CN208173362U - A kind of energy-storage reactor mounting framework - Google Patents

Abstract

The utility model discloses a kind of energy-storage reactor mounting frameworks, including pedestal, the upper surface of pedestal offers two first sliding grooves, two first sliding grooves pass through two group of first sliding block respectively and are slidably connected respectively there are two vertical plate, symmetrical two the first sliding blocks are fixedly connected with the bottom of one of vertical plate jointly in two first sliding grooves, the opposite side of two vertical plates or so offers two symmetrical second sliding slots along the vertical direction respectively, second sliding slot slidably connects expansion plate by the second sliding block, expansion plate includes outside plate and inner panel, multiple first damping springs are fixedly connected between the bottom of outside plate and the upper surface of pedestal, the surface of inner panel offers two symmetrical third sliding slots, two third sliding slots slidably connect vibration damper plate by third sliding block jointly, it is fixedly connected between vibration damper plate and vertical plate by multiple second damping springs.The structure of the utility model designs advantages of simple, easy to operate, applied widely, has certain damping performance, easy to remove.

Description

A kind of energy-storage reactor mounting framework

Technical field

The utility model relates to reactor technical field more particularly to a kind of energy-storage reactor mounting frameworks.

Background technique

Reactor is also inductor, when a conductor is powered will the certain space range occupied by it generate magnetic field, So the electric conductor of all energy current-carrying has perception in general sense.However the inductance for the long straight conductor that is powered is smaller, it is produced Magnetic field it is not strong, therefore actual reactor is that conducting wire is coiled into helical form of tubes, claims air reactor；Sometimes for allowing this spiral shell Spool has bigger inductance, and iron core is just inserted into solenoid, claims iron-core reactor.Reactance is divided into induction reactance and capacitive reactance, compares The classification of science is that impedor (inductor) and capacitive reactance device (capacitor) are referred to as reactor, however since first there is inductance in the past Device, and referred to as reactor, so capacitor described in people is exactly capacitive reactance device now, and reactor refers exclusively to inductor.

The fixed fixed frame for needing to customize specific dimensions of the installation of existing energy-storage reactor electrical cabinet, the scope of application compared with It is narrow, and be easier to because extraneous collision makes its electric elements inside receive damage, to affect the use of reactor, and one As reactor electrical cabinet weight it is larger, it is mobile more inconvenient.

Utility model content

Purpose of the utility model is to solve the fixed needs of the installation of energy-storage reactor electrical cabinet in the prior art are fixed The problem of fixed frame of specific dimensions processed, narrow scope of application, and a kind of energy-storage reactor mounting framework proposed.

To achieve the goals above, the utility model uses following technical solution：

A kind of energy-storage reactor mounting framework, including pedestal, the upper surface of the pedestal offer two horizontal directions First sliding groove, two first sliding grooves pass through two group of first sliding block respectively and are slidably connected respectively there are two vertical plate, two institutes It states symmetrical two the first sliding blocks in first sliding groove to be fixedly connected with the bottom of vertical plate described in one of them jointly, two described vertical The opposite side of plate or so offers two symmetrical second sliding slots along the vertical direction respectively, and the second sliding slot is sliding by second Block slidably connects expansion plate, and the expansion plate includes outside plate, and the outside plate is hollow structure, and both ends are equipped with opening, institute The both ends for stating outside plate are socketed with inner panel, and the side wall of the outside plate and inner panel is respectively symmetrically equipped with multiple positioning screw holes, described outer Multiple first damping springs are fixedly connected between the bottom of plate and the upper surface of pedestal, the surface of the inner panel offers two Symmetrical third sliding slot, two third sliding slots slidably connect vibration damper plate by third sliding block jointly, the vibration damper plate with It is fixedly connected between vertical plate by multiple second damping springs.

Preferably, the surface of the opposite two side walls of the first sliding groove and the first sliding block is symmetrically arranged with multiple spacer pins Hole, and the first sliding groove is fixed with the first sliding block by limit pin hole bolt.

Preferably, open up fluted at the bottom four corners of the pedestal, the side wall of the vertical side of groove is vertically solid Surely it is equipped with electric pushrod, the side wall of vertical side of the one end of the electric pushrod far from groove inner wall with groove corresponding thereto is equal It is hinged with rotating bar, two rotating bars are respectively further from electric pushrod and one end of groove inner wall is hinged with universal wheel jointly.

Preferably, the electric pushrod is electrically connected by conducting wire and external power supply.

Preferably, the surface of the vibration damper plate offers multiple positioning screw holes, and is threaded with tightly by positioning screw hole Fixing bolt.

Preferably, the lower surface of the pedestal is fixed with one layer of anti-skid rubber cushion.

Compared with prior art, the utility model provides a kind of energy-storage reactor mounting framework, has following beneficial Effect：

1, the energy-storage reactor mounting framework is slidably connected vertical plate by first sliding groove using the first sliding block, and two vertical It is connected with expansion plate between plate, can be that two vertical plates slide in first sliding groove according to the size of energy-storage reactor electrical cabinet, It is adjusted to suitable position and is fixed by limit pin hole bolt, then expansion plate is passed through into positioning screw hole bolt fastening, Neng Gougen It is adjusted according to the electrical cabinet of various sizes of energy-storage reactor, to install fixation to it, the scope of application is wider, does not have to special Be customized skeleton, save the cost.

2, the energy-storage reactor mounting framework, by being fixedly connected with the first damping spring between expansion plate and pedestal, The surface of vertical plate is fixedly connected with vibration damper plate by multiple second damping springs, and mounting framework can be made to have certain damping function Can, preferably avoid making for the vibration influence reactor generated in the use process of energy-storage reactor due to extraneous collision With.

3, the energy-storage reactor mounting framework can needed by the universal wheel being equipped at the bottom four corners of pedestal When will be mobile to reactor, by control electric pushrod elongation, and then push two rotating bars close to each other, thus by universal wheel The bottom of pedestal is squeezed out, the movement of device can be convenient for, saves labour, and when not needing be mobile, it can be by ten thousand It is retracted in groove to wheel, the mobility of universal wheel is avoided to influence the firm placement of device.

And be not directed to part in the device and be the same as those in the prior art or can be realized by using the prior art, this is practical Novel structure designs advantages of simple, easy to operate, applied widely, has certain damping performance, easy to remove.

Detailed description of the invention

Fig. 1 be the utility model proposes a kind of energy-storage reactor mounting framework structural schematic diagram；

Fig. 2 be the utility model proposes a kind of energy-storage reactor mounting framework partial structure diagram.

In figure：1 pedestal, 2 first sliding grooves, 3 first sliding blocks, 4 vertical plates, 5 second sliding slots, 6 second sliding blocks, 7 expansion plates, outside 8 It is plate, 9 inner panels, 10 first damping springs, 11 third sliding slots, 12 third sliding blocks, 13 vibration damper plates, 14 second damping springs, 15 electronic Push rod, 16 rotating bars, 17 universal wheels, 18 fastening bolts.

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 describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.

In the description of the present invention, it should be understood that term " on ", "lower", "front", "rear", "left", "right", The orientation or positional relationship of the instructions such as "top", "bottom", "inner", "outside" is to be based on the orientation or positional relationship shown in the drawings, and is only For ease of description the utility model and simplify description, rather than the device or element of indication or suggestion meaning must have it is specific Orientation, be constructed and operated in a specific orientation, therefore should not be understood as limiting the present invention.

Referring to Fig.1-2, a kind of energy-storage reactor mounting framework, including pedestal 1, the upper surface of pedestal 1 offer two The first sliding groove 2 of horizontal direction, two first sliding grooves 2 are slidably connected by two group of first sliding block 3 respectively respectively, and there are two vertical plates 4, symmetrical two the first sliding blocks 3 are fixedly connected with the bottom of one of vertical plate 4 jointly in two first sliding grooves 2, and two vertical The opposite side of plate 4 or so offers two symmetrical second sliding slots 5 along the vertical direction respectively, and second sliding slot 5 is sliding by second Block 6 slidably connects expansion plate 7, and expansion plate 7 includes outside plate 8, and outside plate 8 is hollow structure, and both ends are equipped with opening, outside plate 8 Both ends be socketed with inner panel 9, the side wall of outside plate 8 and inner panel 9 is respectively symmetrically equipped with multiple positioning screw holes, the bottom of outside plate 8 with Multiple first damping springs 10 are fixedly connected between the upper surface of pedestal 1, the surface of inner panel 9 offers two symmetrical thirds Sliding slot 11, two third sliding slots 11 slidably connect vibration damper plate 13 by third sliding block 12 jointly, between vibration damper plate 13 and vertical plate 4 It is fixedly connected by multiple second damping springs 14.

The surface of the opposite two side walls of first sliding groove 2 and the first sliding block 3 is symmetrically arranged with multiple limit pin holes, and first is sliding Slot 2 is fixed with the first sliding block 3 by limit pin hole bolt.

Open up fluted at the bottom four corners of pedestal 1, the side wall of the vertical side of groove is vertically fixed with electric pushrod 15, the one end of electric pushrod 15 far from groove inner wall and the side wall of the vertical side of groove corresponding thereto are hinged with rotating bar 16, two rotating bars 16 are respectively further from electric pushrod 15 and one end of groove inner wall is hinged with universal wheel 17 jointly.

Electric pushrod 15 is electrically connected by conducting wire and external power supply.

The surface of vibration damper plate 13 offers multiple positioning screw holes, and is threaded with fastening bolt 18 by positioning screw hole.

The lower surface of pedestal 1 is fixed with one layer of anti-skid rubber cushion.

In the utility model, in use, be slidably connected vertical plate 4 by first sliding groove 2 using the first sliding block 3, two vertical plates 4 Between be connected with expansion plate 7, can be that two vertical plates 4 are sliding in first sliding groove 2 according to the size of energy-storage reactor electrical cabinet It is dynamic, it is adjusted to suitable position and is fixed by limit pin hole bolt, then expansion plate 7 is passed through into positioning screw hole bolt fastening, energy Enough to be adjusted according to the electrical cabinet of various sizes of energy-storage reactor, to install fixation to it, the scope of application is wider, does not have to Special to be customized skeleton, save the cost is stood by being fixedly connected with the first damping spring 10 between expansion plate 7 and pedestal 1 The surface of plate 4 is fixedly connected with vibration damper plate 13 by multiple second damping springs 14, and mounting framework can be made to have certain subtract Function is shaken, the vibration influence reactor generated in the use process of energy-storage reactor due to extraneous collision is preferably avoided Use, the universal wheel 17 being equipped at the bottom four corners by pedestal 1 can pass through control when needing mobile to reactor Electric pushrod 15 processed extends, and then pushes two rotating bars 16 close to each other, so that universal wheel 17 to be squeezed out to the bottom of pedestal 1 The movement of device can be convenient in portion, save labour, and when not needing be mobile, universal wheel 17 can be retracted groove It is interior, avoid the mobility of universal wheel 17 from influencing the firm placement of device.

The preferable specific embodiment of the above, only the utility model, but the protection scope of the utility model is not It is confined to this, anyone skilled in the art is within the technical scope disclosed by the utility model, practical according to this Novel technical solution and its utility model design are subject to equivalent substitution or change, should all cover the protection model in the utility model Within enclosing.

Claims (6)

1. a kind of energy-storage reactor mounting framework, including pedestal (1), which is characterized in that the upper surface of the pedestal (1) opens up There is the first sliding groove (2) of two horizontal directions, two first sliding grooves (2) are slided by two group of first sliding block (3) respectively respectively Dynamic connection there are two vertical plate (4), in two first sliding grooves (2) symmetrical two the first sliding blocks (3) jointly with one of them The bottom of the vertical plate (4) is fixedly connected, and the opposite side in two vertical plate (4) left and right offers two along vertical side respectively To symmetrical second sliding slot (5), the second sliding slot (5) is slidably connected expansion plate (7) by the second sliding block (6), described to stretch Contracting plate (7) includes outside plate (8), and the outside plate (8) is hollow structure, and both ends are equipped with opening, and the both ends of the outside plate (8) are equal It is socketed with inner panel (9), the side wall of the outside plate (8) and inner panel (9) is respectively symmetrically equipped with multiple positioning screw holes, the outside plate (8) Bottom and pedestal (1) upper surface between be fixedly connected with multiple first damping springs (10), the surface of the inner panel (9) is opened Equipped with two symmetrical third sliding slots (11), two third sliding slots (11) are slidably connected jointly by third sliding block (12) Vibration damper plate (13) is fixedly connected between the vibration damper plate (13) and vertical plate (4) by multiple second damping springs (14).

2. a kind of energy-storage reactor mounting framework according to claim 1, which is characterized in that the first sliding groove (2) The surface of opposite two side walls and the first sliding block (3) is symmetrically arranged with multiple limit pin holes, and the first sliding groove (2) and first Sliding block (3) is fixed by limit pin hole bolt.

3. a kind of energy-storage reactor mounting framework according to claim 1, which is characterized in that the bottom of the pedestal (1) Portion's four corners open up fluted, and the side wall of the vertical side of groove is vertically fixed with electric pushrod (15), described electronic The side wall of push rod (15) one end and the vertical side of groove corresponding thereto far from groove inner wall is hinged with rotating bar (16), and two A rotating bar (16) is respectively further from electric pushrod (15) and one end of groove inner wall is hinged with universal wheel (17) jointly.

4. a kind of energy-storage reactor mounting framework according to claim 3, which is characterized in that the electric pushrod (15) It is electrically connected by conducting wire and external power supply.

5. a kind of energy-storage reactor mounting framework according to claim 1, which is characterized in that the vibration damper plate (13) Surface offers multiple positioning screw holes, and is threaded with fastening bolt (18) by positioning screw hole.

6. a kind of energy-storage reactor mounting framework according to claim 1, which is characterized in that under the pedestal (1) Surface is fixed with one layer of anti-skid rubber cushion.