KR200480066Y1 - The structure of the sensor tip salinometer - Google Patents

Abstract

The present invention discloses a structure of a saline sensor bar that can be waterproofed by forming the outer diameter of a sensor bar to be assembled with a housing case in steps of steps and forcedly press-fitting, and is remarkably simple to assemble and improved in productivity, .
This design is harmless to the human body because it does not use chemical adhesive or water repellent for the process of combining the sensor rod and the housing case, which is the most persistent, difficult, and inefficient in the assembly process of the conventional product and the sensor rod is forced into the housing case The waterproofing problem is not only solved easily but also it is possible to obtain a useful effect of significantly reducing the manufacturing cost due to the remarkable improvement in the productivity.

Description

[0001] The present invention relates to a structure of a saline sensor rod,

The present invention relates to a structure of a salinity sensor rod, in particular, a sensor bar to be assembled with a housing case is formed so that the outer diameter of the sensor rod is stepped in steps, and the sensor can be waterproofed by forcibly pressing, The present invention relates to a structure of a saline-based sensor rod.

In order to maintain health, the type of food to be consumed is also important, but the concentration of salt contained in the food has a great effect on health, so that interest is increasing.

It is possible to control the salty taste by taste, but it is more scientific to use the salinity meter to manage the accurate salt concentration. As an apparatus for measuring the salinity concentration, the electric conductivity of the liquid decreases as the salinity contained in the liquid increases, and the electrical conductivity (conductivity), which is used to measure the change in the concentration of salinity, And a reflectometer system using the principle that the degree of refraction of light is changed according to the amount of salt contained in the measurement object. The salinity is affected by the temperature. It is known that the salinity generally changes by about 2% as the temperature changes by 1 ° C.

Therefore, it is necessary to compensate the temperature for the accurate salinity measurement, because the molecular motion of the subject changes with the temperature change.

In the salinity measurement method of this invention, an electric pulse signal, that is, a symmetric square wave is applied to the sensor rod, and the measurement is performed by synchronizing the waveforms, and the accuracy is realized by performing A / D conversion every 1/2 cycle.

At this time, in order to transfer the pulse signal generated by the control unit to the sensor rod, two long lead wires are connected between the control board and the sensor rod, and they are connected and molded or assembled by other methods to complete the product. There is a problem that the process such as pre-processing of the lead wire connected to the sensor rod is very troublesome and troublesome because it is manufactured by the insert molding method in which the metal sensor rod is formed and molded together.

In addition, conventional products use a method of using an adhesive between a sensor rod and a molded product for waterproofing. However, such a sensor structure is not only detrimental to the human body due to use of a chemical adhesive, but also has a problem in that a manufacturing cost is increased due to low productivity.

The purpose of the present invention is to make it possible to assemble between multi-level stepped assembly and forced indentation method without using chemical adhesive or water repellent for assembly between sensor bar and case which is the most difficult to manufacture, It saves production cost, and it tries to solve productivity improvement and waterproofing at the same time.

In order to achieve the above object, the present invention provides a sensing part having a rounded outer shape at the tip of a sensor rod, a first waterproof layer, a second waterproof layer, and a protrusion ring forming part extending from the sensing part and inserted into a housing case of a salinity system, The outer diameter of the second waterproof layer is smaller than the outer diameter of the first waterproof layer and is larger than the outer diameter of the projection ring-shaped portion, the projection ring projects on the outer periphery of the projection ring-

A sensor bar insertion port is formed in the housing case into which the first waterproof layer, the second waterproof layer and the projection ring forming portion of the sensor rod are inserted. The sensor bar insertion port has a first waterproof layer seat, a second waterproof layer, The first waterproof layer seat and the second waterproof layer seat are smaller in size than the outer diameter of the first waterproof layer and the outer diameter of the second waterproof layer in the stretching range of the housing case, And the first waterproof layer and the second waterproof layer of the sensor rod are respectively inserted into the first waterproof layer seat and the second waterproof layer seat of the sensor bar insertion port, The protruding ring protruding from the protruding ring-shaped part of the sensor rod is provided with a structure of the saline sensor bar which is fixed to the protruding ring jaw of the sensor bar insertion port It is.

Thus, the present invention is not harmful to the human body because it does not use a chemical adhesive or a waterproofing agent for the process of combining the sensor rod and the housing case, which are the most solid, difficult, and ineffective in the assembly process of the conventional product. By designing it as a press-fitting structure, not only the waterproofing problem is solved easily but also the manufacturing cost is remarkably reduced due to the remarkable productivity improvement.

1 is a perspective view illustrating a structure of a salinity meter to which a structure of a salinity sensor bar according to the present invention is applied.
Fig. 2 is a block diagram showing the configuration of a salinity meter to which the structure of the salinity sensor bar according to the present invention is applied.
3 is a sectional view of an embodiment specifically illustrating the structure of the salinity sensor bar according to the present invention.
FIG. 4 is a perspective view showing only one sensor bar to illustrate the structure of the saline sensor bar according to the present invention. FIG.
5 is a cross-sectional view of Fig.
6 is a cross-sectional view of another embodiment specifically illustrating the structure of the saline sensor bar according to the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention with reference to the accompanying drawings.

1 to 3 show the overall construction of an embodiment specifically illustrating the structure of the saline-based sensor rod 100 according to the present invention.

As can be seen from the above description, the present invention is designed to contribute to productivity improvement by constituting the sensor rod assembly 100, which is the most difficult to assemble and produce in the field of electronic digital salinity measuring instrument, with an innovative method, A step is provided in the sensor rod 100 to implement the waterproof function and the sensor rod 100 is not pulled out and the sensor rod 100 is forcedly inserted into the housing case 114. Thus, The sensor rod 100 can be easily mounted regardless of the length of the sensor rod 100.

As shown in FIGS. 1 and 2, an electronic salinometer to which the structure of the sensor rod 100 is applied includes a salinity measuring unit 121 connected to the sensor rod 100 for measuring a salinity concentration of a measurement object, A temperature measuring unit 122 connected to a temperature sensor 108 for measuring the temperature of the liquid,

A salt concentration measuring unit 121 and a temperature measuring unit 122 respectively receive a salt measurement signal and a temperature measurement signal to calculate an actual salt concentration according to a change in temperature and a control unit 123,

A display unit 124 for displaying the calculated salt concentration and a temperature value and a button operating unit 125 for selecting a function and turning on and off the power source 126 may be connected to the control unit 123, The salinity measuring unit 121 is provided with a pair of sensor rods 100 having the same structure so that an alternating current can flow therethrough in order to measure salinity by an electrical conductivity measuring method. And are installed close to each other with a predetermined gap therebetween so as to allow current to flow therethrough.

Since the salinity measurement value depends on the temperature of the measurement object, a temperature sensor 108 for temperature compensation is installed. The temperature sensor 108 measures at least one of the pair of sensor rods 100 for measuring salinity, And can be installed inside the rod 100.

The sensor rod 100 is made of a conductive material. The sensor rod 100 has a sensing part 101 whose outer shape is rounded so as not to injure even when the sensor rod 100 is in contact with a human body during handling, (114) can be assembled in a forced indentation manner, so that the assembly is very easy and the waterproof effect can be enhanced.

As shown in FIGS. 3 and 4, the structure of the saline-based sensor rod 100 according to the present invention, in which the assembly is completed by the water-impermeable forced-insertion method, The first waterproof layer 102, the second waterproof layer 103, and the protruding ring-shaped portion 104, which are integrally extended from the sensing portion 101, which is the tip of the first waterproof layer 103 and inserted into the housing case 114 of the saline system, The outer diameter of the second waterproof layer 103 is smaller than the outer diameter of the first waterproof layer 102 and is larger than the outer diameter of the protruding ring-shaped portion 104. The protruding ring 105 is formed around the outer circumferential surface of the protruded ring- Respectively,

A sensor bar insertion hole 115 is formed in the housing case 114 into which the first waterproof layer 102, the second waterproof layer 103 and the protrusion ring-shaped portion 104 of the sensor bar 100 are inserted, The insertion port 115 has a first waterproof layer seat 110, a second waterproof layer seat 111, a protrusion ring-shaped seat fitting 112, and a projection ring locking protrusion 113 in the inner direction of the housing case 114, Respectively,

The outer diameter of the first waterproof layer 102 and the outer diameter of the second waterproof layer 103 are larger than the outer diameter of the first waterproof layer 102 and the second waterproof layer 103, Is inserted into the sensor bar insertion port 115 of the housing case 114 from the protruding ring-shaped portion 104 of the sensor bar 100 in a forced press-fit manner to form the first waterproof layer 102 of the sensor bar 100 The second waterproof layer 103 is extended and coupled to the first waterproof layer seat 110 and the second waterproof layer seat 111 of the sensor bar insertion port 115 and the protrusion ring- The protruding ring 105 protruding from the protruding ring engaging protrusion 113 of the sensor bar insertion port 115 is engaged and fixed.

A step is formed between the first waterproof layer 102 and the second waterproof layer 103 and the first waterproof layer seat 110 and the second waterproof layer seat 111 of the sensor bar insertion hole 115 made of synthetic resin The protrusion ring 105 protruding from the protrusion ring-shaped portion 104 of the sensor rod 100 is inserted into the protrusion ringing protrusion 113 of the sensor stick insertion port 115 So that the sensor rod 100 can be coupled so as not to be detached.

5 and 6, the protruding ring-shaped portion 104 is provided with a protruded terminal 106 and the terminal 106 is inserted into the sensor-bar insertion port 115 of the housing case 114. [ When the sensor rod 100 is inserted and fixed in the sensor bar insertion port 115 of the housing case 114 in a forced press-fit manner, the protrusion ring- The terminal 106 protruded from the cap 104 can be inserted into the terminal connection port 116 formed in the housing case 114 and electrically connected to the lead wire 109 so that the sensor rod 100 can be inserted into the sensor rod insertion port 115 ) In a forced press-fitting manner.

5, a sensor hole 107 may be formed in the sensor rod 100 so that the temperature sensor 108 can be built in. The sensor hole 107 may be formed in the same shape as the shape of the temperature sensor 108 to increase the adhesion rate between the sensing unit 101 and the temperature sensor 108 to enable effective temperature measurement.

The saline sensor rod 100 according to the present invention has a double waterproof layer and a step between the waterproof layer and the waterproof layer to form a waterproof effect. In addition, since the lead wire 109 is disposed inside the sensor rod 100 The assembling can be completed only by inserting the lead wire 109 into the housing case 114 together with the lead wire 109 or by inserting the lead wire 109 in a forced press-fitting manner without worrying that the lead wire 109 is bent or broken Therefore, it is easy to assemble, the productivity is improved, and since no chemical adhesive or waterproofing agent is used for waterproofing separately, it is possible to manufacture a salt meter harmless to human body.

While the foregoing description of the present invention has been described with reference to the accompanying drawings, it is to be understood that the invention is not to be restricted by the embodiments but only by those of ordinary skill in the art It is obvious that various modifications and variations can be made in the dimensions, shapes, and structures without departing from the scope of the technical idea of the invention, and such modifications and variations are included in the scope of technical idea of the present invention.

100: sensor rod 101: sensing part 102: first waterproof layer
103: second waterproof layer 104: projection ring-shaped part 105: projection ring
106: Terminal 107: Sensor hole 108: Temperature sensor
109: lead wire 110: first waterproof layer seat
111: second waterproof layer seat 112: projection ring type seat seat
113: protrusion ring jaw 114: housing case 115: sensor bar insertion hole
116 terminal connection port 121 salinity measurement unit 122 temperature measurement unit
123: control unit 124: liquid crystal display unit 125:
126: Power supply

Claims (2)

The sensor rod has a sensing part formed in a round shape and has a first waterproof layer, a second waterproof layer, and a protruding ring forming part extending from the sensing part and inserted into a housing case of a salinity meter,
The outer diameter of the second waterproof layer is smaller than the outer diameter of the first waterproof layer and is larger than the outer diameter of the projection ring-shaped portion, the projection ring protrudes around the outer periphery of the projection ring-
A sensor bar insertion hole is formed in the housing case into which the first waterproof layer, the second waterproof layer and the projection ring forming portion of the sensor rod are inserted,
The sensor bar insertion port is formed in such a manner that a first waterproof layer seat, a second waterproof layer seat, and a projection ring engagement jaw are formed in a direction from the entrance to the interior of the housing case,
The first waterproof layer seat and the second waterproof layer seat have smaller dimensions than the outer diameter of the first waterproof layer and the outer diameter of the second waterproof layer within the range of expansion and contraction of the housing case, And the first waterproof layer and the second waterproof layer of the sensor rod are respectively engaged with the first waterproof layer seat and the second waterproof layer seat of the sensor rod insertion port and the projection ring protruding from the projection ring- Wherein the protrusion is fixed to the protrusion ring of the rod insertion port.
The method according to claim 1,
Wherein the protrusion ring forming portion is provided with a protruded terminal, and a terminal connection port is formed in the sensor case inserting port of the housing case to connect the terminal to the lead wire.

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