CN212321231U - Biological tissue dyeing machine - Google Patents

Abstract

The utility model provides a biological tissue dyeing machine, which comprises a frame, the bottom of frame is dyeing jar and function jar, frame the place ahead top is equipped with the slide bar of two parallels, the cover is equipped with the bearing on the slide bar, the bearing hangs the hanging flower basket that is used for loading the slide glass that has laid the cell through the telescopic link, the telescopic link is through the cylinder control of locating the frame rear portion, the bearing is through the step motor drive of locating the frame rear portion, go forward along the slide bar, the hanging flower basket drives the slide glass and realizes soaking/break away from the dyeing jar, the dyeing jar subassembly includes 18 dyeing jars of from left to right arranging in proper order, 8 th jar is the washing jar from beginning, 18 th jar is the. The utility model has the advantages that: degree of automation is high, practices thrift the human cost, avoids the staff to inhale harmful gas simultaneously, and time more accurate than manual control, dyeing effect is better, and the diagnosis is more accurate.

Description

Biological tissue dyeing machine

Technical Field

The utility model relates to a biological dyeing field, more specifically say and relate to a biological tissue dyeing machine.

Background

With the development of society and the advancement of science and technology, the research of biotechnology is more and more remarkable in the field of natural science and the national science and technology strategy, and the biological tissue dyeing machine as a tool necessary for basic research is widely applied to hospitals, scientific research institutions and medical institutions for analysis, diagnosis and research of histology and cytology, but the existing biological tissue dyeing machine has low automation degree and cannot automatically fix, dye, wash and dry the specimen.

SUMMERY OF THE UTILITY MODEL

The utility model overcomes the defects in the prior art and provides a biological tissue dyeing machine.

The purpose of the utility model is realized by the following technical scheme.

A biological tissue dyeing machine comprises a rack, wherein a dyeing cylinder and a functional cylinder are arranged at the bottom of the rack, two parallel slide bars are arranged at the top in front of the rack, bearings are sleeved on the slide bars, hanging baskets for loading cell-coated glass slides are hung on the bearings through telescopic links, the telescopic links are controlled through air cylinders arranged at the rear of the rack, the bearings are driven by stepping motors arranged at the rear of the rack to advance along the slide bars, the hanging baskets drive the glass slides to realize soaking/separating from the dyeing cylinder, the dyeing cylinder assembly comprises 18 dyeing cylinders sequentially arranged from left to right, the 8 th cylinder is a tap water washing cylinder, and the 18 th cylinder is a drying cylinder;

the dyeing cylinder comprises a dyeing component and a liquid discharge component, a dyeing cylinder fixing frame is installed at the top end of the inner side wall of the dyeing cylinder, the flow guide groove is formed in the bottom end of the interior of the dyeing cylinder, a liquid discharge valve is arranged at the bottom end of the right surface wall of the dyeing cylinder in a penetrating mode, the dyeing component is arranged inside the cylinder body and comprises a cylinder body, a dyeing cylinder handle and a liquid discharge plate fixing frame, the cylinder body is placed above the dyeing cylinder fixing frame, the liquid discharge plate fixing frame is arranged on the lower surface of the cylinder body, a liquid discharge hole is formed in the lower surface of the dyeing cylinder, the liquid discharge plate is arranged between the liquid discharge plate fixing frame and the cylinder body, the liquid discharge plate is attached to the lower surface wall of the cylinder body and is in sealing connection with the liquid discharge hole, a slotted hole for the liquid discharge groove is formed in the cylinder body, and the liquid discharge plate is, the liquid discharging plate is connected with the cylinder body in a sliding mode through a slotted hole for the liquid discharging groove.

Furthermore, dyeing jar handles are fixedly mounted at two ends of the upper surface of the jar body.

Furthermore, all be equipped with the light screen on dyeing cylinder drainage box's the front surface and the rear surface, the outside of light screen is equipped with the light screen slide rail, the light screen slide rail with cylinder body structure as an organic whole, the light screen with the cylinder body passes through light screen slide rail sliding connection.

Further, the shading plate is a brown transparent plate, and the area of the shading plate is larger than the area of the side face of the dyeing cylinder.

Furthermore, the lower surface wall of the liquid discharging plate fixing frame is provided with four liquid discharging grooves which penetrate through the liquid discharging plate fixing frame, and the height of a gap between the liquid discharging plate fixing frame and the dyeing cylinder is equal to the thickness of the liquid discharging plate.

Furthermore, a lighting device is arranged on the frame.

Furthermore, a displacement sensor is arranged on the slide bar and used for detecting the movement position of the hanging basket.

The utility model has the advantages that:

when the dyeing assembly is used, the dyeing assembly is placed on the dyeing cylinder, the dyeing liquid in the cylinder body is replaced by only pulling the liquid discharging plate, the whole process is convenient and quick, the cylinder body does not need to be taken out, the phenomenon that the dyeing liquid drips in the process of replacing the dyeing liquid is avoided, the liquid replacing process is cleaner and more efficient, and if shading treatment is needed, only a shading plate needs to be inserted, the dyeing cylinder does not need to be replaced, so that the experiment is more convenient;

the telescopic rod is controlled by a cylinder arranged at the rear part of the rack to adjust the vertical height of the hanging basket, so that the hanging basket can be submerged in the cylinder body, and the bearing is driven by a stepping motor arranged at the rear part of the rack to move forward along the sliding rod;

the utility model discloses can reach the purpose of automatic fixed, dyeing, stoving to in good time realize various required functions, synchronous display information such as corresponding state, data, the operating personnel of being convenient for in time handle and control. Degree of automation is high, practices thrift the human cost, avoids the staff to inhale harmful gas simultaneously, and time more accurate than manual control, dyeing effect is better, and the diagnosis is more accurate.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the structure of the dyeing tank;

FIG. 3 is a schematic side view of the dyeing tank;

in the figure:

1. a frame; 3. a dyeing vat; 7. a slide bar; 8. a bearing; 9. a telescopic rod; 10. a hanging basket;

12. a diversion trench; 13. a drain valve; 15. a dyeing cylinder fixing frame; 16. a visor; 161. a light screen slide rail;

17. a liquid discharge plate; 20. a dyeing component; 21. a cylinder body; 211. a tapping hole; 22. a dyeing vat handle;

23. a liquid discharge plate fixing frame; 171. a slot for a drain tank.

Detailed Description

The technical solution of the present invention is further explained by the following specific examples.

1 shown in the figures 1-3 is a frame, 3 is a dyeing cylinder, 7 is a slide bar, 8 is a bearing, 9 is a telescopic rod,

10. a hanging basket, 12 is a diversion trench, 13 is a drain valve, 15 is a dyeing cylinder fixing frame, 16 is a shading plate,

161. a slide rail of a shading plate, 17 is a liquid discharging plate, 20 is a dyeing component, 21 is a cylinder body, 211 is a liquid discharging hole,

22 is a dyeing vat handle, 23 is a tapping plate fixing frame, and 171 is a slotted hole for a liquid discharge tank.

Example 1

A biological tissue dyeing machine as shown in fig. 1-3, which comprises a frame, wherein a dyeing cylinder and a functional cylinder are arranged at the bottom of the frame, two parallel slide bars are arranged at the top of the front of the frame, bearings are sleeved on the slide bars, hanging baskets for loading cell-coated glass slides are hung on the bearings through telescopic links, the telescopic links are controlled by cylinders arranged at the rear of the frame, the bearings are driven by stepping motors arranged at the rear of the frame to advance along the slide bars, the hanging baskets drive the glass slides to realize soaking/separating from the dyeing cylinders, the dyeing cylinder assembly comprises 18 dyeing cylinders which are sequentially arranged from left to right, the 8 th cylinder is a tap water washing cylinder, the 18 th cylinder is a drying cylinder, and displacement sensors are arranged on the slide bars and used for detecting the movement positions of the hanging baskets.

The dyeing cylinder comprises a dyeing component and a liquid discharge component, a dyeing cylinder fixing frame is installed at the top end of the inner side wall of the dyeing cylinder, the flow guide groove is formed in the bottom end of the interior of the dyeing cylinder, a liquid discharge valve is arranged at the bottom end of the right surface wall of the dyeing cylinder in a penetrating mode, the dyeing component is arranged inside the cylinder body and comprises a cylinder body, a dyeing cylinder handle and a liquid discharge plate fixing frame, the cylinder body is placed above the dyeing cylinder fixing frame, the liquid discharge plate fixing frame is arranged on the lower surface of the cylinder body, a liquid discharge hole is formed in the lower surface of the dyeing cylinder, the liquid discharge plate is arranged between the liquid discharge plate fixing frame and the cylinder body, the liquid discharge plate is attached to the lower surface wall of the cylinder body and is in sealing connection with the liquid discharge hole, a slotted hole for the liquid discharge groove is formed in the cylinder body, and the liquid discharge plate is, the liquid discharging plate is connected with the cylinder body in a sliding mode through a slotted hole for the liquid discharging groove.

Example 2

As shown in fig. 1-3, the biological tissue dyeing machine comprises a frame, a dyeing cylinder and a functional cylinder are arranged at the bottom of the frame, two parallel slide bars are arranged at the top in front of the frame, a bearing is sleeved on each slide bar, a hanging basket for loading a glass slide coated with cells is hung on each bearing through a telescopic rod, the telescopic rod is controlled by an air cylinder arranged at the rear part of the frame, the bearing is driven by a stepping motor arranged at the rear part of the frame to advance along the sliding rod, the hanging basket drives the glass slide to realize soaking/separating, the staining cylinder assembly comprises 18 staining cylinders which are sequentially arranged from left to right, the 8 th cylinder is a tap water washing cylinder, the 18 th cylinder is a drying cylinder, a displacement sensor is arranged on the sliding rod and used for detecting the movement position of the hanging basket, and a lighting device is also arranged on the rack;

the dyeing cylinder comprises a dyeing component and a liquid discharge component, a dyeing cylinder fixing frame is installed at the top end of the inner side wall of the dyeing cylinder, the flow guide groove is formed in the bottom end of the interior of the dyeing cylinder, a liquid discharge valve is arranged at the bottom end of the right surface wall of the dyeing cylinder in a penetrating mode, the dyeing component is arranged inside the cylinder body and comprises a cylinder body, a dyeing cylinder handle and a liquid discharge plate fixing frame, the cylinder body is placed above the dyeing cylinder fixing frame, the liquid discharge plate fixing frame is arranged on the lower surface of the cylinder body, a liquid discharge hole is formed in the lower surface of the dyeing cylinder, the liquid discharge plate is arranged between the liquid discharge plate fixing frame and the cylinder body, the liquid discharge plate is attached to the lower surface wall of the cylinder body and is in sealing connection with the liquid discharge hole, a slotted hole for the liquid discharge groove is formed in the cylinder body, and the liquid discharge plate is, the liquid discharging plate is connected with the cylinder body in a sliding mode through a slotted hole for the liquid discharging groove.

Example 3

As shown in fig. 1-3, the biological tissue dyeing machine comprises a frame, a dyeing cylinder and a functional cylinder are arranged at the bottom of the frame, two parallel slide bars are arranged at the top in front of the frame, a bearing is sleeved on each slide bar, a hanging basket for loading a glass slide coated with cells is hung on each bearing through a telescopic rod, the telescopic rod is controlled by an air cylinder arranged at the rear part of the frame, the bearing is driven by a stepping motor arranged at the rear part of the frame to advance along the sliding rod, the hanging basket drives the glass slide to realize soaking/separating, the staining cylinder assembly comprises 18 staining cylinders which are sequentially arranged from left to right, the 8 th cylinder is a tap water washing cylinder, the 18 th cylinder is a drying cylinder, the sliding rod is provided with a displacement sensor for detecting the movement position of the hanging basket, and the rack is also provided with a lighting device.

The dyeing cylinder comprises a dyeing component and a liquid discharge component, a dyeing cylinder fixing frame is installed at the top end of the inner side wall of the dyeing cylinder, the flow guide groove is formed in the bottom end of the interior of the dyeing cylinder, a liquid discharge valve is arranged at the bottom end of the right surface wall of the dyeing cylinder in a penetrating mode, the dyeing component is arranged inside the cylinder body and comprises a cylinder body, a dyeing cylinder handle and a liquid discharge plate fixing frame, the cylinder body is placed above the dyeing cylinder fixing frame, the liquid discharge plate fixing frame is arranged on the lower surface of the cylinder body, a liquid discharge hole is formed in the lower surface of the dyeing cylinder, the liquid discharge plate is arranged between the liquid discharge plate fixing frame and the cylinder body, the liquid discharge plate is attached to the lower surface wall of the cylinder body and is in sealing connection with the liquid discharge hole, a slotted hole for the liquid discharge groove is formed in the cylinder body, and the liquid discharge plate is, the liquid discharging plate is connected with the cylinder body in a sliding mode through a slotted hole for the liquid discharging groove, the liquid discharging grooves are formed in the lower surface wall of the liquid discharging plate fixing frame, the number of the liquid discharging grooves is four, the liquid discharging grooves penetrate through the liquid discharging plate fixing frame, and the height of a gap between the liquid discharging plate fixing frame and the dyeing cylinder is equal to the thickness of the liquid discharging plate.

The utility model discloses a dyeing apparatus, including cylinder body, dyeing jar, shading jar, cylinder body, shading jar upper surface both ends fixed mounting has the dyeing jar handle, all be equipped with the light screen on the front surface of dyeing jar drainage box and the rear surface, the outside of light screen is equipped with the light screen slide rail, the light screen slide rail with cylinder body structure as an organic whole, the light screen with the cylinder body passes through light screen slide rail sliding connection.

The shading plate is a brown transparent plate, and the area of the shading plate is larger than the area of the side surface of the dyeing vat.

When the device works, the dyeing component is placed on the dyeing cylinder, the dyeing liquid in the cylinder body is replaced only by pulling the liquid discharging plate, the whole process is convenient and quick, the cylinder body does not need to be taken out, the phenomenon that the dyeing liquid drips in the process of replacing the dyeing liquid is avoided, the liquid replacing process is cleaner and more efficient, if shading treatment is needed, only a shading plate needs to be inserted, the dyeing cylinder does not need to be replaced, and the experiment is more convenient;

the telescopic rod is controlled by a cylinder arranged at the rear part of the rack to adjust the vertical height of the hanging basket, so that the hanging basket can be submerged in the cylinder body, and the bearing is driven by a stepping motor arranged at the rear part of the rack to move forward along the sliding rod;

in the work, the hanging flower basket is arranged in each cylinder body, reaches the purpose of automatic fixation, dyeing, stoving to realize various required functions in good time, synchronous display equipment's information such as various states, data, the operating personnel of being convenient for in time handle and control. Wherein, the 1 st cylinder is soaked for 10 minutes in sequence; soaking in the 2 nd cylinder for 2 minutes; soaking in 8 th jar for 2 min; soaking in 3 rd jar for 1 min; soaking in a 4 th cylinder for 1 minute; soaking in the 5 th cylinder for 1 minute; soaking in the 6 th cylinder for 3 minutes; soaking in 7 th jar for 1 min; soaking in jar 9 for 1 min; soaking in 10 th jar for 1 min; soaking in 11 th jar for 1 min; soaking in 12 th jar for 1 min; soaking in 13 th jar for 1 min; soaking in 14 th jar for 1 min; soaking in 15 th jar for 1 min; soaking in 16 th jar for 1 min; soaking in 17 th jar for 1 min; oven-dry in 18 th jar for 5 minutes. Running for 35 minutes, taking out the glass slide after finishing the operation, and sending an inspection report after reading the glass slide;

the utility model discloses can reach the purpose of automatic fixed, dyeing, stoving to in good time realize various required functions, synchronous display information such as corresponding state, data, the operating personnel of being convenient for in time handle and control. Degree of automation is high, practices thrift the human cost, avoids the staff to inhale harmful gas simultaneously. Compared with manual control, the method has the advantages of more accurate time, better dyeing effect and more accurate diagnosis.

The above description has been made in detail for the three embodiments of the present invention, but the above description is only for the preferred embodiment of the present invention, and should not be construed as limiting the scope of the present invention. All the equivalent changes and improvements made according to the application scope of the present invention should still fall within the patent coverage of the present invention.

Claims (7)

1. A biological tissue staining machine characterized by: the cell washing machine comprises a rack, wherein a staining cylinder and a functional cylinder are arranged at the bottom of the rack, two parallel sliding rods are arranged at the top in front of the rack, bearings are sleeved on the sliding rods, hanging baskets for loading cell-coated glass slides are hung on the bearings through telescopic rods, the telescopic rods are controlled through cylinders arranged at the rear of the rack, the bearings are driven by stepping motors arranged at the rear of the rack to advance along the sliding rods, the hanging baskets drive the glass slides to soak/separate from the staining cylinders, the staining cylinder assembly comprises 18 staining cylinders which are sequentially arranged from left to right, the 8 th cylinder is a tap water washing cylinder, and the 18 th cylinder is a drying cylinder;

the dyeing cylinder comprises a dyeing component and a liquid discharge component, a dyeing cylinder fixing frame is arranged at the top end of the inner side wall of the dyeing cylinder, the bottom end in the dyeing tank is provided with a diversion trench, the bottom end of the right surface wall of the dyeing tank is provided with a liquid discharge valve in a penetrating way, the dyeing component is arranged in the cylinder body and comprises a cylinder body, a dyeing cylinder handle and a liquid discharge plate fixing frame, the cylinder body is arranged above the dyeing cylinder fixing frame, the lower surface of the cylinder body is provided with the liquid discharging plate fixing frame, the lower surface of the dyeing cylinder is provided with a liquid discharging hole, the liquid discharging plate is arranged between the liquid discharging plate fixing frame and the cylinder body, the liquid discharging plate is attached to the lower surface wall of the cylinder body and is hermetically connected with the liquid discharging hole, the cylinder body is provided with a slotted hole for a liquid discharging groove, the liquid discharging plate is positioned in the slotted hole for the liquid discharging groove and penetrates through the cylinder body, and the liquid discharging plate is connected with the cylinder body in a sliding mode through the slotted hole for the liquid discharging groove.

2. The biological tissue staining machine of claim 1, wherein: and dyeing cylinder handles are fixedly mounted at two ends of the upper surface of the cylinder body.

3. The biological tissue staining machine of claim 1, wherein: the dyeing cylinder is characterized in that light screens are arranged on the front surface and the rear surface of the dyeing cylinder respectively, light screen sliding rails are arranged outside the light screens, the light screen sliding rails and the cylinder body are of an integrated structure, and the light screens are connected with the cylinder body through the light screen sliding rails in a sliding mode.

4. The biological tissue staining machine of claim 3, wherein: the shading plate is a brown transparent plate, and the area of the shading plate is larger than the area of the side surface of the dyeing vat.

5. The biological tissue staining machine of claim 1, wherein: the dyeing device is characterized in that liquid discharging grooves are formed in the lower surface wall of the liquid discharging plate fixing frame, the number of the liquid discharging grooves is four, the liquid discharging grooves penetrate through the liquid discharging plate fixing frame, and the height of a gap between the liquid discharging plate fixing frame and the dyeing cylinder is equal to the thickness of the liquid discharging plate.

6. Biological tissue staining machine according to any of claims 1-5, characterized in that: and the rack is also provided with a lighting device.

7. The biological tissue staining machine of claim 6, wherein: and a displacement sensor is arranged on the slide bar and is used for detecting the movement position of the hanging basket.

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