CN209353213U - A kind of bridge pier thermoregulation mechanism - Google Patents

Abstract

The utility model discloses a kind of bridge pier thermoregulation mechanism, including mounting base, temperature-detecting device, heating device, solar absorption component and controller, mounting base to along bridge pier circumferentially and be fixed on the outside of bridge pier, temperature-detecting device is configured to the water layer temperature near detection mounting base surrounding, heating device is installed on mounting base, heating device is configured to selectively heat some region of water layer near mounting base surrounding, controller is electrically connected temperature-detecting device and heating device, the water layer in the lower region of temperature near mounting base surrounding is heated to control heating device.In technical solution provided by the utility model, the lower region of temperature in the water layer near bridge pier is detected by temperature-detecting device, the region is heated by heating device, to reduce the temperature difference of bridge pier phototropic face and shady face.

Description

A kind of bridge pier thermoregulation mechanism

Technical field

The utility model relates to bridge technology field, in particular to a kind of bridge pier thermoregulation mechanism.

Background technique

River-spanning bridge and bridge spanning the sea play an important role in the traffic of modern society, replace it is traditional ferry across the river, And can greatly shorten the distance of two sides, keep the trip of people more convenient.But the bridge pier in hydrostatic by Different in phototropic face and the received illumination of shady face, the water surface temperature of bridge pier phototropic face differs larger with shady face and (especially exists Hot area becomes apparent), cause bridge pier phototropic face and shady face to be heated different, expand with heat and contract with cold, if things go on like this, will lead to bridge It is cracked at the pier water surface, not only reduce the service life of bridge, but also there are serious security risks.

Utility model content

The main purpose of the utility model is to propose a kind of bridge pier thermoregulation mechanism, it is intended to solve existing bridge pier to light The water surface temperature in face differs larger with shady face, will lead to problem cracked at the bridge pier water surface.

To achieve the above object, the utility model proposes a kind of bridge pier thermoregulation mechanism, for being installed on bridge pier Outside, the bridge pier thermoregulation mechanism include:

Mounting base, to along bridge pier circumferentially and be fixed on the outside of the bridge pier；

Temperature-detecting device, is installed on the mounting base, and the temperature-detecting device is configured to detect the peace Fill the water layer temperature near seat surrounding；

Heating device, is installed on the mounting base, and the heating device is configured to selectively to the installation Some region of water layer is heated near seat surrounding；

Solar absorption component is installed on the mounting base, to be energized using solar energy to the heating device； And

Controller is electrically connected the temperature-detecting device and the heating device, to control the heating device pair The water layer in the lower region of temperature is heated near the mounting base surrounding.

Preferably, the heating device includes water tank and the circulation heating tube that is connected to the water tank, the circulation plus Pipe line is in circumferential direction and the upward and downward arrangement along the mounting base, and is equipped with control valve group on the circulation heating tube, institute State controller and be electrically connected the control valve group, to by controlling the control valve group so that the circulation heating tube with The corresponding line segments in the lower region of temperature are connected to the water tank, and are heated to the water layer in the region, the solar energy Absorbent assembly is to heat the water tank using solar energy；And/or

The temperature-detecting device has vertically to the temperature-sensitive portion of extension.

Preferably, the control valve group includes reversal valve, and the circulation heating tube includes:

Multiple circulating pipes, between the upper and lower every setting, each circulating pipe is annularly arranged, to be sheathed on the bridge pier Periphery, and on the pipeline of each circulating pipe it is circumferentially spaced be equipped with multiple reversal valves；And

Multiple communicating pipes are equipped with the communicating pipe vertically to extension between two circulating pipes of arbitrary neighborhood.

Preferably, from top to bottom, the spacing between the multiple circulating pipe is in become larger setting；And/or the circulation Pipe is square setting, is equipped with the reversal valve in four corners close to the circulating pipe.

Preferably, the control valve group further includes being electrically connected on the pipeline of the communicating pipe and with the controller Overflow valve.

Preferably, the multiple circulating pipe includes multiple upper ocean heat content pipes and under the multiple upper ocean heat content pipe The pipeline of multiple lower layer's circulating pipes of side, the communicating pipe between the multiple lower layer's circulating pipe is equipped with the overflow valve.

Preferably, the solar absorption component includes light reflecting mirror, and the water tank is installed on the light reflecting mirror Reflected light path on, to be heated by reflected sunlight to the water tank.

Preferably, the solar absorption component is movably installed in the mounting base, and the bridge pier thermoregulation mechanism is also Including the ray tracing device being installed on the solar absorption component and the driving for being drivingly connected the solar absorption component Mechanism；

Wherein, the controller is electrically connected the ray tracing device and the driving mechanism, to according to the light Tracker drives the solar absorption component movable in the mounting base.

Preferably, the mounting base includes:

Ring-shaped guide rail, to be sheathed on the periphery of the bridge pier；

Bracket is slidably mounted on the ring-shaped guide rail；And

Swing rod, one end can be installed on the bracket with swinging up and down, and the other end is connect with the solar absorption component；

The driving mechanism includes:

Sliding drive mechanism, to drive the bracket to slide on the ring-shaped guide rail；And

Swing driving mechanism, to drive the swing rod to swing up and down.

Preferably, the ring-shaped guide rail is equipped at intervals with two up and down, and the underlying ring-shaped guide rail is compared to position The ring-shaped guide rail in top is in laterally beyond setting, and the upper and lower side correspondence of the bracket is slidably mounted on described two annulars Guide rail；And/or

The one end of the bracket far from the ring-shaped guide rail is between the upper and lower every installation there are two the swing rod, the institute being located above It states swing rod and the solar absorption component to be rotatablely connected close to the middle part of described bracket one end, the underlying swing rod is remote One end from the bracket is arranged in may pass through the solar absorption component, and passes through connecting rod and the solar absorption group Part is connected far from the middle part of described bracket one end, the both ends of the connecting rod it is corresponding with the underlying swing rod and it is described too Positive energy absorbent assembly rotation connection.

In technical solution provided by the utility model, detected in the water layer near bridge pier by the temperature-detecting device The region is heated by the heating device in the lower region of temperature, to reduce bridge pier phototropic face and shady face The temperature difference.

Detailed description of the invention

In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is only It is some embodiments of the utility model, for those of ordinary skill in the art, in the premise not made the creative labor Under, the structure that can also be shown according to these attached drawings obtains other attached drawings.

Fig. 1 is the structural schematic diagram of an embodiment of bridge pier thermoregulation mechanism provided by the utility model；

Fig. 2 is the partial enlargement diagram in Fig. 1 at A；

Fig. 3 is a planar structure schematic diagram of Fig. 1；

Fig. 4 is the schematic perspective view of circulation heating tube in Fig. 2.

Drawing reference numeral explanation:

Label	Title	Label	Title
				100	Bridge pier thermoregulation mechanism	33	Circulating pipe
1	Mounting base	34	Reversal valve
				11	Ring-shaped guide rail	35	Communicating pipe
12	Bracket	36	Overflow valve
				13	Swing rod	37	Water pump
14	Connecting rod	4	Solar absorption component
				2	Temperature-detecting device	41	Light reflecting mirror
3	Heating device	42	Ray tracing device
				31	Water tank	5	Controller
32	Circulation heating tube	200	Bridge pier

The utility model aim is realized, the embodiments will be further described with reference to the accompanying drawings for functional characteristics and advantage.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describing, it is clear that described embodiment is only a part of the embodiment of the utility model, rather than all Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are not making creative work premise Under every other embodiment obtained, fall within the protection scope of the utility model.

It is to be appreciated that if related in the utility model embodiment directionality instruction (such as upper and lower, left and right, it is preceding, Afterwards ...), then directionality instruction is only used for explaining opposite between each component under a certain particular pose (as shown in the picture) Positional relationship, motion conditions etc., if the particular pose changes, directionality instruction is also correspondingly changed correspondingly.

In addition, if relating to the description of " first ", " second " etc. in the utility model embodiment, " first ", " the Two " etc. description is used for description purposes only, and is not understood to indicate or imply its relative importance or is implicitly indicated meaning The quantity of the technical characteristic shown." first " is defined as a result, the feature of " second " can explicitly or implicitly include at least one A this feature.It in addition, the technical solution between each embodiment can be combined with each other, but must be with ordinary skill Based on personnel can be realized, this technical side will be understood that when the combination of technical solution appearance is conflicting or cannot achieve The combination of case is not present, also not within the protection scope of the requires of the utility model.

The utility model proposes a kind of bridge pier thermoregulation mechanisms, and for being installed on the outside of bridge pier, Fig. 1 to Fig. 4 is this One embodiment of the bridge pier thermoregulation mechanism that utility model provides.

It please refers to Fig.1 to Fig.3, in the present embodiment, the bridge pier thermoregulation mechanism 100 includes mounting base 1, temperature inspection Device 2, heating device 3, solar absorption component 4 and controller 5 are surveyed, the mounting base 1 is to the circumferential cloth along bridge pier 200 The outside of the bridge pier 200 is set and is fixed on, the temperature-detecting device 2 is installed on the mounting base 1, the temperature detection dress It sets 2 to be configured to detect the water layer temperature near 1 surrounding of mounting base, the heating device 3 is installed on the installation Seat 1, the heating device 3 are configured to selectively carry out water layer some region of near 1 surrounding of mounting base Heating, the solar absorption component 4 is installed on the mounting base 1, to be supplied using solar energy the heating device 3 Can, the controller 5 is electrically connected the temperature-detecting device 2 and the heating device 3, to control the heating device 3 The water layer in the lower region of temperature near 1 surrounding of mounting base is heated.

In technical solution provided by the utility model, by the temperature-detecting device 2 (specifically by along described Circumferentially multiple temperature-detecting devices 2 of mounting base 1, to detect the water layer temperature near 1 surrounding of mounting base, and And Fig. 1 and Fig. 4 are please referred to, in the present embodiment, the temperature-detecting device 2 has vertically to the temperature-sensitive portion of extension, in this way The temperature-detecting device 2 can detecte the temperature of the water layer of different depth) detect temperature in water layer near bridge pier 200 The region is heated by the heating device 3 in lower region, to reduce 200 phototropic face of bridge pier and shady face The temperature difference.

The water layer near bridge pier 200 is heated by the heating device 3, it is described according to the difference of heating method The set-up mode of heating device 3 would also vary from, for example, it may be water layer is heated using electrically heated mode, that Heating device 3 described in side can be set in electrical heating net, can also be referring to Fig. 3, in the present embodiment, the heating device 3 include water tank 31 and the circulation heating tube 32 being connected to the water tank 31 (referring to Fig. 3, the water tank 31 and described Water pump 37 is equipped between circulation heating tube 32), the circulation heating tube 32 is in the circumferential direction and upward and downward along the mounting base 1 Arrangement, and control valve group is installed on the circulation heating tube 32, the controller 5 is electrically connected the control valve group, uses The control valve group is controlled to pass through, so that the line segments corresponding with the lower region of temperature of the circulation heating tube 32 and institute The connection of water tank 31 is stated, and the water layer in the region is heated, the solar absorption component 4 is to utilize solar energy to described Water tank 31, which is heated, (absorbs the setting side that solar energy heats the water tank 31 by the solar absorption component 4 There are many formulas, for example, the solar absorption component 4 can be absorption solar power generation, then to leading in the water tank 31 Thermal medium is electrically heated, and can also be referring to Fig. 3, in the present embodiment, the solar absorption component 4 includes that light is anti- Mirror 41 is penetrated, the water tank 31 is installed on the reflected light path of the light reflecting mirror 41, to pass through reflected sunlight to the water Case 31 is heated, and the structure of the solar absorption component 4 described in this way is relatively simple), the structure of the heating device 3 described in this way compared with To be simple, and manufacturing cost is lower.

Specifically, Fig. 3 and Fig. 4 are please referred to, in the present embodiment, the control valve group includes reversal valve 34, the circulation It heats pipeline 32 and includes multiple circulating pipes 33, multiple communicating pipes 35, multiple circulating pipes 33 and multiple communicating pipes 35, it is the multiple Circulating pipe 33 is between the upper and lower every setting, each circulating pipe 33 setting annular in shape, to be sheathed on the outer of the bridge pier 200 It encloses, and circumferentially spaced equipped with multiple reversal valves 34, the multiple communicating pipe 35 on the pipeline of each circulating pipe 33 Vertically to extension, the communicating pipe 35 is equipped between the circulating pipe 33 of two of arbitrary neighborhood, wherein the controller 5 It is electrically connected with the reversal valve 34 on the multiple circulating pipe 33, controls the reversal valve 34 to pass through, and add the circulation Pipe line 32 heats the lower region of temperature in the water layer near the bridge pier 200, by controlling the reversal valve 34, So that the medium in the circulation heating tube 32 all flows to backlight side, so that the water layer to the region heats, so set It sets, the structure of the circulation heating tube 32 is relatively simple.

The circulating pipe 33 can rounded, oval or rectangular setting, this is related with the cross sectional shape of bridge pier 200 , specifically, referring to Fig. 4, in the present embodiment, the circulating pipe 33 is square setting, close to the circulating pipe 33 Four corners are equipped with the reversal valve 34.

There are the temperature difference for the water layer of the phototropic face of bridge pier 200 and shady face, also, larger by the position temperature difference of approximately level, more It is smaller toward the depths temperature difference, therefore Fig. 3 and Fig. 4 are please referred to, in the present embodiment, from top to bottom, between the multiple circulating pipe 33 For spacing in setting is become larger, the arrangement of circulating pipe 33 the multiple in this way is relatively reasonable, and not only heating even temperature effect is preferable, also Reduce the manufacturing cost of device.

Referring to Fig. 4, in the present embodiment, the control valve group further include on the pipeline of the communicating pipe and with institute The overflow valve 36 of the electric connection of controller 5 is stated, the controller 5 described in this way can be by controlling the overflow valve 36 and the commutation Valve 34 realizes the accurate control heated to the water layer of different depth.

Further, referring to Fig. 4, in the present embodiment, the multiple circulating pipe 33 includes that multiple upper ocean heat content pipes are (specific Ground is in the present embodiment two circulating pipes 33 of the top) and positioned at the lower section of the multiple upper ocean heat content pipe The pipeline of multiple lower layer's circulating pipes, the communicating pipe 35 between the multiple lower layer's circulating pipe is equipped with the overflow valve 36, because The multiple upper ocean heat content pipe there is a situation where to be located at the water surface or more or the case where the too close water surface, thus need to will be the multiple on Medium in layer circulating pipe flows to the multiple lower layer's circulating pipe, passes through the communicating pipe only between the multiple lower layer's circulating pipe 35 pipeline is equipped with the overflow valve 36, can achieve the effect for reducing the manufacturing cost of device.

The heating device 3 is energized using solar energy by the solar absorption component 4, in order to be conducive to It states solar absorption component 4 and absorbs solar energy, please refer to Fig. 1 and Fig. 2, in the present embodiment, the solar absorption component 4 is living Dynamic to be installed on the mounting base 1, the bridge pier thermoregulation mechanism 100 further includes being installed on the solar absorption component 4 Ray tracing device 42 and be drivingly connected the driving mechanism (being not shown) of the solar absorption component 4, wherein institute It states controller 5 and is electrically connected the ray tracing device 42 and the driving mechanism, to according to the ray tracing device 42, driving The solar absorption component 4 is movable in the mounting base 1, goes induction sunlight, control by the ray tracing device 42 4 activity of solar absorption component extremely can effectively absorb the position of solar energy, be achieved according to intensity of illumination and direction, Automatically adjust the solar absorption component 4.

Specifically, please refer to Fig.1 to Fig.3, in the present embodiment, the mounting base 1 include ring-shaped guide rail 11, bracket 12 with And swing rod 13, periphery of the ring-shaped guide rail 11 to be sheathed on the bridge pier 200, the bracket 12 are slidably mounted on the ring Shape guide rail 11, described 13 one end of swing rod can be installed on the bracket 12, the other end and the solar absorption group with swinging up and down Part 4 connects, and the driving mechanism includes sliding drive mechanism and swing driving mechanism, and the sliding drive mechanism is to drive The bracket 12 slides on the ring-shaped guide rail 11, the swing driving mechanism to drive the swing rod 13 to swing up and down, The solar absorption component 4 described in this way can carry out 360 ° of rotations along the ring-shaped guide rail 11 and adjust, moreover it is possible to swing up and down It adjusts, in this way, being conducive to the solar absorption component 4 absorbs solar energy.

Further, it please refers to Fig.1 to Fig.3, in the present embodiment, the one end of the bracket 12 far from the ring-shaped guide rail 11 Between the upper and lower every installation there are two the swing rod 13, the swing rod 13 being located above and the solar absorption component 4 are close to institute The middle part rotation connection of 12 one end of bracket is stated, the one end of the underlying swing rod 13 far from the bracket 12 is in that may pass through institute The setting of solar absorption component 4 is stated, and by connecting rod 14 and the solar absorption component 4 far from described 12 one end of bracket Middle part connection, both ends correspondence and 4 turns of the underlying swing rod 13 and the solar absorption component of the connecting rod 14 Dynamic connection, the amplitude that the solar absorption component 4 described in this way is swung up and down can accomplish larger.

Fig. 2 and Fig. 3 are please referred to, in the present embodiment, about 11 ring-shaped guide rail is equipped at intervals with two, and is located below The ring-shaped guide rail 11 compared to the ring-shaped guide rail 11 being located above be in laterally beyond setting, the bracket 12 up and down End correspondence is slidably mounted on described two ring-shaped guide rails 11, and not only the bracket 12 is installed relatively firm in this way, also makes described Solar absorption component 4 is inclined to set, and is conducive to the solar absorption component 4 and absorbs solar energy.

The above is only the preferred embodiment of the present invention, and therefore it does not limit the scope of the patent of the utility model, Under all utility models in the utility model are conceived, equivalent structure made based on the specification and figures of the utility model Transformation, or directly/be used in other related technical areas indirectly and be included in the scope of patent protection of the utility model.

Claims (10)

1. a kind of bridge pier thermoregulation mechanism, for being installed on the outside of bridge pier, which is characterized in that the bridge pier temperature adjuster Structure includes:

Mounting base, to along bridge pier circumferentially and be fixed on the outside of the bridge pier；

Temperature-detecting device, is installed on the mounting base, and the temperature-detecting device is configured to detect the mounting base Water layer temperature near surrounding；

Heating device, is installed on the mounting base, and the heating device is configured to selectively to the mounting base four All some region of water layers nearby are heated；

Solar absorption component is installed on the mounting base, to be energized using solar energy to the heating device；With And

Controller is electrically connected the temperature-detecting device and the heating device, to control the heating device to described The water layer in the lower region of temperature is heated near mounting base surrounding.

2. bridge pier thermoregulation mechanism as described in claim 1, which is characterized in that the heating device include water tank and with The circulation heating tube of the water tank connection, the circulation heating tube are in circumferential direction and the upward and downward arrangement along the mounting base, And control valve group is installed on the circulation heating tube, the controller is electrically connected the control valve group, to pass through control The control valve group is made, so that circulation heating tube line segments corresponding with the lower region of temperature and the water tank connect It is logical, and the water layer in the region is heated, the solar absorption component is to add the water tank using solar energy Heat；And/or

The temperature-detecting device has vertically to the temperature-sensitive portion of extension.

3. bridge pier thermoregulation mechanism as claimed in claim 2, which is characterized in that the control valve group includes reversal valve, institute Stating circulation heating tube includes:

Multiple circulating pipes, between the upper and lower every setting, each circulating pipe is annularly arranged, to be sheathed on the outer of the bridge pier It encloses, and circumferentially spaced equipped with multiple reversal valves on the pipeline of each circulating pipe；And

Multiple communicating pipes are equipped with the communicating pipe vertically to extension between two circulating pipes of arbitrary neighborhood.

4. bridge pier thermoregulation mechanism as claimed in claim 3, which is characterized in that from top to bottom, the multiple circulating pipe it Between spacing in becoming larger setting；And/or

The circulating pipe is square setting, is equipped with the reversal valve in four corners close to the circulating pipe.

5. bridge pier thermoregulation mechanism as claimed in claim 3, which is characterized in that the control valve group further includes set on described The overflow valve being electrically connected on the pipeline of communicating pipe and with the controller.

6. bridge pier thermoregulation mechanism as claimed in claim 5, which is characterized in that the multiple circulating pipe includes multiple upper layers Circulating pipe and multiple lower layer's circulating pipes positioned at the lower section of the multiple upper ocean heat content pipe, between the multiple lower layer's circulating pipe Communicating pipe pipeline be equipped with the overflow valve.

7. bridge pier thermoregulation mechanism as claimed in claim 2, which is characterized in that the solar absorption component includes light Reflecting mirror, the water tank are installed on the reflected light path of the light reflecting mirror, with by reflected sunlight to the water tank into Row heating.

8. bridge pier thermoregulation mechanism as described in claim 1, which is characterized in that the solar absorption component activity installation In the mounting base, the bridge pier thermoregulation mechanism further includes the ray tracing being installed on the solar absorption component Device and the driving mechanism for being drivingly connected the solar absorption component；

Wherein, the controller is electrically connected the ray tracing device and the driving mechanism, to according to the ray tracing Device drives the solar absorption component movable in the mounting base.

9. bridge pier thermoregulation mechanism as claimed in claim 8, which is characterized in that the mounting base includes:

Ring-shaped guide rail, to be sheathed on the periphery of the bridge pier；

Bracket is slidably mounted on the ring-shaped guide rail；And

Swing rod, one end can be installed on the bracket with swinging up and down, and the other end is connect with the solar absorption component；

The driving mechanism includes:

Sliding drive mechanism, to drive the bracket to slide on the ring-shaped guide rail；And

Swing driving mechanism, to drive the swing rod to swing up and down.

10. bridge pier thermoregulation mechanism as claimed in claim 9, which is characterized in that the ring-shaped guide rail is equipped at intervals with up and down Two, and the underlying ring-shaped guide rail compared to the ring-shaped guide rail being located above be in laterally beyond setting, it is described The upper and lower side correspondence of bracket is slidably mounted on described two ring-shaped guide rails；And/or

The one end of the bracket far from the ring-shaped guide rail is between the upper and lower every installation there are two the swing rod, the pendulum being located above Bar and the solar absorption component are rotatablely connected close to the middle part of described bracket one end, and the underlying swing rod is far from institute The one end for stating bracket is arranged in may pass through the solar absorption component, and remote with the solar absorption component by connecting rod Middle part connection from described bracket one end, both ends correspondence and the underlying swing rod and the solar energy of the connecting rod Absorbent assembly rotation connection.