MX2014005384A - A beverage valve assembly mounting assembly. - Google Patents

Abstract

A mounting assembly includes a beverage mounting assembly having a housing. The housing has a housing wall that surrounds a cavity. A valve body is connectable to the beverage mounting assembly. The valve body is connectable to the beverage mounting assembly via a clip. The clip is insertable into both the housing and the valve body to connect the valve body to the beverage mounting assembly. At least one actuator is disposed in the cavity of the housing. The actuator rotates from a closed position to an open position that actuates pressure to the valve body from a liquid source. The actuator is separate from the clip that connects the housing to the valve body.

Description

A ASSEMBLY ASSEMBLY OF VALVES FOR BEVERAGES BACKGROUND FIELD OF DISCLOSURE The present disclosure relates to a mounting assembly that connects a source of flavor and / or water, carbonated or ungassed ingredients, to the valve body of a beverage valve assembly to provide a greater clearance for a component of the assembly of assembly that actuates pressure to the valve body from the source of flavor and / or water ingredients. In addition, the present disclosure relates to a mounting assembly that separates the connection from the assembly assembly to the valve body of the valve assembly for beverages and the pressure actuation to the valve body from the source of flavor and / or water ingredients. , carbonated or non-carbonated.

DESCRIPTION OF THE RELATED TECHNIQUE Currently restaurants serve a variety of beverages, such as carbonated beverages or non-carbonated beverages through the use of valve assemblies for beverages. The valve assemblies for beverages, for example, a plurality of valve assemblies for beverages 1 100a, 1 100b, 1100c and 1 100d shown in Figure 1, mix and serve carbonated and non-carbonated beverages. The plurality of valve assemblies for beverages 1 100a, 1 100b, 1 100c and 1 10Od are similar to each other, and, consequently, only one of the plurality of valve assemblies for drinks 1 100th is described herein. The beverage valve assembly 1 100a has a cover 1 102 that covers controls (not shown) and valves connected to a valve body (not shown) that control and mix flavor ingredients, eg, cola or lemonade, and water carbonated and / or ungassed water to form a beverage. The cover 1 102 protects the internal components of the valve assembly, such as solenoids, flow controls, electronic parts, and the like. The beverage valve assembly 1 100a has a nozzle 1 104 and a lever 1106. A force is applied to the lever 1 106 to move the lever from front to back to operate a control to mix the flavor ingredients and the carbonated water and / o Water without gassing to form the beverage and providing the beverage through the nozzle 1 104 in a vessel such as a vessel as is known in the art. The beverage valve assembly 1 100a has a housing for the assembly of beverage valves 1 108 having a dispensing wall connected to the beverage valve assembly 1 100a and a surface 1 10 and the adjacent cover 1 02 forming an upper space 1 1 12 between them. The housing for the assembly of beverage valves 1 108 forms a lower space 1 1 13 below the nozzle 1 104.

Figure 2 is another embodiment, by way of example, of a plurality of beverage valve assemblies 1200a and 1200b. The beverage valve assemblies 1200a and 1200b are similar to the beverage valve assembly 1 100a, and therefore similar features include the same reference numerals. Each of the beverage valve assemblies 1200a and 1200b has the housing for the assembly of beverage valves 1 108 having the surface 1 1 10 and the adjacent cover 1 102 forming a space 1 1 12a therebetween. The space 1 1 12a has a size that decreases between the surface 1 110 and the cover 1 102 in the beverage valve assembly 1200b, to the size between the surface 1 1 10 and the cover 1 102 in the valve assembly 1200a.

Spaces 1 1 12 and 11 12a are narrow so it is difficult to connect and disconnect the 1 100a, 1 100b, 1 100c, 1 100d, 1200a and 1200b drinking valve assemblies to carbonated and / or ungassed water sources and the sources of flavor ingredients. Free space for fingers and hand in spaces 11 12 and 1 1 12a cause frustration and delays for installers and service technicians, since access to the upper-back region of the valve assemblies for beverages is required through spaces 1 1 12 and 1 1 12a to install and remove the source of flavor ingredients and / or carbonated or ungasified water for service.

Accordingly, there is a need for a method and apparatus that connects a valve body of a valve assembly for beverages to a water source, carbonated and / or ungassed, and / or a source of flavor ingredients, with a component in a lower part of the apparatus that actuates pressure to the valve body from the water source and / or source of flavor ingredients. There is an additional need for a method and apparatus for connecting and disconnecting a valve body from a valve assembly for beverages to a source of water, carbonated and / or ungassed, and / or source of flavor ingredients and separately actuate pressure to the valve body from the water source and / or source of flavor ingredients.

BRIEF DESCRIPTION OF THE DISCLOSURE A mounting assembly is provided which includes a beverage assembly assembly having a housing. The housing has a wall of the housing that surrounds a chamber.

A valve body is connectable to the beverage assembly assembly.

The valve body is connectable to the beverage assembly by means of a clip. The clip has the ability to be inserted into both parts of the housing and the valve body to connect the valve body to the beverage assembly assembly. At least one actuator is placed in the housing chamber. The actuator rotates from a closed position to an open position that drives pressure to the valve body from a liquid source. The actuator is separated from the clip that connects the housing to the valve body.

Also provided is a mounting assembly that includes a housing having a top portion opposite a bottom portion, a front portion opposite a rear portion, and two opposite side portions. The front portion of the housing is connectable to a valve body of the beverage valve assembly. The housing has at least one actuator in the lower portion that drives pressure to the valve body from a liquid source.

In addition, a mounting assembly is provided that includes a housing that is connectable to a valve body. The housing has a wall of the housing that surrounds a chamber. The housing has at least two openings therethrough which are aligned to provide access through the chamber. At least one actuator has a hole, through it, and rotates in the chamber. The actuator rotates from a closed position that covers the two openings to an open position that aligns the two openings with the opening revealing the two openings for actuating the pressure to the valve body from a liquid source.

The foregoing and other features and advantages of the present disclosure will be appreciated and understood by those skilled in the art from the detailed description, drawings and appended claims.

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a front view of an embodiment, by way of example, of a device for serving beverages of the state of the art.

Figure 2 is a front view of another embodiment, by way of example, of a device for serving beverages of the state of the art.

Figure 3 is a front view of one embodiment, by way of example, of a mounting assembly of the present disclosure.

Figure 4 is a front perspective view in cross section of the assembly of Figure 3.

Figure 5 is an enlarged partial perspective view of the rear part of the assembly of Figure 3.

Figure 6 is a partial enlarged side view of the assembly of Figure 3.

Figure 7 is a perspective front side view of the assembly of Figure 3 connected to the valve body of the present disclosure.

Figure 8 is an enlarged partial bottom side perspective view of the assembly of Figure 3 connected to the valve body of Figure 7.

Figure 9 is an enlarged partial top perspective view of the assembly of Figure 3 connected to the valve body of Figure 7.

Figure 10 is a plan view of the assembly of Figure 3 which is connected to the beverage serving device and to the valve body of Figure 7.

Figure 11 is a side exploded side perspective view of the assembly of Figure 3, the valve body of Figure 7 and a portion of the beverage serving device.

DESCRIPTION OF THE PREFERRED MODALITY Figure 3 shows one embodiment, by way of example, of a mounting assembly 100 of the present disclosure. The mounting assembly 100 has a housing 102. The housing 102 has a wall of the housing 104. The wall of the housing 104 has a plurality of openings 1 13 adjacent to the perimeter of the assembly 100. The openings in the wall 1 13 are dimensioned so that fasteners, for example screws, can pass through each wall opening 1 13 to connect the assembly assembly 100 to the beverage serving device.

The wall of the housing 104 forms the conduits 106 and 108. The conduits 106 and 108 each have an opening 1 10 in an upper portion 12 of the housing 102 and, as shown in the Figure. 4, an opening 116 in a lower portion 1 14 of the housing 102. As shown in the Figure. 4, a chamber 1 17 extends from the opening 1 10 of the opening 1 16.

As shown in Figure 3, each of the duct 106 and 108 has a plurality of holes 1 18. Each plurality of holes 1 18 can be a single hole or more than one hole. The plurality of holes 118 are each shown as two holes in Figure 3 separated by a partition that is placed at a 45 degree angle or diagonally between the two holes. The plurality of holes 1 18 are through a front portion 104a of the housing wall 104 and, as shown in Figure 5, through a rear wall portion 104b of the housing 104 so that the plurality of holes are aligned to form openings through the conduits 106 and 108. As shown in Figure 3, each said plurality of holes 1 18 is surrounded by a sleeve 1 19 protruding away from each of the pairs of holes 1 18. Sleeve 1 19 has a cylindrical tubular shape.

The wall of the housing 104 forms a first recess144a and a second recess144b on the side 124 and a third recess144c and a fourth recess 144d on the side 126 of the recess 102. The recesses 144a, 144b, 144c, 144d are tubular in shape. The first recess144a has openings 120a, 120b, the second recess 144b has openings 120c, 120d, the third recess 144c has openings 122a, 122b, and the fourth recess 144d has openings 122c, 122d through the receiving wall 104.

Mounting assembly 100 has bolts 128 and 130. Bolt 128 has a bolt body 129 and bolt 130 has a bolt body 131. Bolt body 129 is removably connectable to housing 102 in conduit 106 and the bolt body 131 is removably connectable to the housing 102 in the conduit 108. As shown in Figure 4, each of bolt bodies 129 and 130 have a plurality of openings 136 therethrough so that the bolts 128 and 130 are rotatable in the conduits 106 and 108 of a closed position leaving the plurality of holes 1 18 covered to an open position that aligns the openings 136 with the pairs of holes 1 18 exposing the pairs of holes 1 18. As shown in Figure 3, the bolt 128 is shown in the open position and the bolt 130 is shown in the closed position.

A clip 200 is detachably connectable to the housing 102 to removably connect a valve body 400 to the mounting assembly 100. The clip 200 has a middle portion 202, a first side portion 204 and a second side portion 206. In a connection position, the first side portion 204 is inserted through the openings 120a, 120b of the first recess 144a and into the openings 120c, 120d of the second recess 144b. The second side portion 206 is inserted through the openings 122a, 122b of the third recess 144c and into the openings 122c, 122d of the fourth recess 144d.

With reference to Figure 4, pins 128 and 130 are cylindrical in shape. The bolts 128 and 130 can each have supports 140. The supports 140 are bearing surfaces of the bolts 128 and 130 that come into contact with the surrounding chambers 1 17 of the conduits 106 and 108 of the housing wall 104. The supports 140 facilitate a smooth rotation. The bolts 128 and 130 are connected to a sealing material 142 surrounding the openings 136. The sealing material 142 is flexible, so that the sealing material 142 is compressed within the conduits 106 and 108 and abuts the chambers surrounding ducts 106 and 108 of the housing wall 104 and provide sealing therebetween. The sealing material 142 covers the holes 1 18 in the closed position that seals the conduits 106 and 108. That the plurality of holes 1 18 has two holes separated by a partition positioned at a 45 degree angle or diagonally between the two holes, it facilitates the insertion of bolt 128 into conduit 106 and bolt insert 130 into conduit 108 without damaging sealing material 142.

The bolt bodies 129 and 130 each have a protrusion 132 and a groove 134. The protrusions 132 extend substantially perpendicular to the bolt bodies 129 and 130. Each of the grooves 134 is a depression in the bodies of the bolts. bolts 129 and 130. The projections 132 and the grooves 134 are outside the conduits 106 and 108, when bolt bodies 129 and 130 are located in the conduits 106 and 108, respectively. Bolts 128 and 130 are in a closed position in Figure 4.

The housing 102 is connected to a plate 300. The plate 300 is connected to the housing 102, for example, by means of bolts 302. The plate 300 has holes 304. The bolts 128 and 130 pass through holes 304 so that the plate 300 fits into grooves 134.

With reference to Figure 5, the wall of the housing 104 has a wall 138 that extends adjacent the projections 132 of each of the bolts 128 and 130 when the bolt 128 is inside the conduit 106 and the bolt 30 is inside the conduit 108. The protrusion 132 of the bolt 128 is positioned towards the adjacent side 124 in the closed position and the protrusion 132 of the bolt 130 is positioned towards the adjacent side 126 in the closed position. The protrusion 132 of the bolt 128 is rotated about 90 degrees away from the wall 138 from the closed position to the open position and the protrusion 132 of the bolt 130 is rotated about 90 degrees away from the wall 138 from the closed position to the position open Each pair of the plurality of holes 1 18 that are aligned to form an opening through the conduits 106 and 108 is connected to a tube that is connected to a source of liquid. The liquid, for example, is carbonated water, ungasified water, or flavor ingredients. Each of the pairs of the plurality of holes 118 is surrounded by a connector wall 121 in the rear portion 104b of the housing 102. The wall of the connector 121 is connected to the pipe that is connected to a liquid source.

With reference to Figure 6, the wall 138 is dimensioned to extend beyond the remainder and cover the projections 132.

With reference to Figures 7-9, the valve body 400 is connectable to assembly assembly 100. The valve body 400 has a connection portion 408. The connection portion 408 has a first connection boss 410a and a second boss. connection 410b on a first side and a third connection protrusion 4 0c and a fourth connection protrusion 41 Od on a second side that is opposite the first side. The first recess 144a has a shape complementary to the first connection protrusion 410a and the second connection protrusion 410b to fit between them so that the openings 120a, 120b align with both an opening 412a through the first connecting protrusion 410a and as with an opening (not shown) through the second connecting protrusion 410b. The second connection protrusion 410b has a complementary shape to fit between the first recess 144a and the second recess 144b, so that the openings 120c, 120d align with the opening through the second connecting protrusion 410b. The third recess 144c has a shape complementary to the third connection protrusion 410c and the fourth connection protrusion 41 Od to fit between them so that the openings 122a, 122b are so aligned with an opening 412c through the third protrusion of the third protrusion. connection 410c and as with an opening (not shown) through the fourth connection protrusion 41 Od. The fourth connection protrusion 41 Od has a complementary shape to fit between the third recess 144c and the fourth recess 144d, so that the openings 122c, 122d align with the opening through the fourth connection protrusion 41 Od.

Valve body 400 is connected to mounting assembly 100 in a connected position. The clip 200 and the plate 300 connect the valve body 400 to the assembly 100. The plate 300 supports the valve body 400 in the connected position. The first side portion 204 of the clip 200 passes through the openings 120c, 120d of the second recess 144b, the opening through the second connection protrusion 410b, the openings 120a, 120b of the first recess 144a, and the opening 412a of the recess first connection protrusion 410a in the connected position. The second side portion 206 of the clip 200 passes through the openings 122c, 122d of the fourth recess 144d, the opening through the fourth connection protrusion 41 Od, the openings 122a, 122b of the third recess 144c, and the opening 412c of the third connection boss 410c in the connected position.

With reference to Figure 7, the central portion 202 of the clip 200 is adjacent to the lower portion 14 of the housing 102 in the connected position. When the bolts 128, 130 are in the open position, the protuberances 132 are located on the central portion 202 of the clip 200 so that the central portion 202 is between the housing 102 and the protuberances 132 to hold the clip 200 in the connected position. . The central portion 202 is connected to each of the first side portion 204 and the second side portion 206 by a curved portion 208 that extends below the central portion 202 in the connected position. The curved portions 208 allow attachment by a hand of a user. Alternatively, as shown in Figure 8, the central portion 202 of the clip 200 is adjacent to the valve body 400 in the connected position so that the curved portions 208 and the central portion 202 of the clip allow attachment by one hand of a user.

With reference to Figure 10, the assembly assembly 100 may be connected to the wall of the dispenser 1 1 17. The wall of the dispenser 1 1 17 may have openings (not shown) that align with the openings in the wall 1 13. The mounting assembly 100 can be connected to the wall of the dispenser 1 1 17, for example, by screws 1400 passing through the openings in the wall 1 13 and the openings in the wall of the dispenser 1 1 17 and They are coupled with nuts to fix the assembly 100 to the wall of the dispenser 1 1 17. The valve body 400 is connected to a lower plate 1 1 14 which connects to the nozzle 1 104 and the lever 1 106.

With reference to Figures 7, 9 and 10, the valve body 400 has a plurality of conduits 402. Each of the conduits 402 connects to one of the plurality of holes 1 18 of the assembly 100 at a first end. The conduits 402 channel the liquid into a diffuser 1 120 and / or the nozzle 1 104 before the liquid exit from the nozzle 1 104. The valve body 400 has four ducts 402. Each of the four ducts 402 has one of the flow control assemblies 404 and one of the solenoids 406 for controlling the flow of the liquid therethrough. Each of the flow control assemblies 404 is a measuring device which, through a compression of the spring fixed by the user, allows the fluid to flow at a given flow rate as a function of the viscosity, pressure and spring adjustment. The solenoids 406 are electrically driven elements that drive a normally closed piston / seal assembly to an open position, which allows the fluid to advance through its respective conduit. When the current flows to the coil in each of the solenoids 406, the current creates a magnetic field that acts to pull the plunger assembly up out of its seat.

With reference to Figure 1 1, the assembly of the valves of drinks 1 100a has a module electronic 1 1 16 and a keyboard 1 1 18. The electronic module 1 1 16 controls the flow control assemblies 404 and the solenoids 406 for dispensing a beverage as is known in the art. The electronic module 1 1 16 controls the dispensing of the beverage as a function of the user input through the keyboard 1 118 and the actuation by means of the lever 1 106. The nozzle 1 104 may have a diffuser 1120 to control the flow of the beverage. liquid through it. The electronic module 1 1 16, the keyboard 1 1 18, the lever 1 106 and the nozzle 1 104 are all connected to the lower plate 1 1 14 which is connected to the valve body 400. The valve body 400 is connected to the assembly 100, the flow control assemblies 404 and the solenoids 406 and covered by the cover 1 102 which is connected to the lower plate 1 1 14.

The assembly assembly 100 can be made of material, for example, of metal and / or plastic.

In use, as shown in Figures 7 and 10, the housing 102 of the assembly assembly 100 is connected to an assembly of the valves of the beverages, by example, by means of screws passing through the openings of the wall 1 13 and the openings in the wall of the dispenser 1 1 17 and are coupled with nuts to fix the assembly assembly 100 to the wall of the dispenser 1 1 17.

The bolt 128 is inserted into the duct 106 and the bolt 130 is inserted into the duct 108 by accessing the openings 1 16 in the lower portion 1 14 of the housing 102 from the lower space 11 13. The bolt 128 is inserted into the conduit 106 and bolt 130 is inserted into conduit 108 so that protuberances 132 and grooves 134 extend out of conduits 106 and 108, and plate 300 fits into slots 134. Protrusion 132 of bolt 128 is placed adjacent the side 124 and the protrusion 132 of the bolt 130 is positioned adjacent the side 126 so that the bolts 128 and 130 are in the closed position covering the plurality of the openings 118.

Each pair of the plurality of holes 1 18 that are aligned to form an opening through one of the conduits 106 and 108, as shown in Figure 3, is connected to the pipe that connects to a liquid source . The source of liquid, for example, is carbonated water, still water, or flavor ingredients, which are pressurized. The pipe connects to the connector wall 121 surrounding the plurality of holes 1 18 through the housing 102.

The valve body 400 is connected to the housing 102 that connects to the wall of the dispenser 1 1 17. The valve body 400 is positioned adjacent the housing 102 so that the first loop 144a is between the first connection boss 410a and the second connecting boss 410b so that the openings 120a, 120b align with both the opening 412a through the first connecting boss 410a and the opening through the second connecting boss 410b. The second connection boss 410b is placed between the first loop 144a and second loop 144b so that openings 120c, 120d align with the opening through second connection protrusion 410b. The third loop 144c is positioned between the third connection protrusion 410c and the fourth connection protrusion 41 Od so that the openings 122a, 122b align with both the opening 412c through the third connection protrusion 410c and the opening through of the fourth connection protrusion 41 Od. The fourth connecting protrusion 41 Od is positioned to fit between the third loop 144c and the fourth loop 1 4d so that the openings 122c, 122d align with the opening through the fourth connecting protrusion 41 Od. The first lateral portion 204 of the clip is passed through the openings 120c, 120d of the second loop 144b, the opening through the second connecting protrusion 410b, the openings 120a, 120b of the first loop 144a, and the opening 412a of the first connection boss 410a. The second side portion 206 of the clip 200 passes through the openings 122c, 122d of the fourth loop 144d, the opening through the fourth connection protrusion 41 Od, the openings 122a, 122b of the third loop 144c, and the opening 412c a through the third connection boss 410c. The valve body 400 is also connected to a lower plate 1 1 14 which is connected to the nozzle 1 104 and the lever 1 106.

Once the valve body 400 is connected to the mounting assembly 100, the protrusion 132 of the bolt 128 is rotated approximately 90 degrees from the closed position to the open position and the protrusion 132 of the bolt 130 is rotated approximately 90 degrees from the position closed to the open position to apply pressure to the valve body 400 and the assembly of the valves of the drinks 1 100a from the liquid source. The protuberances 132 in the open position are below the central portion 202 of the clip 200 securing the clip 200 in place. The remaining components of the valve assembly of the beverages are assembled, and the Assembly of the valves of the drinks is ready to work.

To service the valve body 400 or the assembly assembly 100 of the beverage valve assemblies, the protrusion 132 of the bolt 128 is rotated approximately 90 degrees from the open position to the closed position and the protrusion 132 of the bolt 130 is it rotates approximately 90 degrees from the open position to the closed position blocking the passage of the liquid towards the valve body 400 to depressurize the valve body 400 and the assembly of the valves of the drinks 100a which closes the communication between the body of 400 valves and the liquid source. In the closed position, the clip 200 can be removed from the housing 102 and from the valve body 400 so that the valve body 400 can be removed from the housing 102 when it is removed for servicing. In addition, the screws can be removed from the housing 102 and the wall of the dispenser 1 1 17 so that the assembly can be removed for servicing.

The mounting assembly 100 connects the housing 102 to the valve body 400 by the clip 200, and separately applies the pressure to the valve body 400 by rotating the bolts 128 and 132. Therefore, the assembly assembly 100 it allows the connection of the valve body 400 with the assembly assembly 100, and then applies the pressure from the liquid source to the valve body 400 by the assembly assembly 100 to facilitate installation.

The access of a user to apply pressure to the valve body 400 and the valve assembly of the drinks 1 100a is located in the lower portion 14 of the housing 102 by the rotation of the pins 128 and 132. Therefore, no it is necessary for users to have access to the assembly 100 through the upper space 1 1 12 for the installation and service of the valve body 400 and the assembly 100. Instead, the assembly can be accessed. 100 mount through of the lower space 1 1 13 which is larger in size than the upper space 1 1 12 for the installation and service of the valve body 400 and the assembly 100. The protuberances 132 are dimensioned so that a minimum clearance is required in the rear space 1 1 15 to rotate the protuberances 132 from the closed position to the open position.

The wall 138 projecting downwards covers the bolts and a majority of the clip 200. The wall 138 and the positioning protuberances 132 of the bolts 128, 130 on the central portion 202 of the clip minimize vandalism and removal of the clip 200 by the clips. users without authorization.

It should also be recognized that the terms "first", "second", "third", "upper", "lower", and the like may be used in the present document to modify various elements. These modifiers do not imply a spatial, sequential, or hierarchical order for the modified elements unless specifically indicated.

Although the present disclosure has been described with reference to one or more exemplary embodiments, it will be understood by those skilled in the art that various changes can be made and the equivalents can be substituted by the elements thereof, without departing from the scope of the present disclosure. In addition, many modifications may be made to adapt a particular situation or material to the teachings of the disclosure without departing from the scope thereof. Therefore, it is intended that the present disclosure is not limited to the particular mode (s) disclosed as the best mode contemplated, but that the disclosure will include all modalities that fall within the scope of the attached claims.

Claims (19)

1. CLAIMS 1 . A mounting assembly, characterized in that it comprises: a beverage assembly assembly having a housing, said housing having a housing wall surrounding a chamber; a valve body that can be connected to said beverage assembly assembly, said valve body that can be connected to said beverage assembly assembly by means of a clip, said clip being for insertion into both said housing and said valve body for connecting said valve body with said beverage assembly assembly; at least one actuator that is disposed in said chamber of said housing, said actuator is rotated from a closed position to an open position that applies pressure to said valve body from a liquid source, said actuator being separated from said clip connecting said housing with said valve body. 2. The assembly assembly of claim 1, further characterized in that said clip is between said housing and said actuator in said open position which maintains said clip in said housing and said valve body. 3. The assembly assembly of claim 1, further characterized in that said clip has a central portion, a first side portion and a second side portion. 4. The assembly assembly of claim 3, further characterized in that said housing has a first loop with a first opening and a second loop with a second opening on a first side, and wherein said housing has a third loop with a third opening and a fourth loop with a fourth opening over a second side. 5. The assembly assembly of claim 4, further characterized in that, in a connected position, said first lateral portion of said clip is screwed into said first opening of said first loop and said second opening of said second loop, and wherein said second lateral portion of said clip is screwed through said third opening of said third loop and said fourth opening of said fourth loop. 6. The assembly assembly of claim 4, further characterized in that said valve body has a connection portion with a first connection protrusion and a second connection protrusion on a first side and a third connection protrusion and a fourth connection protrusion on a second side that is opposite to the first side, wherein said first loop has a shape complementary to said first connection protrusion and said second connection protrusion to fit between them so that said first opening is so aligned with an opening to through said first connection protrusion and an opening through said second connection protrusion and said second connection protrusion has a complementary shape to fit between said first loop and said second loop of said housing so that said second opening of said second loop is aligned with said opening through d icha second connection protrusion, and wherein said third loop has a complementary shape for said third connection protrusion and said fourth connection protrusion to fit between them so that said third opening aligns both with an opening through said third connection protrusion and an opening through said fourth connection protrusion and said fourth connection protrusion has a complementary shape to fit between said third loop and said fourth loop so that said fourth opening of said fourth loop is aligned with said opening through said fourth connection protrusion. 7. The assembly assembly of claim 6, further characterized in that said first side portion of said clip passes through said second opening of said second loopsaid second opening through the second connection protrusion, said first opening of said first loop, and said opening of the first connection protrusion in the position connected in the connected position, and wherein said second lateral portion of said clip passes through said fourth opening of said fourth loop, said opening through said fourth connection protrusion, said third opening of said third loop, and said third opening through said third connection protrusion in the connected position. 8. The assembly assembly of claim 3, further characterized in that said central portion of said clip is adjacent to a lower portion of said housing in the connected position. 9. The assembly assembly of claim 3, further characterized in that said central portion of said clip is connected to each of said first side portion and second side portion of said clip by a curved portion extending below said central portion in said connected position. 10. The assembly assembly of claim 1, further characterized in that once said valve body is connected to said housing, said actuator moves from a closed position to an open position to apply pressure to said valve body. eleven . The assembly of claim 1, further characterized in that said actuator moves from an open position to a closed position to block a conduit of said liquid to said valve body for depressurizing said valve body which closes the communication between said valve body and said liquid source, and wherein, in said closed position, said clip is removed from said housing and said valve body so that said valve body it is removed from said accommodation. 12. A mounting assembly, characterized in that it comprises: a housing having an upper portion opposite a lower portion, a front portion opposite a rear portion the portion, and two opposite side portions, said front portion of said housing can be connected to a valve body of an assembly of the valves of drinks; Y at least one actuator that can be connected to said housing by means of being inserted only through said lower portion, said at least one actuator applies pressure to said valve body from a liquid source. 13. The assembly assembly of claim 12, further characterized in that said at least one actuator is accessed through a bottom space below a nozzle of said assembly of the beverage valves. 14. A mounting assembly, characterized in that it comprises: a housing that can be connected to a valve body, said housing having a wall of the housing surrounding a chamber, said housing wall having at least two openings therethrough which are aligned to provide access through said camera; at least one actuator having an opening therethrough and rotating in said chamber, said actuator being rotated from a closed position covering said two openings to an open position aligns said two openings with said opening which uncovers said two openings to apply pressure to it to said valve body from a liquid source. 15. The mounting assembly of claim 14, further characterized in that said actuator is a bolt having a bolt body that can be detachably connected to said housing in said chamber. 16. The mounting assembly of claim 14, further characterized in that said actuator is a bolt having a bolt body having a protrusion that is outside said chamber when said bolt body is in said housing. 17. The mounting assembly of claim 16, further characterized in that said housing has a wall extending beyond and covering said protrusion of said bolt body when said bolt is in said chamber. 18. The mounting assembly of claim 14, further characterized in that said actuator is a bolt that is inserted into said chamber by accessing an opening in a lower portion of said housing. 19. The assembly assembly of claim 16, further characterized in that said protrusion of said bolt is rotated from said open position to said closed position to block a conduit of said liquid to said valve body to depressurize said valve body.