RU2238843C1 - Manual tool for cutting sheet materials - Google Patents

Abstract

FIELD: mechanical engineering.

SUBSTANCE: tool has housing with the handle, disk cutter with a drive for setting it in rotation, counter-cutting cutter, and base with a longitudinal slot. The counter-cutting cutter is mounted on the holder secured to the housing and is spring-loaded to the disk cutter. The base is mounted on the holder via the longitudinal pivots, face stops, and flexible member.

EFFECT: expanded functional capabilities.

7 cl, 7 dwg

Description

The invention relates to light industry and is intended for use mainly in dressmaking sewing production - when manually cutting clothes directly on a person or on a mannequin.

Known hand tools for cutting sheet materials (fabrics, rubber, linoleum, etc.), containing a body with a handle, a circular knife with an electric drive for its rotation, a counter knife installed on a holder connected to the body and pressed against the disk knife, and a supporting guide sole (foot, base, platform) mounted on said holder in a position perpendicular to the plane of the circular knife [1, 2].

Since the fixed (perpendicular to the plane of the circular knife) position of the support plane of the sole makes it difficult to “track” the macrorelief of the base surface (especially the surface of the body or mannequin when manually cutting fabrics in the manufacture of clothing), in some designs (both with circular and plate knives) the sole is installed on a holder with the possibility of roll and / or pitch [3, 4].

Closest to the claimed invention in terms of purpose and a combination of essential structural features is a hand tool for cutting sheet materials (“manual cutting scissors with a rotating knife”), comprising a case with a handle, a circular knife with a drive for its rotation, an antisliding knife mounted on an associated with the case the holder and spring-loaded elastically to the circular knife, and the supporting guide sole with the nose pointed and with an open interior space (longitudinal slot) mounted on the hold barely by means of longitudinal hinges, end stops and an elastic element, with the possibility of an elastic-return roll from the initial position [5].

In it, the support-guide sole is installed with one degree of freedom relative to the body (the mentioned possibility of roll, i.e. turning left and right around the cutting direction or, in other words, its longitudinal axis); the holder is mounted on the case in one position; the outer, supporting surface of the sole is smooth, without any prominent parts or details; the elastic element is made in the form of a rod or leaf spring, oriented parallel to the axis of rotation of the circular knife and fixed with its central part in the holder, and with the ends in the side nests of the sole from the side of its free space; the geometry of the circular knife is not specified and, probably, by analogy with analogues, it assumes either the same sharpening along the entire perimeter, along a radius constant in the 360 ° range, or sectoriality with straight-line sharpening within each sector, i.e. over an infinite radius.

Such a device, however, does not have sufficiently high technical and operational capabilities: it can only be operated in a mode with freedom of an elastic-return roll of the sole, which is not always required, and for some cutting operations, the roll of the sole is contraindicated; elastic suspension of the sole on the holder with a transverse position of the elastic element determines the relative complexity and non-compactness of the structure, as well as insufficient streamlining of the structure under conditions of longitudinal relative movement of the tool and the material being cut. In addition, the inability to adjust the angle of the handle to the outer, support plane of the sole makes it difficult to operate in the range of possible operations and conditions, and the movement of the sole along the base surface with only sliding friction is sometimes accompanied by significant friction, giving rise to transverse and longitudinal folds of fabric constituting the base surface; the two options for sharpening a circular knife described above limit the possibility of increasing the cutting efficiency, and with straight cutting edges of the sectors cause increased vibration.

The problem to which the claimed invention is directed is to expand the technical and operational capabilities of a hand tool for cutting sheet material by providing the possibility of choosing one of two at least operational modes, in one of which the sole has the freedom of an elastic-return roll (as in prototype), and in the other, it is motionless in its initial state, by simplifying the design and increasing its compactness, as well as by providing the possibility of adjusting the angle of the handle to the outside the back, the support plane of the sole while maintaining the geometry of the “disk knife - counter knife - cut material" system and supplying the sole with support-guide rollers (including the features of their location).

The solution to this problem is achieved by the fact that in a manual tool for cutting sheet materials containing a body with a handle, a circular knife with a drive for its rotation, an opposing knife mounted on a holder connected to the body and spring-loaded elastically to the disk knife, and a support-guide sole with nasal sharpening and with an open inner space, for example, a longitudinal slot mounted on the holder by means of longitudinal hinges, end stops and an elastic element, with the possibility of an elastic-return roll and from the starting position, the support-guide sole is mounted with the possibility of moving in the longitudinal direction and fixing in at least two positions, including a fixed one, characterized by blocking the said possibility of its roll from the initial position, mainly perpendicular to the plane of the circular knife, by means of fixing the position of the sole.

The problem is also solved by a number of additional sets of features of the device:

- on the basis of this set of basic features, the sole position fixation device may include a leaf spring with an outstanding part and an outstanding element installed in the gap between the side surfaces of the sole and the inner space of the sole, with the possibility of their elastic interaction, with an alternating arrangement of the prominent element at the back or front protruding part of the spring, depending on the longitudinal fixed position of the sole (this eliminates the above disadvantages of the prototype in part about the relative complexity and non-compactness of the structure, insufficient streamlining of the structure under conditions of relative longitudinal movement of the tool and the material being cut, the user can choose either the “power” method of transferring the sole with one hand from one longitudinal fixed position to another, or the “gentle” method with pressing the spring from the prominent element with the fingernail thumb of the same hand, and, at the same time, provides reliable fixation of the sole in the longitudinal direction in one of its fixed lodging, - “mobile”, “safety net” “tearing” of the sole from the indicated fixed position under the influence of excessive resistance in the opposite longitudinal direction due to the bulldozer effect during folding or temporary stops in other obstacles on the base surface);

- with the set of features indicated in the previous paragraph, the elastic element of the sole of the sole with the holder can be structurally combined with the leaf spring of the sole position fixation device, while in the free position of the latter, the protruding part of the leaf spring is gaplessly adjacent to the holder and is in contact with the prominent element with the possibility of progressive elastic two-plane deformation of the spring as the heel of the sole increases (this greatly simplifies the design of the tool as a whole, reduces parts list);

- with the main set of features, one of the end stops can be made in the form of a ridge, with flat side faces in the front of the holder, and a reciprocal socket in the continuation of the free space of the sole (this is a rational, for technological, layout and economic reasons, design variant of the device fixation and limitation of the heel of the sole and, accordingly, of the entire assembly “holder - sole”);

- with the combination of features indicated in the previous paragraph, the response nest can be performed in two stages so that the ridge is in the free position of the sole in the first, wide step with a trapezoidal cross section, and with lateral gaps, the selection of which is possible outside the range of heel angle of the sole, and in the sole position of the sole is in the second, narrow step, and it is gapless (this allows you to keep the comb partially shielded by the walls of the sole of the sole from the material being cut and thereby increase kaemost devices);

- with the main set of features, the holder can be mounted on the body with the ability to adjust the angle of inclination of the handle to the outer, support plane of the sole while maintaining the relative position of the disk knife and the sole with the opposing knife in the radial direction, due to the displacement of the holder along the radius centered on the axis of rotation of the disk knife (this allows you to choose the angle of the handle, convenient in specific operating conditions and taking into account individual ergonomic, physiological and other features of the benefits trainee);

- with the main set of features, the sole can be equipped with at least one pair of support-guide rollers offset from the vertical transverse plane of the disk knife towards the handle (this ensures not only partial replacement of sliding friction by relatively less rolling friction and not only stabilization of longitudinal moving the sole during cutting due to the rollers performing the functions of the guides on the deformable base surface, but also facilitating the operational control of the position of the sole in pitch, b strictly impart sole positive or negative pitch angle with a support "heel");

- a circular knife can be made with multi-sector, mainly six-sector, sharpening so that the ratio of the radius of curvature of the sectors to the radius of the knife is different from an infinite value (this is the rational geometry worked out by the practice of the team, in which the material is cut, especially the most common fabrics for outerwear, most effective).

The claimed device is presented in the drawings by examples of structural design:

figure 1 shows a General view (in a perspective view) of a hand tool for cutting sheet materials, where A is the cutting direction, φ are the roll angles of the support-guide sole relative to its initial (horizontal) position;

figure 2 shows a hand tool in a partially disassembled form;

figure 3 - supporting-guide sole in a "movable" position, side view with local cuts;

figure 4 - supporting-guide sole in a "movable" position, bottom view with local cuts;

figure 5 is the same in the "fixed" position of the sole;

figure 6 - diagram of the deformation of the elastic element (rotated in a vertical transverse plane by 90 °);

Fig.7 is a variant of the device with adjustment of the position of the holder (combined with a six-sector disc knife embodiment, with two radii of curvature of the cutting edge), where β is the angle of inclination of the handle to the plane of the outer, supporting surface of the sole; α is the angular parameter of each sector of the disk knife, R is the radius of the disk knife (range), R ₁ is the radius of curvature of the sectors of the knife; R ₀ is the radius of the arc on which the centers of the holes of the holder to the housing lie.

A manual tool for cutting sheet materials contains (see Fig. 1) a housing 1 with a handle 2 covering its back. On the head of the housing 1, on the side, on the axis 3, oriented horizontally and transversely with respect to the cutting direction A, a disk knife 4 is mounted. The latter is connected to its rotation drive, which primarily includes an electric motor 5 and a worm pair 6 ( see Fig. 2), electrically connected to the current source through the push-button switch 7. Behind the knife 4, the L-shaped holder 8 (“stand”, “bracket” or other substitute term) is fixedly attached to the housing 1 so that it is located behind and under the knife 4, in a plane perpendicular to the axis 3, t. . with longitudinal orientation (A). On the free end of the holder 8 is installed, with the same orientation (A), a support-guide sole 9 (“foot”, “platform”, “plate”, “base” or another substitute term) with a nasal tip and a flat outer (t ie facing away from the knife 4) supporting (“working”) surface. An open interior space 10 is provided in the sole 9, for example a longitudinal slot (longitudinally elongated space 10), for accommodating the cutting edge 11 of the knife 4 and a number of other elements (see below). “At least” - because the pitch of the sole 9 in a narrow angular range is not excluded.

The sole 9 is mounted on the holder 8 by means of longitudinally oriented hinges 12 and 13 (see figures 1, 3-5), end stops and an elastic element (see below), with the possibility of an elastic-return roll φ = ± 10-15 ° from the initial position, mainly perpendicular to the plane of the knife 4, with a force action on it.

The possibility of an elastic-return roll of the sole 9 can be provided in the first constructive version (Fig. 1), by analogy with the prototype, in that the sole 9 is connected to the holder 8 by means of a flexurally elastic rod 14 mounted transversally by its central part in the holder 8 ( i.e., parallel to the axis 3 and perpendicular to the direction A), while the ends of the shaft 14 are embedded in the nests 15, 16 of the sole 9 provided on the additional side surfaces of the groove 10.

In another (second), more rational structural embodiment (Figs. 3-5), the possibility of an elastic-return roll of the sole 9 is provided by replacing the shaft 14 with a leaf spring 17 with an outstanding part 18, with the possibility of bending at least in a plane parallel to the supporting surface of the sole 9 (shown by the arrow in FIGS. 4-6). In this case, the spring 17 is installed in the gap 19 as part of the space 10 (see Figs. 4-6), i.e. between the right side surfaces of the holder 8 and the sole 9, and is oriented longitudinally, and the protruding part 18 is oriented towards the inner side surface of the sole 9 and, preferably, adheres to it gaplessly. A screw element 20 is fixed in the holder 8 so that its end (hereinafter referred to as the "protruding element" 20) extends outward into the gap 19 and is in contact with the spring 17 on the side of the protruding part 18 (and at the same time in contact with it).

It is recommended that the spring 17 be wide enough (close to the height of the space 10) to enable its progressive elastic two-plane deformation in the other plane - with its roll corresponding to the roll of the sole 9 in the above range of angles φ, due to interaction with the prominent element 20.

Thus, the elastic connection element of the sole 9 with the holder 8 is structurally combined with a leaf spring of the device for fixing the position of the sole 9.

The installation of the sole 9 on the hinges 12, 13 allows the possibility of its movement in the longitudinal direction relative to the holder 8 and fixation in at least two positions: in the free (movable), similar to the prototype (see figure 3, 4), and in motionless (see figure 5).

The free (movable) position is characterized by the absence of angle limiters for the elastic roll of the sole 9 in the range of φ.

The fixed position is characterized by the on position of the sole 9 for fixing the position of the sole 9 and, accordingly, by blocking the aforementioned possibility of its roll from the initial position perpendicular to the plane of the disk knife 4 (preferred option) or extreme in the range of angles φ.

The composition of the device for fixing the position of the sole 9 includes: front 21 and rear 22 end stops on the holder 8, the stop 23 as the rear, removable (on the screw 24) part of the sole 9, and the system "protruding part 18 - prominent element 20". In the free position of the sole 9, the element 20 is located behind the part 18 (see Fig.3, 4, 6). In the stationary position of the sole 9, the element 20 is located in front of part 18 (see Fig. 5, 6).

In the recommended embodiment, the stop 21 is made in the form of a ridge with flat side faces, in front of the holder 8 (see Figs. 3, 7), and a mating socket in the continuation of the free space 10. The mating socket is preferably made in two stages so that the ridge 21 is located in the free (movable) position of the sole 9 in the first wide step 25 with a trapezoidal (inverted trapezoid) cross-section, and with side gaps, the selection of which is possible outside the range of angles φ, and in a fixed position and soles 9 - in the second, narrow step 26, and without a gap.

A variant (not shown) with the third position of the sole 9 along its longitudinal axis (direction A) is possible, mainly so that it occupies two extreme “movable” positions when shifted on opposite sides from the central “fixed” one. In this case, “movable” positions are characterized by different geometry of the cutting zone (for different thicknesses of the material being cut).

In a preferred embodiment, the holder 8 is mounted on the housing 1 with the possibility of adjusting the angle β of the tilt of the handle 2 to the outer, supporting surface of the sole 9. In this example, this is ensured by (see FIGS. 1, 7) that for attaching the holder 8 to the housing 1 by means of two holes for screws 27, 28, at least one more hole is provided (in Fig. 1, a free hole 29, in Fig. 7, a free hole 30, already at a different angle β. Moreover, all the holes mentioned here are located in a common radius a center lying on the axis 3 (R ₀ respectively, and R Twain).

In a preferred embodiment, the sole 9 is provided with support rollers, for the most part recessed under the outer horizontal surface of the sole 9. The axes of their rotation are parallel to axis 3. A design with one pair of rollers 31, 32, offset from the vertical transverse plane of the knife 4 to the side, is recommended. handles 2 (see FIGS. 3-5). However, in some cases, the device with two pairs of rollers spaced relative to the above-mentioned plane (not shown) has its advantages.

Like the prototype, the tool is equipped with a counter knife 33 mounted on the holder 8 and elastically pressed against the disk knife 4 to the right (in the embodiment of FIGS. 3-5) or to the left (in the embodiment of FIG. 1) by means of a leaf spring 34 placed in space 10 on the other side of the spring 17 (in the embodiment of figure 3-5), on the side of the cutting edge 11 of the knife 4 (see figure 1).

The composition of the tool may include (as in the prototype) a device for sharpening a knife 4: in the presented construction example, an abrasive element (grindstone) not shown in Fig. 1 (see Fig. 2) is attached to the end facing the rear end of the knife 4 spring-loaded (spring 36 in figure 2) in the axial direction of the pusher 37 mounted in the housing 1 parallel to the axis 3 away from the contact spot of the knives 4 and 33 (in the cutting zone), with the possibility of entering into interaction with the cutting edge of the knife 4 when pressed with a finger to the free end (at the base of the demolition line ki pos. “23” in figure 1), which can be designed as a button.

It is recommended that the knife 4 is made with a multi-sector, preferably six-sector sharpening, so that the ratio of the radii R _{1 of the} curvature of its sectors (a) to its radius R (range) is different from the infinite value: 1≤R ₁ / R <∞ (see Fig. 6) . At the same time, it remains advisable to use interchangeable knives with R ₁ / R = 1 (circle) and with R ₁ / R = ∞ (sectors with a straight cutting edge, as is likely in the prototype) in certain operations with various materials.

If there is a cooling system of the engine 5 of the tool in the housing 1, slotted longitudinally oriented windows 38 are provided, distributed along the cylindrical generatrix of the housing in a specific order (see Fig. 7).

The described structural example of the device does not exclude other possible options within the claimed combination of essential structural features.

The device operates as follows.

Before cutting the sheet material on a strongly pronounced (“developed”) embossed surface (mainly cutting fabric when making clothes directly on a mannequin or on a person), the sole 9 is set in a free (fixed) fixed position (see Figs. 3, 4). In this case, the pitch and yaw of the sole 9 relative to the holder 8 are excluded by the presence of longitudinal hinges 12, 13, and the roll is provided with lateral gaps between the side walls of the ridge 21 and the first step 25 of the nest, with a restriction of the range of heel angles φ by sampling the corresponding gap, with the entire plane of the ridge adhering due to the trapezoidal cross-section of the step 25. The longitudinal displacement of the sole 9 into a second, fixed position is excluded by the lateral stop of the protruding part 18 of the spring 17 in the element 20, and the fixation of the sole 9 from ol forward displacement ruled focusing its own portion 23 in the end retainer 22.

During cutting, the tool is held by the handle 2, turning the switch 7 on and off with the finger, and driven (“manual driving of the tool”), generally changing the position in space, so that the outer, flat supporting surface of the sole 9 is adjacent to the base surface (surface a mannequin or a human body with or without clothes), and the material to be cut is located on the sole 9 and, when the tool moves in the cutting direction (A), falls under the cutting edge 11 of the knife 4 at the point of contact of the latter with the opposing knife 33, along the preline marking.

In the absence of a shoulder between the pressure force F and the normal reaction N (not shown in the drawings), the spring 17 interacting with the element 20, and in the embodiment of FIG. 1, the elastic rod 14, hold the sole 9 in its original, preferably horizontal position (i.e. Equidistant from the axis 3 of rotation of the knife 4). When a moment of a pair of forces F and N arises due to a change in the macrorelief of the base surface in the absence of a roll of body 1 (for example, when cutting clothes in the area of female breasts or buttocks), the sole 9 is rotated by the corresponding angle φ, i.e. according to the stipulated degree of freedom on the hinges 12, 13, spring 17, which interacts with the element 20, elastically bending in the transverse vertical plane, and in the device of FIG. 1, the cantilever parts of the rod 14. Thus, the relief of the base surface is “tracked” by the sole 9 least in transverse planes, which improves the accuracy of cutting.

A similar pattern will be observed when the thickness of the material changes in the place of the current section: “bursting” of the material with an increase in its thickness is also an external force on the sole 9, generating a heeling moment and, accordingly, the spring-back roll 9 of the sole due to the elasticity of the spring 17 or the rod 14.

With a flat base surface and with a weakly expressed (undeveloped) macrorelief, as well as in some other cases, the sole 9 is previously transferred to the “fixed” (relative to the body 1) position (see figure 5). To do this, holding the tool by the handle 2 with one hand, cover the sole 9 with the other hand and forcefully overcoming the resistance in the support of part 18 to the element 20, shift the sole 9 on the axes 12, 13 in its horizontal (initial) position backwards, against the arrow A until the stop of the ridge 21 at the end of the second stage 26 of the socket (the required longitudinal force can be reduced by pressing and holding the spring 17 with the thumbnail of the same hand) along direction A, until the lock “spring 17 - part 1” is automatically engaged due to the elastic defo mation spring 17 and "perevalivaniya" part 18 of element 20 (see FIG. 6). A tight fit of the ridge 21 in the second stage 26 of the nest eliminates the roll of the sole 9.

The rollers 31, 32 in any of these modes reduce the friction of the sole 9 against the base surface and, when the surface is deformed, serve as additional longitudinal (in the direction A) guides. With the rear location of the pair of rollers 31, 32, manual adjustment of the angle of attack of the sole 9 is facilitated, with support on the rollers.

To change the angle β of the inclination of the handle 2 to the supporting surface of the sole 9, unscrew the screws 27, 28, rotate the holder 8 until the mounting holes are aligned with the new combination of threaded holes in the housing 1 (including, for example, hole 30 (see Fig. 7) and the screws are screwed 27, 28. In the new position of the holder 8, the distance from the axis 3 to the cutting zone with knives 4, 33 remains unchanged due to the coincidence of the base R ₀ with axis 3.

With the recommended sharpening of the multi-sector version of the knife 4 (see Fig. 7), certain sheet materials (a number of fabrics for making clothes) are cut, all other things being equal, in a higher quality.

The use of the invention allows to expand the technical and operational capabilities of a hand tool for cutting sheet material by providing the possibility of choosing one of two at least operational modes, in one of which the sole has the freedom of elastic-return roll (as in the prototype), and in the other motionless in its initial state, by simplifying the design and increasing its compactness, as well as by providing the ability to adjust the angle of the handle to the outer, supporting plane of the sole with storage system geometry "circular knife - the counter-knife - material to be cut", and supplies the sole support-guide rollers (especially including their location).

Sources of information

1. SU 1581577 A1, B 26 V 25/00, 06/10/1988.

2. SU 1768384 A1, 26 V 15/00, 25/00, 10.29.1990.

3. SU 710795 A1, B 26 V 25/00, 01/25/1980.

4. SU 835736 A1, B 26 D 1/06, A 41 H 43/00, 06/19/1979.

5. HG (Hungary) 167373, A 41 H 31/00, B 26 B 25/00, 09/04/1971 (prototype).

Claims (8)

1. A manual tool for cutting sheet materials, comprising a housing with a handle, a circular knife with a drive for rotating it, an opposing knife mounted on a holder connected to the housing and spring-loaded elastically to the circular knife, and a support-guide sole with a nose pointed and with an open inner space, for example a longitudinal slot mounted on the holder by means of longitudinal hinges, end stops and an elastic element with the possibility of an elasto-return roll from the initial position, characterized in that the support but the guide sole is mounted with the possibility of moving in the longitudinal direction and fixing in at least two positions, including a fixed one, characterized by blocking the mentioned possibility of its roll from its original position, mainly perpendicular to the plane of the circular knife, by means of a device for fixing the position of the sole. 2. The tool according to claim 1, characterized in that the device for fixing the position of the sole includes a leaf spring with a protruding part and a protruding element mounted in the gap between the side surfaces of the holder and the inner space of the sole with the possibility of elastic interaction, with an alternating arrangement of the protruding element at the back or in front of the protruding part of the spring, depending on the longitudinal fixed position of the sole. 3. The tool according to claim 2, characterized in that the elastic element of communication of the sole with the holder is structurally combined with a leaf spring of the device for fixing the position of the sole, while in the free position of the latter, the protruding part of the leaf spring is abutted against the holder and is in contact with the prominent element with the possibility of progressive elastic two-plane deformation of the spring as the heel of the sole increases. 4. The tool according to claim 1, characterized in that one of the end stops is made in the form of a ridge with flat side faces in the front of the holder and the reciprocal socket in the continuation of the free space of the sole. 5. The tool according to claim 4, characterized in that the response socket is made two-stage so that the comb is located in the free position of the sole in the first wide step with a trapezoidal cross section, and with side gaps, the selection of which is possible outside the range of heel angle of the sole , and in a stationary position of the sole - in the second, narrow, step, and without a gap. 6. The tool according to claim 1, characterized in that the holder is mounted on the housing with the possibility of adjusting the angle of inclination of the handle to the outer, support plane of the sole while maintaining the relative position of the circular knife and the sole with the counter knife in the radial direction due to the shift of the holder along the radius with the center on the axis of rotation of the circular knife. 7. The tool according to claim 1, characterized in that the sole is provided with at least one pair of support-guide rollers offset from the vertical transverse plane of the disk knife towards the handle. 8. The tool according to claim 1, characterized in that the circular knife is made with a multi-sector, preferably six-sector, sharpening so that the ratio of the radius of curvature of the sectors to the radius of the knife is different from an infinite value.

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