CN210118303U - Hydraulic transmission device of equipment for planing nickel ingot - Google Patents

Abstract

The utility model discloses a hydraulic transmission of equipment for nickel ingot planing, concretely relates to transmission technical field, including the hydraulic control platform, hydraulic control platform bottom is provided with first oil pump, second oil pump and resistance valve, the resistance valve bottom is provided with the oil bath, hydraulic control platform top one side is provided with first globe valve, first globe valve bottom is provided with the start-stop valve, the start-stop valve bottom is provided with the second globe valve, second globe valve one side is provided with No. 9 pipes, No. 9 pipe one end is provided with the overflow valve. The utility model discloses a be equipped with hydraulic control console, resistance valve, open and shut valve, relief pressure valve, choke valve and resistance valve, make the utility model discloses be convenient for frequently start and the switching-over also can realize stepless speed regulation simultaneously, the speed governing scope is great, when in-service use, realizes overload protection easily, simply is equipped with the relief valve alright prevent to transship, makes the utility model discloses can operate steadily.

Description

Hydraulic transmission device of equipment for planing nickel ingot

Technical Field

The utility model relates to a transmission technical field, more specifically say, the utility model relates to a hydraulic transmission of equipment is used in nickel ingot planing.

Background

The hydraulic transmission is a transmission mode which uses liquid as a working medium to transmit and control energy, and is divided into hydraulic transmission and hydraulic transmission according to different energy transmission modes, the hydraulic transmission is a transmission mode which mainly uses the kinetic energy of the liquid to convert the energy, the hydraulic transmission is a transmission mode which uses the pressure energy of the liquid to convert the energy, and the hydraulic transmission technology is adopted on machinery, so that the structure of the machine can be simplified, the quality of the machine is reduced, the material consumption is reduced, the manufacturing cost is reduced, the labor intensity is reduced, and the working efficiency and the working reliability are improved.

Although the hydraulic transmission device in the prior art can be normally used, more defects still exist in actual use, for example, the hydraulic transmission device in the prior art is large in size and weight, inconvenient to frequently start and reverse, difficult to realize stepless speed regulation, small in speed regulation range, and difficult to realize overload protection in actual use, so that the hydraulic transmission device in the prior art cannot stably run.

SUMMERY OF THE UTILITY MODEL

In order to overcome the above-mentioned defect of prior art, the embodiment of the utility model provides a hydraulic transmission of equipment is used in nickel ingot planing makes through being equipped with hydraulic control console, resistance valve, opening and shutting valve, relief pressure valve, choke valve and resistance valve the utility model discloses be convenient for frequently start and the switching-over, also can realize stepless speed regulation simultaneously, the speed governing scope is great, when in-service use, realizes overload protection easily, simply is equipped with the relief valve alright prevent to transship, makes the utility model discloses can steady operation to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: a hydraulic transmission device of equipment for planing nickel ingots comprises a hydraulic control console, wherein a first oil pump, a second oil pump and a resistance valve are arranged at the bottom of the hydraulic control console, an oil pool is arranged at the bottom of the resistance valve, a first ball valve is arranged at one side of the top of the hydraulic control platform, the bottom of the first ball valve is provided with a start-stop valve, the bottom of the start-stop valve is provided with a second ball valve, a No. 9 pipe is arranged on one side of the second spherical valve, an overflow valve is arranged at one end of the No. 9 pipe, a pressure reducing valve is arranged at the bottom of the overflow valve, a feed working cavity is arranged on the other side of the top of the hydraulic control platform, a feed oil cylinder is arranged at the bottom of the feed working cavity, a feed valve is arranged at the bottom of the feed oil cylinder, an oil cylinder front cavity is arranged at the top of the hydraulic control platform, an oil cylinder rear cavity is arranged at the top of the oil cylinder front cavity, a return stroke cavity is arranged on one side of the interior of the oil cylinder rear cavity, and a working stroke cavity is arranged on the other side of the interior of the oil cylinder rear cavity;

the hydraulic control platform comprises a platform body, a control valve core, a reversing valve core and a variable valve core are arranged in the platform body, a 25 # groove, a 26 # groove, a 27 # groove, a 28 # groove, a 29 # groove, a 30 # groove, a 31 # groove, a 32 # groove, a 33 # groove, a 34 # groove, a 35 # groove, a 36 # groove and a 37 # groove are sequentially arranged on the outer side of the control valve core, a 20 # groove, a 21 # groove, a 22 # groove, a 23 # groove, a 24 # groove, a 38 # groove, a 39 # groove and a 40 # groove are sequentially arranged on the outer side of the reversing valve core, and a 45 # groove, a 46 # groove, a 47 # groove, a 48 # groove, a 49 # groove and a 50 # groove are sequentially arranged on the outer side of the variable valve core;

no. 1 pipe and No. 2 pipe are arranged between the front cavity and the rear cavity of the oil cylinder, No. 41 pipe and No. 44 pipe are arranged at the bottom of the front cavity of the oil cylinder, one end of the No. 41 pipe is provided with a No. 42 pipe, one end of the No. 44 pipe is provided with a No. 43 pipe, an auxiliary pipe is arranged on one side of the front cavity of the oil cylinder, a No. 11 pipe is arranged on one side of the feed oil cylinder, a throttle valve is arranged on the No. 11 pipe, a No. 5 pipe is arranged on the first oil pump, a No. 12 pipe is arranged on the feed valve, the resistance valve is provided with a No. 7 pipe, the second oil pump is provided with a No. 6 pipe, the other side of the feed oil cylinder is provided with a No. 51 pipe, an oil filter is arranged on the No. 51 pipe, an oil separator is arranged at the bottom of the oil filter, a No. 8 pipe is arranged on the No. 34 tank, the start-stop valve is provided with No. 13 pipes and No. 14 pipes, No. 47 grooves are provided with No. 4 pipes, and one end of the No. 4 pipes is connected with No. 29 grooves.

In a preferred embodiment, the first oil pump and the second oil pump are both provided as a twin vane pump, the first oil pump flow rate is set to 100L/min, and the second oil pump flow rate is set to 50L/min.

In a preferred embodiment, a pressure gauge is arranged on the auxiliary pipe, and the first ball valve, the start-stop valve, the second ball valve, the No. 7 pipe and the resistance valve are all connected with the auxiliary pipe.

In a preferred embodiment, one end of the No. 42 pipe is connected with the No. 21 groove, and the No. 43 pipe is connected with the pressure reducing valve and the No. 23 groove.

In a preferred embodiment, the No. 11 pipe is connected with the No. 33 groove, the No. 12 pipe is connected with the feed oil cylinder and the feed working cavity, and one end of the No. 8 pipe is arranged inside the oil pool.

In a preferred embodiment, the No. 5 pipe is connected with the No. 49 groove, and the No. 49 groove, the feed oil cylinder and the feed working cavity are all connected with the No. 5 pipe.

In a preferred embodiment, one end of the No. 7 pipe is connected with the No. 48 groove, and one end of the No. 6 pipe is connected with the No. 46 groove.

In a preferred embodiment, the 23 th groove, the second globe valve, the 50 th groove, and the 45 th groove are all connected with a 51 st pipe, and the second globe valve and the 39 th groove are all connected with a 14 th pipe.

The utility model discloses a technological effect and advantage:

through being equipped with hydraulic control console, resistance valve, opening and shutting valve, relief pressure valve, choke valve and resistance valve, make the utility model discloses be convenient for frequently start and the switching-over also can realize stepless speed regulation simultaneously, the speed governing scope is great, when in-service use, realizes overload protection easily, simply is equipped with the relief valve alright prevent to transship, makes the utility model discloses can smooth operation.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a front view structure diagram of the control valve core and the reversing valve core of the present invention.

Fig. 3 is a schematic view of the front view structure of the stage-changing valve core of the present invention.

The reference signs are: 1 hydraulic control console, 2 first oil pump, 3 second oil pump, 4 resistance valves, 5 oil pools, 6 first ball valves, 7 start and stop valves, 8 second ball valves, 9 overflow valves, 10 feed working chambers, 11 feed oil cylinders, 12 feed valves, 13 oil cylinder front chambers, 14 oil cylinder rear chambers, 15 return chambers, 16 working stroke chambers, 17 control valve spools, 18 reversing valve spools, 19 change-over valve spools, 20 reducing valves, 21 throttle valves, 22 oil filters, 23 oil distributors, 1011 pipes, 1022 pipes, 103 auxiliary pipes, 1044 pipes, 1055 pipes, 1066 pipes, 1077 pipes, 1088 pipes, 1099 pipes, 110 pressure gauges, 11111 pipes, 11212 pipes, 11313 pipes, 11414 pipes, 12020 tanks, 12121 tanks, 12222 tanks, 12323 tanks, 12424 tanks, 12524 tanks, 12626 tanks, 12727 tanks, 12828 tanks, 13429 tanks, 13030 tanks, 13031 tanks, 13032 tanks, 13532 tanks, 13132 tanks, and 13132 tanks, 13737 th groove, 13838 th groove, 13939 th groove, 14040 th groove, 14141 th tube, 14242 th tube, 14343 th tube, 14444 th tube, 14545 th groove, 14646 th groove, 14747 th groove, 14848 th groove, 14949 th groove, 15050 th groove, 15151 th tube.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The hydraulic transmission device of the nickel ingot planing equipment shown in the attached figures 1-3 comprises a hydraulic control console 1, wherein a first oil pump 2, a second oil pump 3 and a resistance valve 4 are arranged at the bottom of the hydraulic control console 1, an oil pool 5 is arranged at the bottom of the resistance valve 4, a first ball valve 6 is arranged on one side of the top of the hydraulic control console 1, an on-off valve 7 is arranged at the bottom of the first ball valve 6, a second ball valve 8 is arranged at the bottom of the on-off valve 7, a No. 9 pipe 109 is arranged on one side of the second ball valve 8, an overflow valve 9 is arranged at one end of the No. 9 pipe 109, a pressure reducing valve 20 is arranged at the bottom of the overflow valve 9, a feed working chamber 10 is arranged on the other side of the top of the hydraulic control console 1, a feed oil cylinder 11 is arranged at the bottom of the feed working chamber 10, a feed valve 12 is arranged at the bottom of the feed oil cylinder 11, an oil cylinder rear cavity 14 is arranged at the top of the oil cylinder front cavity 13, a return stroke cavity 15 is arranged on one side in the oil cylinder rear cavity 14, and a working stroke cavity 16 is arranged on the other side;

the hydraulic control console 1 comprises a console body, a control valve core 17, a reversing valve core 18 and a variable valve core 19 are arranged in the console body, a 25-number groove 125, a 26-number groove 126, a 27-number groove 127, a 28-number groove 128, a 29-number groove 129, a 30-number groove 130, a 31-number groove 131, a 32-number groove 132, a 33-number groove 133, a 34-number groove 134, a 35-number groove 135, a 36-number groove 136 and a 37-number groove 137 are sequentially arranged on the outer side of the control valve core 17, a 20-number groove 120, a 21-number groove 121, a 22-number groove 122, a 23-number groove 123, a 24-number groove 124, a 38-number groove 138, a 39-number groove 139 and a 40-number groove 140 are sequentially arranged on the outer side of the variable valve core 19, and a 45-number groove 145, a 46-number groove 146, a 47-number groove 147, a 48-number groove 148;

a No. 1 pipe 101 and a No. 2 pipe 102 are arranged between the front cylinder cavity 13 and the rear cylinder cavity 14, a No. 41 pipe 141 and a No. 44 pipe 144 are arranged at the bottom of the front cylinder cavity 13, a No. 42 pipe 142 is arranged at one end of the No. 41 pipe 141, a No. 43 pipe 143 is arranged at one end of the No. 44 pipe 144, an auxiliary pipe 103 is arranged at one side of the front cylinder cavity 13, a No. 11 pipe 111 is arranged at one side of the feed cylinder 11, a throttle valve 21 is arranged on the No. 11 pipe 111, a No. 5 pipe 105 is arranged on the first oil pump 2, a No. 12 pipe 112 is arranged on the feed valve 12, a No. 7 pipe 107 is arranged on the resistance valve 4, a No. 6 pipe 106 is arranged on the second oil pump 3, a No. 51 pipe 151 is arranged at the other side of the feed cylinder 11, an oil filter 22 is arranged on the No. 51 pipe 151, an oil separator 23 is arranged at the bottom, the start-stop valve 7 is provided with a No. 13 pipe 113 and a No. 14 pipe 114, the No. 47 groove 147 is provided with a No. 4 pipe 104, and one end of the No. 4 pipe 104 is connected with the No. 29 groove 129;

the first oil pump 2 and the second oil pump 3 are both set to be duplex vane pumps, the flow rate of the first oil pump 2 is set to be 100L/min, and the flow rate of the second oil pump 3 is set to be 50L/min;

a pressure gauge 110 is arranged on the auxiliary pipe 103, and the first ball valve 6, the start-stop valve 7, the second ball valve 8, the No. 7 pipe 107 and the resistance valve 4 are all connected with the auxiliary pipe 103;

one end of the No. 42 pipe 142 is connected with the No. 21 groove 121, and the No. 43 pipe 143 is connected with the reducing valves 20 and the No. 23 groove 123;

the No. 11 pipe 111 is connected with the No. 33 groove 133, the No. 12 pipe 112 is connected with the feed oil cylinder 11 and the feed working cavity 10, and one end of the No. 8 pipe 108 is arranged in the oil pool 5;

the No. 5 pipe 105 is connected with the No. 49 groove 149, and the No. 49 groove 149, the feed oil cylinder 11 and the feed working cavity 10 are all connected with the No. 5 pipe 105;

one end of the No. 7 pipe 107 is connected with the No. 48 groove 148, and one end of the No. 6 pipe 106 is connected with the No. 46 groove 146;

the groove No. 23 123, the second ball valve 8, the groove No. 50 150 and the groove No. 45 145 are all connected with a pipe No. 51 151, and the grooves No. 8 and 39 are all connected with a pipe No. 14 114.

The implementation mode is specifically as follows: when the utility model is used, through being equipped with reversing valve core 18, can control oil flow in working stroke chamber 16 or return stroke chamber 15, through adjusting variable-speed case 19, can obtain the level four speed, second globe valve 8 is when first order speed, maximum allowable operating pressure can reach 5MPa, when second order speed, maximum allowable operating pressure can reach 3MPa, when third, level four speed, maximum allowable operating pressure can reach 2.5MPa, first order working stroke is that second oil pump 3 pumps the oil in the oil bath 5 in proper order into No. 6 pipe 106, No. 46 groove 146, No. 45 groove 145, No. 51 pipe 151, No. 22 groove 122, No. 23 groove 123, No. 43 pipe 143, No. 44 pipe 144 and No. 1 pipe 101, will enter into oil cylinder rear chamber 14 finally, then make second globe valve 8 operating pressure be 5MPa through overflow valve 9, at this moment the oil in the oil cylinder front chamber 13 can loop through No. 2 pipe 102, No. 41 pipe 141 pipe, No. 42 pipe 142, No. 21 groove 121, No. 20 groove 120, No. 28 groove 128, No. 29 groove 129, No. 4 pipe 104, No. 47 groove 147, No. 48 groove 148, No. 7 pipe 107 and resistance valve 4 return to oil pool 5, first oil pump 2 pumps oil in oil pool 5 into No. 5 pipe 105, No. 49 groove 149, No. 48 groove 148, No. 7 pipe 107 and resistance valve 4 in turn, and finally returns to oil pool 5, the return stroke is that oil in cylinder back cavity 14 sequentially passes through No. 1 pipe 101, No. 44 pipe 144, No. 43 pipe 143, No. 23 groove 123, No. 24 groove 124, No. 31 groove 131, No. 30 groove 130 and No. 8 pipe 108 and returns to oil pool 5, the working stroke speed is 3-8m/min, the return stroke speed is 21.5m/min, the second oil pump 3 pumps oil in oil pool 5 into No. 6 pipe 106, No. 46 groove 146, No. 47 groove 147, No. 48 groove 148 and through No. 7 pipe 107 and resistance valve 5 pool, the first oil pump 2 pumps the oil in the oil pool 5 into a No. 5 pipe 105, a No. 49 groove 149, a No. 50 groove 150, a No. 51 pipe 151, a No. 22 groove 122, a No. 23 groove 123, a No. 43 pipe 143, a No. 44 pipe 144 and a No. 1 pipe 101 in sequence, and finally enters the rear oil cylinder cavity 14, wherein the working stroke speed is 8-16 m/min, the return stroke speed is 43m/min, the third stage is that the second oil pump 3 pumps the oil in the oil pool 5 into a No. 6 pipe 106, a No. 46 groove 146, a No. 45 groove 145, a No. 51 pipe 151, a No. 22 groove 122, a No. 23 groove 123, a No. 43 pipe 143, a No. 44 pipe 144 and a No. 1 pipe 101 in sequence, and finally enters the rear oil cylinder cavity 14, the first oil pump 2 pumps the oil in the oil pool 5 into the No. 5 pipe 105, the No. 49 groove 149, the No. 50 groove 150, the No. 51 pipe 151, the No. 22 groove 122, the No. 23 groove 123, the No. 43 pipe 143, the No. 44 pipe 101 and the No., at this time, the working stroke speed is 16-24 m/min, the return stroke speed is 65m/min, the fourth stage is that the second oil pump 3 sequentially pumps the oil in the oil pool 5 into the No. 6 pipe 106, the No. 46 groove 146, the No. 45 groove 145, the No. 51 pipe 151, the No. 22 groove 122, the No. 23 groove 123, the No. 43 pipe 143, the No. 44 pipe 144 and the No. 1 pipe 101, and finally enters the rear oil cylinder cavity 14, the first oil pump 2 sequentially pumps the oil in the oil pool 5 into the No. 5 pipe 105, the No. 49 groove 149, the No. 50 groove 150, the No. 51 pipe 151, the No. 22 groove 122, the No. 23 groove 123, the No. 43 pipe 143, the No. 44 pipe 144 and the No. 1 pipe 101, and finally enters the rear oil cylinder cavity 14, and then the oil in the front oil cylinder cavity 13 sequentially passes through the No. 2 pipe 102, the No. 41 pipe 141, the No. 42 pipe 142, the No. 21 groove 121, the No. 20 groove 120, the No. 28 groove 128, the No. 29 groove 129, the No. 47 groove 147, the No., Groove No. 48, pipe No. 7, 107 resistance valve 4, and finally return to oil pool 5, where the working stroke speed is 24-37 m/min, the return stroke speed is 65m/min, the pressure reducing valve 20 and the throttle valve 21 are arranged, so that the utility model can carry out stepless speed change between the four-stage speed, and the first ball valve 6 is arranged, can control the pressure necessary for reversing in the utility model, can adjust the resistance of the oil circuit in the working stroke of the utility model by arranging the resistance valve 4, and can adjust the pressure of the oil circuit by arranging the on-off valve 7, the start and stop of the utility model can be rapidly controlled, which facilitates the frequent start and reversing of the utility model, and simultaneously, the stepless speed regulation can be realized, the speed regulation range is larger, when in actual use, realize overload protection easily, simply be equipped with the relief valve alright prevent to transship, make the utility model discloses can steady operation.

The utility model discloses the theory of operation:

referring to the description attached drawings 1-3, when using the utility model discloses the time, through being equipped with hydraulic control console 1, resistance valve 4, start-stop valve 7, relief pressure valve 20, choke valve 21 and resistance valve 4, make the utility model discloses be convenient for frequently start and the switching-over, also can realize stepless speed regulation simultaneously, the speed governing scope is great, when in-service use, realizes overload protection easily, simply is equipped with the relief valve alright prevent to transship, makes the utility model discloses can steady operation.

The points to be finally explained are: first, in the description of the present application, it should be noted that, unless otherwise specified and limited, the terms "mounted," "connected," and "connected" should be understood broadly, and may be a mechanical connection or an electrical connection, or a communication between two elements, and may be a direct connection, and "upper," "lower," "left," and "right" are only used to indicate a relative positional relationship, and when the absolute position of the object to be described is changed, the relative positional relationship may be changed;

secondly, the method comprises the following steps: in the drawings of the disclosed embodiments of the present invention, only the structures related to the disclosed embodiments are referred to, and other structures can refer to the common design, and under the condition of no conflict, the same embodiment and different embodiments of the present invention can be combined with each other;

and finally: the above description is only for the preferred embodiment of the present invention and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. The utility model provides a hydraulic drive of equipment for nickel ingot planing, includes hydraulic control board (1), its characterized in that: the hydraulic control platform is characterized in that a first oil pump (2), a second oil pump (3) and a resistance valve (4) are arranged at the bottom of the hydraulic control platform (1), an oil pool (5) is arranged at the bottom of the resistance valve (4), a first ball valve (6) is arranged on one side of the top of the hydraulic control platform (1), an on-off valve (7) is arranged at the bottom of the first ball valve (6), a second ball valve (8) is arranged at the bottom of the on-off valve (7), a No. 9 pipe (109) is arranged on one side of the second ball valve (8), an overflow valve (9) is arranged at one end of the No. 9 pipe (109), a pressure reducing valve (20) is arranged at the bottom of the overflow valve (9), a feed working cavity (10) is arranged on the other side of the top of the hydraulic control platform (1), a feed oil cylinder (11) is arranged at the bottom of the feed oil cylinder (11, an oil cylinder front cavity (13) is arranged at the top of the hydraulic control console (1), an oil cylinder rear cavity (14) is arranged at the top of the oil cylinder front cavity (13), a return stroke cavity (15) is arranged at one side of the interior of the oil cylinder rear cavity (14), and a working stroke cavity (16) is arranged at the other side of the interior of the oil cylinder rear cavity;

the hydraulic control platform (1) comprises a platform body, a control valve core (17), a reversing valve core (18) and a variable-level valve core (19) are arranged in the platform body, a 25-number groove (125), a 26-number groove (126), a 27-number groove (127), a 28-number groove (128), a 29-number groove (129), a 30-number groove (130), a 31-number groove (131), a 32-number groove (132), a 33-number groove (133), a 34-number groove (134), a 35-number groove (135), a 36-number groove (136) and a 37-number groove (137) are sequentially arranged on the outer side of the control valve core (17), a 20-number groove (120), a 21-number groove (121), a 22-number groove (122), a 23-number groove (123), a 24-number groove (124), a 38-number groove (138), a 39-number groove (139) and a 40-number groove (140) are sequentially arranged on the outer side of the variable-level valve core (19), and a 45-number groove (145), number 47 slots (147), number 48 slots (148), number 49 slots (149), and number 50 slots (150);

no. 1 pipe (101) and No. 2 pipe (102) are arranged between the oil cylinder front cavity (13) and the oil cylinder rear cavity (14), No. 41 pipe (141) and No. 44 pipe (144) are arranged at the bottom of the oil cylinder front cavity (13), No. 42 pipe (142) is arranged at one end of the No. 41 pipe (141), No. 43 pipe (143) is arranged at one end of the No. 44 pipe (144), auxiliary pipe (103) is arranged at one side of the oil cylinder front cavity (13), No. 11 pipe (111) is arranged at one side of the feed oil cylinder (11), throttle valve (21) is arranged on the No. 11 pipe (111), No. 5 pipe (105) is arranged on the first oil pump (2), No. 12 pipe (112) is arranged on the feed valve (12), No. 7 pipe (107) is arranged on the resistance valve (4), No. 6 pipe (106) is arranged on the second oil pump (3), No. 51 pipe (151) is arranged at the other side of the feed oil cylinder (11), an oil filter (22) is arranged on the No. 51 pipe (151), an oil distributor (23) is arranged at the bottom of the oil filter (22), a No. 8 pipe (108) is arranged on the No. 34 groove (134), a No. 13 pipe (113) and a No. 14 pipe (114) are arranged on the start-stop valve (7), a No. 4 pipe (104) is arranged on the No. 47 groove (147), and one end of the No. 4 pipe (104) is connected with a No. 29 groove (129).

2. The hydraulic transmission device of an apparatus for shaving a nickel ingot as claimed in claim 1, wherein: the first oil pump (2) and the second oil pump (3) are both set to be a dual vane pump, the flow rate of the first oil pump (2) is set to be 100L/min, and the flow rate of the second oil pump (3) is set to be 50L/min.

3. The hydraulic transmission device of an apparatus for shaving a nickel ingot as claimed in claim 1, wherein: the auxiliary pipe (103) is provided with a pressure gauge (110), and the first ball valve (6), the start-stop valve (7), the second ball valve (8), the No. 7 pipe (107) and the resistance valve (4) are all connected with the auxiliary pipe (103).

4. The hydraulic transmission device of an apparatus for shaving a nickel ingot as claimed in claim 1, wherein: one end of the No. 42 pipe (142) is connected with the No. 21 groove (121), and the No. 43 pipe (143) is connected with the pressure reducing valve (20) and the No. 23 groove (123).

5. The hydraulic transmission device of an apparatus for shaving a nickel ingot as claimed in claim 1, wherein: no. 11 pipe (111) is connected with No. 33 groove (133), No. 12 pipe (112) is connected with feed hydro-cylinder (11) and feed working chamber (10), No. 8 pipe (108) one end sets up in oil bath (5) inside.

6. The hydraulic transmission device of an apparatus for shaving a nickel ingot as claimed in claim 1, wherein: no. 5 pipe (105) is connected with No. 49 groove (149), feed cylinder (11) and feed working chamber (10) all are connected with No. 5 pipe (105).

7. The hydraulic transmission device of an apparatus for shaving a nickel ingot as claimed in claim 1, wherein: one end of the No. 7 pipe (107) is connected with the No. 48 groove (148), and one end of the No. 6 pipe (106) is connected with the No. 46 groove (146).

8. The hydraulic transmission device of an apparatus for shaving a nickel ingot as claimed in claim 1, wherein: no. 23 groove (123), second globe valve (8), No. 50 groove (150) and No. 45 groove (145) all are connected with No. 51 pipe (151), second globe valve (8) and No. 39 groove (139) all are connected with No. 14 pipe (114).

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