RU138631U1 - CRANE SCALES - Google Patents

Abstract

1. Crane scales, characterized by the presence of a housing with a load-measuring strain gauge analog sensor connected to the upper and lower power input nodes, the converter unit with a radio modem and antenna, as well as the battery unit, temperature sensor, solar panels and radio remote control with indicator board, while the converter unit with the radio modem and antenna and the battery pack are each placed in separate cylindrical-shaped compartments mounted symmetrically on both sides on the scale body using the available of plates fixedly mounted on the upper side of which a solar battery installed, a temperature sensor is placed in the housing together with the weight measure analog sensor and is connected to the converter unit elektricheski.2. Crane scales according to claim 1, characterized in that the two cylindrical-shaped compartments are made of a metal pipe with a thread for installing an end removable cover at one end and the hole at the other end is plugged. Crane scales according to claim 1, characterized in that on the lateral surface of the compartment of the normalizing converter unit there are hermetic inputs for connecting the cables of the temperature sensor, load cell and power supply of the balance from the battery unit, and connectors for connecting the interface cable, an LED indicator are placed on its end face, designed to signal the inclusion of the balance, and antenna connector. 4. Crane scales according to claim 1, characterized in that on the lateral surface of the battery compartment there is a pressure seal for connecting the power cable of the balance and a pressure seal for connecting

Description

The invention relates to a weight measuring technique and can be used to measure the weight of goods transported by cranes, hoists and other lifting devices, preferably placed in open spaces in areas of high sunlight.

Known wireless crane scales BKE-21, comprising a complex-shaped housing with various transitions, made of high-strength aluminum alloy, and having lids fixed on both sides, bolted to it. In a single housing there is a normalizing converter with a load cell connected to power input nodes, and the power unit is also located there. The weight indicator is moved outside the scale body and is located in a separate case. Crane scales are controlled using a remote control, the radio channel antennas of which are mounted on the control panel and on the scale body (see the Internet site axis-ua com / calogol_ru / c63p110htlm Lviv). The disadvantages of these scales include the presence of a complex body shape made of high-strength aluminum alloy with covers, and in order to replace, for example, the battery pack, it is necessary to disassemble the body, which is, in particular, at negative temperatures, not comfortable. In addition, since all the structural elements are in one housing, it is impossible to exclude the possibility of their negative influence on each other, in particular, the possibility of the influence of radio waves on the accuracy of the electronic weight measurement system.

The closest in technical essence and functionality to the claimed scales are crane scales containing a strain gauge weight sensor, connected to it upper and lower power-supply nodes with load-receiving holes, an electronic normalizing converter, a power supply and a wireless interface. The indicating and control panel, a prismatic casing with a bevel of the front part, a cargo hook with a hole in the form of a straight circular cylinder, coupled by means of a cylindrical axis with a lower power-introducing unit, an antiglare light-protective hood-visor, a prismatic casing is made with a flat bevel in the front, and the strain gauge force sensor, electronic normalizing transducer and power supply are located in the prismatic casing. The base of the antiglare light-protective hood-visor is coupled with a bevel in front of the prismatic housing, on which the display and control panel with an electronic digital display are placed. The prismatic casing is mounted on a strain gauge weight sensor so that the longitudinal axis of the prism is horizontal, while the length of the antiglare light-shielding hood-visor is 0.2-1 the height of the prismatic casing, and the axis of the antiglare light-shielding hood-visor is 20-45 ° with a horizontal plane. The longitudinal axis of the load-receiving holes of the upper and lower power-supplying units is mutually perpendicular, and a hinged lid with a locking unit is introduced in the prismatic housing. The casing and hood hood can be made bent or cast. These crane scales have a wireless interface made on the IR pre-transmitting channel or on the radio channel with a portable control panel in the form of a pocket personal computer that is connected to the local network of the enterprise (see RF Patent for Utility Model No. 110185 G01G 19/14, publ. 10.11.2011).

However, these crane scales have the same drawback as

the previous analogue, namely, the power and electronic components thereof, are combined in one housing, which creates their mutual negative influence on each other during operation and, in addition, manufacturing, for example, a molded case with a hinged lid is technologically difficult.

In view of the fact that the claimed crane scales coincide with known analogues only in functional purpose, and structurally they have different designs, they cannot be considered as a prototype to our technical solution.

The problem of eliminating the disadvantages of analogues is solved by creating crane scales of a different design, in which the power unit, the converter unit and the battery unit are made separately.

The technical result, which consists in simplifying the manufacture of the crane scale design, increasing the period between recharging the battery pack by using solar panels, quickly replacing the battery pack is achieved by placing the converter unit with a radio modem and antenna and the battery pack in separate cylindrical compartments mounted symmetrically on both sides on the body of the balance using the fixed plates available to it, on the upper side of one of which are installed the Solar battery, and a temperature sensor placed in the housing together with the weight measure analog sensor and is connected to the converter unit electrically. To ensure the functioning of the crane scales, on the side surface of the compartment of the normalizing converter unit, pressure glands are made for connecting the cables of the temperature sensor, the strain gauge bridge of the load measuring sensor and power the balance from the battery unit, and connectors for connecting the interface cable and an LED indicator for signaling inclusion of the scales, and the antenna connector, and on the side surface of the battery compartment also has a pressure seal for connecting the cable To supply to the balance, and the muffled his end has a toggle switch on the unit, the battery unit is easily removed from its cylindrical compartment for fast replacement. Each cylindrical-shaped compartment is made of a metal pipe with a thread for installing an end removable cover at one end, and the hole at the other end is plugged.

To ensure functioning, the scales are additionally equipped with a removable power supply, and the power-leading nodes are made in the form of a link associated with an omega-shaped bracket and a pull hook. Crane scales are controlled using a radio remote control, which is made in the form of a pocket personal computer connected to the local computer network of the enterprise, and therefore there is no need to have an information board on the crane scale body. The essence of the utility model is illustrated by drawings, in which Fig. 1 shows a general view of crane weights, a general view of the scales from the side is shown in Fig. 2, Fig. 3 shows a separate general view of the compartment of the normalizing converter unit, and Fig. 4 is a general view of the battery compartment , FIG. 5 shows a general view of the radio remote control, and a side view of the radio remote control in FIG. 6.

Crane scales 1 contain a housing 2 with a load-measuring strain gauge analog sensor 3 connected to the upper and lower power input nodes 4 and 5, the unit of the normalizing transducer 6 with a radio modem (not shown in Fig.) And antenna 7, the battery unit 8, temperature sensor 9, solar batteries 10 and a radio remote control 31 control weights. At the same time, the converter unit 6 with a radio modem (not shown in Fig.) And antenna 7 and the battery unit 8 are each placed in a separate cylindrical-shaped compartment 12 and 13 mounted symmetrically on both sides on the body 2 of the scale 1 using two available scales he has fixedly mounted on the upper and lower plates 15 and 16. The solar panels 10 are mounted on the upper plate 15 and mounted on it with hinges 17. The temperature sensor 9 is placed in the housing 2 together with a load-bearing strain gauge analog sensor 3 and electrically connected to the unit of the normalizing transducer 6. The crane scales are characterized by the simplicity of their manufacture, since the two cylindrical-shaped compartments 12 and 13 are made of a metal pipe with a thread 18, onto which a removable cover 19 is screwed. The second end of the pipe is sealed to form an end wall 20 made , for example, by welding. To ensure the functioning of the scales on the side surface of the compartment 12 of the unit of the standardizing transducer 6, the hermetic inputs 21, 22 and 23 are made for connecting the cables of the temperature sensor 9, the load measuring sensor 3, and the balance power from the battery unit 8, and a connector 24 is placed on its muffled end 20 interface cable, LED indicator 25, designed to signal the inclusion of scales, and antenna connector 26. Similarly, compartment 12 is made and compartment 13 of the battery unit 8, on the side surface orogo pressure seal 27 is formed of weights and the power cable 36 germovvod cable connecting solar cells 10, and at its end 20 is mounted toggle 28 enable the balance, wherein the battery unit 8 is easily retrievable 13 for quick replacement of the compartment. The power-generating nodes 4 and 5 are made in the form of a link 29 connected to an omega-type bracket 30 and a cargo hook 14, and the radio remote control 31 with the antenna 32 controlling the operation of the balance is made in the form of a pocket personal computer that can communicate with the local computer network of the enterprise. In general, the remote control 31 with button control 34 has an indicator board 33 and is designed to receive information on the radio channel 35 to its antenna 32 from the antenna 7 mounted on the unit of the normalizing converter 6. The radio remote control 31 signals the discharge of the battery pack 8 by a message on the display 33, and also signals that the maximum permissible load of the load on the hook is exceeded. In scales 1, software is built into the unit of the normalizing transducer 6 (not shown in Fig.), Which performs the functions of receiving, transmitting and displaying measurement information. The software of the radio remote control 31 allows you to view up to 50 of the last records stored in its memory. To ensure operability, the crane scales are equipped with an additional removable power supply (not shown in Fig.).

The balance retains the value of performance at an ambient temperature of minus 30 ° C to plus 50 ° C and a relative humidity of up to 80% at a temperature of plus 35 ° C, and therefore the temperature sensor 9 is necessary for adjusting the error in measuring the weight on hook 5 depending on weather conditions. When the scales are working outdoors in bright sunlight, the solar panels 10 installed on the top plate 15 generate additional electricity and recharge the battery pack 8, extending the time for recharging it. The proposed scales have sufficient strength, since the compartments 12 and 13 are made of rigid metal pipes of sufficient thickness, which reliably protect the load cell 3 from unforeseen impacts from all sides, and therefore the housing 2 can be made in the form of a casing of sheet material, which simplifies the whole the manufacturing process of the scales in production, and the presence on the compartments 12 and 13 of unscrewable covers 19 greatly simplifies and facilitates the replacement of the unit of the standardizing transducer 6 and the battery unit 8. The crane scales are equipped with They are removable power supply (not shown in Fig.).

Crane scales work as follows. The toggle switch 28 of the battery unit 8 includes crane scales 1, having previously connected through the pressure glands 21,22 and 23 the cables of the temperature sensor 9, the load cell 3 and the balance power supply from the battery unit 8, the connectors 24 and 26, respectively, of the LED indicator 25 and antenna 7, as well as the pressure seal 27 power cables of the balance. The principle of operation of a crane scale is based on the transformation of the deformation of the elastic element of the load cell analog strain gauge 3, which occurs under the action of the mass P weighed through the power-leading nodes 4 and 5, into an analog electrical signal proportional to the change in the weighed mass. The analog signal is fed to the unit of the standardizing transducer 6, which converts it into a digital code and transmits via the antennas 7 and 32 of the radio channel 35 for subsequent output of information about the weight of the weighed cargo to the display panel 33 of the radio remote control 31. It does not display the results of the display panel 33 the influence of the operation of crane scales in negative or positive temperatures, since with the help of the temperature sensor 9 and the unit of the normalizing converter 6, the correction repenting temperature errors.

When the scales are working outdoors, in conditions of sunlight, the solar panels 10, which are in unfavorable conditions (rain) in the closed state, are opened to the working position by means of loops 17 and begin to generate electricity, additionally recharging the battery pack 8, thereby increasing the time necessary for its technological passport recharging, and therefore, firstly, it increases the time of productive work of the crane weights, and, secondly, it provides energy savings. At the same time, replacing the battery unit 8 from sector 13 is not difficult, but is very simple, you need to unscrew the cover 19 from it and freely remove the unit, replacing it with another one, and the crane scales are ready for use again, which also reduces their overhaul a period of time, and therefore reduces unproductive downtime.

The use of a portable stand-alone radio remote control 31 in the form of a handheld computer to control the crane weights, the indicator of which displays the result of measuring the weight of the cargo, and the ability to connect it to the local computer network of the enterprise increase the convenience of their operation. The operation of the balance can be carried out without the use of solar panels, while maintaining ease of maintenance and ease of manufacture.

The proposed scales will be widely used in industry, in warehouses, as they are easy to manufacture, convenient to operate and economical in energy consumption.

Sources of information taken into account when applying for a utility model

1. Utility model of the Russian Federation No. 3825 G01G 19/14, publ. 03/16/97

2. Application for invention of the Russian Federation No. 97105858 G01G 19/14, publ. 02.20.99 g.

3. RF patent No. 2119648 G01G 19/14, published on September 27, 1998.

4. RF patent No. 22212023 G01G 19/14, publ. September 10, 2003

5. RF patent No. 1813205 G01G 19/14, publ. 04/30/93.

6. USSR Author's Certificate No. 709954 G01G 19/14, publ. 01/15/80

6. Utility model of the Russian Federation No. 54177 G01G 13/00, publ. 02/13/2006

7. Utility model of the Russian Federation No. 69990 G01G 3/14, publ. 07/10/2007

Claims (8)

1. Crane scales, characterized by the presence of a housing with a load-measuring strain gauge analog sensor connected to the upper and lower power input nodes, the converter unit with a radio modem and antenna, as well as the battery unit, temperature sensor, solar panels and radio remote control with indicator board, while the converter unit with the radio modem and antenna and the battery pack are each placed in separate cylindrical-shaped compartments mounted symmetrically on both sides on the scale body using the available of plates fixedly mounted on the upper side of which a solar battery installed, a temperature sensor is placed in the housing together with the weight measure analog sensor and is connected to the converter unit electrically. 2. The crane scales according to claim 1, characterized in that the two cylindrical-shaped compartments are made of a metal pipe with a thread for installing an end removable cover at one end, and the hole is plugged at the other end. 3. The crane scales according to claim 1, characterized in that on the lateral surface of the compartment of the normalizing converter unit there are hermetic inputs for connecting the cables of the temperature sensor, load cell and power supply of the balance from the battery unit, and connectors for connecting the interface cable are placed on its muffled end, LED an indicator designed to signal the inclusion of the balance, and an antenna connector. 4. The crane scale according to claim 1, characterized in that on the side surface of the battery compartment there is a pressure seal for connecting the power cable of the balance and a pressure seal for connecting the solar cable, and on the plugged end there is a toggle switch for the balance, and the battery block is easily removable for quick replacement. 5. Crane scales according to claim 1, characterized in that they are additionally equipped with a removable power supply for their operation. 6. Crane scales according to claim 1, characterized in that the power-leading nodes are made in the form of a link associated with an omega-type bracket and a pull hook. 7. Crane scales according to claim 1, characterized in that the radio remote control with indicator board has a push-button control of the operation of the balance. 8. The crane scales according to claim 1, characterized in that the radio remote control with indicator board is made in the form of a pocket personal computer connected to the local computer network of the enterprise.

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