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US2983140A - Load indicating and anchoring device for cables and other lines - Google Patents

Load indicating and anchoring device for cables and other lines Download PDF

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Publication number
US2983140A
US2983140A US613253A US61325356A US2983140A US 2983140 A US2983140 A US 2983140A US 613253 A US613253 A US 613253A US 61325356 A US61325356 A US 61325356A US 2983140 A US2983140 A US 2983140A
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lever
line
base
load
sensing unit
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US613253A
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Franklin S Crane
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Martin Decker Corp
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Martin Decker Corp
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B66HOISTING; LIFTING; HAULING
    • B66CCRANES; LOAD-ENGAGING ELEMENTS OR DEVICES FOR CRANES, CAPSTANS, WINCHES, OR TACKLES
    • B66C13/00Other constructional features or details
    • B66C13/16Applications of indicating, registering, or weighing devices

Definitions

  • Another object of this invention is the provision of a device such as described wherein the anchor member is mounted on one end of the lever, and the hydraulic sensing device is contacted and actuated under compression by the other end of the lever, thereby providing a simple construction assuring reliability and accuracy of performanceof the device.
  • a further object of this invention is the provision of a device such as described wherein the anchor member is mounted on one end of the lever for rota rive or pivotal self-aligning movement in -amanner assuring that the load transmitted from the line to the-lever, through the anchor member 'will be accurately indicated.
  • Another objectof this invention is theprovision of a device 10f the character described'wherein-the'end of the lever:opposite the'end'to which the load sustaining line is'anch'ored, is in contact.with a diaphragm forming a part of the eigpansible hydraulic chamber of:the sensing unit, whereby the sensing unit is operated .directly by moyement'rof the'end of the lever contacting the diaphragm,-thereby .eliminating use of link-age or similar means of connection.
  • Fig. 1 is a side elevation of a device embodying the present invention as it would appear when installed on a welldrilling rig for'anchoring the lead line of the hoist system and indicating the load on such line;
  • Fig. 2 is an enlarged elevational view of the device shown in Fig. 1; and t Fig. 3 ;is an elevational view partly in section looking in the direction of the arrows 3-3 on Fig. 2, on anenlarged'scale.
  • I 7 is an elevational view partly in section looking in the direction of the arrows 3-3 on Fig. 2, on anenlarged'scale.
  • Fig. 1 shows a typical installation of the device ofthis invention on the, derrick 9 of a well drilling rig, the line 8' being the dead line of the hoist system of the From the loop'7 a non-tensioned portion 10 of the line 8 is eatendedsoas to lie alongside the load sustaining portion 'ofthe line in outwardly spaced relation to the anchor member 6 and then clamped to the load sustaining portion bypmeansof suitable cable clamps 11.
  • the base 1 is adapted to be mounted on the derrick 9 so that it is in a plane substantially parallel with the line 8. This may be accomplished by bolting the base to a mounting plate 12 which latter maybe fastened to an upright member 9 of the derrick 9-, at the proper angle; As here shown, shims 13 are employed to; set the mounting platein the proper position and these shims may be' secured to the derrick member 9'- and to the plate 12in any suitable manner, for, exampleby'beingweldedthereto. i
  • Suitableanti fr'iction bearings 16 for rotatably mounting the lever 2 are contained in the hub portion 20 around the pin 14.
  • Thrust washers 17 are interposed between the ends of the hub and the inner sides of the ears 15.
  • Suitable seals 18 are provided between the washers 17 and the pin 14 to retain a lubricant 'in the tubular hub 20.
  • the pin -14 maybe provided with a lubricating passage 19 leading into the tubular hub 20
  • The'sensing unit 3 is mounted on a lateral extension 20 of the base 1 and comprises a plate-like body 21 having therein a cavity which with a flexible diaphragm 22,
  • the diaphragm is secured to body 21 by means of clamping ring 24 and fastenings25.
  • This construction provides a plate-like sensing unit which is of small size and compact.
  • the fluid line 4 is communicated with the chamber 23 and leads to the gauge which may be mounted at any suitable location on the derrick 9. 'Movement of the diaphragm 22 creates a hydraulic pressure which 'is reflected by the gauge 5.
  • the sensing unit 3- may be mounted atan augle to the plane of the base l as here shown. This will permit theuse of the comparatively short lever 2 wherein theeouter'end 'of the lever arm 2b isangularly ofr'seLand engaged with the diaphragm r 22.- This offset end of the lever is provided with a presdiaphragm. V It should be noted that the diaphragm 22 is provided with an annular fold 22 which surrounds the periphery of thepressure plate 26 carried on the free end ofthe V lever arm 2b.
  • the pressure plate 26, in other words, one end of the lever'2 is maintained in intimatecontact throughout the area thereof, with substantially all of that portion of the diaphragm bounded by the annular fold 22'. of the diaphragm engaged by one end of the lever is movable bodily like a piston but without the friction pr oduced by: a piston. Accordingly, the device as a whole will operate ,without friction or movement whichiswould cause error in the indication of the load. Also in this arrangement the: diaphragm serves-as a true structural member affording the desired strength and stability and assuring a friction.free'load'transmission with a resultant 7 true load indication.
  • the anchor membero ishere shown inthe form of a pear-shapedthimble mounted in the bifurcated-outer end of the lever arm 2a so that it will move relative to the lever arm and will be self-aligning with respect to the v line 8.
  • the anchor member 6 is pivot ally mounted on a pin,28 which is removably heldin the bifurcated end of the arm 2a in any suitable manner. 7
  • 'A groove 29 is formed in theperiphery of the member 6 for the reception of the:loop 70f the line 8
  • the b1- 'furcated end .of the arm 2a facilitates reeving of the line 8 for forming the'loop7 and; anchoring theline to-the -lever'2.
  • a stop bar 30 is securedtbyv fastenings 31 to the hub V x-p'ortion 2c of the lever 2.
  • This bar is adap edfi elrlgage shoulders "32 formed on the ears ⁇ so -as to limit the 'diap hragm eflect'ed movement of, the lever; that takes "place responsive to'the filling ofithe hydraulic expansive izhar'nber 23 and the hydraulic system including the line *4 and" gauged.”
  • the pivot or fulcrum pin .14 is between the plane of the base 1 and the load sustaining line 8 and is parallel with the plane of the base 1.
  • the pivot pin 28 for the anchor member 6 is parallel with the pin 14 and is inline with the load sustaining line 8.
  • the load on the eable induces a rotating moment of the lever and this moment is opposed by an equal and opposite reaction induced ⁇ by the hydraulic expansible' chamber of the load sensing unit.
  • This reaction of the sensing unit generates a hydraulic pressure which is a constant function of the line load and is indicatedon the gauges.
  • V This gauge may be calibrated to indicate thecable load in pounds.
  • a weight indicator and anchor for a loadsustaining line comprising: a" base adapted to be mounted on a support; a bell crank mounted on said base; 'anexpansible chamber ,on said base; said chamber includingadiaphragm having a fold therein defining a bodily movable portion; one end of said-bell crank being surrounded by said fold and bearing against. said portion of said diaphragm; and an anchor member on-the other end of said, bell crank constructed and arranged for receiving a loop of said line to anchor the line to said other end of the bell crank.
  • a weight indicator and anchor for a load sustaining line comprising: a base adapted to'be mounted on a support; a pair of cars projecting outwardly from the base; a bell crank pivoted on said ears; an expansible hydraulic chamber on said base; said chamber including a diaphragm; said chamber and diaphragm being angularly related to the plane of the base; said bell crank having one end angularlydisposed and in contact with said diaphragm; means for connecting a line to the other end of said bellcrank; and stop members on said ears and said bell crank'respectively, cooperable to including a diaphragm in contact with-one end of said lever; meansfor connecting a line to the other end of said'lever; elements on said lever and said base respectively, cooperable to limit movement ofsaid lever in one direction; and means on said chamber and 'said'lever, respectively, cooperab-le to limit movement "of said lever in the opposite direction.
  • a Y 7 4.-Aweight indicator and anchor for a load sustain- Qingline comprising: a base adapted to be mounted on I a support; a bell crankfulcrumed on said base; a hyldraulic load sensing unit mounted on said base; said unit including angelement having abodily movable portion providing a surface exposed to fluid pressure inssaid unit and another surface contacting one end of said bell crank; said bell crank'being movable in one direction responsive to movement of siaid 'element underfluid pressure in said unit; an'anchor' member adapted to have said 'line anchored thereto; means mounting said ;anc"hor member on the'other end of said bell crankf said bell crankmoving in the other directionresponsiveto the upload on the line; stop elements on said unit and said bell crank respectively, cooperable to limit movement of said bell crank in said other direction; and other stop elements on said base and said bell crank respectively, cooperable to limit movement of said bell crank in said one direction.
  • a weight indicator and anchor for a load sustaining line comprising: an elongated plate like base adapted to be mounted on a support in a plane parallel with said line; a pair of ears extending laterally from,
  • a bell crank fulcrumed between its ends on said ears with the arms thereof extending generally in the direction of said line; a hydraulic load sensingunit including an actuating element having a surface exposed to the hydraulic fluid in said unit and a second surface in contact with one end of said bell crank; means mounting said unit adjacent the other end portion of said base at an angle to the plane of said base; said end of said bell crank being angularly ofiset from the adjacent arm of said bell crank so as to be par allel with said second surface; an anchor member adapted to have said line anchored thereto; and means mounting said anchor member on the other end of said bell crank.
  • a weight indicator for a load sustaining line comprising: a longitudinally extended base; an hydraulic sensing unit including a fluid chamber communicable with a meter device and a shiftable pressure member responsive to pressure applied thereto to force fluid from said chamber; a lever pivotally supported on said base in spaced relation to said sensing unit; said lever having an arm connectable with a line and an arm extending into operative relation to said sensing unit; the improvement wherein the last mentioned lever arm is provided with a head disposed at an angle relative to the arm and engaged with said pressure member; and said pressure member and head being disposed in alignment, whereby angular movement of said lever will impart substantially linear movement to said head through its range of operative movement; said pressure member being in the form of a diaphragm and said head engaging said diaphragm substantially over its entire working area.
  • a weight indicator for a load sustaining line comprising: a base; a lever pivotally supported on said base; an hydraulic sensing unit on said base; said lever having an arm engageable with said sensing unit for operating the latter responsive to pivotal movement of the lever; the improvement wherein said arm extends substantially parallel to the line of pull on the lever from a load sustaining line; said lever also having an arm projecting at an angle to the line of pull from said load sustaining line and adapted to be connected to the latter; and coengageable pressure responsive means on said sensing unit and pressure applying means on the first mentioned lever arm for operating said sensing unit upon upon pivotal movement of said lever, said pressure means being aligned and movable substantially in the direction of arcuate movement of said pressure applying means.
  • a weight indicator for a load sustaining line comprising: a base; a lever pivotally supported on said base; an hydraulic sensing unit on said base; said lever having an arm engageable with said sensing unit for operating the latter responsive to pivotal movement of the lever; the improvement wherein said armextends substantially parallel to the line of pull on the lever from a load sustaining line; said lever also having an arm.
  • a Weight indicator and anchor for a load sustaining line comprising: an elongated plate-like base adapted to be mounted on a support in a plane parallel with said line; a pair of cars extending laterally from one end portion of said base; a bell crank fulcrumed between its ends on said ears with the arms thereof extending generally in the direction of said line; a hydraulic load sensing unit including an actuating element having a surface exposed to the hydraulic fluid in said unit and a second surface in contact with one end of said bell crank; means mounting said unit adjacent the other end portion of said base; said end of said bell crank being parallel with said second surface; an anchor member adapted to have said line anchored thereto; and means mounting said anchor member on the other end of said bell crank;

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  • Mechanical Engineering (AREA)
  • Force Measurement Appropriate To Specific Purposes (AREA)

Description

F. S. CRANE May 9, 1961 LOAD INDICATING AND ANCHORING DEVICE FOR CABLES AND OTHER LINES Filed 001. l, 1956 INVEN TOR. fiAA/AL m 5. CAM/v:
ii/a Affoema.
U t W Pmfl LOAD mmcarnso AND ANCHORINGV amen FOR CABLES AND OTHER LINES 7 Franklin s. Crane, Long Beach, Calif., assignor to Martin- Decker Corporation, Long Beach, Calif., acorporation of Delaware Filed on. '1, 1956, Ser. No. 613,15;
9Claims. (01. 73-143 i P atented May 9, 1961 which is an improvement in this field in point of its compactness, small size, low weight, simplicity :of construction and reliability and accuracy of performance.
It is another object of this invention to provide a device of the character described which makes-it possible to employ as a part thereof, a hydraulic load sensing unit thatis of small size, compact, light "as to weight, simple as to construction and reliable as an accurate actuator for a load indicating gauge. a I
It is an additional object of this invention to provide novel construction'and arrangement of a base, a lever fulcrumed on the base, a hydraulic sensing elementonthe base actuated responsive to. movement of the lever, and an anchor member mounted on the lever for receiving g a device of'the character described which comprises a a loop of a load sustaining line to anchor the line to the lever.
Further it is an object of this invention to provide a device such as described wherein the base is adapted to be mounted on a support in a plane parallel to the load sustaining line that is anchored to the lever, and wherein essential working parts of the device are'disposedbetween the line and the base in a noveland compact arrangement providing the advantages herein noted.
Another object of this invention is the provision of a device such as described wherein the anchor member is mounted on one end of the lever, and the hydraulic sensing device is contacted and actuated under compression by the other end of the lever, thereby providing a simple construction assuring reliability and accuracy of performanceof the device. a g
A further object of this invention is the provision of a device such as described wherein the anchor member is mounted on one end of the lever for rota rive or pivotal self-aligning movement in -amanner assuring that the load transmitted from the line to the-lever, through the anchor member 'will be accurately indicated.
- Another objectof this invention is theprovision of a device 10f the character described'wherein-the'end of the lever:opposite the'end'to which the load sustaining line is'anch'ored, is in contact.with a diaphragm forming a part of the eigpansible hydraulic chamber of:the sensing unit, whereby the sensing unit is operated .directly by moyement'rof the'end of the lever contacting the diaphragm,-thereby .eliminating use of link-age or similar means of connection. heretofore employed inloadindi- V the mounting for the lever, respectively, 'which'cooperate to limit movement of the lever as effected by filling the of the hydraulic chamber readily may be efiected and the lever positioned to accurately transmit the line load to the sensing element.
This invention possesses many other advantages and has other objects which may be made more easily ap parent from a consideration of one embodiment of the invention. For this purpose there is shown a form in the drawings accompanying and forming part or" the present specification. This'form will now be described in detail, illustrating the general principles of the invention; but it is to be understood that this detailed description is not to be taken in a limiting sense, since the scope of the invention is best defined by the appended claims.
Referring to the drawings:
Fig. 1 is a side elevation of a device embodying the present invention as it would appear when installed on a welldrilling rig for'anchoring the lead line of the hoist system and indicating the load on such line;
"Fig. 2 is an enlarged elevational view of the device shown in Fig. 1; and t Fig. 3 ;is an elevational view partly in section looking in the direction of the arrows 3-3 on Fig. 2, on anenlarged'scale. I 7
Referring more specifically to the accompanying drawing, it willbe seen that one form of load indicator and anchor embodying the present invention generally comprises a'plate-like'base 1, a lever 2 fulcrumed on the base, a hydraulic load sensing unit =3 mounted on the base for actuation by direct contact with the lever, a fluid line 4 between the sensing' unit and a load indicating gauge .5, and an anchor member 6 mounted on the lever for receiving a loop 7 of a load sustaining line 8 to anchor the line to the lever.
Fig. 1 shows a typical installation of the device ofthis invention on the, derrick 9 of a well drilling rig, the line 8' being the dead line of the hoist system of the From the loop'7 a non-tensioned portion 10 of the line 8 is eatendedsoas to lie alongside the load sustaining portion 'ofthe line in outwardly spaced relation to the anchor member 6 and then clamped to the load sustaining portion bypmeansof suitable cable clamps 11.
It is desired tomount the base 1 so that the transmission of'the load on the line 8 to the lever 2 will result in an accurate indication of the load, for example in pounds, at the gauge 5 in response to movement of the lever and resultant actuation of the sensing unit 3. It is also desired that'this mounting of the'base 1 be such that the lever 2 may be comparatively small and mounted in closecompass with the anchor member 6 and the sensing unit 3, whereby the device as a whole may be constructed of but few parts of light weight in a compact arrangement. V 1
As shown in Fig. l, the base 1 is adapted to be mounted on the derrick 9 so that it is in a plane substantially parallel with the line 8. This may be accomplished by bolting the base to a mounting plate 12 which latter maybe fastened to an upright member 9 of the derrick 9-, at the proper angle; As here shown, shims 13 are employed to; set the mounting platein the proper position and these shims may be' secured to the derrick member 9'- and to the plate 12in any suitable manner, for, exampleby'beingweldedthereto. i
I C-ompactnes's, lightweight and 'accuracyof performance otthe device'are achieved in part by makinglthe lever2 in the "formlof a bell crank having short arms 2a and 2b perfe'rably spaced lessthan apart, so that-the lever r -forindicatingthe load'on th'linei iacen'tone end or the base 1. Suitableanti fr'iction bearings 16 for rotatably mounting the lever 2 are contained in the hub portion 20 around the pin 14. Thrust washers 17 are interposed between the ends of the hub and the inner sides of the ears 15. Suitable seals 18 are provided between the washers 17 and the pin 14 to retain a lubricant 'in the tubular hub 20. The pin -14 maybe provided with a lubricating passage 19 leading into the tubular hub 20 The'sensing unit 3 is mounted on a lateral extension 20 of the base 1 and comprises a plate-like body 21 having therein a cavity which with a flexible diaphragm 22,
forms an expansible chamber 23 forcontaining hydraulic fluid. The diaphragm is secured to body 21 by means of clamping ring 24 and fastenings25. This construction provides a plate-like sensing unit which is of small size and compact. The fluid line 4 is communicated with the chamber 23 and leads to the gauge which may be mounted at any suitable location on the derrick 9. 'Movement of the diaphragm 22 creates a hydraulic pressure which 'is reflected by the gauge 5.
In order to maintain compactness and simplicityjn the construction of the device, the sensing unit 3-may be mounted atan augle to the plane of the base l as here shown. This will permit theuse of the comparatively short lever 2 wherein theeouter'end 'of the lever arm 2b isangularly ofr'seLand engaged with the diaphragm r 22.- This offset end of the lever is provided with a presdiaphragm. V It should be noted that the diaphragm 22 is provided with an annular fold 22 which surrounds the periphery of thepressure plate 26 carried on the free end ofthe V lever arm 2b. With this arrangement, the pressure plate 26, in other words, one end of the lever'2, is maintained in intimatecontact throughout the area thereof, with substantially all of that portion of the diaphragm bounded by the annular fold 22'. of the diaphragm engaged by one end of the lever is movable bodily like a piston but without the friction pr oduced by: a piston. Accordingly, the device as a whole will operate ,without friction or movement whichiswould cause error in the indication of the load. Also in this arrangement the: diaphragm serves-as a true structural member affording the desired strength and stability and assuring a friction.free'load'transmission with a resultant 7 true load indication. j v 1 4 7 I The anchor membero ishere shown inthe form of a pear-shapedthimble mounted in the bifurcated-outer end of the lever arm 2a so that it will move relative to the lever arm and will be self-aligning with respect to the v line 8. As here shown, the anchor member 6 is pivot ally mounted on a pin,28 which is removably heldin the bifurcated end of the arm 2a in any suitable manner. 7
'A groove 29 is formed in theperiphery of the member 6 for the reception of the:loop 70f the line 8 The b1- 'furcated end .of the arm 2a facilitates reeving of the line 8 for forming the'loop7 and; anchoring theline to-the -lever'2.
A stop bar 30 is securedtbyv fastenings 31 to the hub V x-p'ortion 2c of the lever 2. This baris adap edfi elrlgage shoulders "32 formed on the ears {so -as to limit the 'diap hragm eflect'ed movement of, the lever; that takes "place responsive to'the filling ofithe hydraulic expansive izhar'nber 23 and the hydraulic system including the line *4 and" gauged." When the stop bar is engagedwith thefshoulder 32 the device is injr ea'diness foroperation Moreover all of that portion It is important to note that the pivot or fulcrum pin .14 is between the plane of the base 1 and the load sustaining line 8 and is parallel with the plane of the base 1. The pivot pin 28 for the anchor member 6 is parallel with the pin 14 and is inline with the load sustaining line 8. These arrangements provide a compact closely coupled device making possible the use of a short, lightweight lever and a similar lightweight and compact sensing unit assuring accuracy of performance of the device as a load 'or weight indicator and cable anchor.
In having-the line ofaction 'ofvthe cable parallel to the plane ofthe base and in employingthe lever 2 and sensing element 3 in the manner here disclosed, the load on the eable induces a rotating moment of the lever and this moment is opposed by an equal and opposite reaction induced {by the hydraulic expansible' chamber of the load sensing unit. This reaction of the sensing unit generates a hydraulic pressure which is a constant function of the line load and is indicatedon the gauges.
V This gauge may be calibrated to indicate thecable load in pounds.
a With reference to the foregoing description and drawings, it will be apparent thata device embodying the present'invention will provide the advantages herein noted in a particularly efficacious manner.
"I claim: 7
.1. A weight indicator and anchor for a loadsustaining line comprising: a" base adapted to be mounted on a support; a bell crank mounted on said base; 'anexpansible chamber ,on said base; said chamber includingadiaphragm having a fold therein defining a bodily movable portion; one end of said-bell crank being surrounded by said fold and bearing against. said portion of said diaphragm; and an anchor member on-the other end of said, bell crank constructed and arranged for receiving a loop of said line to anchor the line to said other end of the bell crank.
2. A weight indicator and anchor for a load sustaining line comprising: a base adapted to'be mounted on a support; a pair of cars projecting outwardly from the base; a bell crank pivoted on said ears; an expansible hydraulic chamber on said base; said chamber including a diaphragm; said chamber and diaphragm being angularly related to the plane of the base; said bell crank having one end angularlydisposed and in contact with said diaphragm; means for connecting a line to the other end of said bellcrank; and stop members on said ears and said bell crank'respectively, cooperable to including a diaphragm in contact with-one end of said lever; meansfor connecting a line to the other end of said'lever; elements on said lever and said base respectively, cooperable to limit movement ofsaid lever in one direction; and means on said chamber and 'said'lever, respectively, cooperab-le to limit movement "of said lever in the opposite direction. p a Y 7 4.-Aweight indicator and anchor for a load sustain- Qingline comprising: a base adapted to be mounted on I a support; a bell crankfulcrumed on said base; a hyldraulic load sensing unit mounted on said base; said unit including angelement having abodily movable portion providing a surface exposed to fluid pressure inssaid unit and another surface contacting one end of said bell crank; said bell crank'being movable in one direction responsive to movement of siaid 'element underfluid pressure in said unit; an'anchor' member adapted to have said 'line anchored thereto; means mounting said ;anc"hor member on the'other end of said bell crankf said bell crankmoving in the other directionresponsiveto the upload on the line; stop elements on said unit and said bell crank respectively, cooperable to limit movement of said bell crank in said other direction; and other stop elements on said base and said bell crank respectively, cooperable to limit movement of said bell crank in said one direction.
5. A weight indicator and anchor for a load sustaining line comprising: an elongated plate like base adapted to be mounted on a support in a plane parallel with said line; a pair of ears extending laterally from,
one end portion of said base; a bell crank fulcrumed between its ends on said ears with the arms thereof extending generally in the direction of said line; a hydraulic load sensingunit including an actuating element having a surface exposed to the hydraulic fluid in said unit and a second surface in contact with one end of said bell crank; means mounting said unit adjacent the other end portion of said base at an angle to the plane of said base; said end of said bell crank being angularly ofiset from the adjacent arm of said bell crank so as to be par allel with said second surface; an anchor member adapted to have said line anchored thereto; and means mounting said anchor member on the other end of said bell crank.
6. In a weight indicator for a load sustaining line comprising: a longitudinally extended base; an hydraulic sensing unit including a fluid chamber communicable with a meter device and a shiftable pressure member responsive to pressure applied thereto to force fluid from said chamber; a lever pivotally supported on said base in spaced relation to said sensing unit; said lever having an arm connectable with a line and an arm extending into operative relation to said sensing unit; the improvement wherein the last mentioned lever arm is provided with a head disposed at an angle relative to the arm and engaged with said pressure member; and said pressure member and head being disposed in alignment, whereby angular movement of said lever will impart substantially linear movement to said head through its range of operative movement; said pressure member being in the form of a diaphragm and said head engaging said diaphragm substantially over its entire working area.
7. In a weight indicator for a load sustaining line comprising: a base; a lever pivotally supported on said base; an hydraulic sensing unit on said base; said lever having an arm engageable with said sensing unit for operating the latter responsive to pivotal movement of the lever; the improvement wherein said arm extends substantially parallel to the line of pull on the lever from a load sustaining line; said lever also having an arm projecting at an angle to the line of pull from said load sustaining line and adapted to be connected to the latter; and coengageable pressure responsive means on said sensing unit and pressure applying means on the first mentioned lever arm for operating said sensing unit upon upon pivotal movement of said lever, said pressure means being aligned and movable substantially in the direction of arcuate movement of said pressure applying means.
8. In a weight indicator for a load sustaining line comprising: a base; a lever pivotally supported on said base; an hydraulic sensing unit on said base; said lever having an arm engageable with said sensing unit for operating the latter responsive to pivotal movement of the lever; the improvement wherein said armextends substantially parallel to the line of pull on the lever from a load sustaining line; said lever also having an arm. projecting at an angle to the line of pull from said load sustaining line and adapted to be connected to the latter; and coengageabie pressure responsive means on said sensing unit and pressure applying means on the first mentioned lever arm for operating said sensing unit upon pivotal movement of said lever, said pressure means being aligned and movable substantially in the direction of arcuate movement of said pressure applying means; said pressure responsive means comprising a diaphragm and said pressure applying means comprising a pressure head contacting said diaphragm over substantially its entire operating area.
9. A Weight indicator and anchor for a load sustaining line comprising: an elongated plate-like base adapted to be mounted on a support in a plane parallel with said line; a pair of cars extending laterally from one end portion of said base; a bell crank fulcrumed between its ends on said ears with the arms thereof extending generally in the direction of said line; a hydraulic load sensing unit including an actuating element having a surface exposed to the hydraulic fluid in said unit and a second surface in contact with one end of said bell crank; means mounting said unit adjacent the other end portion of said base; said end of said bell crank being parallel with said second surface; an anchor member adapted to have said line anchored thereto; and means mounting said anchor member on the other end of said bell crank;
References Cited in the tile of this patent UNITED STATES PATENTS 1,417,462 Eason May 23, 1922 1,435,603 Hanser Nov. 14, 1922 1,872,087 Martin Aug. 16, 1932 2,030,529 Nash Feb. 11, 1936 2,235,279 Bunker Mar. 18, 1941 2,311,762 Knottmann Feb. 23, 1943 2,488,070 Spaulding Nov. 15, 1949
US613253A 1956-10-01 1956-10-01 Load indicating and anchoring device for cables and other lines Expired - Lifetime US2983140A (en)

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Cited By (4)

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US2983139A (en) * 1959-02-24 1961-05-09 Kvp Sutherland Paper Co Machine for testing perforations in tear open cartons
US4172688A (en) * 1976-11-26 1979-10-30 Fiat-Allis Macchine Movimento Terra S.P.A. Device for anti-rolling signalling for cable laying tractors
US4350048A (en) * 1979-01-10 1982-09-21 Vasipari Kutato Intezet Measuring journal for the conversion of force to electric signal
US4373402A (en) * 1981-03-09 1983-02-15 Gse, Inc. Method and apparatus for measuring cable tension in a parking brake assembly

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Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2983139A (en) * 1959-02-24 1961-05-09 Kvp Sutherland Paper Co Machine for testing perforations in tear open cartons
US4172688A (en) * 1976-11-26 1979-10-30 Fiat-Allis Macchine Movimento Terra S.P.A. Device for anti-rolling signalling for cable laying tractors
US4350048A (en) * 1979-01-10 1982-09-21 Vasipari Kutato Intezet Measuring journal for the conversion of force to electric signal
US4373402A (en) * 1981-03-09 1983-02-15 Gse, Inc. Method and apparatus for measuring cable tension in a parking brake assembly

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