CN110435102B

CN110435102B - Connector capable of quickly discharging residual water

Info

Publication number: CN110435102B
Application number: CN201910752687.7A
Authority: CN
Inventors: 李英珍; 李荣兴
Original assignee: Xiamen Haosifei Technology Co ltd
Current assignee: Xiamen Haosifei Technology Co ltd
Priority date: 2019-08-15
Filing date: 2019-08-15
Publication date: 2021-05-04
Anticipated expiration: 2039-08-15
Also published as: CN110435102A

Abstract

The present invention provides a connector capable of rapidly discharging residual water. The connector capable of quickly discharging residual water comprises a control module and a water collecting module, wherein the control module comprises a control main body, a handle, a blowing and draining passage and the like, and the water collecting module comprises a first water dividing inlet, a first water dividing outlet, a second water dividing inlet, a second water dividing outlet and a cooling loop. The connector provided by the invention can quickly discharge residual water in a ventilation state, thereby reducing environmental pollution, potential safety hazards and equipment damage.

Description

Connector capable of quickly discharging residual water

Technical Field

The present invention relates to an integrated industrial connector, and more particularly, to a connector capable of rapidly discharging residual water.

Background

At present, injection molding factory or extrusion factory equipment go up the cooling water connection in-process, because of the valve body closes the back, still have the cooling water in the cooling water route, reveal floor or equipment with the cooling water in the water pipe easily when dismouting water pipe on, take place to electrocute easily, the short circuit, phenomenon such as staff slip has serious environmental pollution and industrial safety hidden danger. After the cooling water path is removed from the mold or the equipment, a large amount of cooling water still remains, which is easy to damage the mold or the equipment.

Disclosure of Invention

The present invention provides a solution to the above problems.

The invention is realized by the following steps:

a connector capable of quickly discharging residual water, comprising:

the control module includes:

the control main body is provided with a main water inlet, a main water outlet, a plurality of first control valves, a plurality of second control valves and a valve body control plate; the valve body control board is used for controlling the on-off or switching of the first control valve and the second control valve at the same time;

the handle is rotatably and fixedly arranged on the control main body, and the handle drives the valve body control plate to move when rotating so as to simultaneously control the opening and closing or switching of the first control valve and the second control valve; and

the water collecting module comprises a plurality of first branch water inlets corresponding to the first control valves, first branch water outlets corresponding to the first branch water inlets, second branch water outlets corresponding to the second control valves, and second branch water inlets corresponding to the second branch water outlets; a body to be cooled is connected between the first branch water outlet and the second branch water inlet, so that a cooling loop is formed;

wherein the control body further includes a blow-off drain passage for blowing off water on the cooling circuit.

As a further improvement, each control valve comprises a dynamic valve plate and a static valve plate arranged below the dynamic valve plate; the valve body control panel is used for simultaneously driving the movable valve plate to slide relative to the static valve plate so as to realize the switching of each control valve.

As a further improvement, the movable valve plate comprises a first passage groove; the static valve plate comprises a second passage groove which is vertically and correspondingly arranged with the first passage groove, a water through hole is arranged at one end of the second passage groove, and a first passage hole and a second passage hole which are arranged on one side of the second passage groove side by side.

As a further improvement, the control main body further includes:

a plurality of first grooves for accommodating the first control valves and a plurality of second grooves for accommodating the second control valves;

a first through hole communicated with the main water inlet is formed in the first groove;

a second through hole communicated with the main water outlet is formed in the second groove;

third through holes communicated with the air blowing and water discharging passages are formed beside the first through holes and the second through holes; and

and fourth through holes corresponding to the water passing through holes are formed in the first groove and the second groove.

As a further improvement, a plug is arranged between every two adjacent grooves of the air blowing and water discharging passage, so that a passage in series connection is formed.

As a further improvement, the control module further comprises a pressure plate fixedly arranged on the surface of the control main body and used for rotatably and fixedly arranging the handle on the control main body.

The invention has the beneficial effects that: the movable valve plates on the first control valve and the second control valve are controlled to move by the handle, so that the connector stops water supply in the water channel, and when the connector is switched to a water channel blowing and draining state, residual water in the connector and a cooling body can be quickly drained by using high-pressure gas, so that the pollution of residual water leakage to the environment is eliminated, potential safety hazards such as electric shock short circuit and staff sliding are reduced, and the damage to the cooling body or equipment is also reduced.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a schematic structural view of a connector capable of rapidly discharging residual water according to an embodiment of the present invention.

Fig. 2 is a schematic structural view of a control body of a connector capable of rapidly discharging residual water according to an embodiment of the present invention.

Fig. 3 is a schematic structural view of a control valve of a connector for rapidly discharging residual water according to an embodiment of the present invention.

Fig. 4 is a schematic diagram illustrating a parallel connection state of water paths of a connector capable of rapidly discharging residual water according to an embodiment of the present invention.

Fig. 5 is a schematic view showing a serial state of a connector according to an embodiment of the present invention when a waterway blowing and discharging water is performed.

In the figure: 1. control module 10, control main part 101, main water inlet

102. Main water outlet 103, first control valve 104, second control valve

105. Valve body control plate 106, plug 108, air blowing and water discharging passage

109. Dynamic valve plate 110, static valve plate 111, first channel groove

112. Second passage groove 113, water passing hole 114, first passage hole

115. Second via hole 116, first recess 117, second recess

118. First through hole 119, second through hole 120, third through hole

121. A fourth through hole 11, a pressure plate 12 and a handle

2. Water collecting module 21, first branch water inlet 22 and first branch water outlet

23. A second branch water outlet 24 and a second branch water inlet

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings of the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention. Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

In the description of the present invention, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implying any number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

Referring to fig. 1 to 5, the present invention provides a connector capable of rapidly discharging residual water. The connector capable of rapidly discharging residual water includes:

the control module 1 includes:

a control body 10 provided with a main water inlet 101, a main water outlet 102, a plurality of first control valves 103, a plurality of second control valves 104, and a valve body control plate 105; the valve body control board 105 is used for simultaneously controlling the on-off or switching of the first control valve 103 and the second control valve 104;

the handle 12 is rotatably and fixedly arranged on the control main body 10, and when the handle 12 rotates, the valve body control plate 105 is driven to move so as to control the on-off or switching of the first control valve 103 and the second control valve 104 at the same time; and

the water collecting module 2 comprises a plurality of first branch water inlets 21 corresponding to the first control valves 103, first branch water outlets 22 corresponding to the first branch water inlets 21, second branch water outlets 23 corresponding to the second control valves 104, and second branch water inlets 24 corresponding to the second branch water outlets 23; the first water dividing outlet 22 and the second water dividing inlet 24 are connected with a body to be cooled, so that a cooling loop is formed;

wherein the control body 10 further includes a blow-off drain passage 108 for blowing off water on the cooling circuit.

Further, the first control valve 103 and the second control valve 104 both include a dynamic valve plate 109 and a static valve plate 110 disposed below the dynamic valve plate 109; the valve body control board 105 is configured to drive the movable valve plate 109 to slide relative to the stationary valve plate 110 to switch the first control valve 103 and the second control valve 104.

Further, the movable valve plate 109 includes a first passage groove 111; the static valve plate 110 includes a second passage groove 112 vertically corresponding to the first passage groove 111, a water through hole 113 provided at one end of the second passage groove 112, and a first passage hole 114 and a second passage hole 115 provided in parallel at one side of the second passage groove 112.

Further, the control body 10 further includes:

a plurality of first grooves 116 accommodating the first control valve 103 and a plurality of second grooves 117 accommodating the second control valve 104;

a first through hole 118 communicated with the main water inlet 101 is formed in the first groove 116;

a second through hole 119 communicated with the main water outlet 102 is formed in the second groove 117;

third through holes 120 communicated with the air blowing and water discharging passages are formed beside the first through holes 118 and the second through holes 119; and

the first groove 116 and the second groove 117 are both provided with fourth through holes 121 corresponding to the water passing through holes 113.

Further, a plug 106 is arranged between every two adjacent grooves of the air blowing and water discharging passage 108, so that a serial passage is formed.

Further, the control module 1 further comprises a pressing plate 11, wherein the pressing plate 11 is fixedly arranged on the surface of the control body 10, and is used for rotatably and fixedly arranging the handle 12 on the control body 10.

Specifically, when the connector is in a closed state, the water path, the circuit, the gas path and the oil path are simultaneously disconnected, and the control module 1 and the water collection module 2 are in a separated state.

When the connector is in an operating state, the water path, the circuit and the oil path are started to work; the handle 12 drives the valve body control plate 11 to simultaneously shift the first control valve 103 and the second control valve 104, cooling water enters from the main water inlet 101, flows into the first through hole 118 of the first groove 116, reaches the first passage groove 111 through the second passage hole 115 of the first control valve 103, flows to the second passage groove 112, reaches the fourth through hole 121 through the water through hole 113, then flows to the first branch water inlet 21, and flows out from the first branch water outlet 22 to reach a cooling body; the cooling water flows out from the cooling fluid to the second branch water inlet 24, flows to the second branch water outlet 23, passes through the fourth through hole 121 of the second groove 117, flows to the water through hole 113 of the second control valve 104, passes through the second passage groove 112, flows to the first passage groove 111, and finally reaches the water loop through the second passage hole 115; each first control valve 103 corresponds to one second control valve 104 to form a water path, and a plurality of groups of water paths form a parallel water path and finally flow to cooling equipment from the main water outlet 102, so that a cooling loop is formed.

When the connector is in a blowing and draining state, the water path stops working, and the gas path starts working; the handle 12 drives the valve body control board 11 to simultaneously toggle the first control valve 103 and the second control valve 104 for switching, high-pressure air enters the air blowing and water discharging passage 108, enters the third through hole 120 of the first right first groove 116, passes through the first passage hole 114 of the first control valve 103, reaches the first passage groove 111, then enters the second passage groove 112, passes through the water passing hole 113, reaches the fourth through hole 121, then enters the first branch water inlet 21, and enters the cooling body from the first branch water outlet 22; the high-pressure air is discharged from the cooling body to the second branch water inlet 24, enters the second branch water outlet 23, passes through the fourth through hole 121 of the second groove 117, enters the water through hole 113 of the second control valve 104, passes through the second passage groove 112, enters the first passage groove 111, and finally reaches the air blowing and water discharging passage 108 through the first passage hole 114; the plugs 106 are arranged between every two adjacent grooves, so that high-pressure air enters the second groove 117 from the first second groove 117 on the right side and reaches the second first groove 116 on the right side through a passage, thereby forming a serial air blowing and water discharging loop to discharge residual water in the cooling body.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. A connector capable of quickly discharging residual water, comprising:

the control module (1) comprises:

the water supply device comprises a control main body (10) which is provided with a main water inlet (101), a main water outlet (102), a plurality of first control valves (103), a plurality of second control valves (104) and a valve body control plate (105); the valve body control board (105) is used for simultaneously controlling the on-off or switching of the first control valve (103) and the second control valve (104);

the handle (12) is rotatably and fixedly arranged on the control main body (10), and when the handle (12) rotates, the valve body control plate (105) is driven to move so as to simultaneously control the on-off or switching of the first control valve (103) and the second control valve (104); and

the water collecting module (2) comprises a plurality of first branch water inlets (21) which are arranged corresponding to the first control valve (103), first branch water outlets (22) which are arranged corresponding to the first branch water inlets (21), second branch water outlets (23) which are arranged corresponding to the second control valve (104), and second branch water inlets (24) which are arranged corresponding to the second branch water outlets (23); a body to be cooled is connected between the first water dividing outlet (22) and the second water dividing inlet (24) so as to form a cooling loop;

wherein the control body (10) further comprises a blow-off drain passage (108) for blowing off water on the cooling circuit;

the first control valve (103) and the second control valve (104) both comprise a movable valve plate (109) and a static valve plate (110) arranged below the movable valve plate (109); the valve body control plate (105) is used for driving the movable valve plate (109) to slide relative to the static valve plate (110) simultaneously so as to realize the switching on or off of the first control valve (103) and the second control valve (104);

the movable valve plate (109) comprises a first passage groove (111); the static valve plate (110) comprises a second passage groove (112) which is vertically and correspondingly arranged with the first passage groove (111), a water through hole (113) is arranged at one end of the second passage groove (112), and a first passage hole (114) and a second passage hole (115) which are arranged on one side of the second passage groove (112) side by side;

the control body (10) further comprises:

a number of first recesses (116) housing the first control valves (103) and a number of second recesses (117) housing the second control valves (104);

a first through hole (118) communicated with the main water inlet (101) is formed in the first groove (116);

a second through hole (119) communicated with the main water outlet (102) is formed in the second groove (117);

third through holes (120) communicated with the air blowing and water discharging passages are formed beside the first through hole (118) and the second through hole (119); and

fourth through holes (121) corresponding to the water passing through holes (113) are formed in the first groove (116) and the second groove (117);

and a plug (106) is arranged between every two adjacent first grooves (116) and second grooves (117) of the air blowing and water discharging passage (108), so that a passage in series is formed.

2. The connector for rapidly discharging residual water according to claim 1, wherein the control module (1) further comprises a pressing plate (11), the pressing plate (11) is fixedly arranged on the surface of the control body (10) for rotatably and fixedly arranging the handle (12) on the control body (10).