CN220947248U - Glass slide and embedded box laser integrated printing device - Google Patents

Abstract

The utility model discloses a glass slide and embedding box laser integrated printing device, which comprises a base, wherein a glass slide pushing device and an embedding box pushing device are respectively arranged on the left and right sides of the base; the slide glass pushing device comprises a slide glass feeding groove, a slide glass conveying track and a slide glass electric pushing block; the embedding box pushing device comprises an embedding box feeding groove, an embedding box conveying track and an embedding box electric pushing block; an extension supporting rod is arranged on the front side of the front end of the slide glass electric pushing block perpendicular to the pushing surface; an extension tray is arranged at the front end of the electric pushing block of the embedding box perpendicular to the pushing surface; a slide printing groove is arranged on the other side of the slide conveying track; an embedding box printing groove is formed in the other side of the embedding box conveying track; the same collecting box is arranged below the two groups of printing grooves; the same laser is arranged above the two groups of printing grooves. The utility model realizes the separate placement and independent printing of the glass slide and the embedding box on one marking machine, and has novel structure, small volume and stable operation.

Description

Glass slide and embedded box laser integrated printing device

Technical Field

The utility model relates to the technical field of laser printing integrated machines, in particular to a glass slide and embedding box laser integrated printing device.

Background

The pathology department is a professional technical department which is necessary for all scale hospitals, and the main task of the pathology department is to undertake pathological diagnosis work in the medical process, including providing clear pathological diagnosis for clinic through biopsy, cytology examination and necropsy examination, determining the nature of diseases or finding out death reasons. The clinician decides the therapeutic principle, estimates prognosis, and interprets clinical symptoms and clarifies the cause of death based mainly on the pathology report. The authority of pathological diagnosis determines the core role of the diagnosis method in all diagnosis means, and has great influence on the overall medical quality of hospitals. In the row, the pathology department is known as "hospital in hospital", and the pathology worker is known as "doctor in doctor". In all hospital pathology departments, except for a few new technical applications, its routine work has a unified standard workflow: tissue material taking, tissue dehydration, tissue embedding, tissue slicing, tissue staining, microscopic diagnosis and pathological report, and in the working process, the embedding box serving as a tissue wrapping workpiece and the glass slide serving as a tissue slice carrier are all required to be marked with relevant information of a patient, so that flow transmission and long-term reservation and examination of a tissue specimen are facilitated. For a long time, the method for marking information on the embedding box and the glass slide is to directly write by using a pencil, and has the conditions of irregular marking, poor effect, time and labor waste, easy error and the like, thereby being a difficult problem for influencing the pathological working quality for a long time. In recent years, with the development of the scientific and medical industries, the standardization, standardization and informatization requirements of pathological works are increasingly emphasized and enhanced, and the automatic concepts of labeling the embedding boxes and the glass slides are also developed, so that various embedding boxes and glass slide marking machines are continuously marketed and widely applied. At present, embedding boxes and slide glass marking machines are divided into three types of color belts, ink-jet type and laser type according to principles, wherein the laser type is most advanced because the laser type has the remarkable advantages of no consumption, permanent color fading, stable structure and the like. Generally speaking, the embedded box marking machine and the glass slide marking machine are two different devices which are separately carried out, so that a user is required to purchase the embedded box marking machine and the glass slide marking machine respectively, the cost is increased, and more office sites are occupied. In order to save cost and space, all-in-one machines for laser marking of glass slides and embedding boxes exist in the market at the same time, but the all-in-one machines are complex in structure, large in size, poor in stability and poor in printing effect. Therefore, the glass slide and embedded box laser integrated marking machine has smaller volume, simpler structure and more perfect printing, is an urgent need in the current pathology technical field, and can greatly save the working cost of users, save the working space and improve the working efficiency and quality of pathology technologies.

Therefore, a brand new integrated laser printing device for the glass slide and the embedding box is designed to solve the problems.

Disclosure of utility model

The utility model aims to solve the defects of low printing efficiency and stability caused by complex pushing structure of a slide glass and embedding box laser printing integrated machine in the prior art, and provides a slide glass and embedding box laser integrated printing device, which optimizes the pushing structure of the slide glass and embedding box and improves printing efficiency and accuracy.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

The integrated laser printing device for the glass slide and the embedding box comprises a base, wherein a glass slide pushing device and an embedding box pushing device are respectively arranged on the left and the right of the base; the slide glass pushing device comprises a slide glass feeding groove at the outer side, a slide glass conveying track at the inner side and a slide glass electric pushing block; the embedded box pushing device comprises an embedded box feeding groove at the outer side, an embedded box conveying track at the inner side and an embedded box electric pushing block; the front side of the front end of the slide glass electric pushing block is provided with a slide glass extension supporting rod perpendicular to the pushing surface; an embedding box extension tray is arranged at the front end of the embedding box electric pushing block perpendicular to the pushing surface; a slide printing groove is arranged on the other side of the slide conveying track, and comprises a rear supporting block and a limit stop; an embedding box printing groove is formed in the other side of the embedding box conveying track; the same collecting box is arranged below the two groups of printing grooves; the same laser is arranged above the two groups of printing grooves.

Preferably, the slide extension supporting rod is perpendicular to the pushing surface of the slide electric pushing block, is arranged at the front side of the front end of the slide electric pushing block, is fixedly connected with the slide electric pushing block, and the upper end surface of the slide extension supporting rod is lower than the upper end surface of the slide electric pushing block and the concave surface of the slide conveying track.

Preferably, the slide glass conveying track is fixedly arranged on the base, a concave structure which is convenient for a slide glass to transversely slide through is adopted, the slide glass conveying track consists of two symmetrically arranged sliding grooves, and the slide glass electric pushing block passes through the two sliding grooves.

Preferably, the bottom of the slide feeding groove is flush with the concave surface of the slide conveying track, and a slide outlet which can only pass through one slide is arranged.

Preferably, the slide glass printing groove consists of a limit stop and a rear supporting block, wherein the limit stop is parallel to the pushing surface of the slide glass electric pushing block, the upper end surface of the limit stop is higher than the concave surface of the slide glass conveying rail, and the upper end surface of the rear supporting block is not higher than the concave surface of the slide glass conveying rail.

Preferably, the embedded box extension tray is perpendicular to the pushing surface of the embedded box electric pushing block, is arranged at the front end of the embedded box electric pushing block and is fixedly connected with the embedded box electric pushing block, and the upper end surface of the embedded box extension tray is lower than the upper end surface of the embedded box electric pushing block and the concave surface of the embedded box conveying track.

Preferably, the bottom of the feeding groove of the embedded box is in flush connection with the concave surface of the conveying track of the embedded box, and a box outlet which can only pass through one embedded box is formed.

Preferably, the embedded box printing groove is formed by an embedded box electric pushing block and an embedded box extension tray

And the upper end face of the embedding box extension tray is lower than the concave surface of the embedding box conveying track and the side edge of the glass slide conveying track.

Preferably, the same collecting tank is arranged below the slide printing tank and the embedding box printing tank and is used for collecting sliding slides or embedding boxes.

Preferably, the same laser is arranged above the slide printing groove and the embedding box printing groove and is used for carrying out laser printing on the slide or the embedding box.

Compared with the prior art, the utility model has the beneficial effects that: the design of the integrated laser printing of the glass slide and the embedding box realizes the separate placement and the separate printing of two materials of the glass slide and the embedding box on one laser marking machine; the slide glass is supported by the extension supporting rod and the rear supporting block and limited by the limit stop block when the slide glass electric pushing block pushes the blank slide glass out of the slide glass feeding groove and enters the slide glass printing groove along the slide glass conveying track, and after printing is finished, the slide glass electric pushing block resets to drive the slide glass extension supporting rod to retract, and the slide glass slides into the collecting box by self gravity after losing the front end support, so that the marking process is finished; similarly, through setting up the embedding box extension tray on the electronic ejector pad of embedding box again, when empty embedding box was by the propelling movement to the embedding box print tank, by the support of embedding box extension tray, slide glass delivery track side is spacing, beats the mark and accomplish the back, the electronic ejector pad of embedding box resets, drives embedding box extension tray and withdraws, relies on self gravity landing to collect in the box after the embedding box loses support. The utility model has novel structure, each group of pushing devices can complete feeding and discharging tasks by one motor and one step of action, the stroke is shorter, the printing positions are basically overlapped, the printing effect is better, and the pushing devices can fall into the same collecting box, thereby reducing the volume of products and improving the running stability and the working efficiency of equipment.

Drawings

Fig. 1 is a schematic view of a structure state of an embedding cassette of a slide glass and embedding cassette laser integrated printing apparatus in the present embodiment;

Fig. 2 is a schematic view showing a structure of a slide and cassette laser integrated printer according to the present embodiment;

FIG. 3 is a schematic diagram of an electric pushing block of an embedding box in the present embodiment;

FIG. 4 is a schematic view of the structure of the embedding cassette in this embodiment;

FIG. 5 is a schematic view of the structure of an electric slide pusher in the present embodiment;

fig. 6 is a schematic view of the structure of the slide in this embodiment.

The reference numerals in the drawings: 1. a base; 2. a slide feeding tank; 3. a slide transport rail; 4. slide glass electric pushing block; 5. slide glass extension support rods; 6. embedding the electric pushing block of the box; 7. extension tray of embedding box; 8. a rear support block; 9. a limit stop; 10. a laser; 11. an embedding box feeding groove; 12. a collection box; 13. embedding a box; 14. a glass slide; 15. and embedding the box conveying track.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

As shown in fig. 1 to 6, the embodiment provides a slide glass and embedding box laser integrated printing device, which comprises a base 1, a slide glass pushing device and an embedding box pushing device, wherein the slide glass pushing device and the embedding box pushing device are arranged left and right; the pushing device consists of a feeding tank positioned at the outer side, a conveying rail positioned at the inner side and an electric pushing block; a slide printing groove is arranged on the other side of the slide conveying track 3, and comprises a rear supporting block 8 and a limit stop 9; an embedding box printing groove is arranged on the other side of the embedding box conveying track 15; the slide glass printing groove is basically coincided with the printing position in the embedding box printing groove; the front side of the front end of the slide glass electric pushing block 4 is provided with a slide glass extension supporting rod 5 perpendicular to the pushing surface; an embedding box extension tray 7 is arranged at the front end of the embedding box electric pushing block 6 perpendicular to the pushing surface; the same collecting box 12 is arranged below the two groups of printing tanks; the same laser 10 is arranged above both sets of printing slots.

It should be noted that, in this embodiment, the slide printing slot includes a limit stop 9 and a rear support block 8, the upper end surface of the limit stop 9 is higher than the concave surface of the slide conveying rail 3, the upper end surface of the rear support block 8 is not higher than the concave surface of the slide conveying rail 3, the rear support block 8 is fixedly installed between the slide conveying rail 3 and the limit stop 9, and is used for supporting the rear end of the slide 14 during printing, and the supporting position is not more than half of the length of the slide 14, so that the slide 14 can conveniently slide freely when losing the front end support; the embedding box printing groove consists of an embedding box electric push block 6, an embedding box extension tray 7 and the side edges of the glass slide conveying rail 3, wherein the upper end surface of the embedding box extension tray 7 is lower than the concave surface of the embedding box conveying rail 15 and the side edges of the glass slide conveying rail 3.

It should be noted that, as a unique point of the present embodiment, the front side of the front end of the slide electric pushing block 4 is provided with a slide extension supporting rod 5 perpendicular to the pushing surface, and the upper end surface of the slide extension supporting rod 5 is lower than the upper end surface of the slide electric pushing block 4 and the concave surface of the slide conveying track 3, when the slide 14 runs on the slide feeding groove 2 and the slide conveying track 3, the slide extension supporting rod 5 is not contacted with the slide 14 due to the lower upper end surface, when the slide 14 is separated from the slide conveying track 3 and slides to the slide printing groove, the slide 14 is supported by the rear supporting block 8 and the slide extension supporting rod 5 at this time and limited by the limit stop 9, and when the slide 14 is printed, the slide electric pushing block 4 resets to drive the slide extension supporting rod 5 to slide into the collecting box 12 due to the loss of the front end support, and simultaneously, when the slide extension supporting rod 5 is lower than the concave surface of the slide conveying track 3, the slide conveying track 3 is prevented from being carried by the slide extension supporting rod 5, and the slide 14 is prevented from being carried by the slide extension supporting rod 5 when the slide 5 is retracted; secondly, the front end of the electric pushing block 6 of the embedding box is perpendicular to the pushing surface and is provided with an embedding box extension tray 7, the upper end face of the embedding box extension tray 7 is lower than the upper end face of the electric pushing block 6 of the embedding box and the concave face of the conveying track 15 of the embedding box, when the embedding box 13 runs on the feeding groove 11 of the embedding box and the conveying track 15 of the embedding box, the embedding box extension tray 7 is not contacted with the embedding box 13 due to the lower upper end face, when the embedding box 13 is separated from the conveying track 15 of the embedding box and slides to the printing groove of the embedding box, the embedding box 13 is supported by the embedding box extension tray 7 at the moment and limited by the side edge of the slide conveying track 3, after the embedding box 13 is printed, the electric pushing block 6 of the embedding box is reset to drive the embedding box extension tray 7 to be retracted, the embedding box 13 is free to slide into the collecting box 12 due to the loss of support, and simultaneously, when the embedding box extension tray 7 is lower than the concave face of the conveying track 15 of the embedding box, the side edge 15 is prevented from being retracted by the embedding box extension tray 7, and the side edge of the embedding box extension tray 13 is prevented from being retracted by the dragging.

Working principle: in use, the slide 14 and cassette 13 are placed in the corresponding slide feed channel 2 and cassette feed channel 11, respectively. If the slide glass 14 is selected to be printed, the printing software controls the slide glass electric pushing block 4 to push out the slide glass 14 at the bottommost layer in the slide glass feeding tank 2 from a slide outlet, the slide glass enters the slide glass printing tank along the slide glass conveying rail 3, the slide glass is supported by the rear supporting block 8 and the slide glass extension supporting rod 5 and limited by the limit stop 9, the laser 10 is used for carrying out laser printing, after the printing is finished, the slide glass electric pushing block 4 is reset to drive the slide glass extension supporting rod 5 to retract, the printed slide glass 14 loses the front end support of the slide glass extension supporting rod 5 and slides into the collecting box 12 by virtue of self gravity, and the printing process is finished. Similarly, if the embedded box 13 is selected to be printed, the printing software controls the electric pushing block 6 of the embedded box to push out the lowest embedded box 13 in the embedded box feeding groove 11 from the box outlet, the embedded box enters the embedded box printing groove along the embedded box conveying track 15, is supported by the embedded box extension tray 7 and limited by the side edge of the glass slide conveying track 3, laser printing is carried out by the laser 10, after the printing is finished, the electric pushing block 6 of the embedded box is reset, the embedded box extension tray 7 is driven to retract, the printed embedded box 13 loses the support of the embedded box extension tray 7 and slides into the collecting box 12 by virtue of self gravity, and the printing process is finished.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (10)

1. The integrated laser printing device for the glass slide and the embedding box comprises a base (1) and is characterized in that a glass slide pushing device and an embedding box pushing device are respectively arranged on the left and the right of the base (1); the slide glass pushing device comprises an outer slide glass feeding groove (2), an inner slide glass conveying track (3) and a slide glass electric pushing block (4); the embedding box pushing device comprises an embedding box feeding groove (11) at the outer side, an embedding box conveying track (15) at the inner side and an embedding box electric pushing block (6); the front side of the front end of the slide glass electric pushing block (4) is provided with a slide glass extension supporting rod (5) perpendicular to the pushing surface; an embedding box extension tray (7) is arranged at the front end of the embedding box electric pushing block (6) perpendicular to the pushing surface; a slide printing groove is arranged on the other side of the slide conveying track (3), and comprises a rear supporting block (8) and a limit stop (9); an embedding box printing groove is formed in the other side of the embedding box conveying track (15); the same collecting box (12) is arranged below the two groups of printing grooves; the same laser (10) is arranged above the two groups of printing grooves.

2. The slide and cassette laser integrated printing device of claim 1, wherein: the slide extension supporting rod (5) is perpendicular to the pushing surface of the slide electric pushing block (4), is arranged on the front side of the front end of the slide electric pushing block (4), is fixedly connected with the slide electric pushing block (4), and the upper end surface of the slide extension supporting rod (5) is lower than the upper end surface of the slide electric pushing block (4) and the concave surface of the slide conveying track (3).

3. The slide and cassette laser integrated printing device of claim 1, wherein: the slide glass conveying track (3) is fixedly arranged on the base (1), a concave structure which is convenient for a slide glass (14) to transversely slide through is adopted, the slide glass conveying track is composed of two symmetrically arranged sliding grooves, and the slide glass electric pushing block (4) passes through the two sliding grooves.

4. The slide and cassette laser integrated printing device of claim 1, wherein: the bottom of the glass slide feeding groove (2) is in flush butt joint with the concave surface of the glass slide conveying track (3), and a slide outlet which can only pass through one glass slide (14) is arranged.

5. The slide and cassette laser integrated printing device of claim 1, wherein: the slide printing groove consists of a limit stop (9) and a rear supporting block (8), wherein the limit stop (9) is parallel to the pushing surface of the slide electric pushing block (4), the upper end surface of the limit stop (9) is higher than the concave surface of the slide conveying track (3), and the upper end surface of the rear supporting block (8) is not higher than the concave surface of the slide conveying track (3).

6. The slide and cassette laser integrated printing device of claim 1, wherein: the embedding box extension tray (7) is perpendicular to the pushing surface of the embedding box electric pushing block (6), is arranged at the front end of the embedding box electric pushing block (6), is fixedly connected with the embedding box electric pushing block (6), and the upper end surface of the embedding box extension tray is lower than the upper end surface of the embedding box electric pushing block (6) and the concave surface of the embedding box conveying track (15).

7. The slide and cassette laser integrated printing device of claim 1, wherein: the bottom of the embedded box feeding groove (11) is in flush connection with the concave surface of the embedded box conveying track (15), and a box outlet which can only pass through one embedded box (13) is arranged.

8. The slide and cassette laser integrated printing device of claim 1, wherein: the embedding box printing groove consists of an embedding box electric push block (6), an embedding box extension tray (7) and the side edge of the glass slide conveying track (3), wherein the embedding box extension tray

(7) The upper end surface is lower than the concave surface of the embedding box conveying track (15) and the side edge of the glass slide conveying track (3).

9. The slide and cassette laser integrated printing device of claim 1, wherein: the same collecting box (12) is arranged below the two groups of printing grooves and is used for collecting sliding glass slides (14) or embedding boxes (13).

10. The slide and cassette laser integrated printing device of claim 1, wherein: the same laser (10) is arranged above the two groups of printing grooves and is used for printing the glass slide (14) or the embedding box (13).