RU121170U1 - TRAINING APPARATUS - Google Patents

Abstract

1. A simulator containing U-shaped left and right tubular levers (3, 5) and elastic return mechanisms (4), which are attached to two ends of each of the specified tubular levers (3, 5), each elastic return mechanism (4) includes a body consisting of an inner and outer parts (45, 43), a torsion spring (42) and left and right connecting sleeves (41, 44), which are rigidly fixed to the corresponding inner and outer parts (45, 43) of the body and communicate with their internal cavities, while the outer part (43) of the body is connected to the inner part (45) of the body for rotation by means of the connecting axis (47), and the torsion spring (42) is installed in the body on the connecting shaft (47) in this way that one end of it is located in the left connecting sleeve (41), and the other end is in the right connecting sleeve (44), and the left and right connecting sleeves (41, 44) are fixed on the corresponding left and right tubular levers (3, 5) ... ! 2. The exercise machine according to claim 1, in which the left and right connecting bushings (41, 42) are hollow and rigidly connected to the corresponding parts of the body (45, 43) using screws (48), while at the ends of the left and right connecting bushings (41, 44) facing the torsion spring (42), there are clutches (6) made in one piece with the connecting sleeves (41, 44), in which the ends of the torsion spring (42) are located, and the left and right connecting sleeves (41 , 44) contain ball clamps (46), and corresponding fixing holes (51) are made in the left and right tubular levers (3, 5), into which the ball clamps (46) enter, so that the left and right connecting bushings (41, 44 ) are rigidly connected to the corresponding lion

Description

Technical field

The utility model relates to a simulator, in particular, to a simple and practical multifunctional simulator.

State of the art

As social development and progress progresses, people's quality of life improves, but due to stress at work and lack of physical activity, the number of people with poor health and suffering from obesity also increases. In addition, most exercise sites are outdoors and exposed to weather conditions, making it difficult to maintain exercise schedules. In this regard, to meet the needs of people, an increasing number of simulators are being used in enclosed spaces, which are becoming increasingly popular. However, conventional simulators have the following disadvantages: they have a complex structure and large dimensions, which is why they require a large space and professional trainers. Such simulators are suitable for gyms, but not for home use; they have a high cost and are not available for an ordinary family; and they also have limited functionality. As a result, many manufacturers and individuals carried out the development and pilot production of simulators to solve the above problems, but the required simulator has not yet been created.

Utility Model Disclosure

Taking into account the above-described problems, one of the objectives of this utility model is to eliminate the shortcomings of standard simulators and to develop a multifunctional simulator that has a simple design, is inexpensive, and allows you to achieve an excellent effect on improving physical fitness, while being convenient to use and during transportation.

To solve this problem, in accordance with the utility model, a simulator was developed containing U-shaped left and right tubular levers and elastic return mechanisms that are attached to two ends of the levers. Each elastic return mechanism includes internal and external parts of the housing, a torsion spring, left and right connecting sleeves, which are mounted on the respective internal and external parts of the housing and communicate with the internal cavities of the housing parts. While the outer part of the housing is mounted to rotate on the inner part of the housing using the connecting axis, and the torsion spring is located in the housing on the connecting axis so that one end is located in the left connecting sleeve, and the second end is in the right connecting sleeve, moreover the left and right connecting sleeves are fixed on the corresponding left and right tubular levers.

In order to simplify packaging, transportation, carrying, storage and in order to increase safety, in accordance with one embodiment of the utility model, the left and right connecting sleeves are hollow and rigidly connected to the corresponding internal and external parts of the housing by screws. Moreover, at the ends of the left and right connecting sleeves facing the torsion spring, there are grooves for the torsion spring, in which the connecting ends of the torsion spring are located. In addition, the left and right connecting sleeves contain ball retainers, and corresponding locking holes are made in the left and right tubular levers into which the ball retainers are inserted. The left and right connecting sleeves are rigidly connected to the corresponding left and right tubular levers by coupling ball retainers to the locking holes.

In order to simplify packaging, transportation, carrying, storage and in order to increase safety in accordance with another embodiment of the utility model, the left and right connecting sleeves are solid and rigidly connected to the corresponding external and internal parts of the housing by screws. At the same time, recesses are made on the end surfaces of the left and right connecting sleeves facing the torsion spring, in which the connecting ends of the torsion spring are located, and the other ends of the left and right connecting sleeves are rigidly connected to the corresponding left and right tubular levers with screws.

To simplify assembly and reliable installation, guide grooves are made in the left and right connecting bushings, which are combined with the external and internal parts of the housing of the return mechanism.

To ensure comfortable physical contact, the left and right tubular levers are covered with a porous material.

For ease of use, the left tubular lever is equipped with tensioned tapes. The simulator according to the utility model has the following advantages compared to well-known simulators:

1) the left and right tubular levers can be in contact with different parts of the body and, accordingly, can be opened and closed with the help of an inwardly compressive movement, which allows performing full-fledged physical exercises for legs, arms, waist, chest, etc. in various positions;

2) when the simulator is not used, users can easily remove the left and right tubular levers from the elastic return mechanisms by releasing the ball retainers or screws located in the left and right connecting sleeves, which ensures simple packaging, transportation, transportation and storage of the simulator .

The utility model is illustrated by drawings.

Brief Description of the Drawings

Figure 1 shows a simulator according to a utility model, front view;

figure 2 - simulator according to the first embodiment of the utility model, a view in an exploded state;

figure 3 is the same according to the second variant of implementation of the utility model;

figure 4 is an elastic return mechanism according to the first embodiment of the utility model, an enlarged view;

figure 5 is the same according to the second variant of implementation of the utility model;

Fig.6 is a simulator according to the third embodiment of the utility model, an exploded view;

7 is an elastic return mechanism according to a third embodiment of the utility model, an enlarged view.

Utility Model Embodiments

The simulator in accordance with this utility model contains coatings 1 made of porous material, tensioned belts 2, left tubular lever 3, elastic return mechanisms 4, right tubular lever 5, left connecting sleeves 41, torsion springs 42, outer parts 43 of the housing, right connecting sleeves 44, the inner parts 45 of the housings, ball retainers 46, connecting axles 47, screws 48, guide grooves 49, locking holes 51.

1, 2 and 4 show a simulator according to a first embodiment of a utility model.

This simulator contains U-shaped left and right tubular levers 3 and 5 and elastic return mechanisms 4, which are attached to two ends of the left and right tubular levers 3 and 5. On each of the tubular levers 3 and 5 there is a coating 1 of a porous material, on this, tapes 2 are stretched on the left tubular lever 3. Each elastic return mechanism 4 includes interconnected outer and inner parts 43 and 45 of the housing, a torsion spring 42, and also left and right connecting sleeves 41 and 44. Connecting sleeves 41 and 44 fixed on soo sponding inner and outer parts 45 and 43 of the housing and communicate with their internal cavities. The outer part 43 of the casing is rotatably connected to the inner part of the casing 45 using the connecting axis 47. A torsion spring 42 is mounted in the housing on the connecting axis 47 so that one end is located in the left connecting sleeve 41 and the other end is in the right connecting the sleeve 44. When the torsion spring 42 is inserted, the separation of the inner and outer 45, 43 parts of the housing is unlikely. In addition, the left and right connecting sleeves 41 and 44 are fixed to the respective left and right tubular levers 3, 5.

The left and right connecting sleeves 41 and 44 are made hollow and rigidly connected to the corresponding internal and external parts 45, 43 of the housing using screws 48 (figure 4). On the ends of each of the connecting sleeves 41, 44 facing the torsion spring 42, there are couplings 6 made integrally with these bushings for locating the ends of the torsion spring 42 therein. In addition, the left and right connecting sleeves 41, 44 contain ball retainers 46, and the corresponding locking holes 51 are provided in the left and right tubular levers 3, 5 into which the ball retainers 46 are inserted, so that the left and right connecting sleeves 41, 44 are rigidly connected to the corresponding left and right tubular levers 3, 5 due to the adhesion of the ball retainers 46 with the locking holes 51. In this case, the left and right tubular levers 3, 5 are easily removable. To simplify the assembly and positioning on the left and right connecting sleeves made guide grooves 49, corresponding to the outer and inner parts of the housing.

As shown in FIGS. 2 and 4, screws 48 connecting the left and right connecting sleeves 41, 44 to the connected inner and outer parts 45, 43 of the housing pass through an opening in the sleeve 6, clamping the end of the torsion spring 42. In this case, the spring 42, the left and right connecting sleeves 41, 44, as well as the inner and outer parts 45, 43 of the casing are connected.

Figures 3 and 5 show a second embodiment of the utility model, which differs from that described in that the left and right connecting sleeves 41, 44 are continuous, and on their end surfaces facing the torsion spring 42, sockets are provided for arranging the ends in them 42 torsion springs. The other ends of the left and right connecting sleeves 41, 44 are rigidly connected to the corresponding left and right tubular levers 3, 5 with screws 48 '. The connecting sleeves 41, 44 are also rigidly connected to the inner and outer parts 45, 43 of the housing using screws 48.

Otherwise, the design of the simulator according to the second embodiment coincides with the design of the simulator according to the first embodiment. The reference position numbers in FIGS. 3 and 5, coinciding with the position numbers in FIGS. 1, 2 and 4, denote the same elements.

6 and 7 show a third embodiment of a utility model based on the first embodiment. In this embodiment, a multifunctional digital measuring device 100 is installed on one of the outer part 43 of the housing.

The multifunctional digital measuring device 100 comprises a base 120, function buttons 121 and a control circuit with a digital display 118. Function buttons 121 and a control circuit with a digital display 118 are mounted on the base 120, which has latches 119. A cavity corresponding to the base 120, and in the bottom of this cavity there are grooves 116 for receiving the latches 119. Thus, the base 120 located in the cavity of the outer part of the housing is secured by connecting the latches 119 to Basics 116. Thus, before the start of classes, the user just needs to press the function buttons to start the multifunction measuring device, which will automatically start counting the time, number of repetitions, display the time of the exercise and the number of repetitions. Users can easily get information about the number of exercises performed for each lesson.

The simulator in accordance with the third embodiment of the utility model also includes a connecting rod 108, which extends through the connecting axis 47 and has a thread onto which a nut 117 is screwed on the outside of the internal or external part of the housing.

Otherwise, the design of the simulator according to the third embodiment coincides with the design of the simulator according to the first embodiment. The reference position numbers in FIGS. 6 and 7, coinciding with the position numbers in FIGS. 1, 2 and 4, denote the same elements.

Claims (10)

1. A simulator containing U-shaped left and right tubular levers (3, 5) and elastic return mechanisms (4), which are attached to two ends of each of these tubular levers (3, 5), each elastic return mechanism (4) includes a housing consisting of internal and external parts (45, 43), a torsion spring (42) and left and right connecting sleeves (41, 44), which are rigidly fixed to the corresponding internal and external parts (45, 43) of the housing and communicate with their internal cavities, while the outer part (43) of the housing is connected to the internal part (45) of the housing rotatably using the connecting axis (47), and the torsion spring (42) is installed in the housing on the connecting axis (47) so that one of its ends is located in the left connecting sleeve (41), and the second end - in the right connecting sleeve (44), and the left and right connecting sleeves (41, 44) are mounted on the corresponding left and right tubular levers (3, 5). 2. The simulator according to claim 1, in which the left and right connecting sleeves (41, 42) are hollow and rigidly connected to the corresponding parts of the housing (45, 43) using screws (48), while at the ends of the left and right connecting sleeves (41, 44), facing the torsion spring (42), there are couplings (6) made integrally with the connecting sleeves (41, 44), in which the ends of the torsion spring (42) are located, the left and right connecting sleeves (41 , 44) contain ball clamps (46), and in the left and right tubular levers (3, 5) corresponding to the clamp are made opening holes (51), which include ball clips (46), so that the left and right connecting sleeves (41, 44) are rigidly connected to the corresponding left and right tubular levers (3, 5) due to the adhesion of the ball clips (46) with fixing holes (51). 3. The simulator according to claim 1, in which the left and right connecting sleeves (41, 42) are solid and rigidly connected to the corresponding external and internal parts (45, 43) of the housing with screws (48), while on the end surfaces of the left and the right connecting sleeves (41, 44) facing the torsion spring (42), nests are made in which the ends of the torsion spring (42) are located, and the other ends of the left and right connecting sleeves (41, 44) are rigidly connected to the corresponding left and right tubular levers (3, 5) with screws (48 '). 4. The simulator according to any one of claims 2 or 3, in which guide grooves (49) are made in the left and right connecting bushings (41, 44), corresponding to the outer and inner parts (45, 43) of the housing. 5. The simulator according to claim 4, in which the left and right tubular levers (3, 5) contain a coating (1) of a porous material. 6. The simulator according to claim 5, in which there are stretched tapes (2) on the left tubular arm (3). 7. A simulator according to any one of claims 2 or 3, in which the screws (48) connecting the left and right connecting sleeves (41, 42) with the corresponding internal and external parts (45, 43) of the housing pass through an opening in the sleeve (6 ), clamping the end of the torsion spring 42 and thereby connecting the torsion spring (42), the left and right connecting sleeves (41, 44), as well as the inner and outer parts (45, 43) of the housing. 8. The simulator according to claim 1, in which on one of the external parts of the housing is a multifunctional measuring device (100). 9. The simulator of claim 8, in which the multifunctional measuring device (100) contains a base (120), function buttons (121) and a control circuit with a digital display (118), while the base (120) has latches (119), and on the end surface of the outer part of the housing there is a cavity corresponding to the base (120), in the bottom of which there are grooves (116) for receiving the latches (119), so that the base (120) located in the cavity is fixed by connecting the latches (119) with the grooves (119) ) 10. The simulator according to any one of claims 1 or 8, which contains a connecting rod (108) passing through the connecting axis (47) and having a thread on which a nut (117) is screwed on the outside of the inner or outer part of the housing.