KR101188525B1 - Shelf device for studing scientific principles - Google Patents

Abstract

PURPOSE: A shelf device for scientific experiment is provided to enable a user to visually understand operation principle and basic constitution of a shelf through the process of sharpening a pencil by a cutting tool. CONSTITUTION: A tool rest includes a moving body(31) and a vertical connector(32). The moving body includes a mounting groove(31a) for mounting a cutting device. The vertical connector connects the moving body and a slide rest. The vertical connector is extended from the bottom side of the moving body downwardly. The slide rest includes a rack rod(41), a pinion(42), a connection rod(43) and a knob(44). The rack rod is attached along an extension groove. The connection rod is hinge-coupled to the pinion and the vertical connector. The knob is attached on both ends of the connection rod.

Description

Shelf device for scientific experiments {Shelf device for studing scientific principles}

The present invention relates to a scientific laboratory shelf apparatus that can be easily understood the technical principles applied to the shelf, and in particular, the technical principle of the shelf applied to the pencil sharpener commonly seen in life through the assembly and operation of the device visually easy to understand The present invention relates to a lathe for scientific experiments.

In general, lathes are the most representative machine tools that operate with mechanical power and are capable of processing cylindrical objects.

Such lathes usually have the property that the workpiece does not rotate but the workpiece rotates; The bed which becomes the base of an apparatus, the spindle head which rotates in the state which hold | maintained the cutting object, the tool stand in which the cutting device is installed, the feed stand which conveys a tool stand, etc. are comprised.

Meanwhile, a variety of science textbooks are being developed for childhood students. Such textbooks should be easy to produce and should be constructed so that the principles that the textbook is trying to present visually during production and operation.

Accordingly, the present invention has been made in view of the above circumstances, and provides a scientific experimental shelf apparatus that enables the user to visually and easily understand the technical principle of the shelf applied to a pencil sharpener commonly seen in life through the assembly and operation of the device. For the purpose of

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are not intended to limit the invention to the precise form disclosed. There will be.

In order to achieve the above object, the present invention, the bed (10); A headstock 20 for rotating in a state of holding the cutting object; A tool post 30 on which a cutting device is installed; It comprises a conveyance table 40 for conveying the tool post; The headstock 20 and the tool rest 20 are located opposite each other on the bed 10; The bed 10 has a longitudinally extending groove 11 formed in the side portion, a basket insertion groove 12 is formed in the lower portion of the extension groove 11, the basket 17 is the insertion groove 12 Through which the inner hollow can be inserted; The headstock 20 is formed in a cylindrical shape, the rotating body 21, the cutting body insertion hole 21a is formed on the other side facing the tool rest 30 and the installation of the bed 10 The cylindrical hole 22a, which stands up from the surface 15a and is rotated by inserting the rotating body 21 on the surface, is opened along the axial direction, and includes a fixing body 22 positioned on the mounting surface. Configured; The tool post 30 is a movable body in which a seating groove 31a is formed in which a cutting device 51 is seated at a position facing the cutting insert insertion hole 21a on one side facing the main shaft stand 20. (31), and a vertical connecting rod (32) extending vertically downward from the bottom surface of the movable body (31) for connecting the movable body (31) and the conveyance table (40); The transfer table 40 includes a rack rod 41 attached to an extension groove under the outer side of the extension groove 11, a pinion 42 rotating on the rack rod, the pinion 42 and The connecting rod 43 hinged to the vertical connecting table 32, and the handle 44 is attached to both ends of the connecting rod 43 provides a scientific experimental shelf device characterized in that it is configured.

When the assembly of the scientific experiment lathe apparatus according to the present invention and performing the experiment, through the process of cutting the pencil (workpiece) with a cutting mechanism (pencil sharpener) provided on the shelf to visually easily understand the basic configuration and operating principle of the shelf do.

1 is an exploded perspective view schematically showing the configuration of a scientific laboratory shelf apparatus according to the present invention,
Figure 2 is a perspective view schematically showing the configuration of the scientific experiment shelf apparatus according to the present invention,
3 is a perspective view of a rotating body provided in a shelf for scientific experiments according to the present invention;
4 and 5 is a schematic side view for explaining the operation of the scientific experiment shelf apparatus according to the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement 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.

1 is an exploded perspective view schematically showing the configuration of the scientific experiment shelf apparatus according to the present invention, Figure 2 is a schematic perspective view showing a configuration of the scientific experiment shelf apparatus according to the present invention, Figure 3 is a science according to the present invention It is a perspective view of the rotating body provided in an experiment lathe apparatus. In the following description, the axial direction is a direction extending along the longitudinal direction of the workpiece, and the workpiece is axially rotated on this axis.

Shelf apparatus 100 for scientific experiments according to the present invention includes a bed 10 serving as a base of the apparatus; A headstock 20 which rotates while holding a cutting object (eg, a pencil); A tool post 30 on which a cutting device (for example, a pencil sharpener) is installed; It is comprised including the conveyance stand 40 which conveys this tool stand.

The headstock 20 is installed on one side of the upper part of the bed (left side of the figure), the tool post 20 is installed on the other side of the upper part of the bed (right side of the figure) to face each other Will be located.

In addition, the headstock 20 is rotated by holding one end of the cutting material 60, the tool stand 30 by using the cutting device 51 while conveying in the axial direction by the feed table (40) The other end of the rotating workpiece 60 is cut.

Here, the bed 10 is formed in the shape of a hollow rectangular box, a pair of longitudinally extending grooves 11 are formed in the front and rear side portions extending in parallel with the axial direction and facing each other. In addition, at the front or rear side portion, a basket insertion groove 12 opened in a rectangular shape is formed in the lower portion of the extension groove 11, the basket 17 of the rectangular box shape through the insertion groove 12 It can be inserted into the inner hollow part. In addition, the upper surface of the bed 10 is partially open, the installation surface 15a for installing the main shaft 20 is formed on one side, and the other side is covered with the upper plate 15 that opens in a rectangular shape. do. Here, the front side is the side of the inner bed in the figure, and the rear side is the side of the outer bed in the figure.

In addition, the bed 10 may be formed by designing a foam board or a hard board paper into a box shape, assembling, and then cutting the upper and front side surfaces.

Here, the headstock 20 is formed in a cylindrical shape by cutting a commercial foam board in a circular shape, laminated in a plurality of axial direction and bonded with an adhesive material, cut on the other side facing the tool rest 30 A rotating body 21 in which the water insertion hole 21a is formed; The cylindrical hole 22a, which is formed to extend upwardly from the mounting surface 15a of the bed 10 and is inserted into the rotating body 21, is opened along the axial direction, and the mounting surface 15a is opened. And a fixture 22 positioned thereon.

The fixture 22 may be adhered to the installation surface 15a with an adhesive. Accordingly, as the rotor 21 is inserted into the communication hole 22a and positioned on the shaft, the rotor 21 can be rotated.

In addition, the insertion hole 21a is generally formed in a cylindrical shape, but may be formed in various shapes such as a polygonal shape or an elliptic shape according to the cross-sectional shape of the cutting object.

In addition, the tool post 30 is formed by cutting the foam board into a rectangular shape and vertically stacked on the other open side on the bed to form a rectangular parallelepiped shape, and the cutting material on one side facing the main shaft 20. A moving body 31 having a seating groove 31a on which the cutting device 51 is seated at a position opposite to the insertion hole 21a; In order to connect the movable body 31 and the transfer table 40, the movable body 31 includes a pair of vertical connecting rods 32 extending vertically downward from the bottom surface of the movable body 31. The movable body 31 is seated and supported on the opening of the bed upper plate without adhesion to the opening edge portion 15b of the upper plate 15.

On the other hand, the edge portion may be formed as a guide to facilitate the axial advance and backward of the tool post 30. Here, the seating groove 31a and the cutting device 51 are formed in a triangular or wedge shape of a planar shape so as to be detachable from each other.

Here, the cutting device 51 is a coupling hole (41a) is formed in the position on the axis opposite to the insertion hole (21a), a cutting means such as a blade (51b) is formed inside the coupling hole (51a) It may be formed of a pencil sharpener. On the other hand, the virtual connection line between the insertion hole 21a and the coupling hole 51a becomes an axis in which the cutting object is axially rotated, and this connection line direction becomes an axial direction.

On the other hand, the mounting groove 31a of the movable body 31 is to communicate with the lower through the vertical connection groove 31b formed on the one side. Therefore, when the cutting means is fitted in the seating groove by-products cut by the blade 51b of the cutting means is dropped to the bet 10 through the connecting groove (31b).

In addition, the transfer table 40 is a pair of rack rods 41 which are rods attached along the extension grooves at the bottom of the extension grooves 11 formed to extend in parallel with the axial direction on the front and rear side surfaces of the bed 10. Wow; A pair of pinions 42 rotating on the rack rod; A connecting rod 43 hinged to the pair of pinions 42 and the vertical connecting rod 32 while extending across the extension grooves 11 formed on the front and rear sides; And a handle 44 attached to both ends of the connecting rod 43.

In the figure, the rack rod 41 is attached to the outer side of the bed along the extension groove 11, in which the pinion 42 is positioned on the rack rod 41, the connecting rod 43 Are connected to each other while communicating with the holes formed at the corresponding positions of the pinion 42 and the connecting table 32, and the disk-shaped handle 44 is attached to both ends thereof. On the other hand, the diameter of the pinion 42 and the handle 44 is formed larger than the vertical width of the extension groove 11, so as not to be separated from the extension groove 11 and the rack of the carriage 40. Here, the rack rod and pinion are usually made of a plastic material.

 In addition, although the rack rods and pinions 41 and 42 are adhered to the outer surface of the front and rear sides of the bed 10 so as to visually clearly check the movement of the tool post 30 according to the operation, It may be attached to the surface and formed.

In addition, the bed 10 may be formed of a transparent material such as, for example, transparent acrylic so that the operation relationship of the transfer table 40 can be clearly observed.

Thus, in the main shaft 20, the rotating body 21 is positioned on the shaft and rotates as it is inserted into the cylindrical hole 22a of the fixed body 22; As the pinion 42 of the carriage 40 rotates on the rack rod 41, the movable body 31 of the tool stage 30 causes the carriage 40 to move along the extension groove 11. As it is moved forward or backward on the axis in the direction of the main axis close to or apart.

Hereinafter, an experimental process using the scientific laboratory shelf apparatus 100 according to the present invention will be described with reference to FIGS. 4 and 5.

First, one end portion of the cutting object 60 is fixed to the insertion hole 21a of the rotating body 21. In this state, the rotating body 21 is inserted into the cylindrical hole 22a of the fixed body 22 to advance toward the tool post.

Thereby, the other end of the cutting object 60 is inserted in the engaging hole 51a of the cutting device 51 (state of FIG. 4).

Subsequently, the rotating body 21 is rotated counterclockwise, and at the same time, the tool post 30 is advanced toward the headstock 20. This advancement is performed by pressing the tool rest 30 toward the spindle arm 20 or by rotating the handle 44 of the feed counterclockwise (state of FIG. 5).

Therefore, while the rack rotates on the pinion, the carriage 40 moves forward from the right side to the left side in the drawing, and accordingly, the tool stage 30 moves toward the main shaft base, thereby rotating in conjunction with the rotation of the rotor 21. The cutting object 60 will be cut.

Furthermore, the cut by-products fall through the openings and fall into the basket 17 located below the tool post 30.

On the other hand, according to the experiment using the scientific experiment lathe according to the present invention described above, the cutting device has a characteristic that the workpiece is rotated without rotating; Visualize the technical principles of a general lathe comprising a bed on which the device is based, a spindle head for rotating in the state of holding the cutting material, a tool rest on which the cutting device is installed, and a feed table for transporting the tool rest. It can be easily understood.

100-shelving, 10-bed,
20-headstock, 30-tool post,
40-tray, 41-rack load,
42-pinion.
.

Claims (1)

Bed 10; A headstock 20 for rotating in a state of holding the cutting object; A tool post 30 on which a cutting device is installed; It comprises a conveyance table 40 for conveying the tool post; The bed 10 has a longitudinally extending groove 11 formed in the side portion, a basket insertion groove 12 is formed in the lower portion of the extension groove 11, the basket 17 is the insertion groove 12 Through which the inner hollow can be inserted; The headstock 20 is formed in a cylindrical shape, the rotating body 21, the cutting body insertion hole 21a is formed on the other side facing the tool rest 30 and the installation of the bed 10 The cylindrical hole 22a, which stands up from the surface 15a and is rotated by inserting the rotating body 21 on the surface, is opened along the axial direction, and includes a fixing body 22 positioned on the mounting surface. Configured; The tool post 30 is a movable body in which a seating groove 31a is formed in which a cutting device 51 is seated at a position facing the cutting insert insertion hole 21a on one side facing the main shaft stand 20. (31), and a vertical connecting rod (32) extending vertically downward from the bottom surface of the movable body (31) for connecting the movable body (31) and the conveyance table (40); The transfer table 40 includes a rack rod 41 attached to an extension groove under the outer side of the extension groove 11, a pinion 42 rotating on the rack rod, the pinion 42 and Shelf device for scientific experiments, characterized in that it comprises a connecting rod (43) hinged to the vertical connecting table (32), and a handle (44) attached to both ends of the connecting rod (43).

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