RU166706U1 - DRUG DRILLING DEVICE - Google Patents

Abstract

A device for fixing conical plugs when drilling holes in them, containing a conductor, characterized in that the conductor used is a plate mounted on a bar-shaped wooden support and made with grooves at the ends and with at least five conical holes for different sizes of plugs, the plate fixed on a support to ensure that the large bases of the conical plugs are pressed against its horizontal surface by means of clamping wing nuts, steel and polymer washers on hinged screws, hinges but fixed in the recesses formed on the ends of the support and installed in the slots of the plate.

Description

The utility model is used in the laboratory practice of schools, technical schools, colleges, higher educational institutions and other organizations as a universal device used in drilling holes in cortical, rubber and polymer conical plugs used to plug chemical dishes and connect separate parts of laboratory devices.

In laboratory practice, it is often necessary to use tubes made of different materials to connect various devices and their parts. In this regard, it becomes necessary to make holes of various diameters in plugs, which are used to connect devices. As a rule, in laboratory practice, corks made of bark of cork tree (cork corks), of rubber, rubber (rubber corks) and glass are used.

Traditionally, for drilling corks, so-called tubular hand drills of various diameters are used. (Workshop on general chemistry. V.I. Semishin. Edited by Prof. V.V. Lebedinsky. M., L .: Khimizdat, 1948. - P. 28 (312 p.). Manual drills are metal thin-walled tubes with a pen or hole at one end, into which the rod is inserted, and the other end is sharpened in a certain way (B. B. D. Technique of a laboratory experiment in chemistry: textbook for universities. M: Chemistry, 1999. - P. 42-43 (600 p.). In the book (Workshop on Organic Synthesis. MN Khramkina. Ed. 4th, revised L .: Chemistry, 1977. - P. 20-21 (320 p.) The following method of use is recommended manual light when drilling plugs: "" Before drilling a rubber plug, it should be slightly heated in a water bath in a 2-3% alkali solution, then washed with water and wiped, and the drill should be lubricated with petroleum jelly or washed with glycerin to reduce friction. Drilling should be done slowly, and be sure to start with a narrow base, since this part will be in the vessel and should be even. When drilling, take a cork in the left hand and a drill in the right hand, and give it such a position that its axis coincides with the axis of the cork, and the resulting hole in the traffic jam must be parallel but the walls of the throat of the vessel, which greatly facilitates the assembly of the vessel.

They start drilling by pressing on the cork and slowly rotate the drill, however, it is not necessary to press hard on the drill, as this results in uneven holes with torn edges for cork plugs and holes that are much smaller in rubber ”. Drilling a rubber plug without lubrication is very difficult. After drilling, the so-called core is knocked out of the drill - a cylindrical piece of rubber drilled from a cork, which often complicates the process of using hand drills. The drawback of the process of drilling plugs with hand drills is the high risk of injuring the experimenter's hands and the difficulty of installing and maintaining parallelism of the axis of the hole of the axis of the plug. The process of drilling rubber plugs, for example, with large diameter drills, requires the application of sufficient effort, which greatly complicates, and sometimes makes the process of making holes impossible. In addition, recently in laboratory practice, corks from various modern materials have been used, for example, fluoroplastic, polyethylene and polypropylene (Stepin B.D. Technique of a laboratory experiment in chemistry: textbook for universities. M .: Chemistry, 1999. - P. 42 (600 s) These plugs have great chemical resistance, but also greater hardness, which makes it impossible to drill them with hand drills.

More convenient is the process of drilling traffic jams using a special machine for drilling traffic jams. The machine consists of a massive curved bed, in the upper part of which a shaft is fixed, rotated manually using a wheel with a handle. At the other end of the rotatable and vertically movable shaft there is a special rod on which a tubular hand drill is fixed with the help of a stop screw. At the bottom, on the cylindrical ribbed platform of the base of the bed, a plug is installed, which during drilling is pressed by the drill to the site. The advantages of this method of drilling are reduced injury risk and obtaining very accurately and evenly drilled holes. However, most of the drawbacks inherent in the use of tubular hand drills persist even when using machines for drilling plugs. For example, the impossibility of making holes in plugs of increased hardness.

The closest device that facilitates the process of drilling plugs is a conductor, proposed for drilling rubber plugs in schools (Polosin BC, Prokopenko V.G. Workshop on the methodology of teaching chemistry: a textbook. A manual for students of pedagogical institutes for specialty No. 212 " Chemistry. ”- 6th ed., Revised. - M: Education, 1989. - P. 46-47 (224 s). The conductor is a device for fixing the corks and holding them when drilling with tubular hand drills using a drilling machine. The conductor has the shape of a cylinder made of cast iron with a central a hole corresponding to the size of the plug being drilled. A rod is screwed into the lateral surface of the conductor with which it is held by hand while drilling. The plugs are drilled on a drilling machine, in the chuck of which a tubular hand drill is fixed using adapters. Adapters are steel rods with different diameters of the ends: on the one hand, 8 mm for mounting in chucks, and on the other hand, according to the inner diameter of the hole of the tubular drill. The drill is connected to the adapter using the side locking screw. The drilling process using a conductor is as follows: a drill is fixed in the drill chuck, and the cork is placed in a conductor with a large base up. When the drill is pressed on the cork, the rubber cork is pressed against the inner surface of the conductor; due to friction, the cork is held in the conductor. To reduce friction, a drop of glycerin is applied to the drilling site. Drilling is carried out in one motion of the spindle. In order not to jam the edge of the drill, a thick rubber sheet is laid on the machine bed plate or the spindle travel is adjusted so that the drill does not reach the plate at the bottom point. After drilling, the drill is stopped, the core is removed from its cavity, and a new plug is placed in the conductor or the conductor and drill are replaced.

The use of a conductor increases the safety of the drilling process and allows it to be mechanized by using drilling machines, which is important in school conditions. One of the significant drawbacks of the proposed conductors is the difficulty of drilling in plugs of several parallel holes. This is because the plugs in the conductor are installed smaller base down and it is often difficult when drilling to get into the circuit of this base, starting drilling from a large base. The design feature of the conductor is also caused by the need to put a thick layer of rubber under the conductor or special adjustment of the spindle stroke of the machine, which complicates the drilling process. At the same time, at high drilling speeds, the possibility that the conductor can “escape” from the hand and injure the experimenter is not excluded. In addition, for drilling rubber plugs manufactured by industry (in accordance with GOST 7852-76 conical rubber plugs. Technical conditions), along with sets of tubular drills, it is necessary to have a set of conductors specially made on a lathe in an amount of at least 11 pcs., Which is enough costly to school budgets. The disadvantages of the drilling process based on the use of a conductor include all the disadvantages inherent in the use of tubular drills, for example, when drilling particularly hard plugs, they often rotate in the conductor, which makes it difficult to drill such plugs.

The technical result, which is aimed at solving the utility model, is to increase the versatility of the device used in drilling plugs, to increase the safety of its use, simplify the manufacture of the device and its cost.

The technical result is achieved by the fact that in the device for securing conical plugs when drilling holes in them, the conductor containing as a conductor using a plate mounted on a bar-shaped wooden support and made with grooves at the ends and with at least five conical holes for different sizes of plugs, this plate is fixed on the support with the provision of pressing the large bases of the conical plugs to its horizontal surface by means of clamping wing nuts, steel and polymer washers from bolt screws pivotally mounted in recesses made at the ends of the support and installed in the grooves of the plate.

Figure 1 shows the design of the device for fixing conical plugs when drilling holes in them, where:

1 - squared support; 2 - hinged screw; 3 - wing nut; 4 - steel washer; 5 - polymer washer; 6 - groove; 7 - plate; 8 - cork; 9 - deepening.

To achieve the specified technical result, as a conductor with a conical hole corresponding to the size of the plug used, in the claimed design of the device for drilling plugs, it is proposed to use a plate 7 with grooves 6. At least five conical holes are made in the plate, into which various sizes of plugs 8 are installed, oriented with large bases downward, and the plate itself is fixed on a bar-shaped wooden support 1 with the help of clamping wing nuts 3, steel washers 4 and polymer joints yb 5 on the hinged screws 2, pivotally mounted in the recesses 9 at the ends of the support.

The process of drilling plugs using the proposed device is as follows: conical plugs (rubber, cortical, fluoroplastic, wooden, polyethylene, polypropylene), depending on the size of the plug, are installed with the smaller base up in the corresponding conical hole of the device plate and placed on the device support. After that, the clamping screws with wing nuts and polymer washers are installed in the grooves of the plate and the wing nuts are tightened until the plate is fixedly fixed to the support. When tightening the wing nuts, the large base of the cork is pressed against the horizontal surface of the support, and the lateral conical surface of the cork is pressed against the surface of the conical hole made in the plate. All this leads to reliable fastening of the plugs in the holes of the plate. Drilling plugs depending on their hardness occurs in any way: using tubular drills manually; from

using tubular drills fixed in the chucks of a drilling machine or a manual electric drill; using twist drills used to drill metal, fixed in chucks of electric or hand tools. After drilling, the wing nuts are untwisted, the plate is removed from the support and, with a slight pressure on the protruding large base, the plugs with holes are pushed out of the conical holes of the plate. New plugs are installed in the plate, after which the drilling process is repeated. It is enough to make 2-3 plates with conical holes for plugs and the device can be used to drill the entire assortment, for example, rubber plugs made by the domestic industry in accordance with GOST 7852-76. The device can be manufactured in school using only hand-held fitter's and carpenter's tools and a hand-held electric drill and standard fasteners.

The proposed device for fixing conical plugs when drilling holes in them has been used for several years in the chemical laboratory of the Technical University Department for drilling conical plugs made of different materials (rubber, fluoroplastic, polyethylene, polypropylene, wood) of various sizes from 8 × 11 × 16 mm to 45 × 51 × 52 mm using twist drills for metal without the use of any grease or other special preparation of plugs.

Claims (1)

A device for fixing conical plugs when drilling holes in them, containing a conductor, characterized in that the conductor is a plate mounted on a bar-shaped wooden support and made with grooves at the ends and with at least five conical holes for different sizes of plugs, the plate fixed on a support to ensure that the large bases of the conical plugs are pressed against its horizontal surface by means of clamping wing nuts, steel and polymer washers on hinged screws, hinges but fixed in the recesses formed on the ends of the support and installed in the slots of the plate.

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