CN210527628U - Transfer pipette feeding equipment - Google Patents

Abstract

The utility model discloses a pipette feeder, comprises a workbench, be provided with vibration dish and pay-off base on the workstation, the vibration dish with be provided with straight oscillator between the pay-off base, be provided with the storage track on the pay-off base, be provided with the storage recess on the storage track, be provided with the apron on the pay-off base, apron one side is provided with first cylinder, first cylinder drives the apron is in back and forth movement on the pay-off base, the apron center be provided with the corresponding material loading through-hole of storage recess, the pay-off base is kept away from one side of straight oscillator is provided with the limiting plate, limiting plate part sets up in the storage recess, one side of limiting plate is provided with the second cylinder. The utility model discloses simple structure, but automatic feeding, pay-off in-process material can not the departure track, can not drive other materials when getting the material and rise.

Description

Transfer pipette feeding equipment

Technical Field

The utility model relates to a material feeding unit field, concretely relates to pipette feeding equipment.

Background

The pipette is a measuring device for accurately transferring a certain volume of solution, the middle of the pipette is provided with a large-expansion part of a slender glass tube, the lower end of the pipette is in a sharp mouth shape, and a marking line is engraved at the neck of the upper end of the pipette and is a mark for the transferred accurate volume. The existing pipette feeding equipment mostly adopts manual feeding, wastes time and labor, and when tools are used for taking materials after the materials are fed, because gaps among the materials are small, a material taking mechanism can take up peripheral workpieces, so that an instrument stops running, and the danger coefficient is high.

Disclosure of Invention

The to-be-solved technical problem of the utility model is to provide a pipette feeding equipment, but automatic feeding, pay-off in-process material can not the departure track, can not drive other materials when getting the material and rise.

In order to solve the technical problem, the utility model provides a pipette feeder, comprises a workbench, be provided with vibration dish and pay-off base on the workstation, the vibration dish with be provided with the straight oscillator between the pay-off base, be provided with the storage track on the pay-off base, be provided with the storage recess on the storage track, be provided with the apron on the pay-off base, apron one side is provided with first cylinder, first cylinder drives the apron is in back and forth movement on the pay-off base, the apron center be provided with the corresponding material loading through-hole of storage recess, the pay-off base is kept away from one side of straight oscillator is provided with the limiting plate, spacing plate part sets up in the storage recess, one side of limiting plate is provided with the second cylinder.

Furthermore, a feeding track corresponding to the storage groove is arranged on the straight vibration device, a pressing plate is arranged on the feeding track, and a pressing plate fixing block is arranged between the adjacent pressing plates.

Further, an ion fan is arranged on one side of the first air cylinder.

Further, a sensor is arranged on the feeding base.

Furthermore, an error detection mechanism is arranged at the position where the vibration disc is connected with the straight vibration device, and the error detection mechanism comprises an up-down lifting cylinder and a material taking hand arranged on the up-down lifting cylinder.

Furthermore, an optical fiber fixing seat is arranged at the position where the vibration disc is connected with the straight vibration device, and an optical sensor is arranged at the position, corresponding to the feeding track, on the optical fiber fixing seat.

The utility model has the advantages that: 1. the device adopts a form that the cover plate is matched with the feeding base, the cover plate is utilized to cover the feeding base during feeding, so that a workpiece is ensured not to fly out of the device, the cover plate is moved when the material is required to be taken, the feeding through hole in the cover plate corresponds to the material storage groove in the feeding base, and the material is taken out by the material taking mechanism at the moment.

2. A limiting plate is arranged on one side of the material storage groove, the limiting plate occupies 1-2 cm of the material storage groove during feeding, the limiting plate is pushed out when feeding is completed, a gap of 1-2 cm exists in the material storage groove, the material taking mechanism is integrally translated by 1-2 cm after taking the materials by the material taking mechanism during material taking, then the materials are taken out, and the situation that other materials cannot be driven to ascend together during material taking is guaranteed.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

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

The reference numbers in the figures illustrate: 2. vibration dish, 3, straight oscillator, 31, pay-off track, 32, clamp plate, 33, clamp plate fixed block, 4, pay-off base, 41, storage recess, 42, first cylinder, 43, sensor, 44, ion fan, 45, storage track, 5, apron, 51, material loading through-hole, 6, limiting plate, 61, second cylinder, 7, error detection mechanism, 71, oscilaltion cylinder, 72, get the material hand, 8, optic fibre fixing base, 81, optical sensor.

Detailed Description

The present invention is further described with reference to the following drawings and specific embodiments so that those skilled in the art can better understand the present invention and can implement the present invention, but the embodiments are not to be construed as limiting the present invention.

Referring to fig. 1 to 2, an embodiment of a pipette feeding device of the present invention comprises a working table, wherein a vibration disc 2 and a feeding base 4 are arranged on the working table, a linear vibrator 3 is arranged between the vibration disc 2 and the feeding base 4, a storage rail 45 is arranged on the feeding base 4, a storage groove 41 is arranged on the storage rail 45, materials conveyed from the vibration disc 2 and the linear vibrator 3 are conveyed into the storage groove 41, a cover plate 5 is arranged on the feeding base 4, a first cylinder 42 is arranged on one side of the cover plate 5, the first cylinder 42 drives the cover plate 5 to move back and forth on the feeding base 4, a feeding through hole 51 corresponding to the storage groove 41 is arranged in the center of the cover plate 5, a limiting plate 6 is arranged on one side of the feeding base 4 away from the linear vibrator 3, the limiting plate 6 is arranged in a gap between the storage groove 41 and the cover plate 5, the top of the storage plate 6 is arranged in the storage groove, one side of the limit plate 6 is provided with a second air cylinder 61, and the second air cylinder 61 can carry the limit plate 6 to move back and forth in the storage groove 41.

When the feeding device is used, materials are fed into the material storage groove 41 on the feeding base 4 by using the vibrating disc 2 and the straight vibrator 3, the solid part of the cover plate 5 covers the material storage groove 41 at the moment, so that the materials in the material storage groove 41 cannot fly out of the groove, the normal operation of the device can be ensured, when the feeding device is used, part of the structure of the limit plate 6 extends into the material storage groove 41, the position of 1-2 cm in the material storage groove 41 is vacant, after the discharging is finished, the first air cylinder 42 is started to move the cover plate 5, the feeding through hole 51 on the cover plate 5 corresponds to the material storage groove 41, the second air cylinder 61 moves at the moment to drive the limit plate 6 to move out of the material storage groove 41, then the manipulator extends into the feeding through hole 51 to start to take the materials, and the manipulator easily drives other materials to rise together when the manipulator finishes taking the materials from the material storage groove 41, so that the materials are damaged or, the machine is caused to be in fault during operation, and the existence of the limiting plate 6 and the control of 1-2 cm in the material storage groove 41 are adopted, so that the manipulator does not ascend firstly after taking materials, firstly moves 1-2 cm transversely to the gap position, ensures that the materials fixed on the manipulator are separated from the materials which are not fixed on the manipulator, and then ascends again, does not drive other materials to ascend together, and ensures the continuity and stability of the operation of the instrument.

The straight vibrator 3 is provided with feeding rails 31 corresponding to the storage grooves 41, each rail 31 corresponds to one storage groove 41, the feeding rails 31 are provided with pressing plates 32, the pressing plates 32 are used for limiting the positions of pipettes and placing the pipettes to be clamped in the conveying process, and pressing plate fixing blocks 33 are arranged between the adjacent pressing plates 32 and used for fixing the positions of the pressing plates 32.

An ion fan is arranged on one side of the first air cylinder, so that the static electricity removing function is achieved, and the normal operation of the instrument is prevented from being influenced by static electricity pollution and damage.

The feeding base 4 is provided with a sensor 43 for sensing the position and quantity of the materials in the material storage groove 41 to prepare for the next material taking.

The position that vibration dish 2 and straight oscillator 3 meet is provided with error detection mechanism and optic fibre fixing base 8, error detection mechanism includes oscilaltion cylinder 71 and gets material hand 72, the position that corresponds with every pay-off track 31 on the optic fibre fixing base 8 is provided with light sensor 81, the operational aspect of every track pipette is responded to light sensor 81, if certain track is blocked the stop motion by the pipette at vibration dish 2 and 3 junctures of straight oscillator, light sensor 81 just begins the transmission data, oscilaltion cylinder 71 drives and gets material hand 72 this moment, take out the pipette of card at vibration dish 2 and 3 junctures of straight oscillator, let the device continue normal operating.

The above-mentioned embodiments are merely preferred embodiments for fully illustrating the present invention, and the scope of the present invention is not limited thereto. Equivalent substitutes or changes made by the technical personnel in the technical field on the basis of the utility model are all within the protection scope of the utility model. The protection scope of the present invention is subject to the claims.

Claims (6)

1. The utility model provides a pipette feeding equipment, a serial communication port, which comprises a workbench, be provided with vibration dish and pay-off base on the workstation, vibration dish with be provided with straight oscillator between the pay-off base, be provided with the storage track on the pay-off base, be provided with the storage recess on the storage track, be provided with the apron on the pay-off base, apron one side is provided with first cylinder, first cylinder drives the apron is in back and forth movement on the pay-off base, the storage recess corresponds be provided with the material loading through-hole on the apron center, the pay-off base is kept away from one side of straight oscillator is provided with the limiting plate, the limiting plate sets up the storage recess with in the space between the apron, the top of limiting plate sets up in the storage recess, one side of limiting plate is provided with the second cylinder.

2. The pipette feeding device according to claim 1, wherein the linear vibrator is provided with a feeding track corresponding to the storing pocket, the feeding track is provided with a pressing plate, and a pressing plate fixing block is arranged between adjacent pressing plates.

3. The pipette feed device of claim 1 wherein the first cylinder is provided with an ion blower on one side.

4. The pipette feed device of claim 1 wherein the feed base has a sensor disposed thereon.

5. The pipette feeder of claim 1, wherein an error detection mechanism is disposed at a location where the vibration tray interfaces with the linear vibrator, the error detection mechanism comprising an up-down cylinder and a material pick-up hand disposed on the up-down cylinder.

6. The pipette feeding apparatus of claim 2 wherein a fiber holder is disposed at a position where the vibration plate is connected to the linear vibrator, and a light sensor is disposed at a position on the fiber holder corresponding to the feeding track.

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