RU2578249C1 - Device for determination of impact resistance of material - Google Patents

Abstract

FIELD: test equipment.

SUBSTANCE: invention relates to devices for testing on determination of various materials and articles impact resistance. Device for determination of impact resistance comprises bed, guide, impact element with mechanism bringing it in motion, wherein guide is made in form of pipe, longitudinally mounted on support to turn, in cavity of pipe there is impact element made up of composite plates and replaceable striker. Pipe has marking length in form of through holes in its wall for installation of adjustable pin in them. Pipe bottom has screw connection with nut equipped with protective casing and handles to turn. Impact element actuator mechanism includes rotary units, cable, having a handle on free end.

EFFECT: proposed appliance extends range of laboratory equipment for testing of construction materials and articles, as well as simplifies testing process itself.

4 cl, 13 dwg

Description

The invention relates to devices for testing to determine the resistance of various materials and products (glass, ceramics, concrete, plastic, etc.) to impact.

A device is known for determining the resistance of a material to impact, comprising a bed, a guide, an impact element with a mechanism for driving it [1].

The objective of the invention is to simplify the device for determining the resistance of the material to impact.

The technical result is achieved by the fact that in the device for determining the resistance of the material to impact, containing a bed, a guide, a shock element with a mechanism for setting it in motion, the guide is made in the form of a pipe, longitudinally mounted on a tripod with the possibility of rotation, and the shock element is located in the pipe cavity made of composite plates and interchangeable striker. The pipe has a marking along the length in the form of through holes in its wall for installation of a permissible pin. The pipe bottom has a screw connection with a nut equipped with a protective casing and handles for turning. The mechanism for bringing the shock element into motion contains rotary blocks, a cable having a handle on the free end.

In FIG. 1 shows a device for determining the resistance of a material to impact, side view; in FIG. 2 is a plan view of a fragment of FIG. 1 by AA; in FIG. 3 is a sectional view of FIG. 1 by BB; in FIG. 4 shows a percussion element (without composing plates) with interchangeable striker, side view; in FIG. 5 is a view of FIG. 4 from below, in C; in FIG. 6-11 depict options for a variety of interchangeable strikers; in FIG. 12 shows the location of the pin in the holes in the pipe wall; in FIG. 13 shows a diagram for determining the mass of an impact member using a dynamometer.

The device for determining the resistance of the material to impact (Fig. 1-3) contains a horizontally located bed 1 with a tripod 2 vertically mounted on it, having a circular cross section. The bed may have a marking for laying a sample 3 of a material or product, such as ceramic brick. The sleeve 4 is rotatably mounted on the tripod. The sleeve has an element 5 for attaching to the tripod. A guide 7 is vertically attached to the sleeve with brackets 6, made in the form of a pipe 8 having a marking along the length, for example, after 0.1 m, through holes 9 in its wall 10. A screw thread 11 is made on the bottom of the pipe, forming a screw connection with a nut 12 equipped with a protective cylindrical shape casing 13 and handles 14 for rotation. The casing is designed to prevent dust particles and / or pieces of a sample of material or product being destroyed upon impact outward. At least one strainer 16 and one glazed window 17 are made in the end wall 15 of the casing. An elastic shell 19 is attached below the edge of the side wall 18 of the casing, which acts as a seal when it touches the surface of the frame.

In the cavity 20 of the pipe there is an impact element 21, consisting of a rod 23 suspended from a cable 22 with a supporting platform 24. For example, a replaceable firing pin 26 is attached to the supporting platform below with screws 25. The replaceable firing pin may take the form of many point protrusions (Fig. 1; 4 and 5), many linear protrusions (Fig. 6). Other forms of interchangeable strikers are possible, for example, in the form of a cone (Fig. 7), a pyramid (Fig. 8), a wedge (Fig. 9), a half cylinder (Fig. 10), and a half ball (Fig. 11). On top of the supporting platform stacked round one with the recess for the rod, stacked plates 27 having the same or different masses, for example 0.25 kg, 0.5 kg, 1.0 kg, 2.0 kg Between the plates, elastic gaskets (not shown) can be laid. For ease of insertion / removal of type-setting plates, an opening 28 with a door 29 is made in the pipe wall. To temporarily hold the shock element at a predetermined height, for example, 0.5 m from the bed surface, a pin 30 can be installed in the holes in the pipe wall (Fig. 1 and 12).

The mechanism 31 for driving the shock element into motion comprises blocks 33 rotatable on the axis 32, covered by a cable with a handle 34 at its free end. The axis is installed in the upper part of the sleeve with support on the ball 35 lying on the concave (hole shape) end of the tripod. The axis in the working position is fixed in the sleeve by the clamp 36. The handle is detachable with the possibility of loading lead (steel, cast-iron) shot 38 into its cavity 37. To catch the handle moving upwards with the free fall of the impact element, a movable clamp 39 with a spring can be fixed on the sleeve trap 40.

To hang the mass of the shock element with composing plates, a manual dynamometer D can be used (Fig. 13).

The manufacturing process of the device for determining the resistance of the material to impact (Fig. 1-3) includes the following operations.

1. A frame 1 is made (cast) of cast iron, a steel tripod 2 is vertically mounted on it, having a hole on the free end to accommodate the ball 35. Markings are made on the bed for laying sample 3 of the material or product.

2. A sleeve 4 having a fastening element 5, a clamp 36 is made of steel. A movable clamp 39 with a spring trap 40 is mounted on the sleeve. The sleeve is put on a tripod with the possibility of rotation, for example, 360 °.

3. Of steel (aluminum, brass, plastic), a guide 7 is made in the form of a thin-walled pipe 8 with a screw thread 11, through holes 9 and an opening 28 with a door 29 in the wall 10.

4. A nut 12 is made of steel, the handles 14 and the protective casing 13 (Fig. 1 and 2) are attached to it, having mesh filters (fine mesh, sieve, fabric) 16, glazed (unbreakable glass) on the end (horizontal) wall 15 window 17. From below, on the side wall 18 of the casing, an elastic (rubber, leather) casing 19 is attached (glued).

5. The nut with handles and casing are loosely screwed onto the pipe. The pipe is attached (welded, soldered, glued) to the sleeve on the brackets 6 so that it is longitudinally mounted on a tripod.

6. A steel element is made of a shock element 21, consisting of a rod 23, a support platform 24 with attached screws 25 interchangeable striker 26 (Fig. 1; 4 and 5). The strikers (a set of strikers) can have a different shape (Fig. 6-11) for striking samples of building materials (rocks, artificial stones, plastics, glass) and products. To increase the impact force, stacking plates 27 are laid on the support platform. For example, standard weights for floor scales can be used as stacking plates. Elastic gaskets (not shown) between the stacked plates reduce noise. A pin 30 is mounted in the holes in the pipe wall. The purpose of the pin is to hold the impact member at a predetermined height from the bed surface.

7. A mechanism 31 for driving the shock element into motion is made, comprising an axis 32, blocks 33, a cable 22. A shock element is attached (tied, fastened) to one end of the cable, and a detachable handle 34 is inserted at the other end, into which cavity 37 is poured 38 The shock element is lowered into the pipe (with the possibility of free movement up and down), the axis is installed in the sleeve with support on the ball and fixed with a clamp. The shock element is lowered into the cavity 20 of the pipe.

8. Make or take at least one batch of material (at least three samples in the form of bars, cubes, plates). It is possible to prepare bulk material of the same type and approximately (+ 10%) of the same mass.

The device for determining the resistance of the material to impact is installed on a flat horizontal surface. The mass of the percussion element with composing plates is hung using a manual dynamometer D, adding or decreasing the amount of fraction in the handle. To increase or decrease the number of typesetting plates on the percussion element, an opening with a door made in the pipe wall is used. The dynamometer is removed. Then, manually, by pulling or lowering the handle, the shock element located in the pipe cavity is raised to a predetermined height (for example, 0.5 m) from the bed surface, and it is fixed in this position with the help of a pin inserted horizontally into the through holes in pipe wall.

Turning (rotating) the nut by the handles attached to it, lift the casing up, install a sample of material or product on the bed, then rotate the handles to lower the casing until the elastic shell contacts the surface of the bed. After that, the percussion element is slightly lifted, holding the handle with one hand, and the other pin is removed from the holes in the pipe wall with the other hand. Then the handle is released, while the shock element in free fall strikes strikingly on the sample of material or product. The force of impact can be increased or decreased by moving the impact element along the length of the pipe to a predetermined height.

The result of the impact (dents, chips, cracks, fracture of the sample) is observed through a glazed window in the casing. Dust particles released upon impact on the sample are held up by a strainer, and flying fragments remain in the casing. For a more detailed examination of a deformed or fractured specimen and / or obtaining photographs, the casing is lifted up by rotating the nut, the fastener is unscrewed and the sleeve, together with the tube attached to it, is turned around the tripod.

The results of the destruction of samples of materials and products can be used to improve the impact elements of equipment for crushing and grinding of building material.

The device for determining the resistance of the material to impact is not difficult to manufacture and use. The proposed device expands the range of laboratory equipment for testing building materials and products.

Information sources

1. Laboratory tests of building materials and products. - M.: Higher School, 1984. - S. 142-144.

Claims (4)

1. The device for determining the resistance of the material to impact, containing the frame, the guide, the shock element with a mechanism for bringing it into motion, characterized in that the guide is made in the form of a pipe, longitudinally mounted on a tripod with the possibility of rotation, and in the cavity of the pipe is an impact element, made integral of typesetting plates and interchangeable striker. 2. A device for determining the resistance of a material to impact according to claim 1, characterized in that the pipe has a marking along the length in the form of through holes in its wall with the possibility of installing an interchangeable pin. 3. A device for determining the resistance of a material to impact under item 1, characterized in that the pipe below has a screw connection with a nut equipped with a protective casing and handles for turning. 4. A device for determining the resistance of a material to impact according to claim 1, characterized in that the mechanism for bringing the impact element into motion comprises rotary blocks, a cable having a handle at the free end.

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