CN104649129A - Method And Structure Used For Fastening Cathode Hook Assembly - Google Patents
Method And Structure Used For Fastening Cathode Hook Assembly Download PDFInfo
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- CN104649129A CN104649129A CN201310612931.2A CN201310612931A CN104649129A CN 104649129 A CN104649129 A CN 104649129A CN 201310612931 A CN201310612931 A CN 201310612931A CN 104649129 A CN104649129 A CN 104649129A
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- negative electrode
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- hook assembly
- grabbing device
- electrode hook
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- 238000000034 method Methods 0.000 title claims abstract description 43
- 230000005540 biological transmission Effects 0.000 claims abstract description 31
- 239000000725 suspension Substances 0.000 claims description 47
- 230000004807 localization Effects 0.000 claims description 8
- 239000000446 fuel Substances 0.000 claims description 5
- 238000003754 machining Methods 0.000 claims description 5
- 238000007599 discharging Methods 0.000 claims description 2
- 238000007493 shaping process Methods 0.000 claims 1
- 230000001105 regulatory effect Effects 0.000 description 4
- 238000005363 electrowinning Methods 0.000 description 3
- 239000002184 metal Substances 0.000 description 2
- 229910052751 metal Inorganic materials 0.000 description 2
- RYGMFSIKBFXOCR-UHFFFAOYSA-N Copper Chemical compound [Cu] RYGMFSIKBFXOCR-UHFFFAOYSA-N 0.000 description 1
- QAOWNCQODCNURD-UHFFFAOYSA-N Sulfuric acid Chemical compound OS(O)(=O)=O QAOWNCQODCNURD-UHFFFAOYSA-N 0.000 description 1
- 229910052802 copper Inorganic materials 0.000 description 1
- 239000010949 copper Substances 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 230000001771 impaired effect Effects 0.000 description 1
- 238000009434 installation Methods 0.000 description 1
- 230000008520 organization Effects 0.000 description 1
Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B66—HOISTING; LIFTING; HAULING
- B66C—CRANES; LOAD-ENGAGING ELEMENTS OR DEVICES FOR CRANES, CAPSTANS, WINCHES, OR TACKLES
- B66C1/00—Load-engaging elements or devices attached to lifting or lowering gear of cranes or adapted for connection therewith for transmitting lifting forces to articles or groups of articles
- B66C1/10—Load-engaging elements or devices attached to lifting or lowering gear of cranes or adapted for connection therewith for transmitting lifting forces to articles or groups of articles by mechanical means
- B66C1/12—Slings comprising chains, wires, ropes, or bands; Nets
- B66C1/14—Slings with hooks
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B66—HOISTING; LIFTING; HAULING
- B66C—CRANES; LOAD-ENGAGING ELEMENTS OR DEVICES FOR CRANES, CAPSTANS, WINCHES, OR TACKLES
- B66C13/00—Other constructional features or details
- B66C13/04—Auxiliary devices for controlling movements of suspended loads, or preventing cable slack
- B66C13/08—Auxiliary devices for controlling movements of suspended loads, or preventing cable slack for depositing loads in desired attitudes or positions
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- C—CHEMISTRY; METALLURGY
- C25—ELECTROLYTIC OR ELECTROPHORETIC PROCESSES; APPARATUS THEREFOR
- C25B—ELECTROLYTIC OR ELECTROPHORETIC PROCESSES FOR THE PRODUCTION OF COMPOUNDS OR NON-METALS; APPARATUS THEREFOR
- C25B15/00—Operating or servicing cells
-
- C—CHEMISTRY; METALLURGY
- C25—ELECTROLYTIC OR ELECTROPHORETIC PROCESSES; APPARATUS THEREFOR
- C25C—PROCESSES FOR THE ELECTROLYTIC PRODUCTION, RECOVERY OR REFINING OF METALS; APPARATUS THEREFOR
- C25C7/00—Constructional parts, or assemblies thereof, of cells; Servicing or operating of cells
- C25C7/06—Operating or servicing
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B66—HOISTING; LIFTING; HAULING
- B66C—CRANES; LOAD-ENGAGING ELEMENTS OR DEVICES FOR CRANES, CAPSTANS, WINCHES, OR TACKLES
- B66C2700/00—Cranes
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- Chemical & Material Sciences (AREA)
- Engineering & Computer Science (AREA)
- Chemical Kinetics & Catalysis (AREA)
- Electrochemistry (AREA)
- Materials Engineering (AREA)
- Metallurgy (AREA)
- Organic Chemistry (AREA)
- Mechanical Engineering (AREA)
- Load-Engaging Elements For Cranes (AREA)
Abstract
The present invention relates to a method and a structure used for fastening a cathode hook assembly (1) to a grasping device (2) of a transmission device (3), the transmission device (3) is configured to transmit, rise and drop a cathode plate (4), and the grasping device (2) is suspended down from a trolley (6) of a gantry crane (7). By inserting the first sleeve alignment elements (10) into a first grasping device hole (8a) of the grasping device (2) and a first cathode hook assembly hole (9a) of the cathode hook assembly (1), and inserting the second sleeve alignment elements (10) into the second grasping device hole (8b) of the grasping device (2) and a second cathode hook assembly hole (9b) of the cathode hook assembly (1), the cathode hook assembly aligns at the grasping device (2).
Description
Technical field
The present invention relates to a kind of method for being fastened to by negative electrode hook assembly on the grabbing device of transmission apparatus, transmission apparatus is configured to transmit, improve and reduce minus plate, the application the upper end of minus plate that limits in technical scheme all there is suspension rod.
The invention still further relates to a kind of structure for being fastened to by negative electrode hook assembly on the grabbing device of transmission apparatus, transmission apparatus is configured to transmit, improve and reduce minus plate, the application limit the described minus plate limited in technical scheme upper end all there is suspension rod.
Technical field of the present invention is Electrowinning and the electrorefining of metal, e.g., and the Electrowinning of copper and electrorefining.
Background technology
In the Electrowinning and electrorefining processes of metal, anode plate and minus plate are immersed in the battery acid in electrolytic cell usually with staggered sequence, the spacing for approximately only 50mm that anode plate and minus plate are usually spaced.Because the spacing between the anode plate in electrolytic cell and minus plate is too near, therefore, it is very little that such as minus plate is placed on the spacing difference produced in electrolytic cell improperly, and this can affect the performance of minus plate." be placed improperly " and such as mean in the text, minus plate and other minus plates not parallel, or distance between adjacent cathode plate is different.
A kind of transmission apparatus is related in open source literature WO 2013/160542, this transmission apparatus is configured for the anode plate and minus plate that improve and reduce and be moved on electrolytic cell top position, removes from electrolytic cell anode plate and minus plate to be placed in electrolytic cell and by anode plate and minus plate.The structure of each anode suspension hook and size to be designed to insert it in the interval between anode plate in electrolytic cell and minus plate and to be positioned at each the first side place treating anode plate that is crawled and that improve.This transmission apparatus comprises multiple counter-element be fixedly attached on grabbing device.Each counter-element is arranged in pairs and is cooperatively interacted with anode suspension hook, the structure of each counter-element and size to be designed to insert in the interval between anode plate in electrolytic cell and minus plate and to be positioned at the second side place treating described anode plate that is crawled and that improve, thus, treat that the suspention ear of described anode plate that is crawled and that improve is between paired described anode suspension hook and counter-element.Described counter-element comprises slit, and when anode plate is turned to crawl position, a part for transverse member can be contained in this slit.
Summary of the invention
The object of this invention is to provide a kind of method and structure for being fastened to by negative electrode hook assembly on the grabbing device of transmission apparatus, transmission apparatus is configured to transmit, improve and reduce minus plate, thus minus plate can be accurately positioned in electrolytic cell.
Present invention defines a kind of method for being fastened to by negative electrode hook assembly on the grabbing device of transmission apparatus, transmission apparatus is configured to transmit, improve and reduce minus plate, the upper end of such minus plate all has suspension rod, wherein, grabbing device suspends in midair from the chassis of overhead crane, and the method comprises the following steps:
For configuring the first configuration step of negative electrode hook assembly, negative electrode hook assembly comprises at least one negative electrode suspension hook, and the structure of negative electrode suspension hook and size are designed in the interval of the upper end inserting minus plate, and
Fastening steps, for negative electrode suspension hook is fastened to grabbing device releasedly,
Wherein:
Also comprise the second configuration step, this second configuration step is used for being configured to the first right grabbing device hole and the second grabbing device hole to grabbing device, described first grabbing device hole and the second grabbing device hole all have the first internal diameter, and this second configuration step is used for being configured to the first right negative electrode hook assembly hole and the second negative electrode hook assembly hole to negative electrode hook assembly, described first negative electrode hook assembly hole and the second negative electrode hook assembly hole all have the second internal diameter; Thus the distance making the distance between the first grabbing device hole of grabbing device and the second grabbing device hole be substantially equal between the first negative electrode hook assembly hole of negative electrode hook assembly and the second negative electrode hook assembly hole, and first internal diameter in the first grabbing device hole and the second grabbing device hole is made to be substantially equal to second internal diameter in the first negative electrode hook assembly hole and the second negative electrode hook assembly hole;
Also comprise the 3rd configuration step, for configuring sleeve alignment member, each sleeve alignment member all has collar portion and cylindrical shape part, and the external diameter of cylindrical shape part is substantially equal to the first grabbing device hole of grabbing device and first internal diameter in the second grabbing device hole and is substantially equal to the first negative electrode hook assembly hole of negative electrode hook assembly and second internal diameter in the second negative electrode hook assembly hole;
Also comprise alignment procedures, for making negative electrode hook assembly aim at grabbing device, this alignment procedures is realized by following manner; First alignment sleeve element is inserted in the first grabbing device hole of grabbing device and the first negative electrode hook assembly hole of negative electrode hook assembly, makes the first sleeve alignment member at least enter the first grabbing device hole of grabbing device and make the first sleeve alignment member at least enter the first negative electrode hook assembly hole of negative electrode hook assembly in local in local; Second sleeve alignment member is inserted in the second grabbing device hole of grabbing device and the second negative electrode hook assembly hole of negative electrode hook assembly, makes the second sleeve alignment member at least enter the second grabbing device hole of grabbing device and make the second sleeve alignment member at least enter in the second negative electrode hook assembly hole of negative electrode hook assembly in local in local; Thus negative electrode hook assembly is aimed at grabbing device.
The preferred embodiment of the method is limited in other aspects of the application.
Correspondingly, present invention defines a kind of structure for being fastened to by negative electrode hook assembly on the grabbing device of transmission apparatus, transmission apparatus is configured to transmit, improve and reduce minus plate, and the upper end of described minus plate all has suspension rod,
Wherein, grabbing device suspends in midair from the chassis of overhead crane,
Wherein, negative electrode hook assembly comprises at least one negative electrode suspension hook, and the structure of negative electrode suspension hook and size are designed in the interval of the upper end inserting minus plate,
Wherein, negative electrode hook assembly can be fastened on grabbing device with discharging,
Wherein:
Grabbing device is configured with the first paired grabbing device hole and the second grabbing device hole, and this first paired grabbing device hole and the second grabbing device hole all have the first internal diameter;
Negative electrode hook assembly is configured with the first paired negative electrode hook assembly hole and the second negative electrode hook assembly hole, and this first paired negative electrode hook assembly hole and the second negative electrode hook assembly hole all have the second internal diameter;
Distance between first grabbing device hole of grabbing device and the second grabbing device hole is substantially equal to the distance between the first negative electrode hook assembly hole of negative electrode hook assembly and the second negative electrode hook assembly hole;
First grabbing device hole of grabbing device and described first internal diameter in the second grabbing device hole are substantially equal to the first negative electrode hook assembly hole of negative electrode hook assembly and described second internal diameter in the second negative electrode hook assembly hole;
This structure is also furnished with sleeve alignment member, and each sleeve alignment member all has collar portion and cylindrical shape part, and the external diameter of cylindrical shape part is substantially equal to described first internal diameter and is substantially equal to described second internal diameter;
Negative electrode hook assembly is aimed at grabbing device, this kind is aligned by as under type realizes: the first sleeve alignment member inserted in the first grabbing device hole of grabbing device and the first negative electrode hook assembly hole of negative electrode hook assembly, makes the first sleeve alignment member at least enter the first grabbing device hole of grabbing device and the first negative electrode hook assembly hole of negative electrode hook assembly in local; Second alignment member is inserted in the second grabbing device hole of grabbing device and the second negative electrode hook assembly hole of negative electrode hook assembly, makes the second sleeve alignment member at least enter the second grabbing device hole of grabbing device and the second negative electrode hook assembly hole of negative electrode hook assembly in local; Thus negative electrode hook assembly is aimed at grabbing device.
The preferred embodiment of this structure is limited in other aspects of the application.
The present invention is based on following aspect: grabbing device is configured with the paired first grabbing device hole all with the first internal diameter and the second grabbing device hole; Negative electrode hook assembly is configured with the paired first negative electrode hook assembly hole all with the second internal diameter and the second negative electrode hook assembly hole; First internal diameter is substantially equal to the second internal diameter; Use sleeve alignment member, each sleeve alignment member has cylindrical shape part, and the external diameter of cylindrical shape part is substantially equal to described first internal diameter and is substantially equal to described second internal diameter.By this on described grabbing device to this on the first grabbing device hole and the second grabbing device hole, negative electrode hook assembly to the first negative electrode hook assembly hole and the second negative electrode hook assembly hole and sleeve alignment member, negative electrode hook assembly can be aimed at grabbing device, thus the position of the negative electrode suspension hook of negative electrode hook assembly also can be aimed at relative to grabbing device.The advantage of this configuration is: negative electrode hook assembly can wear and tear in use, if wearing and tearing must replace negative electrode hook assembly too much, the new negative electrode hook assembly being used for replacing the negative electrode hook assembly worn and torn then can easily accurately be arranged on the position identical with the negative electrode hook assembly be worn relative to grabbing device by this configuration.
The advantage of method and structure of the present invention is: negative electrode hook assembly improves relative to the Position location accuracy of the grabbing device of transmission apparatus, but does not need other regulating steps.Further, the position additionally regulating replaced negative electrode hook assembly relative to the grabbing device of transmission apparatus is not needed.
In old project organization, that is, in existing structure, negative electrode hook assembly is connected on support frame by bolt (it is through boring).After installation, need the position individually regulating each negative electrode hook assembly, thus make a whole set of negative electrode hook assembly requirement that (it comprises multiple negative electrode hook assembly), demand fulfillment was accurately located must bearing whole negative electrode load.In existing structure, if negative electrode hook assembly will be replaced, also need adjusting position.Further, if negative electrode hook assembly collision minus plate, negative electrode hook assembly may change relative to the position of the grabbing device of transmission apparatus, therefore, needs the position readjusting negative electrode hook assembly.
In method and structure of the present invention, by special sleeve alignment member, negative electrode hook assembly is aimed at the grabbing device of transmission apparatus.In certain embodiment of the method and structure, by accurate machining suspension hook framework, support frame and sleeve pipe, can accurate fastening negative electrode hook assembly, and do not need to regulate negative electrode hook assembly in addition relative to the grabbing device of transmission apparatus.Do not need to carry out regulating in addition just replacing suspension hook coaster.Do not need after collision to regulate yet, can the impaired suspension hook of substitute simply.
In certain embodiment of this structure, make at least one pair of first grabbing device hole described and the second grabbing device hole be configured on grabbing device, described in making to be configured on grabbing device by machinework, the size (comprising the first internal diameter) at least one pair of the first hole is accurate as far as possible.
In certain embodiment of this structure, make at least one pair of first negative electrode hook assembly hole described and the second negative electrode hook assembly hole be configured on negative electrode hook assembly, described in making to be configured on negative electrode hook assembly by machinework, the size (comprising the second internal diameter) at least one pair of the second hole is accurate as far as possible.
In certain embodiment of this structure, the cylindrical shape part of sleeve alignment member has been machined to and has made its size (comprising external diameter) accurate as far as possible.
Accompanying drawing explanation
Be described in more detail the present invention below with reference to accompanying drawings, accompanying drawing is as follows:
Fig. 1 is the schematic side elevation of transmission apparatus;
Fig. 2 shows the how mutual coordinated operation in interval of negative electrode hook assembly and minus plate upper end;
Fig. 3 shows a part for the grabbing device of the transmission apparatus shown in Fig. 1;
Fig. 4 shows a part for the grabbing device shown in Fig. 3, and now negative electrode hook assembly is removed;
Fig. 5 shows the sleeve alignment member of the structure shown in Fig. 3.
Detailed description of the invention
The present invention relates to a kind of method and structure for being fastened to by negative electrode hook assembly 1 on the grabbing device 2 of transmission apparatus 3, transmission apparatus 3 is configured to transmit, improve and reduce minus plate 4.
First, the method is used for the grabbing device 2 negative electrode hook assembly 1 being fastened to transmission apparatus 3, and transmission apparatus 3 is configured to transmit, improve and reduce minus plate 4, and the upper end of such minus plate 4 all has suspension rod 5.Below by some preferred embodiment of the described method of more detailed description and variant embodiment.
In the method, grabbing device 2 suspends in midair from the chassis 6 of overhead crane 7.
The method comprises the first configuration step, to configure negative electrode hook assembly 1.Wherein, negative electrode hook assembly 1 comprises at least one negative electrode suspension hook 15, the structure of negative electrode suspension hook 15 and size are designed in the interval 19 of the upper end that can insert minus plate 4, such as, be inserted into and be configured to and the suspension rod 5 of minus plate 4 is connected or is arranged in the interval 19 under suspension rod 5, thus minus plate 4 can be captured.
The method comprises the second configuration step, is configured to the right grabbing device hole with the first internal diameter, that is, the first grabbing device hole 8a and the second grabbing device hole 8b for giving grabbing device 2; For being configured to the right negative electrode hook assembly hole with the second internal diameter for negative electrode hook assembly 1, that is, the first negative electrode hook assembly hole 9a and the second negative electrode hook assembly hole 9b.Distance between first grabbing device hole 8a of grabbing device 2 and the second grabbing device hole 8b is substantially equal to the distance between the first negative electrode hook assembly hole 9a of negative electrode hook assembly 1 and the second negative electrode hook assembly hole 9b.First internal diameter of the first grabbing device hole 8a and the second grabbing device hole 8b is substantially equal to second internal diameter of the first negative electrode hook assembly hole 9a and the second negative electrode hook assembly hole 9b.
Second configuration step of the method can comprise, for grabbing device 2 configure several to such grabbing device hole 8a and 8b(namely, the first grabbing device hole 8a and the second grabbing device hole 8b).
The method comprises the 3rd configuration step, for configuring sleeve alignment member 10, each sleeve alignment member 10 all has collar portion 11 and cylindrical shape part 12, and the external diameter of cylindrical shape part 12 is substantially equal to the first grabbing device hole 8a of grabbing device 2 and first internal diameter of the second grabbing device hole 8b and is substantially equal to the first negative electrode hook assembly hole 9a of negative electrode hook assembly 1 and second internal diameter of the second negative electrode hook assembly hole 9b.
The method comprises alignment procedures: inserted by the first alignment sleeve element 10 in first grabbing device hole 8a of grabbing device 2 and the first negative electrode hook assembly hole 9a of negative electrode hook assembly 1, make the first sleeve alignment member 10 at least enter the first grabbing device hole 8a of grabbing device 2 and make the first sleeve alignment member 10 at least enter the first negative electrode hook assembly hole 9a of negative electrode hook assembly 1 in local in local, thus negative electrode hook assembly 1 is aimed at grabbing device 2.Alignment procedures also comprises: the second sleeve alignment member 10 inserted in the second grabbing device hole 8b of grabbing device 2 and the second negative electrode hook assembly hole 9b of negative electrode hook assembly 1, makes the second sleeve alignment member 10 at least to enter in the second grabbing device hole 8b of grabbing device 2 and the second sleeve alignment member 10 is at least entered in the second negative electrode hook assembly hole 9b of negative electrode hook assembly 1 local in local.
The method comprises fastening steps, for negative electrode hook assembly 1 is fastened to grabbing device 2 releasedly.
The sleeve alignment member 10 configured in the 3rd configuration step is preferably designed to, and makes the cylindrical shape part 12 of sleeve alignment member 10 have two opposite ends (not indicating with Reference numeral), the collar portion 10 of sleeve alignment member 10 is arranged on one of opposite end of the cylindrical shape part 12 of sleeve alignment member 10; But this structure is not necessary.
In the second configuration step, the vertical distance that the first hole 8 of grabbing device 2 is preferably configured to from the chassis 6 of overhead crane 7 is substantially equal, that is, the variable vertical distance between these the first hole 8 and chassis 6 of overhead crane 7 is substantially equal; But this configuration is not necessary.
Outer tightening member (as bolt 14 and the nut that matches with bolt 14) is preferred in fastening steps, for negative electrode hook assembly 1 is fastened to grabbing device 2 releasedly; But this is not necessary.
In certain embodiment of the method, this sleeve alignment member 10 is configured in the 3rd configuration step, sleeve alignment member 10 has the cylindrical shape part 12 configuring porose (not indicating with Reference numeral), and this hole has the negative thread 13 for cooperatively interacting with bolt 14.In this embodiment of the method, fastening steps comprises: screwed by a bolt 14 and be tightened to be fastened to releasedly on grabbing device 2 by negative electrode hook assembly 1 in the cylindrical shape part 12 of the first sleeve alignment member 10, and is screwed by a bolt 14 and be tightened in the cylindrical shape part 12 of the second sleeve alignment member 10 to be fastened to releasedly on grabbing device 2 by negative electrode hook assembly 1.
In certain embodiment of the method, the method comprises the 3rd configuration step, configures the 3rd hole 16 for giving grabbing device 2, configures the 4th hole 17 to negative electrode hook assembly 1.These positions being configured with the 3rd hole 16 and the 4th hole 17 meet the following conditions: after having performed alignment procedures, and at least one the 3rd hole 16 of grabbing device 2 is aimed at at least one the 4th hole 17 of negative electrode hook assembly 1.In this embodiment of the method, fastening steps comprises: inserted by a bolt 14 at least one the 3rd hole 16 described, at least one the 3rd hole 16 described is aimed at at least one the 4th hole 17 described, thus this bolt 14 is at least locally through the 4th hole 17 of the 3rd hole 16 on grabbing device 2 and negative electrode hook assembly 1.In this embodiment of the method, fastening steps also comprises: nut (not shown) screwed and to be tightened on described bolt 14 (this bolt 14 is at least locally through the 4th hole 17 of the 3rd hole 16 on grabbing device 2 and negative electrode hook assembly 1), thus being fastened on grabbing device 2 by negative electrode hook assembly 1.Alternatively, in this embodiment of the method, negative thread is configured with at least one Kong tri-configuration step in the 3rd hole 16 on grabbing device 2 and the 4th hole 17 on negative electrode hook assembly 1, thus, in fastening steps, by bolt being screwed and being tightened in the negative thread at least one hole in the 3rd hole 16 on grabbing device 2 and the 4th hole 17 on negative electrode hook assembly 1, negative electrode hook assembly 1 can be fastened on grabbing device 2.
In the first configuration step, preferably to configure described on grabbing device 2 this to grabbing device hole (namely, first grabbing device hole 8a and the second grabbing device hole 8b), at least one pair of first hole 8 described on machinework grabbing device 2 makes its size (comprising described first internal diameter) accurate as far as possible, but this is not necessary.
In the second configuration step, preferably configure paired negative electrode hook assembly hole on negative electrode hook assembly 1 (namely, first negative electrode hook assembly hole 9a and the second negative electrode hook assembly hole 9b), at least one pair of second hole 9 described on machinework negative electrode hook assembly 1 makes its size (comprising described second internal diameter) accurate as far as possible; But this is not necessary.
3rd configuration step preferably includes: the cylindrical shape part 12 of machinework sleeve alignment member 10 makes its size (comprising described external diameter) accurate as far as possible; But this is not necessary.
The negative electrode hook assembly 1 be configured in the second configuration step preferably (but not necessarily) is fuel plate version, its be machined to comprise 2 to 6 (preferably 3 to 5 (as, 4)) with the identical negative electrode suspension hook 15 equidistantly arranged, thus, each negative electrode suspension hook 15 comprises minus plate localization part 20, and described minus plate localization part 20 is constructed such that minus plate 4 is always located relative to each negative electrode suspension hook 15 of negative electrode hook assembly in substantially the same manner.
Next be described in detail to some preferred embodiment and variant embodiment of being used for negative electrode hook assembly 1 to be fastened to the structure on the grabbing device 2 of transmission apparatus 3, described structure is configured to transmit, improve and reduce minus plate 4, and the upper end of such minus plate 4 all has suspension rod 5.
Grabbing device 2 suspends in midair from the chassis 6 of overhead crane 7.
Negative electrode hook assembly 1 comprises at least one negative electrode suspension hook 5, the structure of negative electrode suspension hook 15 and size are designed to be inserted in the interval 19 of minus plate 4 upper end, such as be inserted into and be configured to and the suspension rod 5 of minus plate 4 is connected or is arranged in the interval 19 under suspension rod 5, to capture minus plate 4.
Grabbing device 2 is configured with the paired grabbing device hole with the first internal diameter, that is, the first grabbing device hole 8a and the second grabbing device hole 8b.
Grabbing device 2 may be configured with several to such grabbing device hole (that is, the first grabbing device hole 8a and the second grabbing device hole 8b).
Negative electrode hook assembly 1 is configured with the paired negative electrode hook assembly hole with the second internal diameter, i.e. the first negative electrode hook assembly hole 9a and the second negative electrode hook assembly hole 9b.
Distance between first grabbing device hole 8a of grabbing device 2 and the second grabbing device hole 8b is substantially equal to the distance between the first negative electrode hook assembly hole 9a of negative electrode hook assembly 1 and the second negative electrode hook assembly hole 9b.
First grabbing device hole 8a of grabbing device 2 and first internal diameter of the second grabbing device hole 8b are substantially equal to the first negative electrode hook assembly hole 9a of negative electrode hook assembly 1 and second internal diameter of the second negative electrode hook assembly hole 9b.
This structure comprises sleeve alignment member 10, each sleeve alignment member 10 all has collar portion 11 and cylindrical shape part 12, and the external diameter of cylindrical shape part 12 is substantially equal to first internal diameter in the first hole 8 of grabbing device 2 and is substantially equal to second internal diameter in the second hole 9 of negative electrode hook assembly 1.
First sleeve alignment member 10 is inserted in the first grabbing device hole 8a of grabbing device 2 and the first negative electrode hook assembly hole 9a of negative electrode hook assembly 1, the first sleeve alignment member 10 is made at least to enter the first grabbing device hole 8a of grabbing device 2 and the first negative electrode hook assembly hole 9a of negative electrode hook assembly 1 in local, and second alignment member 10 is inserted in the second grabbing device hole 8b of grabbing device 2 and the second negative electrode hook assembly hole 9b of negative electrode hook assembly 1, the second sleeve alignment member 10 is made at least to enter the second grabbing device hole 8b of grabbing device 2 and the second negative electrode hook assembly hole 9b of negative electrode hook assembly 1 in local, thus, negative electrode hook assembly 1 is aimed at grabbing device 2.
Negative electrode hook assembly 1 is fastened on grabbing device 2 releasedly.
Sleeve alignment member 10 is preferably designed to, and makes the cylindrical shape part 12 of sleeve alignment member 10 have two opposite ends (not representing with Reference numeral), makes the collar portion 11 of sleeve alignment member 10 be arranged on one of opposite end of the cylindrical shape part 12 of sleeve alignment member 10; But this structure might not be adopted.
The vertical distance that first hole 8 of grabbing device 2 is preferably configured to from the chassis 6 of overhead crane 7 is substantially equal, that is, the variable vertical distance between these the first hole 8 and chassis 6 of overhead crane 7 is substantially equal; But this configuration is not necessary.
In certain embodiment of this structure, sleeve alignment member 10 has the cylindrical shape part 12 configuring porose (not indicating with Reference numeral), and this hole has the negative thread 13 for cooperatively interacting with bolt 14.In this embodiment of this structure, one bolt 14 is screwed and is tightened in the negative thread 13 of the cylindrical shape part 12 of the first sleeve alignment member 10, one bolt 14 screws and is tightened in the negative thread 13 of the cylindrical shape part 12 of the second sleeve alignment member 10, thus, negative electrode hook assembly 1 is fastened on grabbing device 2 releasedly.
In certain embodiment of this structure, grabbing device 2 is configured with the 3rd hole 16, and negative electrode hook assembly 1 is configured with the 4th hole 17.These positions being configured with the 3rd hole 16 and the 4th hole 17 meet the following conditions: if negative electrode hook assembly 1 is aimed at grabbing device 2 by sleeve alignment member 10, so, at least one the 3rd hole 16 of grabbing device 2 is aimed at at least one the 4th hole 17 of negative electrode hook assembly 1, and a bolt 14 inserts in the 3rd hole 16 aimed at the 4th hole.One nut can screw and be tightened on described bolt 14 to be fastened to releasedly on grabbing device 2 by negative electrode hook assembly 1.Alternatively, in this embodiment, at least one hole in the 3rd hole 16 on grabbing device 2 and the 4th hole 17 on negative electrode hook assembly 1 is configured with negative thread, thus, by bolt being screwed and being tightened in the negative thread at least one hole in the 3rd hole 16 on grabbing device 2 and the 4th hole 17 on negative electrode hook assembly 1, negative electrode hook assembly 1 can be fastened on grabbing device 2.
In certain embodiment of this structure, paired grabbing device hole (namely, first grabbing device hole 8a and the second grabbing device hole 8b) be configured on grabbing device 2, machinework this make its size (comprising described first internal diameter) accurate as far as possible to the first grabbing device hole 8a and the second grabbing device hole 8b.
In certain embodiment of this structure, paired negative electrode hook assembly hole (namely, first negative electrode hook assembly hole 9a and the second negative electrode hook assembly hole 9b) be configured in negative electrode hook assembly 1, described paired the first negative electrode hook assembly hole 9a in negative electrode hook assembly 1 described in machinework and the second negative electrode hook assembly hole 9b and make its size (comprising described second internal diameter) accurate as far as possible.
In certain embodiment of this structure, the cylindrical shape part 12 of sleeve alignment member 10 described in machinework and make its size (comprising external diameter) accurate as far as possible.
In certain embodiment of this structure, the negative electrode hook assembly 1 being initially fuel plate be processed to comprise 2 to 6 (preferably 3 to 5 (as, 4)) with the identical negative electrode suspension hook 15 equidistantly arranged, each negative electrode suspension hook 15 comprises minus plate localization part 20, and described minus plate localization part 20 is constructed such that minus plate 4 is always located relative to each negative electrode suspension hook 15 of negative electrode hook assembly in substantially the same manner.
Those of ordinary skill in the art can obviously find out, along with technological advance, can implement groundwork of the present invention in every way.Therefore, the present invention and embodiment are not limited to above-mentioned example, can change within the scope of the claims.
Claims (10)
1. one kind for being fastened to the method on the grabbing device (2) of transmission apparatus (3) by negative electrode hook assembly (1), transmission apparatus (3) is configured to transmit, improve and reduce minus plate (4), the upper end of such minus plate (4) all has suspension rod (5), wherein, grabbing device (2) gets off from suspention the chassis (6) of overhead crane (7), and the method comprises the following steps:
For configuring the first configuration step of negative electrode hook assembly (1), negative electrode hook assembly (1) comprises at least one negative electrode suspension hook (15), the structure of negative electrode suspension hook (15) and size are designed in the interval (19) of the upper end inserting minus plate (4), and
Fastening steps, for negative electrode suspension hook is fastened to grabbing device (2) releasedly,
It is characterized in that:
Also comprise the second configuration step, this second configuration step is used for being configured to the first right grabbing device hole (8a) and the second grabbing device hole (8b) to grabbing device (2), described first grabbing device hole (8a) and the second grabbing device hole (8b) all have the first internal diameter, and this second configuration step is used for being configured to the first right negative electrode hook assembly hole (9a) and the second negative electrode hook assembly hole (9b) to negative electrode hook assembly (1), described first negative electrode hook assembly hole (9a) and the second negative electrode hook assembly hole (9b) all have the second internal diameter; Thus the distance making the distance between the first grabbing device hole (8a) of grabbing device (2) and the second grabbing device hole (8b) be substantially equal between the first negative electrode hook assembly hole (9a) of negative electrode hook assembly (1) and the second negative electrode hook assembly hole (9b), and first internal diameter in the first grabbing device hole (8a) and the second grabbing device hole (8b) is made to be substantially equal to second internal diameter in the first negative electrode hook assembly hole (9a) and the second negative electrode hook assembly hole (9b);
Also comprise the 3rd configuration step, for configuring sleeve alignment member (10), each sleeve alignment member (10) all has collar portion (11) and cylindrical shape part (12), and the external diameter of cylindrical shape part (12) is substantially equal to the first grabbing device hole (8a) of grabbing device (2) and first internal diameter in the second grabbing device hole (8b) and is substantially equal to the first negative electrode hook assembly hole (9a) of negative electrode hook assembly (1) and second internal diameter in the second negative electrode hook assembly hole (9b);
Also comprise alignment procedures, for making negative electrode hook assembly (1) aim at grabbing device (2), this alignment procedures is realized by following manner; First alignment sleeve element (10) is inserted in the first grabbing device hole (8a) of grabbing device (2) and the first negative electrode hook assembly hole (9a) of negative electrode hook assembly (1), make the first sleeve alignment member (10) at least enter the first grabbing device hole (8a) of grabbing device (2) and make the first sleeve alignment member (10) at least enter the first negative electrode hook assembly hole (9a) of negative electrode hook assembly (1) in local in local; Second sleeve alignment member (10) is inserted in the second grabbing device hole (8b) of grabbing device (2) and the second negative electrode hook assembly hole (9b) of negative electrode hook assembly (1), make the second sleeve alignment member (10) at least enter the second grabbing device hole (8b) of grabbing device (2) and make the second sleeve alignment member (10) at least enter in the second negative electrode hook assembly hole (9b) of negative electrode hook assembly (1) in local in local; Thus negative electrode hook assembly (1) is aimed at grabbing device (2).
2. method according to claim 1, is characterized in that:
Sleeve alignment member (10) is configured in the 3rd configuration step, sleeve alignment member (10) has cylindrical shape part (12), cylindrical shape part (12) is configured with the hole with negative thread (13), and this negative thread (13) is for cooperatively interacting with bolt (14); And
Fastening steps comprises, one bolt (14) is screwed in the cylindrical shape part (12) of the first sleeve alignment member (10), one bolt (14) is screwed and is tightened in the cylindrical shape part (12) of the second sleeve alignment member (10), thus negative electrode hook assembly (1) is fastened to grabbing device (2).
3., according to the method for claim 1 or 2, it is characterized in that:
Also comprise the 4th configuration step, for giving grabbing device (2) configuration the 3rd hole (16) and configuring the 4th hole (17) to negative electrode hook assembly (1); These positions being configured with described 3rd hole (16) and the 4th hole (17) meet the following conditions, after having performed alignment procedures, at least one the 3rd hole (16) of grabbing device (2) is aimed at at least one the 4th hole (17) of negative electrode hook assembly (1); And
Described fastening steps comprises, one bolt (14) is inserted at least one the 3rd hole (16) described aimed at at least one the 4th hole (17) described, thus this bolt (14) at least local enters described 4th hole (17) of described 3rd hole (16) on grabbing device (2) and negative electrode hook assembly (1).
4., according to the method for the arbitrary claim in claims 1 to 3, it is characterized in that:
At least one pair of first grabbing device hole (8a) on grabbing device (2) and the second grabbing device hole (8b) is configured by machining mode in the second configuration step;
At least one pair of first negative electrode hook assembly hole (9a) on negative electrode hook assembly (1) and the second negative electrode hook assembly hole (9b) is configured by machining mode in the second configuration step;
3rd configuration step comprises the cylindrical shape part (12) of machinework sleeve alignment member (10).
5., according to the method for the arbitrary claim in Claims 1-4, it is characterized in that:
For the second configuration step, negative electrode hook assembly (1) is configured to fuel plate version, this fuel plate is processed to comprise 2 to 6 with the identical negative electrode suspension hook (15) of equidistantly arranging, the number of negative electrode suspension hook is preferably 3 to 5, such as 4, and making each negative electrode suspension hook (15) comprise minus plate localization part (20), described minus plate localization part (20) is constructed such that minus plate (4) always in substantially the same manner relative to each negative electrode suspension hook (15) location of negative electrode hook assembly.
6., for negative electrode hook assembly (1) being fastened to the structure on the grabbing device (2) of transmission apparatus (3), transmission apparatus (3) is configured to transmit, improve and reduce minus plate (4), and the upper end of described minus plate (4) all has suspension rod (5),
Wherein, grabbing device (2) gets off from suspention the chassis (6) of overhead crane (7),
Wherein, negative electrode hook assembly (1) comprises at least one negative electrode suspension hook (15), and the structure of negative electrode suspension hook (15) and size are designed in the interval (19) of the upper end inserting minus plate (4),
Wherein, negative electrode hook assembly (1) can be fastened on grabbing device (2) with discharging,
It is characterized in that:
Grabbing device (2) is configured with the first paired grabbing device hole (8a) and the second grabbing device hole (8b), and this first paired grabbing device hole and the second grabbing device hole all have the first internal diameter;
Negative electrode hook assembly (1) is configured with the first paired negative electrode hook assembly hole (9a) and the second negative electrode hook assembly hole (9b), and this first paired negative electrode hook assembly hole (9a) and the second negative electrode hook assembly hole (9b) all have the second internal diameter;
Distance between first grabbing device hole (8a) of grabbing device (2) and the second grabbing device hole (8b) is substantially equal to the distance between the first negative electrode hook assembly hole (9a) of negative electrode hook assembly (1) and the second negative electrode hook assembly hole (9b);
First grabbing device hole (8a) of grabbing device (2) and described first internal diameter in the second grabbing device hole (8b) are substantially equal to the first negative electrode hook assembly hole (9a) of negative electrode hook assembly (1) and described second internal diameter in the second negative electrode hook assembly hole (9b);
This structure is also furnished with sleeve alignment member (10), each sleeve alignment member (10) all has collar portion (11) and cylindrical shape part (12), and the external diameter of cylindrical shape part (12) is substantially equal to described first internal diameter and is substantially equal to described second internal diameter;
Negative electrode hook assembly (1) is aimed at grabbing device (2), this kind is aligned by as under type realizes: the first sleeve alignment member (10) inserted in the first grabbing device hole (8a) of grabbing device (2) and the first negative electrode hook assembly hole (9a) of negative electrode hook assembly (1), makes the first sleeve alignment member (10) at least enter the first grabbing device hole (8a) of grabbing device (2) and the first negative electrode hook assembly hole (9a) of negative electrode hook assembly (1) in local; Second alignment member (10) is inserted in the second grabbing device hole (8b) of grabbing device (2) and the second negative electrode hook assembly hole (9b) of negative electrode hook assembly (1), make the second sleeve alignment member (10) at least enter the second grabbing device hole (8b) of grabbing device (2) and the second negative electrode hook assembly hole (9b) of negative electrode hook assembly (1) in local; Thus negative electrode hook assembly (1) is aimed at grabbing device (2).
7. structure according to claim 6, is characterized in that:
The cylindrical shape part (12) of sleeve alignment member (10) configures porose, and this hole has the negative thread (13) cooperatively interacted with bolt (14);
One bolt (14) is screwed and is tightened in the negative thread (13) of the cylindrical shape part (12) of the first sleeve alignment member (10), to be fastened on grabbing device (2) releasedly by negative electrode hook assembly (1);
One bolt (14) is screwed and is tightened in the negative thread (13) of the cylindrical shape part (12) of the second sleeve alignment member (10), to be fastened to releasedly on grabbing device (2) by negative electrode hook assembly (1).
8., according to the structure of claim 6 or 7, it is characterized in that:
Grabbing device (2) is configured with the 3rd hole (16);
Negative electrode hook assembly (1) is configured with the 4th hole (17);
The position being configured with described 3rd hole (16) and the 4th hole (17) meets the following conditions: if negative electrode hook assembly (1) is aimed at grabbing device (2) by sleeve alignment member (10), so, at least one the 3rd hole (16) of grabbing device (2) is aimed at at least one the 4th hole (17) of negative electrode hook assembly (1);
Bolt (14) is inserted in one the 3rd hole (16) aimed at one the 4th hole (17).
9., according to the structure of the arbitrary claim in claim 6 to 8, it is characterized in that:
At least one pair of first grabbing device hole (8a) on grabbing device (2) and the second grabbing device hole (8b) are configured by machining mode;
At least one pair of first negative electrode hook assembly hole (9a) on negative electrode hook assembly (1) and the second negative electrode hook assembly hole (9b) are configured by machining mode;
The cylindrical shape part (12) of sleeve alignment member (10) has been machined shaping.
10., according to the structure of the arbitrary claim in claim 6 to 9, it is characterized in that:
The negative electrode hook assembly (1) being initially fuel plate is processed to comprise 2 to 6 with the identical negative electrode suspension hook (15) of equidistantly arranging, the number of described negative electrode suspension hook is preferably 3 to 5, such as 4, and making each negative electrode suspension hook (15) comprise minus plate localization part (20), described minus plate localization part (20) is constructed such that minus plate (4) always in substantially the same manner relative to each negative electrode suspension hook (15) location of negative electrode hook assembly.
Applications Claiming Priority (2)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| FI20136165A FI125647B (en) | 2013-11-22 | 2013-11-22 | PROCEDURES AND ARRANGEMENTS FOR THE FIXING OF A CATHODIC HOSE COMPOSITION |
| FI20136165 | 2013-11-22 |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| CN104649129A true CN104649129A (en) | 2015-05-27 |
| CN104649129B CN104649129B (en) | 2018-06-22 |
Family
ID=53240851
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201310612931.2A Active CN104649129B (en) | 2013-11-22 | 2013-11-26 | For fastening the method and structure of cathode hook assembly |
Country Status (2)
| Country | Link |
|---|---|
| CN (1) | CN104649129B (en) |
| FI (1) | FI125647B (en) |
Citations (6)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN2704593Y (en) * | 2004-05-20 | 2005-06-15 | 昆明理工大学 | Electrolytic cathode and anode rotary slings |
| KR100871963B1 (en) * | 2006-09-29 | 2008-12-08 | 닛코 킨조쿠 가부시키가이샤 | Hook of device for conveying electrode plate |
| CN201206174Y (en) * | 2008-04-22 | 2009-03-11 | 云南驰宏锌锗股份有限公司 | Insulation rotary electrolysis cathode/anode spreader |
| CN102431905A (en) * | 2011-12-27 | 2012-05-02 | 江西瑞林装备有限公司 | Transfer device for cathode and anode plates during electrolysis |
| CN102978668A (en) * | 2012-12-20 | 2013-03-20 | 株洲天桥起重机股份有限公司 | Method and tool for lifting electrolysis cathode plate and electrolysis anode plate |
| WO2013160542A1 (en) * | 2012-04-23 | 2013-10-31 | Outotec Oyj | Transfer apparatus |
-
2013
- 2013-11-22 FI FI20136165A patent/FI125647B/en not_active IP Right Cessation
- 2013-11-26 CN CN201310612931.2A patent/CN104649129B/en active Active
Patent Citations (6)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN2704593Y (en) * | 2004-05-20 | 2005-06-15 | 昆明理工大学 | Electrolytic cathode and anode rotary slings |
| KR100871963B1 (en) * | 2006-09-29 | 2008-12-08 | 닛코 킨조쿠 가부시키가이샤 | Hook of device for conveying electrode plate |
| CN201206174Y (en) * | 2008-04-22 | 2009-03-11 | 云南驰宏锌锗股份有限公司 | Insulation rotary electrolysis cathode/anode spreader |
| CN102431905A (en) * | 2011-12-27 | 2012-05-02 | 江西瑞林装备有限公司 | Transfer device for cathode and anode plates during electrolysis |
| WO2013160542A1 (en) * | 2012-04-23 | 2013-10-31 | Outotec Oyj | Transfer apparatus |
| CN102978668A (en) * | 2012-12-20 | 2013-03-20 | 株洲天桥起重机股份有限公司 | Method and tool for lifting electrolysis cathode plate and electrolysis anode plate |
Also Published As
| Publication number | Publication date |
|---|---|
| CN104649129B (en) | 2018-06-22 |
| FI20136165A (en) | 2015-05-23 |
| FI125647B (en) | 2015-12-31 |
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