CN210364552U

CN210364552U - Automatic distributor for microscope glass slide

Info

Publication number: CN210364552U
Application number: CN201921379547.1U
Authority: CN
Inventors: 王华江
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-08-23
Filing date: 2019-08-23
Publication date: 2020-04-21
Anticipated expiration: 2029-08-23

Abstract

The utility model discloses an automatic material distributor for microscope glass slides, which comprises a machine table, a control box, a material conveying mechanism, a material distributing mechanism and a material feeding mechanism; the material conveying mechanism comprises a material conveying frame, two material conveying transmission shafts and a material conveying driving motor, wherein the material conveying frame is provided with a plurality of slide glass placing grooves, the material conveying transmission shafts are respectively provided with a plurality of belt pulleys corresponding to the slide glass placing grooves, and the two material conveying transmission shafts are provided with material conveying belts; the material distributing mechanism is fixedly connected with the material conveying frame through a fixing device and comprises a plurality of slide glass push plates respectively corresponding to the slide glass placing grooves and a cylinder connected with the slide glass push plates, the slide glass placing grooves are internally provided with extending and positioning supporting blocks, and one side of each slide glass push plate is provided with a slide glass push groove; the feeding mechanism comprises two supporting plates, two feeding transmission shafts and a feeding driving motor, and feeding belts are mounted on the two feeding transmission shafts. The utility model discloses can carry out piece-by-piece separation with the glass slide glass after soaking the stack automatically, effectively improve the efficiency of wasing the packing, reduce the cost of labor who washs the packing.

Description

Automatic distributor for microscope glass slide

Technical Field

The utility model relates to an automatic distributor of microscope glass slide glass.

Background

The microscope can amplify tiny objects to be visible to naked eyes, and is an instrument widely applied to medical treatment, scientific research and teaching, and a glass slide used for placing a specimen in the microscope is indispensable. Cleaning and packaging the glass slide after the glass slide is processed, soaking the glass slide in a solution before packaging, and then performing machine packaging piece by piece; in the process of soaking, the glass slide can superpose together, need artifical piece by piece separately pack after taking out from solution, and the glass slide that superposes together is difficult to separate, and artifical separately not only troublesome, also greatly reduced the efficiency of washing the packing, the cost of labor that needs is also higher simultaneously.

Disclosure of Invention

The utility model provides an above defect of solution provides an automatic depiler of microscope glass slide glass, can carry out piece-by-piece separation with the glass slide glass after soaking the stack automatically, effectively improve the efficiency of wasing the packing, reduce the cost of labor who washs the packing.

In order to solve the technical problem, the utility model adopts the technical scheme that: an automatic material distributor for microscope glass slides comprises a machine table, a control box, a material conveying mechanism, a material distributing mechanism and a material feeding mechanism, wherein the material conveying mechanism, the material distributing mechanism and the material feeding mechanism are fixedly connected with the machine table respectively; the material distributing mechanism is fixedly connected to one end of the material conveying mechanism, and the feeding mechanism corresponds to the material distributing mechanism and is positioned below the material distributing mechanism;

the material conveying mechanism comprises a material conveying frame, two material conveying transmission shafts and a material conveying driving motor, wherein the material conveying frame is provided with a plurality of slide glass placing grooves, the material conveying transmission shafts are respectively provided with a plurality of belt pulleys corresponding to the slide glass placing grooves, the two material conveying transmission shafts are respectively arranged at two ends of the material conveying frame and are provided with material conveying belts corresponding to the slide glass placing grooves one by one, and the material conveying driving motor is in transmission connection with one of the material conveying transmission shafts;

the material distributing mechanism is fixedly connected with the material conveying frame through a fixing device and comprises a plurality of slide glass push plates respectively corresponding to the slide glass placing grooves and a cylinder connected with the slide glass push plates, the slide glass placing grooves are internally provided with extending positioning support blocks connected between the material conveying belt and the slide glass push plates, and the slide glass push plates are provided with slide glass push grooves at one side close to the slide glass placing grooves;

the feeding mechanism comprises two supporting plates, two feeding transmission shafts and a feeding driving motor, the two feeding transmission shafts are respectively arranged at two end parts between the two supporting plates and are provided with feeding belts, and the feeding driving motor is in transmission connection with one of the feeding transmission shafts.

The feeding mechanism is provided with a reinforcing and distributing device, the reinforcing and distributing device is formed by a plurality of supporting and separating plates which are fixedly penetrated through a plurality of fixing rods I, spacing blocks are penetrated through the positions between every two supporting and separating plates on the fixing rods I to form distributing grooves corresponding to the slide glass placing grooves, and the supporting and separating plates are correspondingly abutted against the separating plates one by one; and the supporting partition plates on the two sides of the whole reinforced material distributing device are fixed with the supporting plate.

The material conveying frame comprises two fixed side plates, a plurality of partition plates and a plurality of partition blocks, the partition blocks are arranged between every two partition plates and are positioned at one end, opposite to the extending and positioning support block, of the material conveying frame, and the partition plates and the extending and positioning support block are fixedly arranged between the fixed side plates in a penetrating mode through a plurality of fixing rods II, so that the slide glass placing groove is formed.

The fixing device comprises a plurality of connecting supports fixed with the partition plates and an angle bracket fixed on the connecting supports, and the air cylinder is fixedly connected to the angle bracket; the slide rail is arranged on the connecting support, the side surface of the slide glass push plate is provided with a side support plate, and the side support plate is connected with a rail positioning plate matched with the slide rail.

Furthermore, a pressing plate is arranged between the slide glass pushing plate and the cylinder, and the side surface of the pressing plate protrudes out of the slide glass pushing plate to form the slide glass pushing groove on one side close to the slide glass placing groove.

Furthermore, a material belt supporting plate is fixed between the supporting plates and is positioned in the feeding belt, and the supporting plates are composed of two adjusting plates which can be relatively telescopically and slidably adjusted.

Furthermore, a material belt supporting block which is positioned inside the material conveying belt is arranged in a slide glass placing groove formed between every two partition plates, and a material belt tensioning wheel is arranged on the bottom surface of the material belt supporting block, which is opposite to the slide glass placing groove.

Furthermore, a belt positioning plate is arranged on the material conveying frame, and belt positioning grooves corresponding to the material conveying belts are respectively arranged on the belt positioning plate.

Furthermore, the two ends of the material belt supporting block are respectively provided with a yielding wheel groove corresponding to the belt pulley, and the end part of the extension positioning supporting block corresponding to the material belt supporting block is provided with a yielding positioning wheel groove corresponding to the belt pulley.

The utility model discloses following beneficial effect has:

the utility model can automatically separate the superposed and attracted glass slides after being soaked one by one, replaces the traditional manual separation mode, when in use, the superposed and attracted glass slides are placed into the slide glass placing grooves of the conveying frame in a row, the foremost glass slide in each slide glass placing groove can be positioned in the slide glass pushing groove of the slide glass pushing plate in the distributing mechanism, the whole machine is started by the control box, the air cylinder in the distributing mechanism pushes the slide glass pushing plate to send the glass slide out and drop the glass slide onto the feeding belt of the feeding mechanism, and then the glass slide is reset, then the feeding driving motor drives the feeding belt to rotate, thereby sending the separated glass slide out, then the feeding driving motor drives the conveying belt to rotate, thereby pushing the foremost glass slide in the row of glass slide glass in the slide glass placing groove to the slide glass pushing groove, then the distributing mechanism moves more than circularly, circulating according to the steps, so that glass slides which are overlapped and attracted in rows in the slide glass placing groove are separated one by one; compare with traditional separation mode, obviously improved efficiency, can control many machines alone moreover, great reduction the cost of labor.

Drawings

Fig. 1 is a perspective view of the present invention;

fig. 2 is a perspective view of the present invention in another direction;

FIG. 3 is a perspective view of the connection between the material conveying mechanism and the material distributing mechanism of the present invention;

fig. 4 is an exploded perspective view of the material transfer mechanism of the present invention;

fig. 5 is a perspective view of the material transfer mechanism of the present invention;

FIG. 6 is a perspective view of the material distributing mechanism in two different directions;

FIG. 7 is a plan view of the material distributing mechanism of the present invention;

fig. 8 is a perspective view of the feeding mechanism and the reinforced material-separating device connected thereto;

fig. 9 is an exploded perspective view of the feeding mechanism of the present invention;

fig. 10 is a perspective view of the utility model of the material belt supporting block and the extending positioning supporting block.

Detailed Description

The invention is further explained by combining the attached drawings.

Referring to fig. 1 to 10, the present invention provides an automatic material distributor for microscope glass slides, which comprises a machine table 1, a control box 2, a material conveying mechanism 3, a material distributing mechanism 4 and a material feeding mechanism 5, wherein the material conveying mechanism 3, the material distributing mechanism 4 and the material feeding mechanism 5 are respectively fixedly connected with the machine table 1 through a fixed support rod 1-1; the material distributing mechanism 4 is fixedly connected to one end of the material conveying mechanism 3, and the material conveying mechanism 3 has gradually downward inclination from one end to the other end fixed with the material distributing mechanism 4, so that the placed glass slide has certain inclination; the feeding mechanism 5 corresponds to the material distributing mechanism 4 and is positioned below the material distributing mechanism.

The material conveying mechanism 3 comprises a material conveying frame 6, two material conveying transmission shafts 7 and a material conveying driving motor 8, the material conveying frame 6 comprises two fixed side plates 9, a plurality of partition plates 10 and a plurality of partition blocks 11, the partition blocks 11 are arranged between every two partition plates 10 and located at one end of the material conveying frame 6, extension positioning support blocks 12 are arranged at the other end of the material conveying frame 6 and between every two partition plates 10, and the partition plates 10, the partition blocks 11 and the extension positioning support blocks 12 are fixedly arranged between the fixed side plates 9 in a penetrating mode through a plurality of fixing rods II13, so that a slide glass placing groove 14 is formed; the material conveying transmission shafts 7 are respectively provided with a plurality of belt pulleys 15 corresponding to the slide glass placing grooves 14, the two material conveying transmission shafts 7 are respectively arranged at two ends of the material conveying frame 6, the belt pulleys 15 corresponding to the two material conveying transmission shafts are provided with material conveying belts 16, the material conveying belts 16 are correspondingly positioned in the formed slide glass placing grooves 14, the material conveying driving motor 8 is in transmission connection with one of the material conveying transmission shafts 7, and the material conveying driving motor 8 is fixed on the machine table 1 and is in circuit connection with the control box 2.

The material distributing mechanism 4 is fixedly connected with the material conveying frame 6 through a fixing device 17 and comprises a plurality of slide glass push plates 18 respectively corresponding to the slide glass placing grooves 14 and air cylinders 19 connected with the slide glass push plates 18, extension positioning support blocks 12 arranged between every two partition plates 10 are connected with the matching between the material conveying belts 16 and the slide glass push plates 18, and the air cylinders 19 are connected with an air source (not shown in the figure) and controlled by the control box 2; a pressing plate 20 is arranged between the slide glass pushing plate 18 and the cylinder 19, the side surface of the pressing plate 20 protrudes out of the slide glass pushing plate 18 to form a slide glass pushing groove 21 at one side close to the slide glass placing groove 14, the distance from the side surface of the pressing plate 20 protruding out of the slide glass pushing plate 18 is the depth H of the slide glass pushing groove 21, and the depth H of the slide glass pushing groove 21 is smaller than or equal to the thickness of the glass slide glass to be separated, so that the slide glass pushing groove 21 can only contain one glass slide glass, and the slide glass pushing plate 18 can be guaranteed to push out one glass slide glass at a.

The feeding mechanism 5 comprises two supporting plates 22, two feeding transmission shafts 23 and a feeding driving motor 26, the two feeding transmission shafts 23 are respectively arranged at two end parts between the two supporting plates 22 and are provided with a feeding belt 24, and a material belt supporting plate 25 positioned in the feeding belt 24 is fixed between the supporting plates 22 and can play a role of integrally and smoothly supporting the feeding belt 24; the supporting plate 22 consists of two adjusting plates 27 which can be relatively telescopically and slidably adjusted, so that the tightness of the feeding belt 24 can be adjusted; the feeding driving motor 268 is in transmission connection with one of the feeding transmission shafts 23, and the feeding driving motor 26 is fixed on the machine table 1 and is in circuit connection with the control box 2.

The feeding mechanism 5 is provided with a reinforcing and separating device 28, the reinforcing and separating device 28 is formed by fixedly penetrating a plurality of supporting partition plates 29 through a plurality of fixing rods I30, spacing blocks 31 penetrate through positions, between every two supporting partition plates 29, on the fixing rods I30 to form a material separating groove 32 corresponding to the slide glass placing groove 14, and the supporting partition plates 29 are correspondingly abutted against the partition plates 10 one by one; the supporting partition plates 29 on both sides of the whole reinforcing and distributing device 28 are fixed with the supporting plate 22.

The fixing device 17 comprises a plurality of connecting brackets 33 fixed with the partition plate 10 and a corner bracket 34 fixed on the connecting brackets 33, and the air cylinder 19 is fixedly connected on the corner bracket 34; the connecting bracket 33 is provided with a slide rail 35, the side surface of the slide glass push plate 18 is provided with a side support plate 36, and the side support plate 36 is connected with a rail positioning plate 37 matched with the slide rail 35.

A carrier tape supporting block 38 positioned inside the carrier tape 16 is arranged in the carrier tape placing groove 14 formed between every two partition plates 10, so that the carrier tape 16 can be supported integrally and flatly, and a plurality of fixing rods III39 are arranged between the carrier tape supporting block 38 and the partition plates 10 and fixed on the fixed side plates 9 in a penetrating manner; the tape support block 38 is provided with a tape tension wheel 40 on a bottom surface thereof opposite to the slide mount groove 14, by which the tightness of the transfer tape 16 can be adjusted.

The material conveying frame 6 is provided with a belt positioning plate 41, the belt positioning plate 41 is provided with belt positioning grooves 42 corresponding to the material conveying belts 16, and offset shaking is effectively avoided in the rotating process of the material conveying belts 16.

The two ends of the material belt supporting block 38 are respectively provided with an abdicating wheel groove 43 corresponding to the belt pulley 15, and the end of the extension positioning supporting block 12 corresponding to the material belt supporting block 38 is provided with an abdicating positioning wheel groove 44 corresponding to the belt pulley 15; further better make the clearance butt joint of transfer area 16 both ends, make the better transition conveying of the glass slide glass of placing above that, let the location race 44 also the effectual skew of avoiding appearing rocking in the pivoted in-process of transfer area 16.

The glass slides after soaking can be overlapped and absorbed together in rows, when in use, the overlapped and absorbed glass slides in rows are placed into the slide glass placing grooves 14 of the material conveying frame 6, the glass slides form a whole row in each slide glass placing groove 14, and the foremost one of the glass slides in the rows can be propped against the slide glass pushing groove 21 of the slide glass pushing plate 18 in the material distributing mechanism 4; the whole machine is started through the control box 2, at the moment, the air cylinder 19 can push the slide glass push plate 18 to move downwards, the glass slide glass in the slide glass push plate 18 is separated from another glass slide glass which is adjacently sucked in a row along with the downward movement of the slide glass push plate 18, the separated glass slide glass can fall on the feeding belt 24 of the feeding mechanism 5 along with the downward movement of the slide glass push plate 18, and the slide glass push plate 18 is driven by the air cylinder 19 to reset after the downward movement is finished; then the feeding driving motor 26 drives the feeding belt 24 to rotate, so that the glass slide separated from the feeding belt is fed out, and an automatic cleaning and packaging production line is arranged behind the feeding mechanism 5 in actual use; then the material conveying driving motor 8 drives the material conveying belt 16 to rotate, so that the rows of glass slide sheets in the slide glass placing groove 14 are driven, the foremost sheet in each row is pushed into the slide glass pushing groove 21 on the slide glass pushing plate 18, then the material distributing mechanism 4 repeats the actions circularly, and the steps are circulated sequentially, so that the rows of superposed and attracted glass slide sheets in the slide glass placing groove 14 are separated one by one for cleaning and packaging.

The above detailed description is made on the automatic material distributor for microscope glass slides provided by the embodiment of the present invention, and the specific examples are applied herein to explain the principle and the implementation manner of the present invention, and the description of the above embodiments is only used to help understand the technical solution disclosed by the present invention; meanwhile, for the general technical personnel in the field, according to the idea of the present invention, there are changes in the specific implementation and application scope, to sum up, the content of the present specification should not be understood as the limitation of the present invention.

Claims

1. The utility model provides a microscope glass slide automatic depiler which characterized in that: comprises a machine table, a control box, a material conveying mechanism, a material distributing mechanism and a material feeding mechanism which are respectively and fixedly connected with the machine table; the material distributing mechanism is fixedly connected to one end of the material conveying mechanism, and the feeding mechanism corresponds to the material distributing mechanism and is positioned below the material distributing mechanism;

2. The automatic dispenser of microscope glass slides of claim 1, wherein: the feeding mechanism is provided with a reinforcing and distributing device, the reinforcing and distributing device is formed by a plurality of supporting and separating plates which are fixedly penetrated through a plurality of fixing rods I, spacing blocks are penetrated through the positions between every two supporting and separating plates on the fixing rods I to form distributing grooves corresponding to the slide glass placing grooves, and the supporting and separating plates are correspondingly abutted against the separating plates one by one; and the supporting partition plates on the two sides of the whole reinforced material distributing device are fixed with the supporting plate.

3. The automatic dispenser of microscope glass slides of claim 1, wherein: the material conveying frame comprises two fixed side plates, a plurality of partition plates and a plurality of partition blocks, the partition blocks are arranged between every two partition plates and are positioned at one end, opposite to the extending and positioning support block, of the material conveying frame, and the partition plates and the extending and positioning support block are fixedly arranged between the fixed side plates in a penetrating mode through a plurality of fixing rods II, so that the slide glass placing groove is formed.

4. The automatic dispenser of microscope glass slides of claim 1, wherein: the fixing device comprises a plurality of connecting supports fixed with the partition plates and an angle bracket fixed on the connecting supports, and the air cylinder is fixedly connected to the angle bracket; the slide rail is arranged on the connecting support, the side surface of the slide glass push plate is provided with a side support plate, and the side support plate is connected with a rail positioning plate matched with the slide rail.

5. The automatic dispenser of microscope glass slides of claim 1, wherein: a pressing plate is arranged between the slide glass pushing plate and the cylinder, and the side surface of the pressing plate protrudes out of the slide glass pushing plate to form the slide glass pushing groove on one side close to the slide glass placing groove.

6. The automatic dispenser of microscope glass slides of claim 1, wherein: a material belt supporting plate is fixed between the supporting plates and is positioned in the feeding belt, and the supporting plates are composed of two adjusting plates which can be relatively telescopically and slidably adjusted.

7. The automatic dispenser of microscope glass slides of claim 3, wherein: a material belt supporting block in the material belt conveying part is arranged in a slide glass placing groove formed between every two partition plates, and a material belt tensioning wheel is arranged on the bottom surface of the material belt supporting block opposite to the slide glass placing groove.

8. The automatic dispenser of microscope glass slides of claim 1, wherein: the belt positioning plates are arranged on the material conveying frame and are respectively provided with belt positioning grooves corresponding to the material conveying belts.

9. The automatic dispenser of microscope glass slides of claim 6, wherein: the belt supporting block is characterized in that two ends of the belt supporting block are respectively provided with a yielding wheel groove corresponding to the belt pulley, and the end parts of the extension positioning supporting block corresponding to the belt supporting block are provided with yielding positioning wheel grooves corresponding to the belt pulley.