RU2697280C2 - Pipeline connector (embodiments) - Google Patents

Abstract

FIELD: pipelines.SUBSTANCE: invention relates to connector for pipeline. Connector has housing with retainers of primary and secondary latches. Primary latch has base, displacement element and receiving element for pipeline. Receiving element for the pipeline includes a pair of arms defining an elliptical hole with a gap between the distal ends of the arms. Secondary latch has base, check mechanism and locking element. Checking mechanism includes pair of legs and slider. In the locked position the enlarged annular part of the pipeline entering the housing extends the legs, allowing the locking element to enter the housing in the direction of the axis. Slider portion protrudes from the body to indicate a locked position.EFFECT: invention provides visual inspection with reliable attachment of the connection.15 cl, 12 dwg

Description

CROSS REFERENCE TO A RELATED APPLICATION

[0001] This application is filed in favor of provisional application US No. 62 / 103,117, filed January 14, 2015. The full disclosure of this application is incorporated herein by reference.

FIELD OF TECHNOLOGY

[0002] The present invention relates to a quick coupling for pipes and, more particularly, to a quick coupling of a pipe with primary and secondary latches.

BACKGROUND OF THE INVENTION

[0003] Quick disconnect connectors are used in various applications, in particular for connecting liquid pipelines in the automotive and machine tool industry. Typically, such a latch is installed in the housing of the female part of the connector. The male trunnion is inserted into the housing and secured by a latch. To increase the reliability of fastening the male trunnion, a second latch is used. In addition, various types of seals and sealing parts are placed inside the enclosure to prevent fluid leakage through the male journal.

[0004] Various types of quick connectors are provided with primary and secondary locking latches. Although these quick couplers provide satisfactory connections, those skilled in the art will always strive to improve them. In addition, these quick connectors have an indicator that provides the user with a visual indication of the progress of the fixation. These indicators, as a rule, protrude from the housing so that the user can be sure that the first and second latches are securely fixed and provide a connection between the male and female parts of the connector.

[0005] The present invention provides a quick coupler having a primary and secondary latch lock with a visual indicator. A visual indicator shows that the male pipeline is securely fastened in the female housing. The present invention provides a latch with primary and secondary latches, which are engaged with each other and surround the flange on the male trunnion of the connector. In addition, the present invention provides a visual indicator on the latch of the second latch, which is located next to the push button used to release the latch of the first latch. This allows you to remove the male trunnion from the female body by pressing the visual indicator and button, essentially from one position without the need to move the user's hand.

SUMMARY OF THE INVENTION

[0006] According to the description, the quick disconnect pipe connector includes a housing having a receiving end of a latch latch and a trunnion. The central hole defining the axis passes through the housing. The primary latch latch is located at the receiving end of the latch housing. The primary latch lock has a push button base, an offset element and a receiving element for the pipeline. The receiving element for the pipeline has a pair of shoulders extending from the base. A pair of shoulders defines an elliptical hole with a gap between the distal ends of the shoulders. The bias element fastens the primary latch lock to the receiving end of the latch latch housing. The secondary latch lock is located in the channel of the receiving end of the housing into which the pipeline enters. The secondary latch latch has a base, a check mechanism and a locking element. The verification mechanism moves away from the base and has a pair of legs and a slider. The slider has an opening through which the male pipe enters the receiving end of the housing. In the unlocked position, the pair of legs is blocked by the prohibiting entrance of the housing of the locking element from movement in the direction of the central axis of the channel. In the locked position, the enlarged annular portion of the pipeline entering the housing expands the legs and allows the locking element of the second latch to enter the housing in the direction of the axis. Part of the slider protrudes beyond the housing, indicating a locked position. In the locked position, the latch of the second latch enters the gap between the shoulders of the first latch latch. The shoulders of the latch of the first latch move across the axis of the channel, allowing the pin of the male pipeline to lock the latch of the first latch. The slider of the latch of the second latch is located in the channel of the housing. The shoulders of the first retainer have a conical surface. The base of the latch of the first latch acts as a push button to bring the trunnion of the male pipeline from the locked position. The latch bias element of the first latch moves in the channel of the housing. The channel has a conical surface, which upon contact biases the bias element. When the pressing force of the button is released from the base of the first latch, the conical surfaces return the latch of the first latch to its original position. Part of the slider exiting the housing enters the housing to unlock the second latch lock. The base of the push button of the latch of the first latch and part of the slider of the latch of the second latch protrude from the housing in close proximity to each other.

[0007] According to a second aspect of the present invention, a quick-connect pipe connector includes a housing with a receiving end of a latch holder housing and a trunnion. The central hole defining the axis passes through the housing. The primary latch latch is located at the receiving end of the latch housing. The primary latch lock has a push button base, an offset element and a receiving element for the pipeline. The receiving element for the pipeline includes a pair of shoulders extending from the base. A pair of shoulders defines an elliptical hole with a gap between the distal ends of the shoulders. The bias element secures the primary latch latch inside the receiving end of the latch latch housing. The secondary latch latch has a base, a check mechanism and a locking element. The verification mechanism moves away from the base and has a visual indicator. In the unlocked position, the visual indicator is located in the housing. In the locked position, the visual indicator exits the housing. The visual indicator is adjacent to the base of the push button of the latch of the first latch. Thus, in order to remove the connector of the male pipeline from the housing, it is necessary to apply force to the visual indicator and the push button, and in the same direction. In the unlocked position, the visual indicator and push button are next to each other. The visual indicator and push button are on the same side of the case. The visual indicator rests on the push button. After the user returns the visual indicator to the unlocked position, the user can immediately press the button to release the trunnion of the pipeline. This allows you to remove the covered pipeline from the housing without changing the position of the user's hand. The receiving end of the latch latch housing has two opposing walls separated by a central passage hole. The hole is located between the ends of two opposite walls. The visual indicator and push button are in this hole.

[0008] Further applications will become apparent from the detailed description provided herein. The specific examples in this description are for illustrative purposes only and do not limit the scope of the present invention.

BLUEPRINTS

[0009] For illustrative purposes, the drawings presented here show individual embodiments, and not all possible embodiments of the invention, and are not intended to limit the scope of the present invention.

[0010] Figure 1 is a perspective view of a quick-connect pipe connection in accordance with the present invention.

[0011] Figure 2 is an exploded view of Figure 1.

[0012] Figure 3 is a front view of the latch of the first latch.

[0013] Figure 4 is a rear view of the latch of the second latch.

[0014] Figure 5 is a side view of a quick disconnect pipe connector in an unlocked position.

[0015] Figure 6 is a view similar to Figure 5 in the locked position.

[0016] Figure 7 is a cross-sectional view of Figure 5 along line 7-7.

[0017] Figure 8 is a cross-sectional view of Figure 6 along line 8-8.

[0018] Figure 9 is a cross-sectional view of Figure 5 along line 9-9.

[0019] Figure 10 is a cross-sectional view of Figure 6 along line 10-10.

[0020] Figure 11 is a cross-sectional view of Figure 5 along line 11-11.

[0021] Figure 12 is a cross-sectional view of Figure 6 along line 12-12.

DETAILED DESCRIPTION

[0022] Exemplary embodiments of the invention will be described in detail below with reference to the attached drawings.

[0023] The drawings show a quick connector assembly of a pipe, indicated at 100. The assembly has a body 102 connected to a pipe 104 and a male pipe 106. The male pipe 106 has a male end 108 and a collar 110. The body 102 includes a receiving end 112 of a latch latch and trunnion 114, which is connected to conduit 104. The trunnion 114 typically has a plurality of ring-shaped protrusions or teeth 116 that facilitate connection to the tubing 104. In addition, seals 118 d may be provided on trunnion 114 in the annular cutout 120. To seal the joint between the pin and pipe 104. A pipe clip (not shown) may be provided on pipe 104 and pin 114 to secure them together.

[0024] The receiving end 112 of the latch latch includes a primary latch latch 122 and a secondary latch latch 124. The housing 102, including the receiving ends 112 of the latch retainer and the pin 114 define a central through hole 126. The central through hole 126 passes through the housing 102 and defines a longitudinal axis 128. The receiving end 112 of the latch retainer includes a pair of opposed walls 130, 132. Between the walls 130, 132 the partition 134 passes. The partition 134 has an opening aligned with the central channel 126. Opposite walls 130, 132 include a back wall 136, which acts as a network connecting the opposite walls 130, 132 to each other and to the spigot 114. The rear wall 136 also defines an opening allowing the male end 108 to pass through the rear wall 136. The enlarged cylindrical portion 138 is connected to the rear wall 136 leading to the pin 114. The cylindrical portion 138 has seals 140, 142, 144 and a cylinder 146. These elements sealing the male end 108 in the housing 102.

[0025] The free ends of the walls 130, 132 include inwardly tapered conical flanges 148, 150. Channels 152, 154 are formed between the flanges 148, 150 and the baffle 134. The channels 152, 154 are used to receive the latches 122, 124 of the primary and secondary latches, as will be described below. Holes 156, 158 are formed between opposite walls 130, 132 at opposite ends of the walls. Thus, the holes 156, 158 are located opposite each other.

[0026] The channels 152, 154 include tapered walls 160, 162. The rear wall 136 has stoppers 164, 166, 168, 170. The stops 164, 166, 168, 170 have a curved surface 172 and a wedge 174. A second channel 176 is formed between the partition 134 and back wall 136.

[0027] The latch 122 of the first or primary latch has a push button base 180 connected to an offset member 182 and a pipe receiving member 184. The offset element 182 extends from one end of the base 180 of the push button. Displacement member 182 is generally horseshoe-shaped. It has a pair of legs 186, 188 with teeth 190 at the free ends of legs 186, 188. The teeth 190 have a curved outer surface 192 that comes into contact with curved conical surfaces 160, 162. The conical surfaces 192 extend along curved inclined surfaces 160, 162, as shown in figure 7.

[0028] The pipe receiving member 184 includes a pair of arms 194, 196 extending from the other end of the push button base 180. The shoulders have a gap of 198 at their free distal end. The shoulders 194, 196 are connected at the distal end to the base plate 200. The gap 198 is defined by the base plate 200 and the shoulder surfaces 202, 204. Thus, between the shoulders 194, 196 an open channel is formed.

[0029] The shoulders 194, 196 have tapered surfaces 206, 208. The tapered surfaces 206, 208 insert the male trunnion 108 into the housing 102. The shoulders 194, 196 define an elliptical hole 210 through which the male portion 108 passes. The gasket 185 is adjacent to the rear wall 136 When the male portion 108 enters the pipe receiving member 184, the conical surfaces 206, 208 come into contact with the enlarged annular portion 110. This moves the first latch lock 122, push button 180 in the first direction to axis 128 and to one of the end openings of the walls 130 , 132. Pr the teeth 190 are offset relative to each other when the biasing element 182 moves against the curved conical surfaces 160, 162. After the enlarged annular part 110 of the receiving element of the pipe 184 passes, the first latch lock 122 moves in the opposite direction from the axis 128. This is caused by the force of the conical surfaces 160 , 162, which acts on the spring-loaded legs 186, 188 in the opposite direction. In addition, the teeth 190, thanks to the protrusions 212, 214 formed in the channel 152, 154, hold the first latch lock 122 at the end of the latch latch 112. The latch of the first latch of the receiving pipe element 184 is located in the second channel between the partition 134 and the rear wall 136. In addition , the partition 134 has a conical surface 216 near the hole, which allows the insertion of the annular part 110 and the journal 108 in the housing 102 and through the latch 122 of the first latch.

[0030] The second or secondary latch 124 has a base 250, a check mechanism 252, and a locking element 254. The base 250 has an arcuate outer surface that provides a continuous appearance of the outer surface of the housing in the locked position. The check mechanism 252 has a pair of legs 256, 258 and a slider 260. The legs include stoppers 262, 264, 266, 268. These stops engage with latches 164, 166, 168 and 170 to keep the secondary latch in the unlocked position, as shown figure 8. In addition, the free ends of the legs have conical surfaces 270, which stimulate the entrance of the annular part 110 of the pin 108 in the locked position, as shown in figure 9.

[0031] The slider 260 has an elliptical hole 280 and a visual indicator 282. An elliptical hole 280 allows the pin 108 to pass through the slider 260. The slider 260 enters the channels 152, 154 at the receiving end 112 of the latch latch housing 102. Legs 256, 258 are located in the second channel between the back wall 136, the receiving element 184 for the pipeline and the gasket 185 of the latch 122 of the first latch.

[0032] The connection unit is shown in figure 1 in the unlocked position. To couple the pipe 106 to the housing 102, the following operations are performed. The pipe 106 with the pin 108 enters the hole 280 of the slider. The pin 108 of the pipe 108 continues to move through the hole in the partition past the bias element 182 to the receiving element 184 of the latch of the first latch. The annular portion 110 comes into contact with the conical surface of the partition 134 to center it along the axis. The annular part 110 continues to move in the housing 102 towards the pin 114 and comes into contact with the locking element 184 of the latch of the first latch. When this happens, the conical surfaces 206, 208 on the locking element 184 come into contact with the annular part 110. The pipe 106 continues to be pushed into the housing 102. The locking element 184 moves in the first direction from the axis 128. By fixing the arms 194, 196 together with the support plate 200 , the lateral displacement of the shoulders 194, 186 does not occur. This provides a lateral movement of the first latch 122 from the axis 128. The annular part 110 passes through the locking element 184 and moves to the area defined by the gasket 185 of the latch 122 of the first latch between the feet molecular element 184 and rear wall 136. This ring portion 110 comes into contact with the legs 256, 258 of the second latch 122 latches. Conical surfaces 270 allow legs 256, 258 to move away from each other. During this operation, the stoppers 262, 264, 266, 268 come out of contact with the stoppers 164, 166, 168 and 170. Thus, the shoulders 256, 258 are placed along the circumferential surface of the annular portion 110. The latch 124 of the second latch can now move in the direction of the axis 128 of the housing 102. When this occurs, the locking element 254 enters the gap 200 between the surfaces 202, 204 of the elongated ends of the arms 182, 184. The second retainer 254, like the first retainer 184, is located next to a portion of the pipe 106 of a smaller diameter, blocking the annular portion 110 from the entrance to the building 102. In addition, visually the second indicator 182 extends beyond the surface of the receiving end of the latch latch 112. Thus, the user can immediately see that the first latch 122 and the second latch latch 124 are in the locked position.

[0033] In order to remove the pipe 106 from the housing 102, a force is applied across the visual indicator 282 across the axis 128. The visual indicator 282, which is directly adjacent to the base of the push button 180, moves in the direction of the axis 128 of the housing 102. As soon as the visual the indicator 182 will be flush with the base 180 of the push button and externally will be visible on the walls of the housing 130, 132, the base 180 of the push button can be moved in the direction of the axis 128 of the housing 102. This leads to the movement of the elliptical window towards its aligned Ivanov with the axis 128. This makes it possible to remove the pipe from the casing 106, since the aperture in the locking member 184 is large enough to pass through the annular portion 110 of the elliptical opening of the retainer 122 of the first latch. In addition, at this stage, the bias element 182 and the teeth 190 come into contact with the conical arcuate surface 156, 158. The conical surfaces force the bias element and the first latch latch 122 to return to their original position.

[0034] The above description of embodiments has been provided for purposes of illustration. It is not intended to be exhaustive or to limit the scope of the invention. The individual elements or features of a particular embodiment are generally not limited to this particular embodiment, but may be used in another selected embodiment, even if it is not specifically shown or described. The same can be done in many ways. Such options should not be construed as a departure from disclosure, and all such modifications should be included in the scope of the invention.

Claims (21)

1. A pipe connector comprising: a housing having a receiving end for a latch latch and a trunnion, a central passage opening defining an axis that passes through the housing; a primary latch latch located at a receiving end of the latch latch housing, wherein the primary latch has a base, an offset element and a receiving element for the pipeline, wherein the receiving element for the pipeline includes a pair of arms extending from the base and defining an elliptical hole with a gap between the distal ends of the shoulders, wherein the bias element secures the primary latch latch at the receiving end of the latch latch housing; secondary latch latch located at the receiving end of the latch latch housing, wherein the additional latch latch has a base, a check mechanism and a locking element, the check mechanism moves away from the base and includes a pair of legs, a sliding mechanism and a slider, and the slider has an opening for passage of the male pipeline into the receiving the end of the latch housing of the latch in the unlocked position, while a pair of legs is blocked by a prohibiting entrance of the housing of the locking element in the direction of the axis of the Central hole latched position enlarged annular portion of the pipeline entering the enclosure, expands the legs, allowing the locking element to enter the casing in the axis direction, and the slider portion extends beyond the casing, indicating the locked position. 2. The pipe connector according to claim 1, in which the locking element is inserted into the gap between the shoulders of the latch of the first latch in the closed position. 3. The pipeline connector according to claim 1, wherein the arms of the latch of the first latch move across the axis of the hole to lock the pipeline with the first latch latch. 4. The pipe connector according to claim 1, in which the slider of the latch of the second latch is located in the channel of the housing. 5. The pipeline connector according to claim 1, further comprising a conical surface on the shoulders of the first retainer. 6. The pipeline connector according to claim 1, wherein the base of the latch of the first latch acts as a push button to bring the pipeline out of its locked position. 7. The pipe connector according to claim 1, in which the bias element of the latch of the first latch is directed into the channel in the housing. 8. The pipe connector according to claim 7, in which the channel includes a conical surface that, upon contact, biases the bias element when a force is applied to the base, and returns the first latch lock to its original position for removing said force. 9. The pipeline connector according to claim 1, wherein the part of the slider extending from the housing is forcibly directed to the housing to unlock the second latch lock. 10. The pipeline connector according to claim 1, in which the base of the latch of the first latch and part of the latch of the second latch of the slider extending from the housing are located next to each other. 11. A pipe connector comprising: a housing including a receiving end of a latch with latches and a trunnion, a central passage opening defining an axis and passing through the housing; a primary latch retainer located at a receiving end of the latch retainer housing, wherein the primary latch retainer includes a push button base, a biasing member and a pipe receiving member, said receiving member comprising a pair of arms extending from the base and defining an elliptical hole with a gap between the distal ends of the arms wherein the bias element secures the primary latch latch to the receiving end of the housing; the secondary latch lock, including a base, a check mechanism and a locking element, the check mechanism moves away from the base and has a visual indicator, and in the unlocked position the visual indicator is in the housing, and in the locked position the visual indicator comes out of the housing, while the visual indicator is adjacent to the base of the push button of the latch of the first latch so that to unlock the pipe connector, a force acting in one direction must be applied to the visual indicator and push button om in the same direction. 12. The pipeline connector of claim 11, wherein the visual indicator and button in the open position are aligned with each other. 13. The pipe connector of claim 11, wherein the visual indicator and button are on the same side of the housing. 14. The pipe connector of claim 11, wherein the visual indicator abuts against a button. 15. The pipe connector according to claim 11, wherein the receiving end of the latch latch housing comprises a pair of opposing walls separated by a central hole and an opening at the end of a pair of opposing walls, in which the visual indicator and push button are located in the last hole mentioned.

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