CN112400262A - Integrated elevator control unit - Google Patents

Abstract

It is characterized by comprising a main body (21) used for replacing an elevator control panel cabinet (1), the body (21) forms an integral elevator control unit (20) that can be carried by hand, performs the functions required by an elevator with a small volume, is easy to install, has few installation errors, the elevator is produced as a unit without the need for separate elevator motor drive add-on cards/materials (5), elevator control cards and add-on cards/materials (6) and cabinets, fulfilling all elevator control functions, comprising a motor driver unit (14), a control card unit (15), an electrical device (9) power supply (7) (e.g. a transformer and/or an SMPS) and operable without the need for external use of these components, the use of a cable guide (11) can be avoided, since much fewer cables are used and a pre-prepared set of cables containing all components is used.

Description

Integrated elevator control unit

Technical Field

The present invention relates to an elevator control panel.

The invention relates in particular to an integrated elevator control unit designed to be used instead of an existing elevator panel, which has no control card or integrated control unit other than the motor drive which can work independently, which does not require an external cabinet, which is integrated as a unit into the body and performs all the functions of the integrated elevator unit. It is an integral elevator control unit, occupies less space, can satisfy all the functions of the existing elevator control panels that occupy a large amount of space, can improve the production process, reduces wiring, is easier to install and connect, and provides other advantages, such as rapid troubleshooting.

State of the art

The elevator control panel is formed by assembling an elevator control unit (motor driver, control card or elevator integrated control unit) and other support units in the electrical cabinet on a mounting plate through electrical connections of protection devices and electrical equipment (fuses, contactors, relays, switches and buttons, etc.) and connection assemblies (electrical terminals, connectors, ground buses), thereby producing a final product capable of controlling the elevator. In addition, according to the relevant safety regulations and safety rules of elevator manufacture, the finished control panel assembled from different units is not harmful to life.

The production and installation of the existing elevator control panels are as follows:

the standard properties required by the control panel, such as power value, motor type, number of stops, etc., are known. The make, model, power and, as relevant, the required add-on/support card equipment (e.g., EMC filter or encoder cards) of the motor drive are determined. The brand, model number and (e.g., associated) add-on/support cards required for the control card are determined.

The type, number, potential, number of poles/contacts of the power supply, transformer, rectifier, fuse (breaker), contactor, relay, control switch (breaker), button, electrical terminal, socket and ground bus are determined as required. An electrical connection scheme (panel cable) is prepared for manufacturing the control panel, where a detailed list of devices and the length and color of the cable can be found.

All units and equipment to be used in assembling the control panel should be removed from the rack on which it is placed and concentrated where the panel layout is to be implemented. The equipment is placed and the most suitable layout is made according to any procedure that may be applied, or according to the knowledge and experience of the skilled person. In the course of the layout, the number and dimensions of the cable ducts (equipment for orderly and collective transport of cables) and DIN-mounting rails (equipment for mounting the converters) are determined. The dimensions of the formed mounting plate are determined according to the formed layout. Any existing mounting plate may be used or a mounting plate of the desired size purchased.

By determining the size of the mounting plate, the size of the control panel cabinet in which the mounting plate is placed can also be determined. Any existing panel cabinet may be used, or a panel cabinet of the desired size purchased.

The installation of each device on the installation board is performed by the relevant method in accordance with the prepared layout. Converter devices (such as fuses and contactors) are mounted on the DIN mounting rail. The DIN-mounting rail is thus first cut to the desired size with the associated cutting tool and then fixed to the mounting plate according to the prepared layout. Some devices are directly screwed to the mounting plate. The fastening of some devices requires the use of a rivet nut screwed into the mounting plate at the relevant location. Some devices require lifting shims and/or assembling a base.

The mounted board product with all the devices mounted is brought to the area where wiring is to be performed. All devices are labeled according to the electrical connection scheme. Devices such as electrical terminals and sockets are marked using their own special marking methods and tools.

The color, type and cross-sectional value are determined by the usage requirements and power requirements according to the electrical connection scheme. The relevant cable is transported to an area where cable routing is required or to an area where cable routing is required in a desired length by a transport roller. According to the electrical connection scheme of the product, wiring is performed on the mounting board on which all the devices have been mounted. During the routing process, the required length of each cable is determined manually for each connection. The necessary length of cable of the correct type, colour and section is cut. Cable end terminations are connected to each end of the cable by an associated tool. The cable ends are connected to the relevant points according to an electrical connection scheme. The wired product is sent to a test area.

The product to be tested is connected to the panel test equipment which is ready for testing. The existing panel testing apparatus is a system produced according to the needs of a producer, and can be manually operated, so that an elevator can be simulated. All functions are tested manually according to any procedure that may be applied or according to the knowledge and experience of the skilled person.

If an error is detected during testing, the source of the error is checked and repaired after the source of the error is determined and testing continues. In complex large control panels involving large numbers of cables traveling through cable ducts, error detection is a process that requires a great deal of knowledge, experience, and time. The testing process is the only process that can determine defects and errors on the cable, and this process is performed manually, which can result in incomplete testing, some defects, and some errors being ignored.

After testing, the mounted board product with all the devices installed is placed in an external control cabinet. And then secured to the cabinet by the relevant operation. The final shape can be achieved by placing the product in the cabinet in the form of a mounting plate.

Control panel cabinets are made from a large number of sheets and processes. The plate is cut and bent according to the required size. The parts are suitably joined and painted. The parts are then oven dried and put together. The cover of the cabinet is connected to the main body by a hinge. The number and type of hinges depends on the size and weight of the cabinet. When the hinge is installed, care must be taken to align the various portions of the main body and cover of the cabinet.

The opening direction of the cabinet should allow comfortable opening (to the right or to the left) of the cabinet at the installation area. Typically, these parts are designed to enable the cover to be mounted to open in different directions. A locking mechanism is used to ensure that the cover plate can remain closed. The locking mechanism can be designed in different forms to suit any need (wall, spring, latch, etc.). The cover plate is made of metal and therefore needs to be grounded. Since this is grounding of the parts to be used continuously, the grounding needs to be a flexible, mechanically well designed connection.

The ventilation holes are made in the sides of the cabinet and/or in the cover in suitable positions, taking into account the level of protection with respect to the relevant protection standards against solid objects and external disturbances, and using ventilation fans if necessary. Boxed products are contained in cabinets making it difficult to remove the heat they generate during operation from the area, thus increasing the need for ventilation.

Since the panel cabinets and the cover panels are made of joined sheets, a perfect mechanical fit may not be achieved. Therefore, in order to avoid any disadvantages due to mechanical incompatibility, a sealing ring is mounted on the inner side of the cover plate.

Bulky, heavy-duty elevator control panels are carefully packaged to protect them from scratches or impacts during transport from the production site to the site where they are to be installed. The panels are typically covered with a nylon (flexible or bubble) wrapping and shipped in wooden cages protected with styrofoam. Large panels are typically transported by a vehicle such as a forklift. Bulky, heavy-duty elevator control panels are not suitable for transport by any type of vehicle. A vehicle suitable for carrying a large load, such as a pick-up truck or a truck, must be used.

Elevator control panels are typically installed in an area of the top floor of a building called the elevator machine room. Therefore, much effort is expended when transporting bulky, heavy elevator control panels to the area where they are to be installed. Mounting holes in the back of the panel are used to secure the panel to a wall in the area of use. In order to secure a bulky, heavy panel to a wall, a great deal of effort is required.

The problems encountered in the current situation are as follows:

a separate cabinet is required: the elevator motor drive and control cards or the elevator integrated control unit (motor drive and control cards in a single elevator integrated control unit) and other supporting control units must be located in separate boxes to enable their independent use (transport, physical durability, connections, lacquering, labeling, etc.) because they are independent units. Therefore, the elevator control unit needs to be separately provided, resulting in an increase in production cost.

Size problem: the individual elevator control units and other electrical materials that must be placed in separate boxes take up a significant amount of space because they have not been designed to be physically compatible and take up little space. This results in an increase in the size of the panel, providing the necessary space to accommodate the elevator panel.

The weight problem is as follows: the transportation costs of heavy control panels are high because they are large. It is impossible for one person to carry, assemble or disassemble them.

The process is time consuming and expensive: establishing electrical connections between individual units requires a significant amount of time. Therefore, the process cost is high. The process is time consuming and expensive because pre-prepared groups of cables are not used and all connections are established separately.

Complexity and high cost of wiring: due to the large size, the length of the connection cable increases, and the wiring cost is high. Since there are several independent units, there are multiple connection points.

High error rate: this results in a high error rate due to the presence of multiple parts and connections.

Difficulty of troubleshooting: because of the presence of multiple parts and connections, troubleshooting is difficult when an error occurs.

The problem of compliance with safety regulations: security holes can be created by connecting units purchased from different manufacturers, errors encountered in the electrical connections between units, and technical incompatibilities of the units.

Staff must be experienced and technically qualified: companies that procure units for connection from independent manufacturers must employ employees who have full knowledge of the units to be connected and sufficient technical knowledge of the relevant safety regulations to prevent technical risks. The technician or team performs the necessary work to prevent security or technical violations (checking for compliance with standards, technical calculations, etc.).

Full and automatic testing of panels: once the control panel is produced, testing is difficult. Most manufacturers connect their panels to assembled panel testing equipment and manually perform the tests following the test procedure for a period of time. The panel cannot be tested as a whole, as with the device, nor automatically, which results in human error being overlooked.

The requirement for storage space: the storage space required to store large panels is large.

Stock cannot be kept: because large elevator control panels take up a lot of space, manufacturers prefer not to produce an inventory of secondary panels.

Delay of panel order time: because the manufacturers do not have inventory of panels, the panels cannot be sold at any time, meaning that they can only delay the shipment to fulfill the order.

Collaborate with different suppliers: since the owner of the elevator must be in contact with the manufacturer of the elevator control device and the manufacturer of the control unit, respectively, the time required for maintenance may be long if a control panel produced by purchasing separate parts from different manufacturers is faulty.

Cables of different electrical characteristics run side by side through the cable duct: the cable guide is used to ensure the orderly transport of the cables in the control panel. It is not desirable for the high voltage switching cable that generates electrical noise and the low voltage operating digital cable that is sensitive to electrical noise to pass through the same conduit. Although this is to be avoided in practice, a large number of connections results in this method still being used. This can reduce the protection of the panel from electrical noise, making it difficult to detect errors and reducing the useful life of the device.

Lack of panel connection scheme: manufacturers of elevator control panels produce panels according to published example electrical connection schemes of the elevator control units they use. Since the materials used in each panel may be different, each panel must have a unique attachment scheme. The panel manufacturer transmits this information along with the panel to the person installing the panel. For elevators that have been used for a long time, these solutions will become unusable or lost. For panels that are not produced in batches, if the connection scheme of the panels is not accessible, repair of the failure becomes difficult and repair time will be extended.

Various electrical and mechanical devices are used in the production of panels: since the installation of the material is not prepared in advance, tools such as drills, riveters, rails and cable cutting tools are required at each stage of the installation. Since no preparation work for cable connection is performed in advance, a collet tightening tool must be used at each stage of wiring.

Utility model application number TR 2011/08242 discloses an integrated form elevator control device, it relates to an integrated form elevator control device, reduces complicated elevator control system into single device to reduce the connection error rate to minimum and make the elevator aim at with floor (safe deposit box) when the outage. Due to the modular construction of the integrated elevator control apparatus, installation is easier, the response speed to any received signal is faster, and a large amount of money is saved in materials and processes. However, the solution provided only involves a part of the elevator control panel.

This is not a solution to the problems encountered in installed elevator control panels. Other solutions are needed to replace the use of elevator control panels.

Description of the objects of the invention

Based on the prior art, the object of the invention is to develop an integrated elevator control unit which eliminates the disadvantages of the prior art constructions.

Another object of the invention is to provide a solution to the problems encountered in elevator control panels and to perform all functions with a small volume.

Another object of the invention is to develop a simplified overall control unit that can be installed more quickly.

Another object of the invention is to develop a new solution that takes up less space, is easier to carry, is light, can be installed quickly, can be stored and eliminates supply problems.

Another object of the invention is that it uses pre-prepared cable sets and thus does not require the use of cable ducts, since it requires less cables.

Another object of the invention is that it takes up less space, since the components forming the integrated elevator control unit are designed to be physically compatible and to take up less space. Thus, the space required to produce, store, transport and install the product is reduced.

Another object of the invention is to reduce the error rate and simplify troubleshooting in the event of errors, due to the reduced number of parts and connections and the use of pre-prepared cable sets.

It is another object of the invention to eliminate the problem of authentication, since the developed device is a whole product that can be checked by an authority and can be authenticated by means of a representative check certificate and a certificate in respect of compliance with security rules.

Another object of the invention is to eliminate the need for large amounts of electrical and mechanical equipment in the production process, since all installation and wiring requirements are already pre-prepared for an integrated elevator control unit.

Another object of the invention is to eliminate the connection between the units, since the external connections of the peripheral units of the elevator are made as a single unit. Thus, the complexity of the connection is solved.

It is another object of the present invention to complete all procedures, including placement of materials, routing, testing and packaging, in a much shorter time.

Another object of the invention is to easily solve the problem by easily providing the required connection solutions, since the products are of the same type and have no special modifications based on the product.

The present invention provides an integrated control unit self-contained in a single box, which can be transported by hand, which unit can perform the functions described for controlling the elevator to achieve the above-mentioned objects.

Drawings

FIG. 1 is a representative use drawing showing an overall view of the interior of the present invention.

FIG. 2 is a use representative diagram illustrating an overall view of the present invention.

Fig. 3 is a prior art usage representative diagram showing an overall view of the interior in the prior art.

FIG. 4; is a prior art usage representative drawing showing an overall view of the empty interior of the prior art.

Reference numerals

Disclosure of Invention

As shown in fig. 3 and 4, which illustrate the prior art, the elevator control panel cabinet (1) is bulky and heavy. The cabinet cover plate (4) is positioned on the cabinet body (3). The interior contains the elevator motor drive and add-on cards/materials (5), elevator control cards and add-on cards/materials (6), power supply (7), manual control switches/buttons (8), electrical equipment (9), electrical connections (10) in the form of electrical terminals, connection cards, connectors/sockets and ground buses, and cable conduits (11) mounted on the mounting plate (2). It is opened by a cabinet cover lock (12) and a cabinet cover hinge (13).

The invention is an integrated solution that can perform all elevator control functions, and a single body (21) can be produced as one unit without the need for separate elevator motor drives and additional cards/materials (5) and elevator control cards and additional cards/materials (6) as used in the prior art and without the need for external cabinets.

The unitary body (21) houses the necessary motor drive unit (14), control card unit (15), electrical equipment (9) (protection devices such as fuses, switch assemblies such as contactors, relays, circuit breakers/switches and buttons), electrical connections (10) (connection assemblies such as electrical terminals, connectors, ground buses), power supplies (7) such as transformers and/or SMPS, transformers, rectifiers, motor brake control assemblies (22), and does not require these parts to be used externally.

A control unit comprising an integrated elevator control unit (20) cannot operate independently nor can it be used in combination with other independent units for elevator control. The parts that make up the integral elevator control unit (20) are only available for elevator control after being fully assembled correctly.

All components constituting the integral elevator control unit (20) are predetermined, and each unit is a standard material used in each product. The parts cannot be changed. The installation site and method are predetermined and cannot be changed. The parts are assembled according to a predetermined procedure.

The technical scheme is as follows:

the invention provides an integrated elevator control unit (20) which fulfils all necessary functions for elevator control in a single box-shaped body (21).

The components making up the integral elevator control unit (20) take up less space because they have been designed to be physically compatible and do not take up space. Thus, the area required for production, storage, transport and installation of the product is reduced at all stages.

Because it is designed to be lighter, transportation costs are also lower. A person can also carry, install or remove the device.

The connections in the integrated elevator control unit (20) are pre-prepared cable sets of the appropriate type, cross-section, color and length and the necessary end connections and label preparation work has been completed. Thus, the time and cost required for the process is reduced.

The connection cables are shorter and the wiring costs are reduced due to the small size and the components designed to be identical to each other.

Due to the reduced number of components, reduced connections and the use of pre-prepared cable sets, the error rate during connection is reduced and troubleshooting is made easier.

Since the device is a unitary product, it must be checked by an authority and its compliance with security rules recorded by a representative check certificate. Since no connection or arrangement is necessary afterwards, it is no doubt that every product complies with product safety regulations.

Since the device is a one-piece product, a test organization needs to perform an overall electromagnetic compatibility test (EMC) and record it on a record. Since there is no connection or arrangement afterwards, it is of course possible that every product has electromagnetic compatibility.

Since all components and production phases are predetermined according to relevant standards and technical calculations, it is not necessary to employ experienced staff with sufficient technical skills in the production process.

The entire unit produced in the same type is automatically tested by a device. In the test section, which must be performed manually, the tester is guided by the test unit. This ensures a complete test and avoids overlooking human errors.

Since the integral elevator control unit (20) is produced in batches like a device, it is possible to keep an inventory and to meet delivery requirements of inventory products without delay.

The integral elevator control unit (20) is produced as a whole by a single manufacturer. The elevator owner is connected to a single manufacturer if necessary. Therefore, they are easily helped from product installation, solve problems more easily, and shorten the time for relief.

Since the demand for cables is not great and a pre-prepared cable set is used, the cable guide (11) is not required. Thus, the cost of the product is reduced, the size is reduced, the cables are easily distinguished during troubleshooting, and the cables are prevented from being negatively affected from each other when passing through the conduit.

Since the overall control unit (20) is produced in the same type and since there are no special modifications based on the product, the electrical connection scheme of the product is the same. The connection scheme of the product can be easily obtained from the manufacturer when the connection mode is no longer available or lost.

Since all installation and wiring requirements of the product are pre-prepared, there is no need to use a variety of electrical and mechanical equipment (riveter nut machines, rail and cable cutting tools, collet tightening tools, etc.) during the production process.

Since all external connections are connected to one single unit, there is no connection between the different units. Thus, the complexity of the connection is eliminated.

All stages of material placement, routing, testing and packaging of the integrated elevator control unit (20) take approximately 90 minutes. This is a 4-fold improvement over the 6 hour duration of the same size control panel produced in the prior art.

The operation and installation of the integral elevator control unit (20) is summarized as follows:

the components comprising the integrated elevator control unit (20) are standard materials used in all products. All installation and connection preparation of the assembly is completed.

A mounting plate (2) provided in the form of a metal plate has been drilled with mounting holes ready for mounting units and materials thereon.

The motor driver unit (14) is placed and fixed in the prepared area on the mounting plate (2).

The power supply (7), transformer, rectifier and motor brake control assembly (22) are placed and fixed in the prepared area on the mounting plate (2).

The cable bundles are placed on a mounting plate (2), some of said cable bundles having pre-prepared electrical terminals and others having split jaws.

A tripod for lifting material on the mounting plate (2) is placed and fixed in the prepared area on the mounting plate (2). In the prepared area on the mounting plate (2), the DIN mounting rail is placed on and secured to the tripod. The electrical equipment (9) and the electrical connection (10) are placed on the DIN mounting rail.

A tripod for lifting material on the mounting plate (2) is placed and fixed in the prepared area on the mounting plate (2). The control card unit (15) is fixed on a corresponding metal tripod.

The manual control assembly (16), the switch and the button on the metal plate are fixed on the corresponding metal tripod. Electrical connections (10) in the form of electrical terminals, connector cards, connectors/sockets and ground buses are fixed to a metal tripod and also locally to the mounting plate (2).

The open-ended cables in the cable bundle are connected to the relevant points and the cables with the electrical terminals prepared beforehand are connected to the relevant locations.

A shroud (17) constituting the edge of the apparatus body (21) is placed and fixed on the side of the mounting plate (2).

A cover plate (18) of a body (21) of the device is secured to an enclosure (17) of the device. An opening and closing assembly (19) on the cover (18) enables the cover (18) to be opened and closed.

The assembled product is transferred to a test strip for testing and connected to a test unit. Testing of the unit is largely automated; in the test section, which must be performed manually, the operator is guided by the test unit.

If an error is detected during the test, the relevant error is displayed to the operator on the test cell screen. Defective products will be brought to the service belt and the associated errors corrected.

And packaging the product passing the test in a box to obtain a final finished product. Since the integral elevator control unit (20) is smaller in size and lighter in weight, it is easier to carry all stages from production to installation in an elevator.

The invention relates to an elevator control panel cabinet (1) in the form of a cabinet, comprising an elevator motor drive and additional cards/material (5), elevator control cards and additional cards/material (6), a power supply (7), manual control switches/buttons (8), electrical equipment (9), electrical connections (10) in the form of electrical terminals, connection cards, connectors/sockets and ground buses and cable ducts (11) mounted on a mounting plate (2), characterized in that; comprising a body (21) which replaces the elevator control panel cabinet (1) and forms an integral elevator control unit (20) which can be carried by hand, can perform the functions required by the elevator with a small size, can be easily installed with less installation errors, can be produced as one unit without the need for separate elevator motor drive additional cards/materials (6) and cabinets, and can perform all elevator control functions, including the motor drive unit (14), the control card unit (15), the power supply (7) for the electrical equipment (9), such as transformers and/or SMPS, and can be operated without using these components externally, since there are much fewer cables used and since there is no cable duct (11) used since there are pre-prepared cable groups containing all components.

It comprises a pre-prepared cable set of the appropriate type, colour, section and length, and has been subjected to the necessary connection and marking preparation, and is designed to be small in size and compatible with the parts to reduce the time required for manufacture and installation. The wiring cost is reduced due to the shortening of the connection cable.

It comprises a power source (7), electrical equipment (9), electrical connections (10) in the form of electrical terminals, connection cards, connectors/sockets and a ground bus, arranged in a unitary body (21), which eliminates the complexity of the connections, since all external connections of the external elevator unit are made in a single location.

It has a cover (18) which can be locked and unlocked on the box-shaped body (21).

It comprises electrical connections (10) in the form of fuses and protective devices, switch assemblies such as contactors, relays, circuit breakers/switches and buttons etc., electrical equipment (9) in the form of electrical terminals, connection cards, connectors/sockets and earth connections, wherein all elevator connections are concentrated in one location.

The body (21) includes a transformer, a rectifier, and a motor brake control unit (22) designed as a single unit.

It comprises a motor driver unit (14) placed in a prepared area on a mounting plate (2), a power source (7) and a transformer placed in the prepared area, rectifiers, motor brake control assemblies (22), tripods for lifting the material on the mounting plate (2), control card units (15) placed in the prepared area, manual control assemblies (16) of switches and buttons mounted on corresponding tripods on a fixed metal plate, electrical devices (9) in the form of electrical terminals, connection cards, connectors/sockets and earth buses, which are fixed locally on the mounting plate (2) and locally on the metal tripods, the enclosure (17) constituting the side of a device body (21) which is arranged on the side of the mounting plate (2), a cover plate (18) of the device body (21) being connected to the enclosure (17) of the device, and an opening and closing assembly (19) is provided on the cover plate (18).

Claims (7)

1. Elevator control panel cabinet (1) in the form of a cabinet, containing an elevator motor drive and additional cards/material (5), elevator control card and additional cards/material (6), a power supply (7), manual control switches/buttons (8), electrical equipment (9) in the form of electrical terminals, connection cards, electrical connections (10) in the form of connectors/sockets and earth buses and cable ducts (11) mounted on a mounting plate (2), characterized in that: comprises that

-a body (21) for use in place of an elevator control panel cabinet (1), which forms an integrated elevator control unit (20), which can be carried at hand, performs the functions required by the elevator with a small size, is easy to install and has few installation errors, produced as a unit without the need for separate elevator motor drive add-on cards/materials (5), elevator control cards and add-on cards/materials (6) and cabinets, which fulfills all elevator control functions and comprises a motor driver unit (14), a control card unit (15), electrical equipment (9) and a power supply (7), such as a transformer and/or SMPS, and operates without the need for these components to be used externally, the cable guide (11) is not required because it uses much less cable and uses a pre-prepared set of cables containing all the components.

2. The integrated elevator control unit (20) of claim 1, wherein: comprises that

Pre-prepared groups of electrical cables, of the appropriate type, colour, section and length, and having undergone the necessary connection and marking preparation, designed to be small in size and compatible with the parts, thus reducing the time required for manufacture and installation; the wiring cost is reduced due to the shortening of the connection cable.

3. The integrated elevator control unit (20) of claim 1, wherein: comprises that

-a power source (7), electrical equipment (9), electrical connections (10) in the form of electrical terminals, connection cards, connectors/sockets and a ground bus inside the monolithic body (21), which eliminates the complexity of the connections, since all external connections of the external elevator unit are made in a single location.

4. The integrated elevator control unit (20) of claim 1, wherein: comprises that

-a lid (18) openable, closable and lockable on the box-shaped body (21).

5. The integrated elevator control unit (20) of claim 1, wherein: comprises that

-electrical equipment (9) in the form of fuses and protective devices, switch assemblies such as contactors, relays, circuit breakers/switches and buttons, electrical connections (10) in the form of electrical terminals, connection cards, connectors/sockets and ground buses, wherein all elevator connections are concentrated in one location.

6. The integrated elevator control unit (20) of claim 1, wherein:

-the body (21) comprises a transformer, a rectifier, a motor braking control unit (22) designed as a whole.

7. The integrated elevator control unit (20) of claim 1, wherein: comprises the steps of (a) preparing a mixture of a plurality of raw materials,

-a motor driver unit (14) placed in a prepared area on the mounting plate (2),

-a power source (7), a transformer, a rectifier, a motor brake control assembly (22) already placed in a prepared position,

-a tripod for lifting the material on the mounting plate (2),

-a control card unit (15) placed in the prepared area,

-a manual control assembly (16) of switches and buttons, mounted on respective tripods on the fixed metal plate,

-electrical connections (10) in the form of electrical terminals, connection cards, connectors/sockets and ground buses, locally fixed on the mounting plate (2) and locally fixed on the metal tripod,

-a shroud (17) forming the side of the device body (21), the shroud being arranged on the side of the mounting plate (2),

-a cover plate (18) of the apparatus body (21), which cover plate (18) is fixed to the enclosure (17) of the apparatus,

-opening and closing means (19) on the cover (18).

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