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Manually driven pipe switching mechanism

A switching mechanism and driving technology, applied in the directions of engine components, pipes, branch pipelines, etc., can solve the problems of exposed threads and inability to take into account detachable connections, and achieve the effect of avoiding exposed threads

Active Publication Date: 2020-07-03
ZHEJIANG HOUDAR INTELIGENT TECH CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] The second object of the present invention is to provide a manually driven pipe switching mechanism with a connecting joint that can avoid the thread exposure at the joint and can realize detachable connection, so as to solve the problem that the existing connecting joint is used for two pipes. The problem of detachable connection and avoiding thread exposure cannot be taken into account when connecting

Method used

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  • Manually driven pipe switching mechanism
  • Manually driven pipe switching mechanism
  • Manually driven pipe switching mechanism

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0028] Embodiment one, see figure 1 , figure 2 , image 3 and Figure 4, a manually driven pipeline switching mechanism, comprising a valve opening structure 5, an inner column 1 and an outer ring 2 rotatably sleeved outside the inner column. An escape pit 21 is provided on the inner peripheral surface of the outer ring 2 . The escape pit 21 is a V-shaped pit. The outer ring is provided with a drive handle 23 for driving the outer ring to rotate. One end of the outer ring is provided with an end plate 22 to form a barrel with one end closed. Built in inside the barrel. The end face of the inner column 1 is provided with a central hole 11 and several peripheral holes 12 surrounding the central hole. Each peripheral hole communicates with the central hole through a communication hole 13 . The communicating hole is a straight line structure. The communication hole is provided with an extension section 14 penetrating through the peripheral surface of the inner column. T...

Embodiment 2

[0030] Embodiment two, the difference with embodiment one is:

[0031] see Figure 5 and Figure 6 , The outer end of the plug is provided with a positioning hole 31 . The avoidance pit is provided with a bolt installation through hole 32 that is aligned with the positioning hole and penetrates the outer ring radially along the outer ring when the outer end of the plug is located in the avoidance pit. A positioning pin 3 and a positioning pin drive spring 33 for driving the positioning pin to insert into the positioning hole are arranged in the through hole for installing the latch. When one end of the positioning pin is inserted into the positioning hole, the other end protrudes from the outer ring.

[0032] When the outer ring needs to be rotated, grasp the part of the positioning pin exposed outside the outer ring and pull the positioning pin out of the positioning hole, and then rotate the outer ring. When the outer ring is turned close to the plug attachment that needs...

Embodiment 3

[0033] Embodiment three, the difference with embodiment two is:

[0034] see Figure 7 , Figure 8 , Figure 9 , Figure 10 and Figure 11 , The central hole 11 is also provided with a connection joint 9 . The connecting joint includes a connecting pipe head 99, an internally threaded pipe section 91 arranged in the outer end of the central hole, and a positioning step 92 located at the inner end of the internally threaded pipe section. The outer end of the internally threaded pipe section is provided with a large-diameter section to form a first sealing step 93 . One end of the connecting pipe head 99 is provided with an externally threaded pipe section 94 . A second sealing step 95 is formed between the externally threaded pipe section and the connecting pipe head. The connecting pipe head 99 can be inserted into the large-diameter section. The externally threaded pipe section is threadedly connected with an internally and externally threaded pipe section 96 sleeved ...

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Abstract

The invention relates to a manual drive type pipeline switching mechanism. The manual drive type pipeline switching mechanism comprises a valve opening structure, an inner column and an outer ring rotationally arranged outside the inner column in a sleeving manner. The outer ring is provided with a drive handle. An avoiding pit is formed in the inner circumference face of the outer ring. The end face of the inner column is provided with a center hole and a plurality of periphery holes surrounding the periphery of the center hole. Each periphery hole communicates with the center hole through acommunication hole. Each communication hole is provided with an extension section penetrating through the circumference face of the inner column, wherein the extension section is of a linear structure, and a plug is arranged in the communication hole in a sealed and movable penetration manner. For all the plugs, the outer end of only one plug can be located in the avoiding pit at one time. When the outer end of one plug is located in the avoiding pit, the sealing function on the corresponding communication hole through the plug gets lost under the action of the valve opening structure. When the outer ends of the plugs are staggered from the avoiding pits, the plugs are sealed and closed in the communication holes under the extrusion action of the outer ring. The manual drive type pipelineswitching mechanism is used for achieving control over communication of multiple pipelines and one pipeline.

Description

technical field [0001] The invention relates to a mechanical structure on traditional Chinese medicine production equipment, in particular to a manually driven pipeline switching mechanism. Background technique [0002] In the automatic production equipment of traditional Chinese medicine, it is necessary to input a variety of different liquids into the same infusion main pipe through different pipelines and then transport them to the destination. At the same time, only one of the pipelines can be communicated with the infusion main pipe. Existing realization above connection is realized by electromagnetic valve. In addition, the existing method of sealing and detachable connection of two pipe bodies is to set thread heads on the ends of the two pipe bodies, and then wind the upper raw tape on the thread heads and screw them to connect the two ends of the internal thread pipe head The detachable connection is realized on the top, and the sealing is realized by the deformat...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): F16L41/03F16K11/14F16L15/04F16L15/08F16K31/44
CPCF16K11/14F16K31/44F16L15/04F16L15/08F16L41/03
Inventor 蔡永潮
Owner ZHEJIANG HOUDAR INTELIGENT TECH CO LTD