CN211892493U - Mini heat-sensitive slide marking machine of pathology single channel - Google Patents

Abstract

A pathological single-channel mini thermal slide marking machine, comprising: the base, a support, slide feed mechanism, thermal printing mechanism, slide supporting mechanism and slide receiving tank, and a support, slide feed mechanism and slide supporting mechanism all set up on the base, and thermal printing mechanism includes carbon ribbon subassembly and print assembly, and the carbon ribbon subassembly all sets up on the support with print assembly, and the carbon ribbon subassembly is connected with print assembly, and slide feed mechanism is connected with slide supporting mechanism, and the through-hole has been seted up to the base, and the slide receiving tank's one end is connected with slide supporting mechanism, and the through-hole of base is worn to locate to the other end. Slide feed mechanism improves the feeding efficiency of slide, and slide receiving groove realizes receiving the material to the unification of slide, replaces writing by hand through thermal printing mechanism in order to improve the speed of marking a number of slide, will deposit user information's complicated sign such as two-dimensional code, letter, digit etc. and duplicate on printing assembly, shifts the sign of complicacy to the slide through the carbon ribbon subassembly, and the sign identification equipment of being convenient for is to the discernment of sign.

Description

Mini heat-sensitive slide marking machine of pathology single channel

Technical Field

The utility model relates to the technical field of medical equipment, especially, relate to a mini heat-sensitive slide marking machine of pathology single channel.

Background

The slide glass is a glass or quartz plate for holding things when observing things with a microscope, and when a specimen is produced, a cell or tissue section is placed on a slide glass, and a cover glass is placed thereon for observation. The slides need to be numbered before the cells or tissue sections in the different slides are examined to avoid confusion between samples.

However, the traditional slide numbering generally adopts a handwriting mode, the numbering efficiency is low, the error rate is high, meanwhile, the handwritten numbering on the slide is only limited to simple characters, numbers and letters, and the simple characters, numbers and letters cannot meet the existing requirements along with the increase of user information and the development of identification equipment.

SUMMERY OF THE UTILITY MODEL

Based on this, it is necessary to provide a pathological single-channel mini thermal slide marking machine aiming at the technical problems of low efficiency and limitation to simple identification.

A pathological single-channel mini thermal slide marking machine, comprising: the slide collecting device comprises a base, a support, a slide feeding mechanism, a thermal printing mechanism, a slide bearing mechanism and a slide collecting groove, wherein the support is provided with the slide feeding mechanism and the slide bearing mechanism which are arranged on the base, the thermal printing mechanism comprises a carbon ribbon assembly and a printing assembly, the carbon ribbon assembly and the printing assembly are arranged on the support, the carbon ribbon assembly is connected with the printing assembly, the carbon ribbon assembly is arranged between the printing assembly and the slide bearing mechanism, the slide feeding mechanism is connected with the slide bearing mechanism, the base is provided with a through hole, one end of the slide collecting groove is connected with the slide bearing mechanism, and the other end of the slide collecting groove is arranged in the through hole of the base in a penetrating manner.

In one embodiment, the slide feeding mechanism comprises a slide feeding groove, a slide feeding motor, a slide feeding and conveying assembly and a slide feeding push rod, the slide feeding groove is arranged on one side of the base, the slide feeding motor is arranged on the other side of the base, one end of the slide feeding and conveying assembly is in driving connection with the slide feeding motor, the other end of the slide feeding and conveying assembly is connected with the slide feeding push rod, and the slide feeding push rod is movably inserted into the slide feeding groove.

In one embodiment, the slide receiving mechanism includes two oppositely disposed receiving blocks between which the slide feed transport assembly is disposed.

In one embodiment, the thermal transfer ribbon assembly includes a thermal transfer ribbon, a thermal transfer ribbon motor and a plurality of rollers, the rollers are dispersedly disposed on the support, the thermal transfer ribbon is sleeved outside the rollers, and the thermal transfer ribbon motor is in driving connection with the rollers.

In one embodiment, the printing assembly comprises a printing head, a printing motor and a printing electromagnetic valve, wherein the printing motor is in driving connection with the printing head, the printing electromagnetic valve is movably abutted against the printing head, and the printing head is abutted against the carbon ribbon.

In one embodiment, the printing solenoid valve and the printing head are both arranged inside the carbon ribbon.

In one embodiment, the printhead faces between the two bearing blocks.

Above-mentioned mini heat sensitive slide marking machine of pathology single channel, slide feed mechanism has improved the feeding efficiency of slide, the slide is received the silo and is realized receiving the material to the unification of slide, replace the handwriting through heat sensitive printing mechanism, the speed of marking of slide has been improved greatly, cooperation through carbon ribbon subassembly and print assembly, the complicated sign that will have user information if the two-dimensional code, the letter, digit etc. is duplicated on print assembly, the rethread carbon ribbon subassembly shifts the sign of complicacy on the slide to, thereby sign and reduction error rate on the standard slide, the sign identification equipment of being convenient for is to the discernment of sign.

Drawings

FIG. 1 is a schematic diagram of the structure of a pathological single-channel mini-thermal slide marking machine in one embodiment;

FIG. 2 is a schematic structural view of another view of the pathological single-channel mini-thermal slide marking machine of the embodiment shown in FIG. 1;

FIG. 3 is a schematic diagram of a partial structure of a pathological single-channel mini-thermal slide marking machine in one embodiment.

Detailed Description

In order to make the above objects, features and advantages of the present invention more comprehensible, embodiments of the present invention are described in detail below with reference to the accompanying drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein, as those skilled in the art will be able to make similar modifications without departing from the spirit and scope of the present invention.

Referring to fig. 1 to 2, the present invention provides a pathological single-channel mini thermal slide marking machine 10, comprising: base 100, support 200, slide feed mechanism 300, thermal printing mechanism 400, slide receiving mechanism 500 and slide receiving groove 600, support 200, slide feed mechanism 300 and slide receiving mechanism 500 all set up on base 100, thermal printing mechanism 400 includes carbon ribbon subassembly 410 and printing element 420, carbon ribbon subassembly 410 and printing element 420 all set up on support 200, carbon ribbon subassembly 410 is connected with printing element 420, carbon ribbon subassembly 410 sets up between printing element 420 and slide receiving mechanism 500, slide feed mechanism 300 is connected with slide receiving mechanism 500, base 100 has seted up through-hole 110, slide receiving groove 600's one end is connected with slide receiving mechanism 500, the other end wears to locate in base 100's through-hole 110.

In the pathological single-channel mini thermosensitive slide marking machine 10, a slide to be marked is fed into the slide receiving mechanism 500 through the slide feeding mechanism 300 to wait for marking, the printing assembly 420 is pre-recorded with a required identification template, the printing assembly 420 presses the carbon ribbon assembly 410 towards the slide receiving mechanism 500, so that the identification template on the printing assembly 420 is transferred onto the slide to be marked of the receiving mechanism through the carbon ribbon assembly 410, and the slide to be marked is provided with a required identification. Slide feed mechanism 300 has improved the feed efficiency of slide, slide receiving tank 600 realizes receiving the material to the unification of slide, replace the handwriting through thermal printing mechanism 400, the speed of marking a number of slide has been improved greatly, cooperation through carbon ribbon subassembly 410 and print assembly 420, the complicated sign that will have user information to deposit is like the two-dimensional code, the letter, digit etc. copies on print assembly 420, rethread carbon ribbon subassembly 410 shifts complicated sign to the slide, thereby sign and reduction error rate on the standard slide, be convenient for sign identification equipment to the discernment of sign.

Referring to fig. 1 to 3, in order to feed the slide, in an embodiment, the slide feeding mechanism 300 includes a slide feeding slot 310, a slide feeding motor 320, a slide feeding conveying assembly 330 and a slide feeding push rod 340, the slide feeding slot 310 is disposed on one side of the base 100, the slide feeding motor 320 is disposed on the other side of the base 100, one end of the slide feeding conveying assembly 330 is drivingly connected to the slide feeding motor 320, the other end is connected to the slide feeding push rod 340, and the slide feeding push rod 340 is movably inserted into the slide feeding slot 310. Specifically, the slide feeding slot 310 is used for storing a plurality of slides to be marked, which can avoid multiple times of material taking, a discharging hole 311 for discharging the bottommost slide is formed below one surface of the slide feeding slot 310 facing the support 200, a slide feeding push rod 340 is movably inserted into the discharging hole 311 of the slide feeding slot 310, the slide feeding push rod 340 bears the bottommost slide in the slide feeding slot 310, a slide feeding motor 320 is disposed on one side of the base 100 away from the slide feeding slot 310, the slide receiving mechanism 500 includes two oppositely disposed receiving blocks 510, a slide feeding and conveying assembly 330 is disposed between the two receiving blocks 510, the slide feeding and conveying assembly 330 includes a driving wheel (not shown), a driven wheel (not shown) and a conveying belt (not shown), the driving wheel is drivingly connected with the slide feeding motor 320, the driven wheel is disposed on one receiving block 510 through a wheel axle, the conveying belt is sleeved outside the driving wheel and the driven wheel, the slide feed push bar 340 is disposed on the conveyor belt, and it is worth mentioning that the uppermost plane of the conveyor belt is flush with the uppermost plane of the receiving block 510. During the slide feeding, slide feeding motor 320 drive action wheel rotates, thereby the action wheel rotates and drives from the driving wheel rotation and drive the conveyer belt and slide, and then drive slide feeding push rod 340 insert locate in slide feed tank 310, bear the slide of the bottommost in slide feed tank 310 on slide feeding push rod 340 this moment, slide feeding motor 320 reverse drive action wheel rotates, thereby make slide feeding push rod 340 withdraw from slide feed tank 310, slide feeding push rod 340 and slide have the friction this moment, a slide is taken out when slide feeding push rod 340 withdraws from slide feed tank 310, and along with slide feeding push rod 340's removal slide is shifted to on the piece 510 that bears, the both ends of slide respectively with two pieces 510 butt that bear. It is worth mentioning that, during the slide ejection of compact, slide feed motor 320 continues the reverse drive action wheel for slide feed push rod 340 continues to move the slide toward slide receiving trough 600, slide receiving trough 600 is an inclined slide, and one end is connected with accepting block 510, when slide feed push rod 340 moves the slide to accepting block 510 and slide receiving trough 600's juncture, slide feed motor 320 stops, the slide drops into slide receiving trough 600 because of slide receiving trough 600's inclination, and accomplish the unified receipts material because of the gravity landing. Further, in order to enable the glass slide to enter the lower portion of the carbon ribbon 411 to wait for marking, two bearing blocks 510 are respectively provided with a blocking block 511, the two blocking blocks 511 are arranged right below the carbon ribbon 411, and the distance between the two blocking blocks 511 just clamps the glass slide, so that the problem that the glass slide is printed badly due to dislocation of the glass slide when the printing head presses the carbon ribbon 411 for printing is avoided.

Referring to fig. 1 to 3, in order to print the mark, in an embodiment, the thermal transfer ribbon assembly 410 includes a thermal transfer ribbon 411, a thermal transfer ribbon motor 412, and a plurality of rollers 413, the plurality of rollers 413 are dispersedly disposed on the support 200, the thermal transfer ribbon 411 is sleeved outside the plurality of rollers 413, and the thermal transfer ribbon motor 412 is drivingly connected to a roller 413. Specifically, the support 200 is provided with a plurality of circular holes, the plurality of roller shafts 413 vertically penetrate through the circular holes of the support 200, and the plurality of roller shafts 413 are dispersed around the support 200 with the printing head 421 as the center, wherein the roller shaft 413 connected with the ribbon motor 412 is the recovery roller shaft 414, the ribbon motor 412 passes through the circular hole of the support 200 and is in driving connection with the recovery roller shaft 413, the ribbon raw material roller 415 is installed on one roller shaft 413, in order to update the ribbon 411, the recovery roller shaft 414 is driven to rotate after the ribbon motor 412 is started, so that the used ribbon 411 is wound into the recovery roller shaft 414, and the unused ribbon 411 is abutted against the printing head 421.

Referring to fig. 1 to fig. 3, in order to print the mark, in an embodiment, the printing assembly 420 includes a printing head 421, a printing motor 422, and a printing solenoid valve 423, the printing motor 422 is drivingly connected to the printing head 421, the printing solenoid valve 423 is movably abutted to the printing head 421, and the printing head 421 is abutted to the thermal transfer ribbon 411. Specifically, the print head 421 faces between the two receiving blocks 510, that is, the print head 421 faces the glass slide on the receiving block 510, the print motor 422 is installed on the support 200, a strip-shaped channel (not shown) is formed on the support 200, the print motor 422 passes through the strip-shaped channel to be in driving connection with the print head 421, the print solenoid valve 423 is installed on the support 200, the print solenoid valve 423 is disposed above the print head 421, and the print solenoid valve 423 abuts against the print head 421, when the glass slide is printed, in order to facilitate the print head 421 to press the carbon ribbon 411, the print solenoid valve 423 and the print head 421 are both disposed inside the carbon ribbon 411, the print solenoid valve 423 is powered on, the print solenoid valve 423 pushes the print head 421 to move, so that the print head 421 presses the carbon ribbon 411 toward the glass slide to be numbered, the print motor 422 drives the print head 421 to rotate while moving, so that the print head 421, after the marking is completed, the printing solenoid valve 423 turns off the power supply, and the printing solenoid valve 423 stops pushing the print head 421, so that the print head 421 stops pressing the carbon tape 411. It should be noted that, a rebound assembly (not shown) is disposed on the support 200, the rebound assembly is connected to the printing motor 422, and the rebound assembly can be used to restore the original state of the printing motor 422 by using the prior art or the structure, such as a spring, rubber, etc., which is not described redundantly in this embodiment.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (7)

1. A pathology single channel mini thermal slide marking machine, characterized by, includes: the slide collecting device comprises a base, a support, a slide feeding mechanism, a thermal printing mechanism, a slide bearing mechanism and a slide collecting groove, wherein the support is provided with the slide feeding mechanism and the slide bearing mechanism which are arranged on the base, the thermal printing mechanism comprises a carbon ribbon assembly and a printing assembly, the carbon ribbon assembly and the printing assembly are arranged on the support, the carbon ribbon assembly is connected with the printing assembly, the carbon ribbon assembly is arranged between the printing assembly and the slide bearing mechanism, the slide feeding mechanism is connected with the slide bearing mechanism, the base is provided with a through hole, one end of the slide collecting groove is connected with the slide bearing mechanism, and the other end of the slide collecting groove is arranged in the through hole of the base in a penetrating manner.

2. The pathological single-channel mini thermosensitive slide marking machine according to claim 1, wherein the slide feeding mechanism comprises a slide feeding trough, a slide feeding motor, a slide feeding conveying assembly and a slide feeding push rod, the slide feeding trough is disposed on one side of the base, the slide feeding motor is disposed on the other side of the base, one end of the slide feeding conveying assembly is in driving connection with the slide feeding motor, the other end of the slide feeding conveying assembly is connected with the slide feeding push rod, and the slide feeding push rod is movably inserted into the slide feeding trough.

3. The pathological single-channel mini-thermal slide marking machine according to claim 2, wherein said slide receiving mechanism includes two oppositely disposed receiving blocks, said slide feed transport assembly being disposed between said two receiving blocks.

4. The pathological single-channel mini thermal slide marking machine according to claim 1, wherein the thermal ribbon assembly comprises a thermal ribbon, a thermal ribbon motor and a plurality of rollers, the rollers are dispersedly arranged on the support, the thermal ribbon is sleeved outside the rollers, and the thermal ribbon motor is in driving connection with one roller.

5. The pathological single-channel mini thermal slide marking machine according to claim 4, wherein the printing assembly comprises a printing head, a printing motor and a printing solenoid valve, the printing motor is in driving connection with the printing head, the printing solenoid valve is movably abutted with the printing head, and the printing head is abutted with the carbon ribbon.

6. The pathological single-channel mini thermal slide marking machine according to claim 5, wherein the printing solenoid valve and the printing head are both disposed inside the thermal tape.

7. The pathological single-channel mini-thermal slide marking machine according to claim 5, wherein said print head is oriented between said two receiving blocks.

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