RU2821354C1 - Steam electric wax melter - Google Patents

Abstract

FIELD: beekeeping.

SUBSTANCE: invention relates to beekeeping and can be used to melt beeswax. Steam electric wax melter contains housing with cover, in upper part of which there is a basket with mesh bottom for loading of honeycomb frames or recyclable materials. Under the basket there is a tray for collection of melted wax. Housing has a filler pipe. Electric heater is mounted in the space under the tray directly at the bottom of the housing. Housing is connected to the neutral wire of the electric network and is grounded. Tray bottom has a condensate drain hole closed with a plug. Wax melter is equipped with a control device, the first and second inputs of which are connected to zero and phase wires of the electric network, respectively, between the third and fourth inputs there is a winding of an electromagnetic valve installed on the filler pipe. Sealant is laid between the housing and the cover, the cover is pressed to the seal by the weight of the weight fixed on it. On the housing there installed are sensors of upper and lower water levels, closing contacts of which are connected by the first outputs to the first input, and by the second outputs to the sixth and seventh inputs of the control device respectively. Lower level sensor is located directly above the electric heater, and the upper level sensor is located at a height at which the volume of water required for wax melting from a single portion of the raw material loaded into the basket is provided. Space in the upper part of the housing is connected to the environment by means of a branch pipe in which a posistor is placed, the outputs of which are connected to the first and fifth inputs of the control device, to the third and eighth inputs of which an electric heater is connected. Control device has a switch connected by its input to the second input of the control device, and by its output to the third input of the control device and the first outputs of the windings of the first and second electromagnetic relays, the first and second signal lamps. First terminal of first closing contact of first electromagnetic relay, first output of second closing contact of second electromagnetic relay, first output of closing contact of button, the first output of the third normally closed contact of the second electromagnetic relay and the common output of the key are connected to the first input of the control device. Second output of the winding of the first electromagnetic relay is connected to the second output of the first closing contact of the first electromagnetic relay and the sixth input of the control device. Connection point of the second output of the first closing contact of the second electromagnetic relay and the second output of the closing contact of the button are connected through the second NC contact of the first electromagnetic relay to the fourth input of the control device, the fifth input of which and the control output of the key are connected to each other through the second closing contact of the second electromagnetic relay. Output of the key is connected to the eighth input of the control device. Second output of the winding of the second electromagnetic relay is connected to the seventh input of the control device through the third normally closed contact with a time delay at opening of the first electromagnetic relay. Second outputs of the first and second signal lamps are respectively connected to the first outputs of the fourth normally closed contact and the fifth normally closed contact of the first electromagnetic relay, which second outputs are connected to the second output of the third normally closed contact of the second electromagnetic relay.

EFFECT: higher operating performances of electric wax melter.

1 cl, 2 dwg

Description

The invention relates to the field of beekeeping and can be used for melting beeswax.

A known steam electric wax melter [1], adopted as a prototype, melts wax from bee honeycombs, in which, at atmospheric pressure, it is exposed to saturated water steam. It consists of a body with a lid for loading frames or recyclables and a tray with a pipe for draining melted wax. An electric heater (TEH) is built into the housing.

The disadvantage of this wax melter is that in addition to loading and unloading raw materials during wax melting, it is necessary to perform a number of intermediate operations, as well as constantly monitor the operation of the wax melter to eliminate emergency modes. This increases the complexity of obtaining wax. In addition, due to the lack of adjustment of the power of the electric heater in accordance with the steam consumption changing during the heating process, excessive consumption of electrical energy is observed. All this ultimately reduces the operational efficiency of the wax refiner.

The objective of the invention is to eliminate the noted disadvantages and thereby increase the performance of an electric wax melter.

The technical result is achieved due to the fact that in a steam electric wax furnace containing a housing with a lid, in the upper part of which there is a basket with a mesh bottom for loading honeycomb frames or recyclables, under the basket there is a tray for collecting melted wax, the housing has a filling pipe, and in the space under the pan, directly at the bottom of the body, an electric heater is mounted, the body is connected to the neutral wire of the electrical network and grounded, in the bottom of the pan there is a hole for draining condensate, closed with a plug, the wax furnace is equipped with a control device, the first and second inputs of which are connected to neutral and phase, respectively wires of the electrical network, between the third and fourth inputs the winding of an electromagnetic valve installed on the filler pipe is connected, a seal is laid between the body and the cover, the cover is pressed to the seal by the weight of the load attached to it, sensors for the upper and lower water levels are installed on the body, the closing contacts of which are connected the first leads to the first input, and the second, respectively, to the sixth and seventh inputs of the control device, while the lower level sensor is located directly above the electric heater, and the upper level sensor is at a height that provides the volume of water necessary for melting wax from a single portion loaded into basket of raw materials, the space in the upper part of the housing is connected to the environment through a pipe in which a posistor is placed, the terminals of which are connected to the first and fifth inputs of the control device, to the third and eighth inputs of which an electric heater is connected, the control device contains a switch connected by an input to the second input control device, and the output to the third input of the control device and the first outputs of the windings of the first and second electromagnetic relays, the first and second signal lamps, the first output of the first NO contact of the first electromagnetic relay, the first output of the second NO contact of the second electromagnetic relay, the first output of the button NO contact, the first output of the third open contact of the second electromagnetic relay and the common output of the key are connected to the first input of the control device, the second output of the winding of the first electromagnetic relay is connected to the second output of the first make contact of the first electromagnetic relay and the sixth input of the control device, the connection point of the second output of the first make contact of the second electromagnetic the relay and the second output of the closing contact of the button are connected through the second normally open contact of the first electromagnetic relay to the fourth input of the control device, the fifth input of which and the control output of the key are connected to each other through the second closing contact of the second electromagnetic relay, the key output is connected to the eighth input of the control device, the second output the windings of the second electromagnetic relay are connected to the seventh input of the control device through the third break contact with a time delay when the first electromagnetic relay opens, the second terminals of the first and second signal lamps are connected, respectively, to the first terminals of the fourth break contact and the fifth make contact of the first electromagnetic relay, the second outputs of which are connected with the second terminal of the third opening contact of the second electromagnetic relay.

The essence of the invention is illustrated by a drawing (Fig. 1 - schematic diagram; Fig. 2 - wiring diagrams of the first electromagnetic relay K1 and the second electromagnetic relay K2).

An electric steam wax furnace containing a housing 1 with a lid 2, in the upper part of which there is a basket 3 installed with a mesh bottom for loading honeycomb frames 4 or recyclable materials. The tray 5 for collecting melted wax 6 and condensate 7 is installed on stops 8 attached to the body from the inside. The body has a filler pipe 9, and an electric heater 10 is mounted in the space under the tray directly at the bottom of the body. The body is connected to the neutral wire of the electrical network and grounded. At the bottom of the pan there is a hole 11 for draining condensate, closed with a plug 12. The wax furnace is equipped with a control device 13, the first x 1 and second x 2 inputs of which are connected respectively to the neutral (N) and phase (A) wires of the electrical network, and between the third x 3 and the fourth x 4 inputs are connected to the winding 14 of the electromagnetic valve 15 installed on the filler pipe. A seal 16 is laid between the body and the cover. The cover is pressed to the seal by its own weight and the weight of the load 17 attached to it. Electrodes 18 and 19 of sensors for the upper and lower water levels, respectively, are installed on the body, the contacts of which are connected by the first terminals through the water to the first input x 1, and the second, respectively, to the sixth x 6 and seventh x 7 inputs of the control device. In this case, the lower level sensor is located directly above the electric heater, and the upper level sensor is at a height that provides the volume of water necessary for complete melting of wax from a single portion of raw materials loaded into the basket. The space in the upper part of the housing is connected to the environment through a pipe 20, which houses a posistor 21, the terminals of which are connected to the first x 1 and fifth x 5 inputs of the control device, to the third x 3 and eighth x 8 inputs of which an electric heater 10 is connected.

The control device contains a switch QS connected by the input to the second x 2 input of the control device, and by the output to the third input x 3 of the control device and the first terminals of windings K1.0 and K2.0 of the first K1 and second K2 electromagnetic relays, the first H1 and second H2 signal lamps . The first output of the first NO contact K1.1 of the first electromagnetic relay K1, the first output of the first NO contact K2.1 of the second electromagnetic relay K2, the first output of the NO contact of the SA button, the first output of the third NC contact K2.3 of the second electromagnetic relay K2 and the common output of the key A1 are connected to the first x 1 input of the control device. The second output of winding K1.0 of the first electromagnetic relay K1 is connected to the second output of the first closing contact K1.1 of the first electromagnetic relay K1 and the sixth x 6 input of the control device. The connection point of the second output of the first make contact K2.1 of the second electromagnetic relay K2 and the second output of the make contact of the SA button are connected through the second break contact K1.2 of the first electromagnetic relay K1 to the fourth x 4 input of the control device. The fifth input x 5 of the control device and the control “UPR” output of the key A1 are connected to each other through the second normally open contact K2.2 of the second electromagnetic relay K2. The output of key A1 is connected to the eighth x 8 input of the control device. The second output of winding K2.0 of the second electromagnetic relay K2 is connected to the seventh x 7 input of the control device through the third break contact K1.3 with a time delay when the first electromagnetic relay K1 opens. The second terminals of the first H1 and second H2 signal lamps are connected, respectively, to the first terminals of the fourth K1.4 normally open contact and the fifth K1.5 normally open contact of the first electromagnetic relay K1, the second terminals of which are connected to the second terminal of the third K2.3 normally open contact of the second electromagnetic relay K2.

The wax melter works as follows.

The wax furnace is installed on a stable base (not shown in the drawing), the reliability of connecting the wax furnace body to the grounded neutral wire of the electrical network and connecting the filler pipe to the water source is checked. Such a source can be a water supply network or a storage tank with water located guaranteed above the upper level sensor of the wax furnace. Hole 11 in the pan for draining condensate is closed with a plug, and the pan is installed in the body of the wax furnace on stops 8 spaced along the inner perimeter of body 1. A basket with a mesh bottom designed to collect sludge is installed on the same stops on top of the pallet flange. The basket is filled with frames or individual clumps of honeycomb and closed with a lid. The lid is pressed against the seal with a weight (1...2 kg) to prevent steam leakage.

Terminals x 1 and x 2 of the control device are supplied with alternating current voltage and the contacts of the QS switch are closed. If there is no water in the body of the wax melter or its level is below the location of the electrode 19 of the lower level sensor, the contacts of the electrode level sensors are open. The windings of electromagnetic relays are de-energized, their normally open contacts are open in this state, and their opening contacts are closed. The signal lamp H1, receiving power through the opening contacts K2.3 of the electromagnetic relay K2 and K1.4 of the electromagnetic relay K1, begins to glow, indicating the absence of water in the body of the wax furnace. Since the closing contacts of both relays are open, the winding of the solenoid valve and the electric heater coil are de-energized. The wax melter can remain in this state for as long as desired.

To put it into operating mode, press and hold the SA button closed. In this case, the winding 14 of the electromagnetic valve receives power through the circuit: neutral wire N of the electrical network - input x 1 of the control device - button contact SA - opening contact K1.2 of the electromagnetic relay K1 - winding 14 of the electromagnetic valve - switch contact QS - phase of the electrical network. The valve opens and the housing begins to fill with water. As soon as the water level rises to the level of the location of the electrode 19 of the lower level sensor, winding K2.0 of the electromagnetic relay K2 receives power through the circuit: phase A of the network - contact of the QS switch - winding K2.0 - electrode 19 of the lower level sensor and through the water and the body of the wax furnace neutral wire of the network. The relay is activated, contact K2.1. closes, blocking the contact of the SA button. Then the button can be released, the wax melter will operate automatically until the end of wax melting without operator intervention. Power supply to winding 14 will be provided in addition to the button contact through contact K2.1. At the same time, contact K2.3 opens - lamp H1 goes out. Contact K2.2 also closes, and since the resistance of posistor 21 at room temperature is close to zero, the control input of key A1 is closed to the common output through the posistor and contact K2.2. In this case, the key, in accordance with the algorithm of its operation, is open and the electric heater 10 receives power through the circuit: neutral wire - x 1 - key - electric heater spiral - input x 3 control devices - QS switch contact - electrical network phase. In this case, the water will be heated and at the same time its level in the wax furnace body will further increase.

As soon as the water level reaches electrode 18 of the upper water level sensor, winding K1.0 of the electromagnetic relay K1 will receive power through the circuit: phase A of the network - contact of the QS switch - winding K1.0 - electrode 18 of the upper level sensor and through the water and the body of the wax furnace, the neutral wire networks. Relay K1 is activated, its contact K1.1 closes, blocking the contact of the upper water level sensor. At the same time, contact K1.2 opens, as a result the winding of the solenoid valve is de-energized, and the flow of water stops.

Heating of the water volume continues to a temperature of 100°C. From this moment it begins to boil and fill the space of the housing with steam. At the same time, while the walls of the housing and the parts contained in it are relatively cold, all the steam obtained as a result of boiling water has time to condense on them without leaving the space of the housing. As the temperature of the housing parts approaches 100°C, the wax will begin to burn out, the rate of steam condensation will slow down, and its excess will begin to flow into pipe 20. At the same time, the posistor will heat up. As soon as the posistor heats up to a temperature slightly above the Curie point (a standard thermistor with a Curie point of 90°C is adopted), its resistance will increase sharply, the voltage at the control input of the key will also increase and, in accordance with the key’s operating algorithm, it will close, de-energizing the electric heater. Due to the cessation of steam formation, the steam pressure in the wax furnace body will decrease somewhat and the steam from the nozzle, due to atmospheric pressure, will go back into the body cavity. The resistance of the posistor, as a result of its cooling to a temperature below 90°C, will decrease to almost zero, which, as shown above, will lead to the electric heater being turned on again. Thus, the cycles of turning the heater on and off will be repeated. The melted wax and condensate are drained through the mesh bottom of the basket into a tray. Sludge is retained on the mesh. As heating progresses, the water level in the wax melter body decreases, electrode 18 of the level sensor is exposed, the contact with water is broken, but relay K1 does not turn off since the contact of the upper level sensor is blocked, and the solenoid valve does not turn on. This is necessary so that a fresh portion of water during melting does not lead to interruption of steam generation and disruption of the wax melting regime. The time for complete heating and the amount of steam required for complete heating, and, consequently, the volume of water required to obtain it, are determined experimentally. It is at this time that the response delay of the third opening contact K1.3 of the first electromagnetic relay is set. As soon as the heating time has expired, contact K1.3 of the electromagnetic relay K1 opens, winding K2.0 of the electromagnetic relay K2 is de-energized, its contact K2.2 opens, as a result, key A1 is closed - the electric heater is turned off. At the same time, lamp H2 receives power through contacts K2.3 and K1.5, signaling the end of wax melting.

Next, the operator turns off the QS switch, returning the control device to its initial state, removes the cover, removes the basket and (after the wax has cooled below its melting point) the tray from the body. The basket is cleaned, the condensate is drained from the tray through hole 11, and the finished wax is removed. To speed up the cooling of the tray, you can lower it into cold water for a while, and to make it easier to remove the wax from the tray, you need to heat the place where it contacts the walls of the tray from the outside, for example, by pouring a stream of hot water over it.

Thus, by automating the filling of the wax furnace body with water and automatically maintaining a balance of the intensity of steam formation and steam condensation during the combustion process, the time and labor intensity of servicing the wax furnace are reduced. Steam losses are also reduced, and, consequently, electricity losses, i.e. The energy efficiency of the wax refiner increases. All this taken together solves the stated problem of the invention.

A source of information

1. Electric wax melter. Passport. PKB BI-Prom Novoshakhtinsk [Electronic resource]. URL: https://apistroy.ru/upload/instruktsii/%D0%92%D0%BE%D1%81%D0%BA%D0%BE%D1%82%D0%BE%D0%BF%D0%BA %D0%B0%20%D1%8D%D0%BB%D0%B5%D0%BA%D1%82%D1%80%D0%B8%D1%87%D0%B5%D1%81%D0%BA %D0%B0%D1%8F.pdf (Accessed 09/15/2023).

Claims (1)

An electric steam wax furnace containing a body with a lid, in the upper part of which there is a basket with a mesh bottom for loading honeycomb frames or recyclables, under the basket there is a tray for collecting melted wax, the body has a filling pipe, and in the space under the tray directly at the bottom of the body is mounted electric heater, characterized in that the body is connected to the neutral wire of the electrical network and grounded, in the bottom of the pan there is a hole for draining condensate, closed with a stopper, the wax furnace is equipped with a control device, the first and second inputs of which are connected respectively to the neutral and phase wires of the electrical network, between the third and fourth inputs are connected to the winding of the solenoid valve installed on the filler pipe, a seal is laid between the body and the cover, the cover is pressed against the seal by the weight of the load attached to it, sensors for the upper and lower water levels are installed on the body, the closing contacts of which are connected by the first terminals to the first input , and the second, respectively, to the sixth and seventh inputs of the control device, with the lower level sensor located directly above the electric heater, and the upper level sensor at a height that provides the volume of water required for melting wax from a single portion of raw materials loaded into the basket, space in the upper part of the housing it is connected to the environment through a pipe in which a posistor is placed, the terminals of which are connected to the first and fifth inputs of the control device, an electric heater is connected to the third and eighth inputs of which, the control device contains a switch connected by an input to the second input of the control device, and output to the third input of the control device and the first outputs of the windings of the first and second electromagnetic relays, the first and second signal lamps, the first output of the first NO contact of the first electromagnetic relay, the first output of the second NO contact of the second electromagnetic relay, the first output of the NO contact of the button, the first output of the third NC the contacts of the second electromagnetic relay and the common output of the key are connected to the first input of the control device, the second output of the winding of the first electromagnetic relay is connected to the second output of the first NO contact of the first electromagnetic relay and the sixth input of the control device, the connection point of the second output of the first NO contact of the second electromagnetic relay and the second output the closing contact of the button is connected through the second normally open contact of the first electromagnetic relay to the fourth input of the control device, the fifth input of which and the control output of the key are connected to each other through the second closing contact of the second electromagnetic relay, the key output is connected to the eighth input of the control device, the second output of the winding of the second electromagnetic relay connected to the seventh input of the control device through the third break contact with a time delay when the first electromagnetic relay opens, the second outputs of the first and second signal lamps are connected, respectively, to the first outputs of the fourth break contact and the fifth make contact of the first electromagnetic relay, the second outputs of which are connected to the second output of the third opening contact of the second electromagnetic relay.