CN208921563U - A kind of debugging of constant-force spring hanger and load detecting device - Google Patents

Abstract

The utility model discloses a kind of debugging of constant-force spring hanger and load detecting devices, the bottom of first hydraulic jack and the bottom of the second hydraulic jack adsorb on the lower surface of constant-force spring hanger insole board, first hydraulic jack and the second hydraulic jack are located at the two sides of the load output pull rod of constant-force spring hanger, the upper end of first load detection bar assembly is connected with the output shaft of the first hydraulic jack, the upper end of second load detection bar assembly is connected with the output shaft of the second hydraulic jack, the first load transducer and the second load transducer are respectively arranged in the middle part of the middle part of first load detection bar assembly and the second load detection bar assembly, the lower end of first load detection bar assembly, second load detects the lower end of bar assembly and the lower end of constant-force spring hanger load output pull rod and fixes and pass through lock Fixed arm component, the device can be realized the debugging of constant-force spring hanger and the on-site test of load, efficiency and highly-safe.

Description

A kind of debugging of constant-force spring hanger and load detecting device

Technical field

The utility model relates to a kind of debugging and load detecting devices, and in particular to a kind of debugging of constant-force spring hanger and Load detecting device.

Background technique

Due to linear constant-force spring hanger compared with lever constant-force spring hanger can reach bigger load and displacement, And performance is more excellent, linear constant-force spring hanger at home the industries such as electric power and petrochemical industry obtained it is commonly used, But there is not yet field adjustable dedicated unit, common debugging method is exactly to rely in the case where constant-force spring hanger load Worker directly debugs adjusting nut 21 by pipe wrench, and disadvantage is shown: (1) low efficiency, sometimes several workers with several days when Between could debug one group of linear constant-force spring hanger；(2) nut of the linear constant-force spring hanger of in-service unit with There is corrosion in various degree in sunpender junction screw thread, can not even transfer nut using traditional method；(3) by force using outer When power adjusts the nut of linear constant-force spring hanger, it is easy to cause nut or sunpender screw thread " stripped thread ", sunpender is by mistake sometimes Degree distortion may be broken the generation so as to cause safety accident.(4) it is not easy to on-site test constant-force spring hanger load Lotus.

Utility model content

The shortcomings that the purpose of the utility model is to overcome the above-mentioned prior arts provides a kind of constant-force spring hanger tune Examination and load detecting device, which can be realized the debugging of constant-force spring hanger and the on-site test of load, and debug It is high-efficient, securely and reliably.

In order to achieve the above objectives, constant-force spring hanger described in the utility model debugging and load detecting device include the One hydraulic jack, the second hydraulic jack, the first load detection bar assembly, the second load detection bar assembly, locking arm component, Hydraulic pump and display；

The bottom of first hydraulic jack and the bottom of the second hydraulic jack adsorb to constant-force spring hanger indsole On the lower surface of plate, the load output that the first hydraulic jack and the second hydraulic jack are located at constant-force spring hanger is drawn The upper end of the two sides of bar, the first load detection bar assembly is connected with the output shaft of the first hydraulic jack, the detection of the second load The upper end of bar assembly is connected with the output shaft of the second hydraulic jack, and the first load detects middle part and the second load of bar assembly The first load transducer and the second load transducer are respectively arranged in the middle part of detection bar assembly, the first load detects bar assembly The lower end of lower end, the lower end of the second load detection bar assembly and constant-force spring hanger load output pull rod is fixed and passes through lock The outlet of fixed arm component, hydraulic pump is connected with the entrance of the entrance of the first hydraulic jack and the second hydraulic jack, display Device is connected with the output end of the output end of the first load transducer and the second load transducer.

Locking arm component includes the first cuboid, the second cuboid, the first bolt, the second bolt, third bolt and the 4th Bolt, wherein be disposed with the first groove, the second groove and third groove on the first cuboid, be arranged on the second cuboid There are the 4th groove, the 5th groove and the 6th groove of the first groove of face, the second groove and third groove respectively, wherein first Groove and the 4th groove form first through hole, and the second groove and the 5th groove form the second through-hole, third groove and the 6th groove Form third through-hole, wherein the lower end that the first load detects bar assembly passes through first through hole, and the first load detects bar assembly Lower end is socketed with the first nut, and the lower end that the second load detects bar assembly passes through third through-hole, and the second load detects bar assembly Lower end be socketed with the second nut, the load output pull rod of constant-force spring hanger passes through the second through-hole, and constant force spring support is hung It is threadedly coupled between the wall surface and the inner wall of the second through-hole of frame load output pull rod；

First bolt, the second bolt, third bolt and the 4th bolt both pass through the first cuboid and the second cuboid, and first Through-hole is located at the first bolt between the second bolt, and the second through-hole is located at the second bolt between third bolt, third through-hole position In third bolt between the 4th bolt.

The outlet of hydraulic pump is through Y type hydraulic connecting pipe and the entrance of the first hydraulic jack and entering for the second hydraulic jack Mouth is connected.

The bottom of first hydraulic jack and the bottom of the second hydraulic jack pass through magnet and are adsorbed in constant force spring support On the lower surface of hanger insole board.

It is provided on the end face of first hydraulic jack output shaft and on the end face of the second hydraulic jack output shaft recessed The upper end of slot, the first load detection bar assembly is inserted in the groove on the first hydraulic jack output shaft end face；Second load The upper end of detection bar assembly is inserted in the groove on the second hydraulic jack output shaft end face.

Display is connected by conducting wire with the output end of the output end of the first load transducer and the second load transducer.

The utility model has the following beneficial effects:

Constant-force spring hanger described in the utility model debugging and load detecting device are when specific operation, by hydraulic Pump pressurizes, and then tightens the adjusting nut on constant-force spring hanger, is carving the displacement pointer of constant-force spring hanger Reading on degree board tunes up；Furthermore it is possible to unclamp the adjusting nut on constant-force spring hanger, then subtracted by hydraulic pump Pressure, turns reading of the displacement pointer of constant-force spring hanger on scale-board down, to realize the debugging of constant-force spring hanger, Safety and efficiency are higher.In addition, the first load of display real-time display detection bar assembly and the second load detect bar assembly Load information and sum of the two, simple, convenient to realize the live real-time detection of constant-force spring hanger load, peace Entirely, laborsaving, efficiently solve traditional line formula constant-force spring hanger field adjustable difficulty big, low efficiency, can not transfer and The problem of sunpender and nut are damaged in debugging process.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the utility model；

Fig. 2 is the structural schematic diagram that arm component 1 is locked in the utility model；

Fig. 3 is that the first load detects bar assembly 2, the second load detects bar assembly 3 and display 17 in the utility model Annexation figure；

Fig. 4 is the structural schematic diagram of the first hydraulic jack 4 in the utility model；

Fig. 5 is the connection signal of hydraulic pump 7 and the first hydraulic jack 4 and the second hydraulic jack 5 in the utility model Figure.

Wherein, 1 it is locking arm component, 2 be the first load detection bar assembly, 3 be the second load detection bar assembly, 4 is the One hydraulic jack, 5 be the second hydraulic jack, 6 be Y type hydraulic connecting pipe, 7 be hydraulic pump, 8 be the first cuboid, 9 be the Two cuboids, 10 for the first bolt, 11 be the second bolt, 12 be third bolt, 13 be the 4th bolt, 14 be load output draw Bar, 15 for the first load transducer, 16 be the second load transducer, 17 be display, 18 be bottom plate, 19 be displacement pointer, 20 It is adjusting nut for scale-board, 21,22 is load bolt.

Specific embodiment

The utility model is described in further detail with reference to the accompanying drawing:

With reference to Fig. 1 and Fig. 3, constant-force spring hanger debugging described in the utility model and load detecting device include first Hydraulic jack 4, the second hydraulic jack 5, the first load detection bar assembly 2, the second load detect bar assembly 3, lock arm group Part 1, hydraulic pump 7 and display 17；The bottom of first hydraulic jack 4 and the bottom of the second hydraulic jack 5 adsorb to perseverance On the lower surface of power spring support hanging frame insole board 18, the first hydraulic jack 4 and the second hydraulic jack 5 are located at constant force bullet The two sides of the load output pull rod 14 of spring bearing hanger, the first load detect the defeated of upper end and the first hydraulic jack 4 of bar assembly 2 Shaft is connected, and the upper end of the second load detection bar assembly 3 is connected with the output shaft of the second hydraulic jack 5, the first load The middle part at the middle part and the second load detection bar assembly 3 of detecting bar assembly 2 is respectively arranged with the first load transducer 15 and second Load transducer 16, the first load detect the lower end of bar assembly 2, the lower end of the second load detection bar assembly 3 and constant force spring support The lower end that hanger load exports pull rod 14 is fixed and passes through locking arm component 1, the outlet of hydraulic pump 7 and the first hydraulic jack 4 entrance and the entrance of the second hydraulic jack 5 are connected, the output end and second of display 17 and the first load transducer 15 The output end of load transducer 16 is connected；Wherein, display 17 by the output end of conducting wire and the first load transducer 15 and The output end of second load transducer 16 is connected.

With reference to Fig. 2, lock arm component 1 include the first cuboid 8, the second cuboid 9, the first bolt 10, the second bolt 11, Third bolt 12 and the 4th bolt 13, wherein it is recessed that the first groove, the second groove and third are disposed on the first cuboid 8 The 4th groove, the 5th groove of the first groove of face, the second groove and third groove respectively are provided on slot, the second cuboid 9 And the 6th groove, wherein the first groove and the 4th groove form first through hole, and the second groove and the 5th groove composition second lead to Hole, third groove and the 6th groove form third through-hole, wherein and the lower end that the first load detects bar assembly 2 passes through first through hole, And first the lower end of load detection bar assembly 2 be socketed with the first nut, the lower end that the second load detects bar assembly 3 is logical across third Hole, and the lower end of the second load detection bar assembly 3 is socketed with the second nut, the load output pull rod 14 of constant-force spring hanger is worn The second through-hole is crossed, and is threadedly coupled between the wall surface and the inner wall of the second through-hole of constant-force spring hanger load output pull rod 14； First bolt 10, the second bolt 11, third bolt 12 and the 4th bolt 13 both pass through the first cuboid 8 and the second cuboid 9, the One through-hole is located at the first bolt 10 between the second bolt 11, and the second through-hole is located at the second bolt 11 between third bolt 12, Third through-hole is located at third bolt 12 between the 4th bolt 13.

With reference to Fig. 5, the outlet of hydraulic pump 7 is through the entrance of Y type hydraulic connecting pipe 6 and the first hydraulic jack 4 and the second liquid The entrance of pressure jack 5 is connected.

Pass through magnet with reference to the bottom of the first hydraulic jack of Fig. 44 and the bottom of the second hydraulic jack 5 and be adsorbed in perseverance On the lower surface of power spring support hanging frame insole board 18；On the end face of first hydraulic jack, 4 output shaft and the second hydraulic jack 5 Groove is provided on the end face of output shaft, the upper end of the first load detection bar assembly 2 is inserted in the output of the first hydraulic jack 4 In groove in axial end；The upper end of second load detection bar assembly 3 is inserted on 5 output shaft end face of the second hydraulic jack In groove.

The specific operation process of the utility model are as follows:

The installation of the utility model, then appropriate hydraulic pump 7 are first carried out by pressurization, until constant-force spring hanger load is defeated Out until the load unloading of 14 lower part of pull rod；

When needing reading " downward " of the displacement pointer 19 by constant-force spring hanger on scale-board 20 to tune up, then lead to It crosses hydraulic pump 7 to continue to pressurize, until the displacement instruction of pointer 19 until the corresponding position of scale-board 20, then tightens constant force spring Adjusting nut 21 on suspension and support, until the stress of locking constant-force spring hanger load output pull rod 14；

When needing reading " upward " of the displacement pointer 19 by constant-force spring hanger on scale-board 20 to turn down, then put Loose adjusting nut 21, until the part that constant-force spring hanger load output pull rod 14 is located at 1 lower section of locking arm component is located completely It is depressurized until unloaded state, then through hydraulic pump 7, until displacement pointer 19 indicates the corresponding position on scale-board 20 Until, adjusting nut 21 is then tightened, until the stress of locking constant-force spring hanger load output pull rod 14；

In practical operation, either the pressurization of hydraulic pump 7 moves down constant-force spring hanger displacement pointer 19, still Hydraulic pump 7 decompression make constant-force spring hanger displacement pointer 19 move up, can portable adjusting make be displaced pointer 19 instruction arrive The target location of dial.

In addition, 17 the first load of real-time display of display detection bar assembly 2 and the second load detection bar assembly 3 load with And sum of the two, the load bolt 22 of constant-force spring hanger, which is exactly in, during being read due to debugging displacement pointer 19 unloads Load state, therefore can also be by the load bolt 22 of debugging constant-force spring hanger, to change the full payload of hanger.

Claims (6)

1. a kind of debugging of constant-force spring hanger and load detecting device, which is characterized in that including the first hydraulic jack (4), Second hydraulic jack (5), the first load detection bar assembly (2), the second load detection bar assembly (3), locking arm component (1), Hydraulic pump (7) and display (17)；

The bottom of first hydraulic jack (4) and the bottom of the second hydraulic jack (5) adsorb in constant-force spring hanger On the lower surface of bottom plate (18), the first hydraulic jack (4) and the second hydraulic jack (5) are located at constant-force spring hanger Load output pull rod (14) two sides, the first load detect bar assembly (2) upper end and the first hydraulic jack (4) output Axis is connected, and the upper end of the second load detection bar assembly (3) is connected with the output shaft of the second hydraulic jack (5), and first carries The first load transducer is respectively arranged in the middle part of the middle part of lotus detection bar assembly (2) and the second load detection bar assembly (3) (15) and the second load transducer (16), the lower end of the first load detection bar assembly (2), the second load detect bar assembly (3) Lower end and the lower end of constant-force spring hanger load output pull rod (14) are fixed and pass through locking arm component (1), hydraulic pump (7) Outlet be connected with the entrance of the entrance of the first hydraulic jack (4) and the second hydraulic jack (5), display (17) and the The output end of one load transducer (15) and the output end of the second load transducer (16) are connected.

2. constant-force spring hanger debugging according to claim 1 and load detecting device, which is characterized in that lock arm group Part (1) include the first cuboid (8), the second cuboid (9), the first bolt (10), the second bolt (11), third bolt (12) and 4th bolt (13), wherein the first groove, the second groove and third groove, the second length are disposed on the first cuboid (8) It is recessed that the 4th groove of the first groove of face, the second groove and third groove, the 5th groove and the 6th respectively are provided in cube (9) Slot, wherein the first groove and the 4th groove form first through hole, and the second groove and the 5th groove form the second through-hole, and third is recessed Slot and the 6th groove form third through-hole, wherein the lower end that the first load detects bar assembly (2) passes through first through hole, and first The lower end of load detection bar assembly (2) is socketed with the first nut, and the lower end that the second load detects bar assembly (3) is logical across third Hole, and the lower end of the second load detection bar assembly (3) is socketed with the second nut, the load of constant-force spring hanger exports pull rod (14) the second through-hole, and spiral shell between the wall surface of constant-force spring hanger load output pull rod (14) and the inner wall of the second through-hole are passed through Line connection；

First bolt (10), the second bolt (11), third bolt (12) and the 4th bolt (13) both pass through the first cuboid (8) and Second cuboid (9), first through hole are located at the first bolt (10) between the second bolt (11), and the second through-hole is located at the second bolt (11) between third bolt (12), third through-hole is located at third bolt (12) between the 4th bolt (13).

3. constant-force spring hanger debugging according to claim 1 and load detecting device, which is characterized in that hydraulic pump (7) outlet is through Y type hydraulic connecting pipe (6) and the entrance of the first hydraulic jack (4) and the entrance of the second hydraulic jack (5) It is connected.

4. constant-force spring hanger debugging according to claim 1 and load detecting device, which is characterized in that first is hydraulic The bottom of jack (4) and the bottom of the second hydraulic jack (5) pass through magnet and are adsorbed in constant-force spring hanger insole board (18) on lower surface.

5. constant-force spring hanger debugging according to claim 1 and load detecting device, which is characterized in that first is hydraulic Groove, the first load are provided on the end face of jack (4) output shaft and on the end face of the second hydraulic jack (5) output shaft The upper end of detection bar assembly (2) is inserted in the groove on the first hydraulic jack (4) output shaft end face；Second load detection bar The upper end of component (3) is inserted in the groove on the second hydraulic jack (5) output shaft end face.

6. constant-force spring hanger debugging according to claim 1 and load detecting device, which is characterized in that display (17) it is connected by conducting wire with the output end of the output end of the first load transducer (15) and the second load transducer (16).