CN209758538U - Automatic glass slide unloading device - Google Patents

Abstract

The utility model relates to the field of slide marking, in particular to an automatic slide unloading device, which comprises a transmission mechanism and a plurality of loading boxes, wherein the loading boxes are arranged on the transmission mechanism, and the transmission mechanism can intermittently drive the loading boxes to slide; the opening of the loading box faces upwards. The automatic glass slide unloading device can improve the marking efficiency of the glass slide.

Description

Automatic glass slide unloading device

Technical Field

The utility model relates to a slide glass field of marking, concretely relates to automatic uninstallation device of slide glass.

background

A slide is a glass or quartz piece used to hold things while they are viewed with a microscope. When a specimen is made, a cell or tissue section is placed on a slide and a cover slip is placed thereon for observation. Because each slide can only carry one sample, the number of slides required in the actual use process is large, and the slides need to be marked for the convenience of recording and distinguishing samples in different slides.

At present, a slide marking machine is generally used for marking on slides, so that a plurality of slides are numbered, the numbered slides are directly used during use, and the serial numbers of the slides and samples are correspondingly recorded, so that subsequent inquiry on the samples can be facilitated. In order to improve efficiency, when the slide marking machine works, a plurality of slides are generally marked in batches, and after the slide marking machine finishes marking one slide, the marked slide is immediately output, and then the marking of the next slide is started, so that an unloading device needs to be placed at the outlet of the slide marking machine to collect the marked slide.

For example, although the slide marking machine of leica, germany is provided with the unloading device, the unloading device is in a tray shape, a plurality of marked slides are directly and flatly laid on the unloading device, gaps between adjacent slides are small, and when the slides need to be used, the slides on the unloading device need to be taken out one by one, so that the slide marking machine is inconvenient to use. And the number of the glass slides that can be accommodated by the unloading device is limited, when the unloading device is full, the glass slides marked in the glass slide marking machine can not fall out smoothly, the glass slide marking machine reports errors and stops marking, and at the moment, the glass slides on the unloading device need to be taken out manually and then can be marked continuously. Because the continuous slide that has falls to the uninstallation device, also can't take out the slide simultaneously at slide number printer working process staff, and can only take out when slide number printer stop work, when the slide number that needs the mark is more, every time fill the uninstallation device, slide number printer just stops to number, and this can prolong the required time of the mark of accomplishing all slides undoubtedly, leads to the mark inefficiency.

SUMMERY OF THE UTILITY MODEL

an object of the utility model is to provide an automatic uninstallation device of slide glass to improve slide glass mark efficiency.

In order to achieve the above purpose, the technical scheme of the utility model is that: the automatic slide glass unloading device comprises a transmission mechanism and a plurality of loading boxes, wherein the loading boxes are arranged on the transmission mechanism, and the transmission mechanism can intermittently drive the loading boxes to slide; the opening of the loading box faces upwards.

The scheme has the following beneficial effects:

When the slide glass marking machine works, the device can be arranged below the outlet of the slide glass marking machine, and the loading box at the end part is aligned with the outlet of the slide glass marking machine, so that the slide glass marked can directly fall into the loading box at the end part to be stored. Because drive mechanism can intermittent type's drive load the box, when drive mechanism drives and loads the box, accomodate the loading box that has the slide and moved thereupon, next loading box moves to slide glass number printer's export below, realizes the automatic change of the loading box that is located slide glass number printer export below, reduces staff's work load. And when the loading box is moved, the loading box filled with the glass slides is moved to the position staggered with the glass slide marking machine, the loading box can be taken out in the working process of the glass slide marking machine, the work of the glass slide marking machine cannot be influenced, and therefore the glass slide marking efficiency can be improved.

And (II) each loading box in the device can contain a plurality of glass slides, and the loading boxes can be taken out one by one, so that the taking-out efficiency of the glass slides is high. Secondly, the glass slide in the device is positioned in the loading box, when the glass slide is taken out, the hand of a worker can not be directly contacted with the glass slide, and the fingers of the worker are prevented from being scratched by the thinner glass slide in the process of taking out the glass slide.

In a preferred embodiment, as a further improvement of the basic embodiment, the transmission mechanism includes a transmission base and a transmission assembly, and the transmission assembly is located in the transmission base; the transmission base is provided with a shell, the loading box is positioned in the shell and can be driven by the transmission assembly, and the top of the shell is provided with a feeding hole which can be aligned with the inner cavity of the loading box.

The beneficial effect of this scheme does: the shell can play spacing and the effect of sheltering from to loading the box, avoids other external article to cause the hindrance to the slip of loading the box, avoids loading the box simultaneously and emptys at the slip in-process, avoids loading the slide glass in the box and pours out.

In a second preferred embodiment, as a further improvement to the first preferred embodiment, the housing is fixed to the transmission base, and a discharge port is formed in a side wall of the housing parallel to the sliding direction of the loading box.

The scheme has the advantages that the shell cannot be separated from the transmission base when being subjected to transverse force, and a better protection effect can be provided for the loading box.

And in the third preferred scheme, as a further improvement on the second preferred scheme, the shell is provided with a discharge port cover capable of sealing the discharge port, and the shell, the discharge port cover and the transmission base are all provided with a shading layer.

the glass slide marking machine has the advantages that after the glass slide marking machine marks the glass slide, the glass slide needs to be exposed, the light shielding layer in the glass slide marking machine can play a role in blocking light, and the influence of strong light on human eyes is avoided.

Preferably, as a further improvement to the preferably third, the transmission assembly includes a motor and a conveyor belt, the motor intermittently drives the conveyor belt to rotate, and the plurality of loading boxes are sequentially placed on the conveyor belt along the length direction of the conveyor belt.

the scheme has the beneficial effects that the conveying belt intermittently drives the loading box to move, the conveying of the conveying belt is stable, and the loading box can be prevented from toppling.

In a fifth preferred embodiment, as a further improvement to the fourth preferred embodiment, the conveyor belt is provided with slots at intervals for accommodating the loading cassettes.

The scheme has the beneficial effects that the clamping groove has a limiting effect on the loading box, and the loading box is further prevented from toppling. Simultaneously, the draw-in groove also plays the limiting displacement to the position of loading the box, guarantees that the distance between the adjacent box that loads is the same, and the conveyer belt rotates once and can make next box that loads slide to the feed inlet below, and does not need the manual work to align, further reduces staff's work load.

Preferably, the third container is provided with a plurality of through grooves, and the through grooves are vertically arranged on the two opposite side walls of the loading box.

The scheme has the beneficial effects that when the glass slide in the loading box is taken out, the fingers can directly contact with the glass slide through the through grooves, so that the glass slide is convenient to take out.

Preferably, the top of the two opposite side walls of the loading box are not at the same height.

The scheme has the beneficial effects that when the loading box is placed, the side walls with unequal heights at the tops are parallel to the side wall with the discharge port on the shell, and because the glass slide slides out of the glass slide marking machine at a certain angle with the horizontal plane, the tops of the two opposite side walls of the loading box in the device are not at the same height, the lower side wall cannot block the discharge port of the glass slide marking machine, and the higher side wall plays a limiting role in limiting the glass slide which gradually slides out, so that the glass slide is prevented from being separated from the loading box.

Drawings

Fig. 1 is a schematic structural view of a discharge port cover on a housing of embodiment 1 of the present invention when the discharge port cover is completely opened;

FIG. 2 is a schematic view of the inlet cap of FIG. 1 when open;

FIG. 3 is a schematic structural view of the transmission assembly of FIG. 1;

FIG. 4 is a schematic view of the cassette of FIG. 1;

FIG. 5 is a view showing a state in which slide glasses are accommodated in the cassette of FIG. 3;

Fig. 6 is a schematic structural view of a transmission assembly in embodiment 2 of the present invention.

Detailed Description

The following is further detailed by way of specific embodiments:

Reference numerals in the drawings of the specification include: the glass slide loading device comprises a shell 1, a feeding hole 11, a discharging hole cover 12, a transmission base 2, a conveyor belt 3, a clamping groove 31, a belt wheel 32, a rotating gear 33, an incomplete gear 34, a rack 35, a loading box 4, a through groove 41 and a glass slide 5.

example 1 is substantially as shown in figures 1 and 2 of the accompanying drawings:

Slide glass automatic discharge device, including drive mechanism and four loading boxes 4, drive mechanism includes transmission base 2 and drive assembly, is equipped with opening holding tank up in the transmission base 2, and drive assembly is located the holding tank. As shown in fig. 3, the transmission assembly in this embodiment includes a motor and a transmission belt 3, belt pulleys 32 are disposed on the left and right sides of the accommodating groove, the belt pulleys 32 are rotatably connected to the transmission base 2, the transmission belt 3 is wound around the two belt pulleys 32, and the transmission belt 3 and the two belt pulleys 32 form a transmission belt mechanism. The motor passes through the bolt fastening in the holding tank, and the key connection has incomplete gear 34 on the output shaft of motor, and incomplete gear 34 includes smooth section and gear section, and coaxial key connection has rotating gear 33 with the gear section meshing on the left band pulley 32, and when gear section and rotating gear 33 meshing, the motor drove conveyer belt 3 and rotates.

the welding has shell 1 on the transmission base 2, and four loading boxes 4 are located shell 1 to from a left side to the right side arranges in proper order on conveyer belt 3, and 1 top of shell is equipped with feed inlet 11, and feed inlet 11 is located the middle part of 1 roof of shell, and when loading box 4 and removing to the feed inlet 11 below, slide 5 falls into loading box 4 from feed inlet 11. A plurality of clamping grooves 31 are formed in the conveyor belt 3 at intervals, and when the loading box 4 is installed, the bottom of the loading box 4 is clamped into the clamping grooves 31. The antetheca of shell 1 is equipped with the discharge gate, and in order to seal the discharge gate, the antetheca of shell 1 is equipped with discharge gate lid 12, and discharge gate lid 12 top in this embodiment is articulated with shell 1. The outer wall of shell 1, ejection of compact flap 12 and transmission case outer wall all are fixed with the light shield layer, and the highlight when avoiding exposing influences staff's eyes, and the light shield layer of this embodiment adopts the formation of light tight board. The top of the side wall of the front side of the cassette 4 is lower than the top of the side wall of the rear side of the cassette 4. As shown in fig. 4 and 5, in order to facilitate taking out the slide 5 from the loading box 4, the left and right side walls of the loading box 4 are vertically provided with through slots 41.

The apparatus of this embodiment unloads the slide 5 as follows:

The empty loading cassette 4 is manually mounted on the conveyor belt 3 with the rightmost loading cassette 4 positioned directly below the feed port 11, and the device is then moved to below the slide marking machine with the outlet of the slide marking machine aligned with the feed port 11, and the marked slides 5 fall out of the outlet of the slide marking machine and into the loading cassette 4 through the feed port 11.

The motor is turned on while the device is moved under the slide 5, the motor intermittently drives the conveyor belt 3 to rotate, the loading box 4 slides to the right, the second loading box 4 from right to left moves under the feed port 11, and the marked slide 5 falls into the second loading box 4 at the moment. By so circulating, the loading box 4 can be automatically replaced, the automatic replacement of the loading box below the outlet of the slide marking machine is realized, and the automatic unloading of the marked slide 5 is realized.

When the loading box 4 containing the glass slides 5 needs to be taken out, the discharge port cover 12 is manually rotated, the discharge port is opened, and the loading box 4 containing the glass slides 5 is taken out from the discharge port.

Example 2 is substantially as shown in figure 6:

The drive assembly in this embodiment is different from the drive assembly in embodiment 1, and the drive assembly in this embodiment includes motor and rack 35, and the motor passes through the bolt fastening in the left side of transmission base 2, and rack 35 is located the holding tank, and the holding tank left wall is run through to rack 35 left end, and the right-hand member is located and loads box 4 left side. The rack 35 is connected with the transmission base 2 in a sliding manner, the incomplete gear 34 is connected to an output shaft of the motor in a key manner, the incomplete gear 34 in the embodiment is the same as the incomplete gear 34 in the embodiment 1, and when a gear section of the incomplete gear 34 is meshed with the rack 35, the rack 35 is driven to slide rightwards, so that the loading box 4 is pushed to slide rightwards.

When the device of this embodiment unloads the slide 5, the motor drives the rack 35 to slide rightward to push the loading box 4, so as to complete the replacement of the loading box 4, and the rest of the process is the same as that of embodiment 1, and the description is omitted in this embodiment.

the foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, without departing from the concept of the present invention, several modifications and improvements can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the present invention and the practicability of the patent. The technology, shape and construction parts which are not described in the present invention are all known technology.

Claims (8)

1. Slide glass automatic discharge device, its characterized in that: the loading box is arranged on the transmission mechanism, and the transmission mechanism can intermittently drive the loading box to slide; the opening of the loading box faces upwards.

2. The slide automatic unloading device of claim 1, wherein: the transmission mechanism comprises a transmission base and a transmission assembly, and the transmission assembly is positioned in the transmission base; the transmission base is provided with a shell, the loading box is positioned in the shell and can be driven by the transmission assembly, and the top of the shell is provided with a feeding hole which can be aligned with the inner cavity of the loading box.

3. The slide automatic unloading device of claim 2, wherein: the shell is fixed with the transmission base, and a discharge hole is formed in the side wall, parallel to the sliding direction of the loading box, of the shell.

4. The automatic slide unloading device according to claim 3, wherein: the shell is provided with a discharging opening cover capable of sealing the discharging opening, and the shell, the discharging opening cover and the transmission base are all provided with a shading layer.

5. The automatic slide unloading device according to claim 4, wherein: the transmission assembly comprises a motor and a conveyor belt, the motor drives the conveyor belt to rotate intermittently, and the plurality of loading boxes are sequentially arranged on the conveyor belt along the length direction of the conveyor belt.

6. the slide automatic unloading device of claim 5, wherein: the conveyer belt is provided with clamping grooves capable of containing the loading boxes at intervals.

7. The automatic slide unloading device according to claim 6, wherein: through grooves are vertically formed in two opposite side walls of the loading box.

8. The slide automatic unloading device of claim 7, wherein: the tops of two opposite side walls of the loading box are not at the same height.