CN102921134A - Pressure visualization indoor hydrant pressure adjustment and stabilization apparatus - Google Patents

Abstract

The present invention provides a pressure visualization indoor hydrant pressure adjustment and stabilization apparatus, which comprises a valve head and a valve rod penetrating through the valve head, wherein the valve head comprises a valve cover and a valve cover sleeve coaxially arranged on the inner wall of the valve cover, the valve cover and the valve cover sleeve are respectively provided with a through structure, the outer side of the valve cover is provided with a pressure gauge hole, the pressure gauge hole is provided with a pressure gauge, the valve cover sleeve is provided with a valve cover sleeve through hole communicated with the pressure gauge hole, the valve rod sequentially comprises a first rod portion, a sealing groove member and a second rod portion from top to bottom, the second rod portion is a hollow rod portion, the outer diameter of a non-recessed position of the sealing groove member is matched with the inner diameter of the valve cover and the valve cover sleeve, and is larger than the outer diameter of the hollow rod portion, and a recessed position of the sealing groove member is provided with a groove through hole. With the present invention, tests and displays of static state water pressure of a water inlet and/or dynamic state water pressure of a water outlet of the indoor hydrant can be achieved so as to improve maintenance and use convenience of the indoor hydrant and reduce maintenance cost.

Description

Visual pressure indoor fire hydrant voltage-regulating and voltage-stabilizing device

Technical field

The present invention relates to the fire-fighting equipment technical field, particularly relate to a kind of visual pressure indoor fire hydrant voltage-regulating and voltage-stabilizing device.

Background technology

Indoor fire hydrant be pipe network in house to delivery of water, be with valvular interface, can be used as the indoor fixedly fire fighting devices such as factory, warehouse, skyscraper, public building, boats and ships, usually be installed in the fire hydrant box, support the use with equipment such as fire hose and hydraulic giants.

Indoor fire hydrant does not need to use as a rule, and uses when breaking out of fire.In use, the delivery port of indoor fire hydrant connects an end of fire hose, and the other end of fire hose connects fire-fighting lance, and the hand-held fire-fighting lance of fire fighter is aimed at burning things which may cause a fire disaster with water, burning things which may cause a fire disaster is put out.If in the scene of fire, not water outlet of indoor fire hydrant, perhaps, the water outlet pressure of indoor fire hydrant is too little, then can miss the best opportunity of fire suppression, causes irretrievable loss; If the water outlet pressure of indoor fire hydrant is too large, will form very strong recoil strength to the fire fighter of hand-held fire-fighting lance, there is very large potential safety hazard during the fire fighter one man operation, can operate therefore usually need many people to cooperate.

Because fire has sudden and urgent usually, in order to guarantee that indoor fire hydrant can normally use in the scene of fire, need to guarantee constantly that indoor fire hydrant has the certain hydraulic pressure of maintenance between water and water inlet and the delivery port, therefore need to carry out periodic maintenance to indoor fire hydrant.Prior art safeguards indoor fire hydrant, and whether normally regularly open valve gap inspection has water in fastening, and detects advancing/delivery port pressure inside and outside the bolt by external manometric mode.The method inconvenience maintenance and maintenance cost are high.

Summary of the invention

The invention provides a kind of visual pressure indoor fire hydrant voltage-regulating and voltage-stabilizing device, be conducive to realize the visual of indoor fire hydrant hydraulic pressure, and then improve the convenience that indoor fire hydrant is safeguarded and used, reduce maintenance cost.

The invention provides a kind of visual pressure indoor fire hydrant voltage-regulating and voltage-stabilizing device, comprising:

Valve head and the valve rod that runs through described valve head;

Described valve head comprises valve gap and the coaxial valve gap cover that is arranged on described valve gap inwall, logical structure during described valve gap and described valve gap cover have respectively; The outside of described valve gap offers the Pressure gauge hole, and described Pressure gauge is provided with Pressure gauge on the hole, and described valve gap puts and offers the valve gap cover through hole that is communicated with described Pressure gauge hole, with mineralization pressure table water channel between described valve gap cover through hole and described Pressure gauge hole;

Described valve rod comprises the first bar section, sealed groove spare and the second bar section from top to bottom, and described the second bar section is rod blank; The internal diameter coupling of the external diameter at the non-depression position of described sealed groove spare and described valve gap and described valve gap cover and greater than the external diameter of described rod blank; The depression position of described sealed groove spare offers the groove through hole, with inner to forming matrix valve rod water channel the described groove through hole from described rod blank.

Visual pressure indoor fire hydrant voltage-regulating and voltage-stabilizing device provided by the invention can be realized test and the demonstration of the dynamic water-pressure of the static hydraulic pressure of indoor fire hydrant water inlet and/or delivery port.On the one hand, operating personnel can judge very easily indoor fire hydrant according to Pressure gauge demonstration hydraulic pressure value and whether be in normal work shape body, as when indoor fire hydrant does not use, need not to open key inside, whether can determine easily associated pipe by manometric hydraulic pressure has water and/or influent pressure whether to meet pre-provisioning request, determine whether accordingly to carry out associated maintenance, improved the convenience of safeguarding and using and reduced maintenance cost.On the other hand, operating personnel are in the process of using indoor fire hydrant, can be in the regulation valve body lifting height can monitor according to the force value that Pressure gauge shows, water outlet pressure is too high makes troubles and such as the potential safety hazard under the situations such as one man operation to operating personnel's operation to reduce.

Description of drawings

In order to be illustrated more clearly in the embodiment of the invention or technical scheme of the prior art, the below will do to introduce simply to the accompanying drawing of required use in embodiment or the description of the Prior Art, apparently, accompanying drawing in the following describes only is some embodiments of the present invention, for those of ordinary skills, under the prerequisite of not paying creative work, can also obtain according to these accompanying drawings other accompanying drawing.

Fig. 1 is the optional cross-sectional view of visual pressure indoor fire hydrant voltage-regulating and voltage-stabilizing device provided by the invention;

Fig. 2 is the optional cross-sectional view of valve head provided by the invention;

Fig. 3 is the optional cross-sectional view of valve rod provided by the invention;

Fig. 4 is the optional cross-sectional view of indoor fire hydrant provided by the invention;

Fig. 5 is the optional perspective view of indoor fire hydrant provided by the invention;

Fig. 6 is the optional cross-sectional view of voltage stabilizing part provided by the invention;

Fig. 7 is the optional structural representation of impeller provided by the invention.

Reference numeral:

The 1-valve rod; 2-valve rod screw; The 3-valve gap; The 4-handwheel;

5-sealed groove spare; 6-valve gap cover; 7-matrix valve rod water channel;

The 8-Pressure gauge; 9-static pressure test water channel; 10-Pressure gauge water channel;

The 11-key; The 12-fixed interface; The 13-intercepter plate; The 14-sealing gasket;

The 15-mechanical sealing member; The 16-fixed screw; The 17-impeller; The 18-base;

101-solid hopkinson bar section; The 102-rod blank; 1011-the first threaded portion;

1012-the second threaded portion; 501-groove through hole; 1021-rod blank screw thread;

131-the first cylinder; The 132-end face that dams; 133-the second cylinder;

The 1701-cutting edge; 601-valve gap cover through hole; 801-Pressure gauge hole;

301-valve gap the first threaded portion; 302-valve gap the second threaded portion.

The specific embodiment

For the purpose, technical scheme and the advantage that make the embodiment of the invention clearer, below in conjunction with the accompanying drawing in the embodiment of the invention, technical scheme in the embodiment of the invention is clearly and completely described, obviously, described embodiment is the present invention's part embodiment, rather than whole embodiment.Based on the embodiment among the present invention, those of ordinary skills belong to the scope of protection of the invention not paying the every other embodiment that obtains under the creative work prerequisite.

Fig. 1 is the optional cross-sectional view of visual pressure indoor fire hydrant voltage-regulating and voltage-stabilizing device provided by the invention.Visual pressure indoor fire hydrant voltage-regulating and voltage-stabilizing device as shown in Figure 1 comprises: valve head and valve rod 1, valve rod 1 runs through valve head.

Valve head can comprise: valve gap 3 and the coaxial valve gap cover 6 that is arranged on valve gap 3 inwalls, logical structure during valve gap 3 and valve gap cover 6 have respectively.As shown in Figure 2, the outside of valve gap 3 offers Pressure gauge hole 801, be provided with Pressure gauge 8 on the Pressure gauge hole 801, offer the valve gap cover through hole 601 that is communicated with Pressure gauge hole 801 on the valve gap cover 6, with mineralization pressure table water channel 10 between valve gap cover through hole 601 and Pressure gauge hole 801.Pressure gauge 8 can be but is not limited to dial type Pressure gauge or digital pressure gauge etc.Valve gap cover through hole 601 can be lower than Pressure gauge hole 801, and perhaps, valve gap cover through hole 601 can be concordant with Pressure gauge hole 801 etc.

Valve rod 1 comprises the first bar section, sealed groove spare 5 and the second bar section from top to bottom, and as shown in Figure 3, the first bar section can be but is not limited to 101, the second bar sections of solid hopkinson bar section is rod blank 102.The depressed part position, middle position of sealed groove spare 5, other position is non-depression position.The internal diameter coupling of the external diameter at the non-depression position of sealed groove spare 5 and valve gap 3 and valve gap cover and greater than the external diameter of rod blank 102; The depression position of sealed groove spare 5 offers groove through hole 501, with inner to forming matrix valve rod water channel 7 the groove through hole 501 from rod blank 102.

The visual pressure indoor fire hydrant voltage-regulating and voltage-stabilizing device that the present embodiment provides is the core component of indoor fire hydrant, the visual pressure indoor fire hydrant voltage-regulating and voltage-stabilizing device that the present embodiment can be provided in actual use, becomes an indoor fire hydrant with assembling parts such as valve bodies.For example as shown in Figure 4 and Figure 5, valve rod 1 runs through valve head, valve body and voltage stabilizing part successively, and the end that valve rod 1 passes the voltage stabilizing part connects a fixture.Valve body can comprise: key 11, be used for the base 18 that is connected with inlet pipeline and the fixed interface 12 that is connected being connected with fire hose.The top of key 11, bottom and a side be opening respectively, and base 18 is connected with the opening part of key 11 bottoms, and fixed interface 12 is connected with the lateral opening place of key 11.Valve rod 1 exposes an end of valve head also can a sheathed handwheel 4.By rotation hand wheel 4 liftable valve rods 1.In the lifting process of valve rod 1:

(1) when docks with valve gap cover through hole 601 at the depression position that valve rod 1 is in sealed groove spare 5, namely when valve rod 1 is in the water inlet closed condition, matrix valve rod water channel 7 and Pressure gauge water channel 10 are communicated with, form static pressure test water channel 9, the hydraulic pressure of Pressure gauge 8 tests and demonstration static pressure test water channel 9, this moment, the hydraulic pressure of Pressure gauge 8 demonstrations was indoor fire hydrant water inlet hydraulic pressure, was also referred to as static hydraulic pressure.

(2) when dock with valve gap cover through hole 601 at the non-depression position that valve rod 1 rises to sealed groove spare 5, because the external diameter at the non-depression position of sealed groove spare 5 is respectively greater than the external diameter of sunk part and the external diameter of rod blank, therefore, matrix valve rod water channel 7 and 10 cut-offs of Pressure gauge water channel, and the key internal cavities is not communicated with Pressure gauge water channel 10 yet, at this moment, the hydraulic pressure of Pressure gauge 8 tests is 0, and namely Pressure gauge 8 makes zero.

When the outer surface that (3) continues to rise to rod blank 102 when valve rod 1 docks with valve gap cover through hole 601, because the external diameter of rod blank 102 is less than the external diameter at the non-depression position of sealed groove spare 5, the key internal cavities is communicated with Pressure gauge water channel 10, form a dynamically pressure testing water channel, the hydraulic pressure of Pressure gauge 8 tests and demonstration dynamically pressure testing water channel, this moment, the hydraulic pressure of Pressure gauge 8 demonstrations was indoor fire hydrant delivery port hydraulic pressure, was also referred to as dynamic water-pressure.The lifting height of valve rod 1 is different, and the dynamic water-pressure that Pressure gauge 8 shows is different, and 1 liter of valve rod must be higher usually, and the dynamic water-pressure that Pressure gauge 8 shows is larger.

(4) when dock with valve gap cover through hole 601 at the non-depression position that valve rod drops to sealed groove spare 5, because the external diameter at the non-depression position of sealed groove spare 5 is respectively greater than the external diameter of sunk part and the external diameter of rod blank, therefore, matrix valve rod water channel 7 and 10 cut-offs of Pressure gauge water channel, 10 cut-offs of matrix valve rod water channel 7 and Pressure gauge water channel, and the key internal cavities is not communicated with Pressure gauge water channel 10 yet, at this moment, the hydraulic pressure of Pressure gauge 8 tests is 0, and namely Pressure gauge 8 makes zero.

(5) when dock with valve gap cover through hole 601 at the depression position that valve rod continues to drop to sealed groove spare 5, valve rod 1 water inlet is closed, matrix valve rod water channel 7 and Pressure gauge water channel 10 are communicated with, form static pressure test water channel 9, the hydraulic pressure of Pressure gauge 8 tests and demonstration static pressure test water channel 9, this moment, the hydraulic pressure of Pressure gauge 8 demonstrations was indoor fire hydrant water inlet hydraulic pressure, was also referred to as static hydraulic pressure.

This shows that the visual pressure indoor fire hydrant voltage-regulating and voltage-stabilizing device that the present embodiment provides can be realized test and the demonstration of the dynamic water-pressure of the static hydraulic pressure of indoor fire hydrant water inlet and/or delivery port.On the one hand, operating personnel can judge very easily indoor fire hydrant according to Pressure gauge demonstration hydraulic pressure value and whether be in normal work shape body, as when indoor fire hydrant does not use, need not to open key inside, whether can determine easily associated pipe by manometric hydraulic pressure has water and/or water outlet pressure whether to meet the reservation requirement, determine whether accordingly to carry out associated maintenance, improved the convenience of safeguarding and using and reduced maintenance cost.On the other hand, operating personnel are in the process of using indoor fire hydrant, can be in the regulation valve body lifting height can monitor according to the force value that Pressure gauge shows, water outlet pressure is too high makes troubles and such as the potential safety hazard under the situations such as one man operation to operating personnel's operation to reduce.

This fire hydrant is not only seen the just undesired but also different place of fire-fighting equipment operation, different floor, different height, different pressure, all can be used, hydraulic pressure low unblocked, can regulate the best hydraulic pressure of fire extinguishing when hydraulic pressure is high and put out a fire.

This fire hydrant is not owing to arranging decompressor, therefore crosses when low when fire fighting hydraulic pressure, and the water outlet pressure loss of valve is very little, even does not lose; When fire fighting hydraulic pressure is too high, can water outlet pressure be controlled in the safe water outlet pressure scope by pressure regulation.For example: when operating personnel when using indoor fire hydrant, if during fire fighting hydraulic pressure excessively low (such as hydraulic pressure less than 0.25MPa), fire hydrant can be opened fully, the pressure loss that produces because of flow resistance is no more than 0.02MPa, farthest guarantee water outlet pressure, improve fire-fighting efficiency, protection people's personal safety and property safety; If during fire fighting hydraulic pressure too high (such as hydraulic pressure greater than 0.35MPa), operating personnel's Open valve slowly then, after observation Pressure gauge registration is made zero by static intake pressure value, Pressure gauge registration (being dynamic delivery port force value this moment) raises gradually, adjust dynamic delivery port pressure in safe water outlet pressure scope (as in the 0.25MPa ~ 0.35MPa), to reduce the too high damage that operating personnel are brought personal injury and greatly reduce fire fighting device (such as fire hose) of water outlet pressure.

On the basis of technique scheme, in order further to improve the effect of voltage stabilizing, optional, as shown in Figure 6, the voltage stabilizing part comprises: the intercepter plate 13 of coaxial flexible connection and impeller 17, the maximum outside diameter of intercepter plate 13 are provided with sealing gasket 14 greater than the external diameter of impeller 17 between intercepter plate 13 and the impeller 17.Intercepter plate 13 can comprise successively the first cylinder 131 of connecting, end face 132 and the second cylinder 133 dam; Dam the external diameter of end face 132 respectively greater than the external diameter of the first cylinder 131 and the external diameter of the second cylinder 133, the external diameter of the external diameter of the first cylinder 131 and rod blank 102 coupling and less than the external diameter of the second cylinder 133, impeller 17 is set on the second cylinder 133.As shown in Figure 7, the outer surface of impeller 17 offers a plurality of cutting edges 1701, and the quantity of cutting edge 1701 can be but is not limited to 6, and each cutting edge is evenly distributed on the outer surface of impeller 17, and each cutting edge 1701 to offer direction opposite with the ascent direction of solid hopkinson bar section 101.For example: solid hopkinson bar section 101 is formed with the first threaded portion with the position of valve head coupling, as shown in Figure 4; Each cutting edge 1701 to offer direction opposite with the screw thread ascent direction of the first threaded portion 1701 of solid hopkinson bar section 101.Particularly, if the screw thread ascent direction of the first threaded portion 1701 is counterclockwise, then the direction of offering of each cutting edge 1701 is clockwise direction; Vice versa.

The mechanism that processing like this can improve the indoor fire hydrant voltage stabilizing is: when valve rod rose, the water inlet of valve body was opened, and because being subject to the water impact of inlet pipeline, valve rod and voltage stabilizing part integral body usually transfer can occur.If impeller 17 outer surfaces are not offered cutting edge, impeller 17 is identical with the probability that is rotated counterclockwise clockwise.The present embodiment is because the outer surface of impeller 17 evenly offers a plurality of cutting edges, and each cutting edge to offer direction opposite with the ascent direction of valve rod, therefore, when the outer surface of impeller 17 is subject to the impact of ascending current, each cutting edge can well be restricted to the direction of rotation of impeller opposite with the valve rod ascent direction, thereby apply reaction force with the transfer of valve rod current to valve rod, the root that can suppress valve rod by this reaction force turns, so that valve rod keeps stablizing as far as possible, valve rod can remain on the stable height thus, and then so that the hydraulic pressure of delivery port keeps stable, reach the purpose of voltage stabilizing.

Optionally, impeller 17 is connected with the second cylinder 133 screw mandrels, so that impeller increases the fastening force of itself and the second cylinder 133 in rotary course, better suppresses thus 133 rotations of the second cylinder.

The convenience that is connected with valve body in order to improve valve gap and valve rod, optionally, the top of valve gap 3 is provided with valve gap first threaded portion 301 of mating with the first threaded portion 1011 of solid hopkinson bar section 101, and the bottom of described valve gap is provided with valve gap second threaded portion 302 of mating with the top of valve body.Optionally, the first threaded portion 1011 of solid hopkinson bar section 101 can be external screw thread, and valve gap the first threaded portion 301 can be the internal thread with the first threaded portion 1011 couplings; The top of valve body is formed with internal thread such as the top of key 11, and valve gap the second threaded portion 302 is the external screw thread of the internal thread coupling that forms with key 11 tops.

The convenience that is connected with fixture in order to improve rod blank, optionally, the end that rod blank 102 is passed the voltage stabilizing part is formed with rod blank screw thread 1021, as shown in Figure 3, fixture can be but is not limited to fixed screw 16, and the end that rod blank 102 is passed the voltage stabilizing part is threaded with fixed screw 1021.

Inner in order to prevent that current from entering the voltage stabilizing part, improve the sealing of voltage stabilizing part, optional, such as fixed screw 1021 fixtures such as grade and dam and be provided with mechanical sealing member 15 between the end face 132, such as Fig. 1 and shown in Figure 5, mechanical sealing member 15 is set on the rod blank 102.Further, optional in order to reduce mechanical sealing member 15 and to dam the wearing and tearing of end face 132 in rotary course, mechanical sealing member 15 can be ceramic plane with the contact-making surface of the end face 132 that dams.

Lifting for the ease of the control valve rod, the connected mode of solid hopkinson bar section 101 and handwheel 4 is for example: solid hopkinson bar section 101 forms the second threaded portion 1012 away from an end of sealed groove spare, handwheel sleeve 4 is located on the second threaded portion 1012, and the part that handwheel 4 is exposed in the second threaded portion 1012 is connected with valve rod screw 2.

For the relation between meticulous control valve rod lifting height and the water outlet pressure, can carry out appropriate design to the pitch such as the first threaded portion of the first bar section such as 101 grades of solid hopkinson bar section, suitably smaller as with the design of the pitch of the first threaded portion, like this when hand wheel rotating one circle, the valve rod lifting height is not too large, so that meticulous control water outlet pressure.Optionally, the pitch of the first threaded portion is (2-6mm) * 360 °.

In the above-described embodiments, the description of each embodiment is all emphasized particularly on different fields, do not have the part that describes in detail among certain embodiment, can be referring to the associated description of other embodiment.

It should be noted that at last: above embodiment only in order to technical scheme of the present invention to be described, is not intended to limit; Although with reference to previous embodiment the present invention is had been described in detail, those of ordinary skill in the art is to be understood that: it still can be made amendment to the technical scheme that aforementioned each embodiment puts down in writing, and perhaps part technical characterictic wherein is equal to replacement; And these modifications or replacement do not make the essence of appropriate technical solution break away from the spirit and scope of various embodiments of the present invention technical scheme.

Claims (14)

1. a visual pressure indoor fire hydrant voltage-regulating and voltage-stabilizing device is characterized in that, comprising:

Valve head and the valve rod that runs through described valve head;

Described valve head comprises valve gap and the coaxial valve gap cover that is arranged on described valve gap inwall, logical structure during described valve gap and described valve gap cover have respectively; The outside of described valve gap offers the Pressure gauge hole, and described Pressure gauge is provided with Pressure gauge on the hole, and described valve gap puts and offers the valve gap cover through hole that is communicated with described Pressure gauge hole, with mineralization pressure table water channel between described valve gap cover through hole and described Pressure gauge hole;

Described valve rod comprises the first bar section, sealed groove spare and the second bar section from top to bottom, and described the second bar section is rod blank; The internal diameter coupling of the external diameter at the non-depression position of described sealed groove spare and described valve gap and described valve gap cover and greater than the external diameter of described rod blank; The depression position of described sealed groove spare offers the groove through hole, with inner to forming matrix valve rod water channel the described groove through hole from described rod blank.

2. visual pressure indoor fire hydrant voltage-regulating and voltage-stabilizing device according to claim 1 is characterized in that, also comprise: voltage stabilizing part, described rod blank run through described voltage stabilizing part;

Described voltage stabilizing part comprises intercepter plate and the impeller of coaxial flexible connection, the maximum outside diameter of described intercepter plate is greater than the external diameter of described impeller, be provided with sealing gasket between described intercepter plate and the described impeller, the outer surface of described impeller offers a plurality of cutting edges, each described cutting edge to offer direction opposite with the ascent direction of described the first bar section;

The end that described rod blank is passed described voltage stabilizing part is connected with fixture.

3. visual pressure indoor fire hydrant voltage-regulating and voltage-stabilizing device according to claim 2 is characterized in that,

Described intercepter plate comprises successively the first cylinder of connecting, end face and the second cylinder dam; The external diameter of the described end face that dams is respectively greater than the external diameter of described the first cylinder and the external diameter of described the second cylinder, the external diameter of described the first cylinder and the external diameter of described rod blank coupling and less than the external diameter of described the second cylinder, described impeller set is located on described the second cylinder.

4. visual pressure indoor fire hydrant voltage-regulating and voltage-stabilizing device according to claim 3 is characterized in that, described fixture and described damming are provided with mechanical sealing member between the end face, and described mechanical sealing member is set on the described rod blank.

5. visual pressure indoor fire hydrant voltage-regulating and voltage-stabilizing device according to claim 4 is characterized in that, the contact-making surface of described mechanical sealing member and the described end face that dams is ceramic plane.

6. visual pressure indoor fire hydrant voltage-regulating and voltage-stabilizing device according to claim 2 is characterized in that, described impeller is connected with described the second cylinder screw mandrel.

7. visual pressure indoor fire hydrant voltage-regulating and voltage-stabilizing device according to claim 2, it is characterized in that, the end that described rod blank is passed described voltage stabilizing part is formed with the rod blank screw thread, described fixture is fixed screw, and the end that described rod blank is passed described voltage stabilizing part is threaded with described fixed screw.

8. arbitrary described visual pressure indoor fire hydrant voltage-regulating and voltage-stabilizing device is characterized in that according to claim 1-7, and described the first bar section is solid hopkinson bar section, and the position of described solid hopkinson bar section and described valve head coupling is formed with the first threaded portion.

9. visual pressure indoor fire hydrant voltage-regulating and voltage-stabilizing device according to claim 8 is characterized in that, each described cutting edge to offer direction opposite with the screw thread ascent direction of the first threaded portion of described solid hopkinson bar section.

10. visual pressure indoor fire hydrant voltage-regulating and voltage-stabilizing device according to claim 8 is characterized in that, the pitch of described the first threaded portion is 2-6mm * 360 °.

11. visual pressure indoor fire hydrant voltage-regulating and voltage-stabilizing device according to claim 8 is characterized in that, described solid hopkinson bar section is formed be used to the second threaded portion that connects outside handwheel away from an end of described sealed groove spare.

12. visual pressure indoor fire hydrant voltage-regulating and voltage-stabilizing device according to claim 8 is characterized in that, described valve gap cover through hole is lower than described Pressure gauge hole, and perhaps, described valve gap cover through hole is concordant with described Pressure gauge hole.

13. visual pressure indoor fire hydrant voltage-regulating and voltage-stabilizing device according to claim 8, it is characterized in that, the top of described valve gap is provided with valve gap the first threaded portion with the first threaded portion coupling of described solid hopkinson bar section, and the bottom of described valve gap is provided with valve gap the second threaded portion that is connected for outside valve body coupling.

14. visual pressure indoor fire hydrant voltage-regulating and voltage-stabilizing device according to claim 8 is characterized in that described Pressure gauge is dial type Pressure gauge or digital pressure gauge.

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