GR1010449B - Protective hand shield - Google Patents

Abstract

The present invention refers to a protective hand shield (1) for suppressing airborne material produced during a dental procedure. The protective hand shield (1) comprises a shield body (2) that is configured to be arranged on a part (100) of an upper extremity, in particular a wrist, of a person, and a perforated tube (5) that is attached to the shield body (2) and configured to be connected to a suction device for sucking airborne material produced during a dental procedure.

Description

Hand protection shield

Description

The present invention relates. in a hand shield to limit the aerosol released during dental work.

A large amount of aerosol can be produced during dental work. This aerosol is often visible to the naked eye, especially when dental work is being performed. in a patient observed at close range.

The so-called aerosol/aerosol cloud is mainly produced during the preparation of the teeth with a rotating tool or an air-blasting system, the use of air hydrosyri, gages, the use of an ultrasonic device and polishing. The particles that make up the aerosol are produced. from the point of treatment and from the water supply line of the dental office. This means that the aerosol in particular may contain particles from the patient's oral environment, from which bacteria and/or viruses may spread to the environment where the dental work takes place.

It should not be overlooked that the oral cavity is part of the oropharynx. Thus, bacteria and/or viruses originating from the nasal cavity, larynx and respiratory tract are accommodated in the oral cavity of the patient. Among these microbes, various pathogenic bacteria and/or viruses may be present, such as e.g. the common cold virus and influenza viruses, herpes viruses, pathogenic streptococci and staphylococci, as well as the SARS virus.

Thus, dental work that has the potential to generate saliva aerosol can cause gaseous pollutants in a dental office environment, necessitating several measures to protect the health of both office staff and patients. In particular, the aerosol caused by the interaction of ultrasonic vibrations and cooling water or compressed air and rotating tool, should be controlled to the maximum extent possible.

The use of personal protective equipment, such as masks, gloves and eye protection, greatly minimizes the inherent risk of droplets emitted from the dental work area. Nevertheless, there is room for improvement in terms of protecting people during dental work.

With these in mind, the present invention provides a hand protection shield that can be used by dental office personnel during dental work to limit the aerosol released during dental work. In other words, the hand shield acts as a barrier to the aerosol produced during dental work.

The hand protection shield to limit the aerosol produced during dental work consists of from a shield body and a perforated tube. The body of the shield is intended to fit a portion of the upper limb, more specifically the wrist, of a person. The perforated tube is adapted to the body of the shield and is intended to be connected to a suction device for the purpose of suction. the aerosol produced during dental work. The shield body of the hand protection shield can limit the diffusion of the aerosol coming from the patient's oral cavity into the area where the dental work takes place by blocking it and reducing its speed. Furthermore, the existence of the aforementioned tube has as a great advantage that even an aerosol with a low ejection velocity and/or a small size that would otherwise be suspended in the air, can be captured by the suction. The hand protection shield according to the present invention can be applied in daily dental clinical practice and thus minimize the aerosol released in the dental office, providing effective protection. In particular, the present invention can be an effective complementary means for the protection of the dentist in daily clinical practice, as well as for the suppression of virus transmission in the dental office. The hand protection shield according to the present invention can be easily manufactured and is a low-cost product, as a result of which it can form part of the personal protective equipment in daily dental clinical practice. The advantages of the present invention are particularly important in the case of a pandemic, as it is clear that dental treatments and especially those that produce aerosols should be provided with special care, so as to protect both the dental staff and the patients visiting the dental office daily.

The hand protection shield preferably has a hole, through which the body of the shield is assembled on a part of the upper limb, more specifically the wrist, of a person. Thus, the person can easily place his/her hand through the hole to put on the hand shield.

Preferably, the hole has a circular cross-sectional shape. More specifically, the hole preferably has a diameter of at least 60 mm, even better at least 70 mm. However, other cross-sectional shapes are also possible.

It is noted that the term "perforated pipe" means that the pipe has a perforated area. The perforated region of the perforated tube has at least one hole, more specifically a plurality of holes, at the periphery of the surface of the perforated tube. Preferably, at least one hole, more specifically the plurality of holes, has/have a diameter between 1 mm and 2 mm.

If the perforated pipe has a plurality of holes, the distance between two adjacent holes in an extension of the pipe is preferably the same for all holes. In other words, the holes on the circumference of the surface of the perforated tube are spaced equidistant from each other (equal distance from one hole to another). In the context of the present invention, pipe extension specifically refers to the direction of the pipe's longitudinal axis.

The perforated tube is preferably assembled on a major surface of the shield body.

Preferably, the perforated tube is formed in the shield body along at least a portion of the contour of the shield body.

Preferably, the perforated tube has a first region and a second region, where only the first region is assembled into the body of the shield.

Preferably, at least the one hole, more particularly the plurality of holes, is/are in the first region. More specifically, the at least one hole, more specifically the plurality of holes, exists/exists only in the first region. However, it is also possible that the at least one hole, more specifically the plurality of holes, also (in addition) exists in the second region.

Preferably, the second region is longer than the first region. More specifically, the second tube region can have a length of at least 500 mm, preferably at least 600 mm, preferably at least 700 mm.

The perforated tube is preferably a flexible, more specifically silicone tube. The perforated tube may have an inner diameter of preferably 5 mm to 7 mm and/or an outer diameter of 7 mm to 9 mm. Here, the material thickness of the perforated tube is preferably at least 1 mm, preferably at least 2 mm. Even better, the perforated tube can have an inner diameter of 6 mm and an outer diameter of 8 mm. Here, the material thickness is 2 mm.

In order to achieve an easier arrangement of the hand protection shield, it is preferred to create a cut, preferably a cross cut, in the body of the shield. The cut extends from the outline of the shield body to the hole. Thus, the hand protection shield can easily be worn, regardless of the size of the upper limb part, more specifically the wrist, of the person performing the dental work.

Preferably, there is a resilient means in the hole. The elastic means extends over a portion of the circumference or the entire circumference of the hole. The elastic means can thus act as a means of immobilizing the hand protection shield on the upper extremity, more specifically on the wrist, of the person, as well as as a blocking means, applying on the upper extremity, more specifically on the wrist, of the person. Thus, droplets produced during dental work cannot escape or are prevented from escaping through the containment point between the hand shield and the person's upper extremity. In addition, the elastic means ensures a comfortable holding of the hand protection shield on the upper end of the person.

Preferably, the hand protection shield has an immobilization means for immobilizing the hand protection shield on the upper limb, namely the wrist, of the individual. Thus, the hand shield can be secured and fixed to the person during dental work.

The immobilization means preferably consists of a hook-and-loop fastener. More specifically, the hook-and-loop fastener may be a double-sided hook-and-loop fastener.

Preferably, the body of the shield is transparent. Thus, it can offer an unobstructed view of the surgical field. Preferably, the body of the shield also has anti-reflective properties. Thus, the dentist can have a clear image of the patient's oral cavity during the dental work, even under the bright light of the dental chair used during the dental work.

The body of the shield is preferably flexible. Thus, it will not disturb the patient when it is inadvertently pressed against the patient's face during dental work.

For the same reason, the body of the shield may have at least one rounded corner.

The body of the shield preferably has a rectangular parallelepiped shape. However, other shapes are also possible.

Preferably, the dimension of each of the sides of the shield body is at least 200 mm, preferably at least 240 mm. Due to the outlined dimensions of the shield body, it can be ensured that the greater part of the aerosol generated during the dental work it will be blocked by the body of the shield.

Preferably, the body of the shield is disc-shaped.

The body of the shield is preferably made of plastic, specifically PET.

The body of the shield preferably has a thickness between 1.5 mm and 2.5 mm, specifically 2 mm.

The present invention further relates. in a device consisting of a previously described hand protection shield and a suction device connected together. More specifically, the perforated tube of the hand shield is connected to the suction device.

The connection between the perforated pipe and the suction device is ensured by means of a coupling. The connector is preferably part of the suction device. Alternatively, the connector may form part of the hand shield, where the connector engages one end of the perforated tube, more specifically the second region of the perforated tube. It is, however, also possible for the connector to consist of a first connector element, part of the suction device, and a second connector element, part of the hand shield. In other words, the connector may form part of the suction device and/or the hand shield.

Furthermore, the present invention relates to a method of performing dental work using the previously described hand protection shield.

These and other details, advantages and features of the present invention will be described, based on one version of the invention and taking into account the accompanying drawings.

Figure 1 shows a simplified schematic front view of a portion of the hand protection shield according to one version of the present invention.

Figure 2 shows a simplified schematic front area of the hand shield of Figure 1.

Figure 3 shows a simplified schematic perspective area view of the hand shield of Figure 1.

Figure 4 shows a simplified schematic perspective area view of the hand shield of Figure 1 in a position of holding the hand shield on the wrist of a person.

Next, a hand protection shield 1 for limiting the aerosol released during dental work according to an embodiment of the present invention is described. in detail with reference to Figures 1 to 4. Figure 4 shows the hand protection shield 1 placed on the wrist of a person. The wrist refers to a portion 100 of a person's upper limb.

As can be seen from the drawings, the hand protection shield 1 consists of a transparent and flexible shield body 2. Preferably, the shield body 2 also has anti-reflective properties. Thus, the dentist can have a clear image of the patient's oral cavity during the dental work, even under the bright light of the dental chair used during the dental work.

The body of the shield 2 is shaped to fit a person's wrist. For this purpose, the body of the shield 2 has a hole 3 with a circular cross-section shape, through which the body of the shield 2 is assembled on the wrist of a person. More specifically, the hole 3 has a diameter of at least 60 mm, preferably at least 70 mm.

To make holding the hand protection shield 1 on a person's wrist easier, regardless of the size of the wrist, the body of the shield 2 has a cross section 9 extending from the outer contour 20 of the body of the shield 2 to the hole 3. In addition, an elastic means 10 is present in the hole 3, which extends around the entire circumference of the hole 3. The elastic means 10 can act due to its durability as an immobilization means for the hand protection shield 1 on the wrist of the person, but also as a means blockage. In addition, it allows a more comfortable arrangement of the hand protection shield 1 on the individual's wrist.

To stabilize the hand protection shield 1, the hand protection shield 1 carries an immobilization means 8 in the form of a hook-and-loop tie. More specifically, the hook-and-loop fastener 8 may be a double-sided hook-and-loop fastener.

The body of the shield 2, which is disc-shaped and made of plastic, specifically PET, has a rectangular parallelepiped shape with sides having a length of at least 200 mm, preferably at least 240 mm. The body of the shield 2 is specifically thick between 1.5 mm and 2.5 mm, more specifically 2 mm. In addition, the corners of the body of the shield 2 that face towards/are directly opposite, from the patient's face during dental work, when the protective shield hand 1 is worn by the dentist, they are rounded.

The hand protection shield 1 further has a perforated tube 5 which is adapted to the body of the shield 2, more specifically to a main surface 21 of the body of the shield 2, along at least a part of the contour 20 of the body of the shield 2 with closing means/ clamping/fastening 6. The perforated tube 5 is a flexible, specifically silicone, ring and has an inner diameter of 6 mm and an outer diameter of 8 mm. Here, the material thickness of the perforated tube 5 is 2 mm.

The perforated pipe 5 carries on the periphery of its surface a plurality of circular holes 50 having a diameter between 1 mm and 2 mm. The holes 50, which are arranged on the periphery of the surface of the perforated pipe 5 at equal distances from each other, are located in a first region 51 of the perforated tube 5. The first region 51 of the perforated tube 5 is adapted to the body of the shield 2, more specifically to the main surface 21. The perforated tube 5 additionally has a second region 52 which is not adapted to the body of the shield 2 , but can move freely during dental work. The second region 52 is longer than the first region 51 and has a specific length of at least 500 mm, preferably at least 600 mm, preferably at least 700 mm.

In order to achieve suction of the aerosol generated during dental work through the perforated tube 5 of the hand shield 1, there is a suction device 12 shown in Figure 3. For this purpose, the suction device 12 has a connector 11, with the to which one end of the perforated tube 5 is connected, namely the second area 52. Through the mechanical connection between the hand protection shield 1 and the suction device 12 with the help of the connector 11, a smooth flow is achieved, in which the aerosol produced in oral cavity of the patient can be suctioned through the holes 50 of the perforated tube 5.

Thus, the hand shield 1 provided a person performing the dental work suppression of aerosol diffusion work.

In addition to the previous reference, the graphic also provides an effective direct protection to the patient, but also allows the area where the dentistry is performed

of the present invention, a clear illustration of Figures 1 to 4.

Claims (10)

Claims 1. Hand protection shield (1) for limiting the aerosol released during dental work, comprising: • a body of the shield (2), which is intended to be adapted to a part (100) of the upper limb, more specifically the wrist, of a person • a perforated tube (5) which is adapted to the body of the shield (2) and intended to be connected to a suction device in order to suck the aerosol produced during dental work. 2. The hand protection shield (1) according to claim 1, comprising a hole (3), through which the body of the shield (2) is adapted to a part (100) of the upper limb, more specifically the wrist, of one person, and preferably has a diameter of at least 60 mm, preferably at least 70 mm. 3. The hand protection shield (1) according to any one of the preceding claims, wherein the perforation of the perforated tube (5) has at least one hole (50), more specifically a plurality of holes (50), in the periphery of the surface of the perforated tube (5), where the hole(s) has/have a diameter between 1 mm and 2 mm. 4. The hand protection shield (1) according to claim 3, wherein the distance between two adjacent holes (50) in an extension of the pipe is preferably the same for all holes (50). 5. The hand protection shield (1) according to any one of the preceding claims, wherein the perforated tube (5) is assembled in the body of the shield (2) along at least a portion of the contour (20) of the body of the shield (2). 6. The hand shield (1) according to any one of the preceding claims, in which the perforated tube (5) has a first region (51) and a second region (52), where only the first region (51) is formed in body of the shield (2), where preferably at least one hole (50) is present in the first region (51) and/or where the second region (52) is longer than the first region (51) and has, more specifically, a length at least 500 mm, preferably at least 600 mm, preferably at least 700 mm 7. The hand protection shield (1) according to any one of claims 2 to 6, in which a cut (9), preferably a transverse cut (9), is to be created in the body of the shield (2), where the cut extends from the contour (20) of the body of the shield (2) up to the hole (3), and/or there is an elastic means (10) in the hole (3), which extends over a part or the entire circumference of the hole (3 ). 8. The hand protection shield (1) according to any one of the preceding claims, has an immobilization means (8) for immobilizing the hand protection shield (1) on the portion (100) of the upper limb, namely the wrist , of the individual, where the immobilization means (8) preferably consists of a hook-and-loop fastener. 9. The hand protection shield (1) according to any one of the preceding claims, wherein the shield body (2) is transparent and more specifically also has anti-reflective properties. 10. A device, comprising a hand protection shield (1) according to any one of the preceding claims, and a suction device (12), which more specifically the suction device (12) has a connector (11), which is connected to the one end of the perforated tube (5).