CN211003311U - Full-automatic device for sensing absence or fullness of clamping sheets in vibrating disk - Google Patents

Abstract

The utility model relates to a full-automatic sensing of vibration dish is not had in its interior die-casting material or is expected full device, still includes laser instrument and valve gear, the laser instrument set up on the charging tray through the support, the laser instrument include laser emitter and laser receiver, the laser instrument includes laser instrument I and laser instrument II, laser instrument I sets up in the charging tray upper end, laser instrument II sets up in the charging tray, laser instrument II is located the below of laser instrument I; the valve device is arranged on the material tray through the supporting frame and comprises a transmission groove, a valve, a cylinder and a channel, the transmission groove is connected with an outlet on the material tray through the channel, the channel is arranged on the material tray in an inclined mode, the valve and the cylinder are respectively arranged at the other end of the channel, the other end of the channel is connected with one end of the transmission groove, the channel is communicated with the transmission groove, the valve is connected with the cylinder, the valve is positioned between the channel and the transmission groove, and a clamping piece on the transmission groove is controlled to be transmitted to the channel through opening and closing of the valve.

Description

Full-automatic device for sensing absence or fullness of clamping sheets in vibrating disk

Technical Field

The utility model relates to a monitoring device, especially a full auto-induction of vibration dish is interior to be pressed from both sides the sheet stock and is not had or expect to fill the device.

Background

The problem that the clamping pieces required by a clamping piece full-automatic conveying line cannot be provided due to the fact that the clamping pieces are not filled in a vibration disc (material disc) of the existing vibration type feeder is solved, and the problem that the clamping pieces cannot be normally conveyed to the conveying line due to too many clamping pieces in the vibration disc is solved. The vibration type feeder is relatively large and needs to be in a working state all the time, so that the quantity and the speed of the clips conveyed out are inconvenient to control.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is: provides a vibrating disk full-automatic sensing device for sensing whether the material clamped in the vibrating disk is full or not.

The technical scheme for solving the technical problems is as follows: a vibration disc full-automatic sensing device for sensing the absence or the fullness of a material clamped in a vibration disc comprises a vibration type feeder, wherein the vibration type feeder comprises a base, an electromagnet, a plate spring and a material disc, the material disc is connected with the base through the electromagnet and the plate spring, a track and an outlet are arranged on the material disc, the vibration disc further comprises a laser and a valve device, the laser is arranged on the material disc through a support, the laser comprises a laser transmitter and a laser receiver, the laser comprises a laser I and a laser II, the laser I is arranged at the upper end of the material disc, the laser II is arranged in the material disc, and the laser II is positioned below the laser I; the valve device is arranged on the material tray through the supporting frame, the valve device comprises a transmission groove, a valve, a cylinder and a channel, the transmission groove is connected with an outlet on the material tray through the channel, the channel is arranged on the material tray in an inclined mode, one end of the channel is communicated with the outlet of the material tray, the valve and the cylinder are respectively arranged at the other end of the channel, the other end of the channel is connected with one end of the transmission groove, the channel is communicated with the transmission groove, the valve is connected with the cylinder, the valve is positioned between the channel and the transmission groove, and a clamping piece on the transmission groove is transmitted to the channel through opening and closing control of the valve.

The utility model discloses a further technical scheme is: still include induction system, induction system include sensor, response stick, detection stick, rotary disk and rotation axis, the sensor passes through the fixed bolster and sets up on the charging tray, and this sensor is located the charging tray top, the sensor includes sensor I and sensor II, and sensor I installs on the fixed bolster with vertical mode, and sensor II installs on the fixed bolster with the slope mode, forms 47 degrees contained angles between sensor II and the sensor I, the rotary disk passes through the rotation axis and the bearing sets up on the fixed bolster, and this rotary disk is located the sensor below, response stick and detection stick are fixed respectively and set up on the rotary disk, and when not having the clamping piece in the charging tray, it is vertical state to detect the stick, and the response stick is located the below of sensor I this moment.

Since the technical scheme is used, the utility model relates to a full auto-induction of vibration dish is inside it presss from both sides the sheet stock and is not had or expect to fill the device, has following beneficial effect:

1. the utility model discloses a draw together laser instrument and valving, when the laser receiver who is located the laser instrument of top (laser instrument I promptly) does not accept the signal, it has higher to show the position of clamping piece in the charging tray, and it is more to explain the clamping piece in the charging tray, and for the full state of material this moment, can not have added the clamping piece. When the laser receiver of the laser (i.e. the laser ii) located below receives the signal, it indicates that the position of the clip in the material tray is low, which indicates that there is little or no clip in the material tray, and at this time, it is in a material-free state, and it is necessary to add the clip to the material tray. When the laser receiver of the laser positioned above receives the signal, and the laser receiver of the laser positioned below does not receive the signal, the quantity of the clamping piece is in a proper state. In the production line, the vibration feeder can be an initial feeding device or a temporary storage and transfer device of a middle semi-processed clamping piece, so that the clamping piece can circularly enter the material tray and then is transferred out of the material tray. The clamping pieces need to be conveyed continuously, some clamping pieces which are not ready to be processed in conveying can be continuously conveyed back to the material disc, whether the material disc is full or not can be conveniently monitored through the laser, and then the clamping pieces can be timely added or stopped to be continuously conveyed back to the material disc.

2. The utility model discloses still include valve gear, the clamping piece in the charging tray removes the transmission tank under the vibrations of charging tray on, the clamping piece constantly conveys the transmission tank on, and in the reentrant next equipment, when the clamping piece that the charging tray conveying came out was more, perhaps when next equipment needs short pause, can get into the speed in transmission tank through the valve control clamping piece. The trouble of stopping the transmission of the clamping piece by closing the vibration type feeder in the prior art is solved, because the vibration type feeder is large, the use of the vibration type feeder is affected if the vibration type feeder is frequently stopped and opened, the vibration type feeder is easy to damage if the vibration type feeder is frequently stopped and opened, and the influence is brought to the later repair and work.

The technical features of a full-automatic sensing device for sensing the absence or fullness of material clamped in a vibrating plate according to the present invention will be further described with reference to the drawings and specific embodiments of the specification.

Drawings

FIG. 1: the structure of the vibration feeder is shown schematically.

FIG. 2: the structure of the valve device is shown schematically.

FIG. 3: the installation state of the sensor is shown schematically.

FIG. 4: the installation state of the sensor is schematically shown (the sectional state of A-A in FIG. 3).

FIG. 5: the structure of the vibration feeder is shown schematically.

FIG. 6: the connection state of the vibration feeder and the valve device is shown schematically.

FIG. 7: the structure of the induction device is shown schematically.

FIG. 8: the structure of the induction device is shown schematically.

In the above drawings, the respective reference numerals are explained as follows:

1-vibration type feeder, 11-tray outlet, 2-laser, 21-laser I, 22-laser II, 3-valve device, 31-transmission groove, 32-valve, 33-cylinder, 34-channel, 4-bracket, 5-sensor, 51-sensor I, 52-sensor II, 6-sensing rod, 7-rotating disk, 8-rotating shaft, 9-detecting rod and 10-fixed bracket.

Detailed Description

The utility model provides a full-automatic response of vibration dish is inside it to press from both sides no or full device of material of piece, includes vibrations formula feeder, this vibrations formula feeder can be current vibrations formula feeder, vibrations formula feeder includes base, electro-magnet, leaf spring and charging tray, the charging tray passes through electro-magnet and leaf spring and base connection, is equipped with track and export on the charging tray. Still include laser instrument and valve gear, the laser instrument pass through the support and set up on the charging tray, the laser instrument include laser emitter and laser receiver, the laser instrument includes laser instrument I and laser instrument II, laser instrument I sets up in the charging tray upper end, laser instrument II sets up in the charging tray, laser instrument II is located the below of laser instrument I. A laser device setting through hole is arranged on the side wall of the material tray, and the laser device can be arranged in the laser device setting through hole through a support. The valve device is arranged on the material tray through the supporting frame, the valve device comprises a transmission groove, a valve, a cylinder and a channel, the transmission groove is connected with an outlet on the material tray through the channel, the channel is arranged on the material tray in an inclined mode, one end of the channel is communicated with the outlet of the material tray, the valve and the cylinder are respectively arranged at the other end of the channel, the other end of the channel is connected with one end of the transmission groove, the channel is communicated with the transmission groove, the valve is connected with the cylinder, the valve is positioned between the channel and the transmission groove, and a clamping piece on the transmission groove is transmitted to the channel through opening and closing control of the valve. During the use, open the laser line, on the clamping piece in the charging tray moved the passageway under the vibrations of charging tray, the clamping piece constantly conveys on the transmission groove, reentrant next equipment, when the clamping piece that the charging tray conveying was come out was more, perhaps when next equipment needs short pause, can get into the speed in transmission groove through valve control clamping piece. The trouble of stopping the transmission of the clamping piece by closing the vibration type feeder in the prior art is solved, because the vibration type feeder is large, the use of the vibration type feeder is affected if the vibration type feeder is frequently stopped and opened, the vibration type feeder is easy to damage if the vibration type feeder is frequently stopped and opened, and the influence is brought to the later repair and work. When the laser receiver of the laser (i.e. the laser i) positioned above cannot receive the signal, it indicates that the position of the clip in the material tray is higher, which indicates that there are more clips in the material tray, and at this time, the material tray is in a full state, and no clip needs to be added. When the laser receiver of the laser (i.e. the laser ii) located below receives the signal, it indicates that the position of the clip in the material tray is low, which indicates that there is little or no clip in the material tray, and at this time, it is in a material-free state, and it is necessary to add the clip to the material tray. When the laser receiver of the laser positioned above receives the signal, and the laser receiver of the laser positioned below does not receive the signal, the quantity of the clamping piece is in a proper state. The channel is a rectangular structure which can just contain the clamping piece, the clamping piece is continuously conveyed to the channel and then enters the conveying groove, if the valve is closed, the clamping piece cannot be conveyed to the conveying groove, at the moment, the clamping piece is blocked at the inlet of the channel, namely, the outlet of the material tray is blocked, and the crowded clamping piece can continuously drop into the material tray.

The feeding device comprises a sensor, a sensing rod, a detection rod, a rotating disc and a rotating shaft, wherein the sensor is arranged on a charging tray through a fixed support, the sensor is positioned above the charging tray, the sensor comprises a sensor I and a sensor II, the sensor I is vertically arranged on the fixed support, the sensor II is obliquely arranged on the fixed support, a 47-degree included angle is formed between the sensor II and the sensor I, the rotating disc is arranged on the fixed support through the rotating shaft and a bearing, the rotating disc is positioned below the sensor I, the sensing rod and the detection rod are respectively and fixedly arranged on the rotating disc, when no clip exists in the charging tray, the detection rod is in a vertical state, the sensing rod is positioned below the sensor I, when the sensing rod rotates to the position of the sensor I, the sensing rod sends a signal to a detection rod P L C, when no material is sent through a programming P L C, when a clip exists in the charging tray, the clip rotates to an outlet along with the vibration of the charging tray, when the clip exists, the clip is in the full material state, the clip in the charging tray contacts the detection rod and pushes the detection rod to push the detection rod to rotate to drive the detection rod to rotate, the detection rod is mounted on the rotating disc I, the rotating disc is mounted on the rotating disc I, the sensing rod is mounted on the rotating disc I, the rotating disc II, the sensing rod is mounted on the rotating disc II, the rotating disc I, the sensor II, the rotating disc II, the sensor.

Claims (2)

1. The utility model provides a full auto-induction of vibration dish is inside to press from both sides sheet stock and is not had or expect to fill up device, includes vibrations formula dispenser, and this vibrations formula dispenser includes base, electro-magnet, leaf spring and charging tray, the charging tray passes through electro-magnet and leaf spring and pedestal connection, is equipped with track and export, its characterized in that on the charging tray: the laser device comprises a laser emitter and a laser receiver, the laser device comprises a laser I and a laser II, the laser I is arranged at the upper end of the material tray, the laser II is arranged in the material tray, and the laser II is positioned below the laser I; the valve device is arranged on the material tray through the supporting frame, the valve device comprises a transmission groove, a valve, a cylinder and a channel, the transmission groove is connected with an outlet on the material tray through the channel, the channel is arranged on the material tray in an inclined mode, one end of the channel is communicated with the outlet of the material tray, the valve and the cylinder are respectively arranged at the other end of the channel, the other end of the channel is connected with one end of the transmission groove, the channel is communicated with the transmission groove, the valve is connected with the cylinder, the valve is positioned between the channel and the transmission groove, and a clamping piece on the transmission groove is transmitted to the channel through opening and closing control of the valve.

2. The full-automatic sensing device for the absence or the fullness of the clamped materials in the vibrating disk according to claim 1, wherein: still include induction system, induction system include sensor, response stick, detection stick, rotary disk and rotation axis, the sensor passes through the fixed bolster and sets up on the charging tray, and this sensor is located the charging tray top, the sensor includes sensor I and sensor II, and sensor I installs on the fixed bolster with vertical mode, and sensor II installs on the fixed bolster with the slope mode, forms 47 degrees contained angles between sensor II and the sensor I, the rotary disk passes through the rotation axis and the bearing sets up on the fixed bolster, and this rotary disk is located the sensor below, response stick and detection stick are fixed respectively and set up on the rotary disk, and when not having the clamping piece in the charging tray, it is vertical state to detect the stick, and the response stick is located the below of sensor I this moment.

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