tray, and the tail end of the material receiving plate of the feeding mechanism extends to the position of the material distributing mechanism.

The material distributing mechanism comprises a sealing plate arranged at the top of the material distributing frame and a blanking baffle arranged below the sealing plate, wherein a material distributing opening is formed in the sealing plate, the tail end of the feeding mechanism extends to the material distributing opening, and the material distributing opening extends to one side or two sides from the tail end of the feeding mechanism to form one or two blanking openings.

The driving mechanism is a driving cylinder arranged on the blanking frame, and one blanking slide block is driven by the driving cylinder.

The blanking device is characterized in that a plug-in baffle is further arranged on the material distributing frame, a strip-shaped socket is arranged on the blanking slide block at the top, and the inner end of the baffle extends into the socket and can seal a blanking channel on the blanking slide block at the top.

The blanking slide block is double-layer and is a first blanking slide block and a second blanking slide block which are stacked, the discharging channels are provided with two blanking ports which are opposite to the two blanking ports of the material distributing mechanism in the vertical direction, the first blanking slide block is provided with two first blanking channels, one first blanking channel can move to the position under the blanking port of the near side, and the second blanking slide block is provided with two second blanking channels, and the two second blanking channels can be communicated with the two discharging channels simultaneously.

A screw machine with a feeding anti-blocking device comprises a rolling feeding mechanism, a feeding mechanism and a distributing mechanism, wherein the feeding mechanism conveys materials in the rolling feeding mechanism to the distributing mechanism for distributing, the distributing mechanism comprises a distributing frame with a blanking port and a blanking slider which is arranged on the distributing frame and driven by a driving mechanism to slide on the distributing frame, at least one blanking channel and at least one discharging channel are respectively arranged on the blanking slider and the distributing frame, the blanking slider slides left and right to the blanking channel, the blanking port of the distributing mechanism and the discharging channel are arranged on the same straight line for blanking, and each discharging channel is provided with an air inlet used for being connected with an air blowing device.

The rolling feeding mechanism comprises a storage bin and a rotatable material tray, the feeding mechanism is a direct vibration type feeder, the head end of a material receiving plate of the feeding mechanism extends into the storage bin and extends to the position of the material tray, and the tail end of the material receiving plate of the feeding mechanism extends to the position of the material distributing mechanism.

The material distributing mechanism comprises a sealing plate arranged at the top of the material distributing frame and a blanking baffle arranged below the sealing plate, wherein a material distributing opening is formed in the sealing plate, the tail end of the feeding mechanism extends to the material distributing opening, and the material distributing opening extends to one side or two sides from the tail end of the feeding mechanism to form one or two blanking openings.

The driving mechanism is a driving cylinder arranged on the blanking frame, the first blanking slide block is driven by one cylinder to be fixed, the second blanking slide block is driven by the left driving cylinder and the right driving cylinder, and the output end of the cylinder and the second blanking slide block are separated.

The blanking device is characterized in that a plug-in baffle is further arranged on the material distributing frame, a strip-shaped socket is arranged on the blanking slide block at the top, and the inner end of the baffle extends into the socket and can seal a blanking channel on the blanking slide block at the top.

The blanking slide blocks are double-layer and are respectively a first blanking slide block and a second blanking slide block which are stacked, two first blanking channels are arranged on the first blanking slide block, four second blanking channels are arranged on the second blanking slide block, and four discharging channels are arranged and are arranged in a staggered mode with the blanking port of the material distribution mechanism; the first blanking channel on the first blanking slide block can move to the position right below the blanking port on the near side, the first blanking channel on the left side can be respectively communicated with the two second blanking channels on the left side through moving, and the first blanking channel on the right side can be respectively communicated with the two second blanking channels on the right side through moving; when the second and fourth second blanking channels are positioned right below the two blanking ports of the material distribution mechanism, the first and third second blanking channels are respectively communicated with the first and third discharging channels; when the first blanking channel and the third blanking channel are positioned right below the two blanking ports of the material distribution mechanism, the second blanking channel and the fourth blanking channel are respectively communicated with the second discharging channel and the fourth discharging channel.

The screw machine comprises a rolling feeding mechanism, a feeding mechanism and a distributing mechanism, wherein the feeding mechanism conveys materials in the rolling feeding mechanism to the distributing mechanism for distributing, the distributing mechanism comprises a distributing frame with a blanking port and a blanking slider which is arranged on the distributing frame and driven by a driving mechanism to slide on the distributing frame, the blanking slider and the distributing frame are respectively provided with at least one blanking channel and at least one discharging channel, the blanking slider slides left and right to the blanking channel, the blanking port of the distributing mechanism and the discharging channel are arranged on the same straight line for discharging, and each discharging channel is provided with an air inlet used for connecting an air blowing device.

The rolling feeding mechanism comprises a storage bin and a rotatable material tray, the feeding mechanism is a direct vibration type feeder, the head end of a material receiving plate of the rolling feeding mechanism extends into the storage bin and extends to the material tray, and the tail end of the material receiving plate extends to the material distributing mechanism.

The material distributing mechanism comprises a sealing plate arranged at the top of the material distributing frame and a blanking baffle arranged below the sealing plate, wherein a material distributing opening is formed in the sealing plate, the tail end of the feeding mechanism extends to the material distributing opening, and the material distributing opening extends from the tail end of the feeding mechanism to two sides to form two blanking openings.

The driving mechanism is a driving cylinder arranged on the blanking frame, and one blanking slide block is driven by one driving cylinder.

The blanking device is characterized in that a plug-in baffle is further arranged on the material distributing frame, a strip-shaped socket is arranged on the blanking slide block at the top, and the inner end of the baffle extends into the socket and can seal a blanking channel on the blanking slide block at the top.

The blanking slide blocks are double-layer and respectively comprise a first blanking slide block and a second blanking slide block, a partition plate is arranged in the middle of the material distributing frame, the two layers of blanking slide blocks are respectively positioned above and below the partition plate, a discharging channel is arranged on the partition plate, and the discharging channel is positioned right below a blanking port of the material distributing mechanism; the first blanking slide block is provided with a first blanking channel, the first blanking slide block can move to enable the first blanking channel to be communicated with the discharging channel, the second blanking slide block is provided with three second blanking channels, and the three second blanking channels of the second blanking slide block can be respectively communicated with the discharging channel when the second blanking slide block moves.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model discloses a to driving actuating cylinder at depiler mechanism top set up the stroke that position sensor comes the inductor to release to judge the screens condition that whether screw form mistake leads to appear, if the screens condition appears then control and drive actuating cylinder and return the normal position and give equipment automatic correction's chance, if all can't revise many times, then report to the police through the alarm and signal artifical the participation, can effectual improvement divide material efficiency, reduce operator's work load.

Drawings

Fig. 1 is a perspective view of embodiment 1.

FIG. 2 is a plan view of example 1.

Fig. 3 isbase:Sub>A sectional view taken along linebase:Sub>A-base:Sub>A of fig. 2.

Fig. 4 is a perspective view of embodiment 2.

FIG. 5 is a plan view of the preferred embodiment 2.

Fig. 6 isbase:Sub>A sectional view taken along linebase:Sub>A-base:Sub>A of fig. 5.

Fig. 7 is a perspective view of embodiment 3.

FIG. 8 is a plan view of example 3.

Fig. 9 isbase:Sub>A sectional view taken along linebase:Sub>A-base:Sub>A in fig. 8.

Fig. 10 is a perspective view of embodiment 4.

FIG. 11 is a plan view of example 4.

Fig. 12 is a cross-sectional view of the feed mechanism.

In the figure: 1-rolling feeding mechanism, 101-charging tray, 102-storage bin, 2-feeding mechanism, 201-receiving plate, 202-retaining ring, 203-flaring plate, 3-distributing mechanism, 301-sealing plate, 302-distributing frame, 303-blanking port, 304-air inlet hole, 305-blanking slide block, 3051-first blanking slide block, 3052-second blanking slide block, 306-discharging channel, 307-spigot, 308-blanking channel, 309-partition plate, 310-first blanking channel, 311-second blanking channel and 4-driving cylinder.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Example 1

A screw machine with a feeding anti-jamming device is disclosed, as shown in fig. 1-3, and comprises a rolling feeding mechanism 1, a feeding mechanism 2 and a material distributing mechanism 3, wherein the feeding mechanism 2 conveys materials in the rolling feeding mechanism 1 to the material distributing mechanism 3 for distributing the materials, the material distributing mechanism 3 comprises a material distributing frame 302 with a blanking port 303 and a blanking slide block 305 which is arranged on the material distributing frame 302 and is driven by a driving mechanism to slide on the material distributing frame 302, the blanking slide block 305 and the material distributing frame 302 are respectively provided with at least one blanking channel 308 and at least one discharging channel 306, the blanking slide block 305 slides to the blanking channel 308, the blanking port 303 of the material distributing mechanism 3 and the discharging channel 306 from left to right to perform blanking when the blanking slide block, the blanking channel 303 and the discharging channel 306 are positioned on the same straight line, and each discharging channel 306 is provided with an air inlet 304 for connecting an air blowing device; the driving mechanism is provided with a feeding anti-blocking device, the feeding anti-blocking device comprises a position sensor and a controller which are arranged on the driving mechanism, and the controller is connected with an alarm. In actual production, only the upper driving cylinder is required to be set as the cylinder with the position sensor.

The rolling feeding mechanism 1 comprises a storage bin and a rotatable material tray, the feeding mechanism 2 is a direct vibration type feeder, the head end of a material receiving plate of the feeding mechanism extends into the storage bin and extends to the material tray, and the tail end of the material receiving plate of the feeding mechanism extends to the distributing mechanism 3.

The material distributing mechanism 3 comprises a sealing plate 301 arranged at the top of the material distributing frame 302 and a blanking baffle plate arranged below the sealing plate 301, a material distributing opening is arranged on the sealing plate 301, the tail end of the material feeding mechanism 2 extends to the material distributing opening, and the material distributing opening extends from the tail end of the material feeding mechanism 2 to one side to form a blanking opening 303.

The driving mechanism is a driving cylinder 4 disposed on the blanking frame 302, and one blanking slider 305 is driven by one or two driving cylinders 4.

The material distributing frame 302 is further provided with an insertion type baffle, the blanking slide block 305 at the top is provided with a strip-shaped socket 307, and the inner end of the baffle extends into the socket 307 and can seal a blanking channel 308 on the blanking slide block 305 at the top.

The blanking slide block 305 is a single layer and is provided with a blanking channel 308, the discharging channel 306 is provided with one and is opposite to one blanking port 303 of the material distribution mechanism 3 in the vertical direction, and the blanking slide block 305 discharges materials when the blanking port 303, the blanking channel 308 and the discharging channel 306 are positioned on the same straight line.

When the blanking slide block 305 is located at the right limit position, the blanking channel 308 is located below the blanking port 303 of the material distribution mechanism 3, and the blanking channel 308 is communicated with the discharging channel 306.

Example 2

A screw machine with a feeding anti-jamming device, as shown in fig. 4-6, which comprises a rolling feeding mechanism 1, a feeding mechanism 2 and a distributing mechanism 3, wherein the feeding mechanism 2 conveys the materials in the rolling feeding mechanism 1 to the distributing mechanism 3 for distributing, the distributing mechanism 3 comprises a distributing frame 302 with a blanking port 303 and a blanking slider 305 arranged on the distributing frame 302 and driven by a driving mechanism to slide on the distributing frame 302, the blanking slider 305 and the distributing frame 302 are respectively provided with at least one blanking channel 308 and at least one discharging channel 306, the blanking slider 305 slides left and right to the blanking channel 308, the blanking port 303 of the distributing mechanism 3 and the discharging channel 306 to perform blanking when the blanking channel 308, the blanking port 303 and the discharging channel 306 are located on the same straight line, and each discharging channel 306 is provided with an air inlet 304 for connecting an air blowing device; the driving mechanism is provided with a feeding anti-blocking device, the feeding anti-blocking device comprises a position sensor and a controller which are arranged on the driving mechanism, and the controller is connected with an alarm. In actual production, only the upper driving cylinder is required to be set as the cylinder with the position sensor.

The rolling feeding mechanism 1 comprises a storage bin and a rotatable material tray, the feeding mechanism 2 is a direct vibration type feeder, the head end of a material receiving plate of the feeding mechanism extends into the storage bin and extends to the material tray, and the tail end of the material receiving plate of the feeding mechanism extends to the distributing mechanism 3.

The material distributing mechanism 3 comprises a sealing plate 301 arranged at the top of the material distributing frame 302 and a blanking baffle plate arranged below the sealing plate 301, wherein a material distributing opening is arranged on the sealing plate 301, the tail end of the material feeding mechanism 2 extends to the material distributing opening, and the material distributing opening extends from the tail end of the material feeding mechanism 2 to one side or two sides to form one or two blanking openings 303.

The driving mechanism is a driving cylinder 4 disposed on the blanking frame 302, and one blanking slider 305 is driven by one driving cylinder 4.

The material distributing frame 302 is further provided with an insertion type baffle, the blanking slide block 305 at the top is provided with a strip-shaped socket 307, and the inner end of the baffle extends into the socket 307 and can seal a blanking channel 308 on the blanking slide block 305 at the top.

The blanking slider 305 is double-layer, the first blanking slider 3051 and the second blanking slider 3052 that set up are piled up respectively, discharging channel 306 is provided with two and its two blanking mouths 303 with feed mechanism 3 are relative in vertical direction, be equipped with two first blanking passageways 310 and one of them first blanking passageway 310 on the first blanking slider 3051 and can move to under the blanking mouth 303 of near side, be equipped with two second blanking passageways 311 and two second blanking passageways 311 on the second blanking slider 3052 and can communicate with two discharging channel 306 simultaneously.

Example 3

A screw machine with a feeding anti-jamming device, as shown in fig. 7-9, which comprises a rolling feeding mechanism 1, a feeding mechanism 2 and a material distributing mechanism 3, wherein the feeding mechanism 2 conveys materials in the rolling feeding mechanism 1 to the material distributing mechanism 3 for distributing the materials, the material distributing mechanism 3 comprises a material distributing frame 302 with a blanking port 303 and a blanking slider 305 arranged on the material distributing frame 302 and driven by a driving mechanism to slide on the material distributing frame 302, the blanking slider 305 and the material distributing frame 302 are respectively provided with at least one blanking channel 308 and at least one discharging channel 306, the blanking slider 305 slides left and right to the blanking channel 308, the blanking port 303 of the material distributing mechanism 3 and the discharging channel 306 to perform blanking when the blanking channel 306 are positioned on the same straight line, and each discharging channel 306 is provided with an air inlet 304 for connecting an air blowing device; the driving mechanism is provided with a feeding anti-blocking device, the feeding anti-blocking device comprises a position sensor and a controller which are arranged on the driving mechanism, and the controller is connected with an alarm. In actual production, only the upper driving cylinder is set to be the cylinder with the position sensor.

The rolling feeding mechanism 1 comprises a storage bin and a rotatable material tray, the feeding mechanism 2 is a direct vibration type feeder, the head end of a material receiving plate of the feeding mechanism extends into the storage bin and extends to the material tray, and the tail end of the material receiving plate of the feeding mechanism extends to the distributing mechanism 3.

The material distributing mechanism 3 comprises a sealing plate 301 arranged at the top of the material distributing frame 302 and a blanking baffle plate arranged below the sealing plate 301, a material distributing opening is arranged on the sealing plate 301, the tail end of the material feeding mechanism 2 extends to the material distributing opening, and the material distributing opening extends from the tail end of the material feeding mechanism 2 to one side or two sides to form one or two blanking openings 303.

The driving mechanism is a driving cylinder 4 arranged on the blanking frame 302, the first blanking slide block 3051 is driven by one cylinder to be fixed, the second blanking slide block 3052 is driven by the left and right driving cylinders 4, and the output end of the cylinder is separated from the second blanking slide block 3052.

The material distributing frame 302 is further provided with an insertion type baffle, the blanking slide block 305 at the top is provided with a strip-shaped socket 307, and the inner end of the baffle extends into the socket 307 and can seal a blanking channel 308 on the blanking slide block 305 at the top.

The blanking slide block 305 is double-layer and is respectively a first blanking slide block 3051 and a second blanking slide block 3052 which are stacked, two first blanking channels 310 are arranged on the first blanking slide block 3051, four second blanking channels 311 are arranged on the second blanking slide block 3052, and four discharging channels 306 are arranged and are arranged in a staggered manner with the blanking port 303 of the material distribution mechanism 3; the first blanking channel 310 on the first blanking slider 3051 can move to the position right below the blanking port 303 on the near side, the first blanking channel 310 on the left side can be respectively communicated with the two second blanking channels 311 on the left side through moving, and the first blanking channel 310 on the right side can be respectively communicated with the two second blanking channels 311 on the right side through moving; when the second and fourth second blanking channels 311 are located right below the two blanking ports 303 of the material distribution mechanism 3, the first and third second blanking channels 311 are respectively communicated with the first and third discharging channels 306; when the first and third second blanking passages 311 are located right below the two blanking ports 303 of the material distributing mechanism 3, the second and fourth second blanking passages 311 are respectively communicated with the second and fourth discharging passages 306.

Example 4

A screw machine with a feeding anti-jamming device, as shown in fig. 10-12, which comprises a rolling feeding mechanism 1, a feeding mechanism 2 and a material distributing mechanism 3, wherein the feeding mechanism 2 conveys materials in the rolling feeding mechanism 1 to the material distributing mechanism 3 for distributing the materials, the material distributing mechanism 3 comprises a material distributing frame 302 with a blanking port 303 and a blanking slider 305 arranged on the material distributing frame 302 and driven by a driving mechanism to slide on the material distributing frame 302, the blanking slider 305 and the material distributing frame 302 are respectively provided with at least one blanking channel 308 and at least one discharging channel 306, the blanking slider 305 slides left and right to the blanking channel 308, the blanking port 303 of the material distributing mechanism 3 and the discharging channel 306 to perform blanking when the blanking channel 306 are positioned on the same straight line, and each discharging channel 306 is provided with an air inlet 304 for connecting an air blowing device; the driving mechanism is provided with a feeding anti-blocking device, the feeding anti-blocking device comprises a position sensor and a controller which are arranged on the driving mechanism, and the controller is connected with an alarm. In actual production, only the upper driving cylinder is required to be set as the cylinder with the position sensor.

The rolling feeding mechanism 1 comprises a storage bin and a rotatable material tray, the feeding mechanism 2 is a direct vibration type feeder, the head end of a material receiving plate of the feeding mechanism extends into the storage bin and extends to the material tray, and the tail end of the material receiving plate of the feeding mechanism extends to the distributing mechanism 3.

The material distributing mechanism 3 comprises a sealing plate 301 arranged at the top of the material distributing frame 302 and a blanking baffle plate arranged below the sealing plate 301, a material distributing opening is arranged on the sealing plate 301, the tail end of the material feeding mechanism 2 extends to the material distributing opening, and the material distributing opening extends from the tail end of the material feeding mechanism 2 to two sides to form two blanking openings 303.

The driving mechanism is a driving cylinder 4 disposed on the blanking frame 302, and one blanking slider 305 is driven by one driving cylinder 4.

The material distributing frame 302 is further provided with an insertion type baffle, the blanking slide block 305 at the top is provided with a strip-shaped socket 307, and the inner end of the baffle extends into the socket 307 and can seal a blanking channel 308 on the blanking slide block 305 at the top.

The blanking slide blocks 305 are double-layer and respectively comprise a first blanking slide block 3051 and a second blanking slide block 3052, the middle part of the material distributing frame 302 is provided with a partition plate 309, the two layers of blanking slide blocks 305 are respectively positioned above and below the partition plate 309, the partition plate 309 is provided with a discharging channel 306, and the discharging channel 306 is positioned right below the blanking port 303 of the material distributing mechanism 3; be equipped with a first blanking passageway 310 on the first blanking slider 3051, first blanking slider 3051 is portable makes first blanking passageway 310 and discharging channel 306 communicate, is equipped with three second blanking passageway 311 on the second blanking slider 3052, and its three second blanking passageway 311 can communicate with discharging channel 306 respectively when second blanking slider 3052 removes.

Example 5

The working principle is as follows: the first step is as follows: the raw materials are poured into a rolling feeding box at the back, and the raw materials are driven by a roller to be discharged to a material receiving rail. The second step: the raw materials are arranged in a vibration mode through the rail, and are fed into the material distribution mechanism in a vibration mode after being arranged. The third step: the material distributing mechanism withdraws through the cylinder and the like, retracts to distribute the material, and the fourth step is that: and (3) finishing material distribution, namely dropping the raw materials into a feeding pipe through a discharging channel, blowing by air pressure, conveying the raw materials to a specified position along a feeding track, and finishing feeding. Wherein the upside drive actuating cylinder when promoting the blanking slider slip, the stroke position that the position sensor inductor promoted, then judge for the screens when can't reach the default, controller control cylinder returns, then action more than the repetition cubic, if wherein certain can reach the default position, then show that the material form is correct, the screens is relieved, if the cubic all can't reach the default position, then report to the police through controller control alarm, adopt artifical mode of correcting to correct again, this process gives equipment many times automatic correction opportunity, just need artifical problem of correcting in order to avoid appearing the screens, can improve the efficiency of dividing the material.

In embodiment 1-4, the rolling feeding mechanism 1 includes a material tray 101 and a material bin 102, the material receiving plates 201 include two material receiving plates 201, one end of each material receiving plate extends into the material bin 102 and extends to the material tray 101, a gap with a fixed distance is formed between the two material receiving plates 201, two flaring plates 203 are arranged at the top ends of the head portions of the two material receiving plates 201, the flaring plates 203 extend outwards to form flares, material blocking rings 202 are further arranged on the two material receiving plates 201, and the material blocking rings 202 are located on the right sides of the flaring plates 203 and are inverted U-shaped rod members.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (9)

1. The utility model provides a take screw machine of dead device of pay-off anti-sticking, its includes roll feed mechanism, feeding mechanism and feed mechanism, and feeding mechanism carries the material in with roll feed mechanism to feed mechanism and divides the material, its characterized in that: the material distribution mechanism comprises a material distribution frame with a blanking port and a blanking slide block which is arranged on the material distribution frame and is driven by a driving mechanism to slide on the material distribution frame, at least one blanking channel and at least one discharging channel are respectively arranged on the blanking slide block and the material distribution frame, the blanking slide block slides to the blanking channel from left to right, the blanking port of the material distribution mechanism and the discharging channel are arranged on the same straight line for blanking, and each discharging channel is provided with an air inlet hole for connecting an air blowing device; the driving mechanism is provided with a feeding anti-blocking device, the feeding anti-blocking device comprises a position sensor and a controller which are arranged on the driving mechanism, and the controller is connected with an alarm.

2. The screw machine with the feeding anti-blocking device as claimed in claim 1, characterized in that: the material distributing mechanism comprises a sealing plate arranged at the top of the material distributing frame and a blanking baffle plate arranged below the sealing plate, a material distributing opening is formed in the sealing plate, the tail end of the material feeding mechanism extends to the material distributing opening, and the material distributing opening extends from the tail end of the material feeding mechanism to one side or two sides to form one or two blanking openings.

3. The screw machine with the feeding anti-jamming device as claimed in claim 1, characterized in that: the driving mechanism is a driving cylinder arranged on the blanking frame, and one blanking sliding block is driven by one or two driving cylinders.

4. The screw machine with the feeding anti-blocking device as claimed in claim 1, characterized in that: the blanking device is characterized in that a plug-in baffle is further arranged on the material distributing frame, a strip-shaped socket is arranged on the blanking slide block at the top, and the inner end of the baffle extends into the socket and can seal a blanking channel on the blanking slide block at the top.

5. The screw machine with the feeding anti-blocking device as claimed in any one of claims 1 to 4, wherein: the blanking slide block is a single layer and is provided with a blanking channel, the discharging channel is provided with one blanking channel which is opposite to one blanking port of the material distribution mechanism in the vertical direction, and the blanking slide block slides to the blanking port, the blanking channel and the discharging channel to discharge when the blanking channel, the blanking channel and the discharging channel are positioned on the same straight line.

6. The screw machine with the feeding anti-jamming device as claimed in claim 5, wherein: when the blanking slide block is positioned at the limit position on the right side, the blanking channel is positioned below the blanking port of the material distribution mechanism and is communicated with the discharging channel.

7. The screw machine with the feeding anti-blocking device as claimed in any one of claims 1 to 4, wherein: the blanking slide block is double-layer and is a first blanking slide block and a second blanking slide block which are stacked, the discharging channels are provided with two blanking ports which are opposite to the two blanking ports of the material distributing mechanism in the vertical direction, the first blanking slide block is provided with two first blanking channels, one first blanking channel can move to the position under the blanking port of the near side, and the second blanking slide block is provided with two second blanking channels, and the two second blanking channels can be communicated with the two discharging channels simultaneously.

8. The screw machine with the feeding anti-jamming device as claimed in any one of claims 1 to 4, wherein: the blanking slide blocks are double-layer and are respectively a first blanking slide block and a second blanking slide block which are arranged in a stacking manner, two first blanking channels are arranged on the first blanking slide block, four second blanking channels are arranged on the second blanking slide block, and four discharging channels are arranged and are arranged in a staggered manner with a blanking port of the material distribution mechanism; the first blanking channel on the first blanking slide block can move to the position right below the blanking port on the near side, the first blanking channel on the left side can be respectively communicated with the two second blanking channels on the left side through movement, and the first blanking channel on the right side can be respectively communicated with the two second blanking channels on the right side through movement; when the second and fourth second blanking channels are positioned right below the two blanking ports of the material distribution mechanism, the first and third second blanking channels are respectively communicated with the first and third discharging channels; when the first blanking channel and the third blanking channel are positioned right below the two blanking ports of the material distribution mechanism, the second blanking channel and the fourth blanking channel are respectively communicated with the second discharging channel and the fourth discharging channel.

9. The screw machine with the feeding anti-jamming device as claimed in any one of claims 1 to 4, wherein: the blanking slide blocks are double-layer and are respectively a first blanking slide block and a second blanking slide block, a partition plate is arranged in the middle of the material distributing frame, the two layers of blanking slide blocks are respectively positioned above and below the partition plate, a discharging channel is arranged on the partition plate, and the discharging channel is positioned right below a discharging port of the material distributing mechanism; the first blanking slide block is provided with a first blanking channel, the first blanking slide block can move to enable the first blanking channel to be communicated with the discharging channel, the second blanking slide block is provided with three second blanking channels, and the three second blanking channels of the second blanking slide block can be respectively communicated with the discharging channel when the second blanking slide block moves.

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