RU2321833C1 - Mode of manufacturing of thermometer and thermometer - Google Patents

Abstract

FIELD: inventions refer to measuring technique namely to technology for construction thermometers-devices for measuring of temperature of environment and are directed toward expansion of arsenal of technical means.

SUBSTANCE: result is achieved due to fact that thermometer has body with scale, reservoir and capillary long-measure insulated cavities with indicative medium communicated between themselves. According to invention reservoir insulated cavity is made in head of bolt and capillary long-measure insulated cavity is made in rod of bolt.

EFFECT: arsenal of technical means is expanded.

2 cl, 1 dwg

Description

The invention relates to the technology and design for the manufacture of measuring instruments, in particular thermometers - instruments for measuring ambient temperature, and can be used in the manufacture of thermometers.

A known method of manufacturing a thermometer, including the manufacture of a housing with a supporting surface, a reservoir and capillary lengthy tight cavities and communicating between them, the indicator medium, placing the scale along the capillary lengthy tight cavity, filling the reservoir tight cavity with an indicator medium with the possibility of its movement along the capillary long tight cavity and placement of capillary lengthy sealed cavity and scale with the possibility of viewing (USSR patent No. 1371 508 A3).

A known thermometer comprising a housing with a supporting surface, a reservoir and capillary long sealed cavities, interconnected, an indicator medium placed in the reservoir cavity with the ability to move along the capillary long sealed cavity, a scale placed along the capillary long sealed cavity, while capillary long sealed the cavity and the scale are installed with the possibility of viewing (USSR patent No. 1371508 A3).

A disadvantage of the known thermometers is that they have limited operational capabilities and, due to this drawback, cannot be used, in particular, as floor and hanging thermometers. A disadvantage of the known thermometers follows from the form of execution of their housing and is a factor that inhibits their expanded production. Thus, there is a need to create new means for measuring temperature, for example, indoor air or ambient air, which could be used as floor and wall mounted thermometers, i.e. Advanced thermometer required.

The task to which the claimed technical solutions are directed is to expand the arsenal of technical means for a specific purpose, in particular the creation of new objects - a method for manufacturing a thermometer and a thermometer design with advanced operational capabilities.

The technical result that can be obtained is to realize this purpose, i.e. solving the problem of creating a new method of manufacturing a thermometer and a new design of a thermometer with advanced operational capabilities.

The essence of the proposed method lies in the fact that in the method of manufacturing a thermometer, including the manufacture of a housing with a supporting surface, a scale, a reservoir and capillary long sealed cavities, interconnected, an indicator medium placed in a tank sealed cavity with the ability to move along the capillary long sealed cavity, placing the scale along the capillary lengthy sealed cavity with the possibility of their joint review and the manufacture of part of the body, at least At least, in the zone of placement of a capillary long sealed cavity of translucent material, according to the invention, the body is formed by a bolt-resistant shape containing a rod with an external threaded portion at one end, with a head at the other, and a supporting surface formed at the end of the head or threaded portion .

The essence of the claimed device lies in the fact that in a thermometer containing a housing with a supporting surface, a scale, a reservoir and capillary lengthy sealed cavities communicated with each other, an indicator medium placed in a tank sealed cavity with the ability to move along the capillary lengthy sealed cavity, and the scale is placed along the capillary long sealed cavity with the possibility of their joint viewing, and part of the body, at least in the area of the capillary linnomernoy sealed cavity is made of translucent material according to the invention, the housing is formed by a bolt reception form, comprising a rod with an outer threaded portion at one end, with a head - in another, and the supporting surface is formed on the end face of the head or the threaded portion.

It should be noted that the claimed essential feature associated with the manufacture / execution / formation of a thermometer case with a bolt-resistant shape is expressed by the general concept and is presented at the level of functional generalization and covers various particular forms of manufacturing / execution / formation of a bolt, and the bolt itself may have different geometric shape in plan, cross-section and made of translucent material, such as silicate glass or plastic. The properties that appear at the thermometer and are caused by the execution / formation of the thermometer case with a bolt-resistant shape are associated with the expansion of the operational capabilities of the thermometer and the receipt of an additional technical result. The implementation / formation of the thermometer housing with a bolt-resistant shape provides an additional technical result associated with an increase in strength, stiffness, stability and service life of the thermometer housing and the thermometer as a whole. The applicant has not established from the sources of information the influence of the claimed distinguishing feature - the thermometer case is formed by a bolt-shaped shape - to obtain the main and additional technical results indicated above. With any design of the thermometer case in the form of a rack in the form of a bolt, the same technical result is obtained, which is indicated above in the text. It is the manufacture / execution / formation of a part of the thermometer — a body that is resistant in the form of a bolt, as well as other significant features mentioned above — that achieve the assigned task and obtain a new technical result related to the achievement of the goal of creating new facilities with enhanced operational capabilities and obtaining additional technical result associated with an increase in strength, stiffness, stability and service life of the thermometer body and the thermometer as a whole.

A comparative analysis of the proposed method of manufacturing a thermometer with a prototype shows that the inventive method has common features with the prototype:

the manufacture of a housing with a supporting surface, a scale, a reservoir and capillary long sealed cavities communicated with each other, an indicator medium placed in a tank sealed cavity with the ability to move along the capillary long sealed cavity;

placing the scale along the capillary long sealed cavity with the possibility of their joint review;

the manufacture of a part of the housing, at least in the zone of placement of the capillary lengthy sealed cavity of translucent material.

The inventive method of manufacturing a thermometer differs from the prototype with new features:

the body is formed by a bolt-resistant form comprising a rod with an external threaded portion at one end, with a head at the other;

the supporting surface is formed at the end of the head or the threaded section.

A comparative analysis of the claimed thermometer with the prototype shows that the claimed device has common features with the prototype:

a housing with a supporting surface, a scale, a reservoir and capillary long sealed cavities communicated with each other, an indicator medium located in the tank sealed cavity with the ability to move along the capillary long sealed cavity;

the scale is placed along the capillary long sealed cavity with the possibility of their joint review;

part of the housing, at least in the area of placement of the capillary long sealed cavity is made of translucent material.

The inventive thermometer differs from the prototype with new features:

the housing is formed by a bolt-shaped stand containing a rod with an external threaded portion at one end, with a head at the other;

the supporting surface is formed at the end of the head or the threaded section.

From the above list of features of the claimed method of manufacturing a thermometer, the design of the thermometer and the achievement of the task, it is clearly seen that the claimed technical solutions are a new set of features as a combination of known and new features that provide a new technical result unknown at the filing date of the application. The main technical result and additional technical result that can be obtained by carrying out the invention are to achieve the goal of expanding the arsenal of technical means for the method of manufacturing the thermometer, the design of the thermometer and providing increased strength, stiffness, stability and service life of the thermometer body and the thermometer as a whole.

The declared objects are industrially applicable, because can be used in construction, industry, agriculture and other sectors of the economy where thermometers are used. The claimed technical solutions can be reproduced in the form in which they are characterized in any of the claims using known materials, technologies and technological equipment. In the case of carrying out the invention according to any one of the claims, it is indeed possible to realize the above purpose.

Technical solutions of the claimed objects meet the criterion of "novelty", because they are not known from the prior art at the filing date of the application. The set of essential features of the claimed technical solutions and their influence on obtaining the required technical result is not known from the prior art.

Technical solutions of the claimed objects meet the criterion of "inventive step", because no solutions having features coinciding with their distinctive features were identified, and the influence of the distinctive features on the resulting technical result was not known.

Thus, the claimed technical solutions are so interconnected that they form a single inventive concept, meet all the criteria for the invention, and provide a new technical result.

The drawing shows a method of manufacturing a thermometer and the design of the thermometer.

The thermometer contains a housing with a supporting surface A (see drawing), formed by a bolt-shaped stand in the form of a rod 1 with an external threaded section 7 at one end thereof, with a head 6 on the other, a tank-tight cavity 2 (hereinafter referred to as the cavity), an indicator medium (indicator substance or thermometric medium capable of changing the volume under the influence of temperature) 3, capillary lengthy tight cavity (hereinafter referred to as the cavity) 4 and scale 5. The scale 5 is placed along the cavity 4 and is formed on the outer surface of the rod 1 (body part). Cavities 2 and 4 are interconnected. The indicator medium 3 is placed in the cavity 2 with the ability to move along the cavity 4 when changing its volume under the influence of ambient temperature. Cavities 2 and 4 are made (placed, formed) in the rack and their boundaries are formed by the material of the rack, and cavity 2 is placed within the boundaries of the head 6, and cavity 4 is within the boundaries of the bolt shaft 1. The cavity 4 and the scale 5 are installed with the possibility of viewing. The rack (case) is made entirely of translucent material, such as silicate glass or polymeric material, at least in the area of the cavity 4. The scale 5 is a set of lines and numbers that are made in a certain way and with a certain step. The lines can be made by pre-manufacturing the depressions and then filling them with a filler, contrasting with the color of the housing 1. Scale 5 can be done in a printing way in the form of a separate removable tape with marks and numbers. A special cavity can be made in the rod 1 for placement of the scale 5 in it. The indicator medium (indicator substance) 3 can be formed, for example, by tinted ethanol (any medium from the number of known and used thermometers can be used as an indicator medium) . The head 6 serves to transmit the torque necessary when fixing the thermometer using a threaded surface 7, as well as to form the supporting surface A necessary to place the thermometer on a surface, such as a floor. The external threaded section 7 also forms a supporting surface and is intended to be connected to the mating element mating section by screwing (screwing) a bolt.

The thermometer works as follows.

The thermometer measures the ambient temperature by placing the thermometer in the environment. Under the influence of the ambient temperature, the volume of the indicator medium 3 changes, and as a result of the volume change, the height of the column of the indicator medium 3 in the cavity 4 changes. The value of the ambient temperature is determined by the position of the edge of the column of the indicator medium 3 in the cavity 4 relative to the scale 5.

An example of a method for manufacturing a thermometer.

The following was made: a case made of translucent material - silicate glass with a supporting surface, which was formed resistant in the form of a bolt containing a rod 1 with an external threaded section 7 at one end, with a head 6 at the other, and the supporting surface A formed at the end of the head 6 or threaded section 7 (the surface of the threaded section 7), the tank sealed cavity 2 (hereinafter referred to as the cavity), the indicator medium (indicator substance) 3, the capillary lengthy sealed cavity (hereinafter referred to as the cavity) 4 and scale 5. The scale 5 was placed along the cavity 4 on the outer surface of the rod 1. The cavities 2 and 4 are interconnected. The indicator medium 3 was placed in the cavity 2 with the possibility of movement along the cavity 4 when the volume of the indicator medium changes under the influence of the ambient temperature. The cavity 2 was placed in the head 6, and the cavity 4 in the rod 1. The cavity 4 and the scale 5 were installed with the possibility of viewing. Scale 5 was made in the form of a set of lines and numbers, which were performed in a certain way and with a certain step using a sandblasting machine and a stencil, and the lines were made by prefabricating the depressions and then filling them with filler (used thick black paint). Indicator medium (indicator substance) 3 was made in the form of ethyl alcohol tinted in red. The bolt was made with a height equal to 800 mm. The design of the thermometer housing provides an extension of its operational capabilities, i.e. use as a floor and hanging measuring device.

Thus, the claimed technical solutions ensure the achievement of the task and obtaining the main and additional technical results.

Claims (2)

1. A method of manufacturing a thermometer, including the manufacture of a housing with a supporting surface, a scale, a reservoir and capillary long sealed cavities communicated with each other, an indicator medium placed in a reservoir sealed cavity with the ability to move along the capillary long sealed cavity, placing the scale along the capillary long sealed cavity with the possibility of their joint review and manufacture of the housing or its part, at least in the area of capillary length measuring the sealed cavity of the translucent material, the bolt comprising a rod with an outer threaded portion at one end, with a head at the other, characterized in that the sealed reservoir to form a cavity in the bolt head and lengthy capillary sealed cavity is formed in the rod of the bolt. 2. A thermometer comprising a housing with a supporting surface, a scale, a reservoir and capillary long sealed cavities communicated with each other, an indicator medium placed in a reservoir sealed cavity with the ability to move along the capillary long sealed cavity, the scale is placed along the capillary long sealed cavity with the possibility of joint observation, the housing or its part, at least in the area of placement of the capillary lengthy sealed cavity, is formed from translucent LfTetanus material with a bolt rod with an outer threaded portion at one end, with a head at the other, characterized in that the sealed reservoir cavity formed in the bolt head and lengthy capillary sealed cavity is formed in the rod of the bolt.