CN215322683U - Special transfer equipment of graphite die-pin - Google Patents

Abstract

The utility model provides a special transportation equipment of graphite die-pin, gyro wheel A is established in the rotation of lateral wall left part before the bottom plate, riser A is established to the lateral wall on the bottom plate, riser B is established to the lateral wall on the bottom plate, channel-section steel A is established to the lateral wall on the bottom plate, the bearing is established to riser A right side wall, bearing subassembly assembly is established to the lateral wall on the bottom plate, set up graphite die-pin A between the last lateral wall of channel-section steel A and bearing arm B, graphite die-pin A holds in the palm and graphite pole group by graphite, graphite die-pin A's graphite pole sets up the last lateral wall at bearing arm B, set up graphite die-pin B between channel-section steel B and bearing arm A's the last lateral wall, graphite die-pin B's graphite holds in the recess of channel-section steel B, graphite die-pin B's graphite pole sets up the last lateral wall at bearing arm A. The utility model has the beneficial effects that: be convenient for be applicable to through bearing subassembly assembly and transport the graphite die-pin of different length, effectual carry out the transportation of stablizing to its graphite die-pin, improved the stability in the transportation, improve the transportation efficiency.

Description

Special transfer equipment of graphite die-pin

Technical Field

The utility model relates to a graphite supporting rod transfer device, in particular to a transfer device special for a graphite supporting rod.

Background

At present in graphite goods transportation field, carry out the transportation of graphite die-pin, be a link that production graphite die-pin is especially important, current graphite die-pin transfer device is stable qualitative relatively poor, is difficult for firm graphite die-pin, and graphite die-pin processing is comparatively accurate difficult for colliding with for traditional transfer device is difficult for using, and traditional operation equipment transports the cracked problem of easy emergence slip of graphite die-pin, and manual operation is comparatively loaded down with trivial details, and conveying efficiency is lower.

SUMMERY OF THE UTILITY MODEL

The technical problem to be solved by the utility model is as follows: the utility model provides a special transfer apparatus of graphite die-pin has solved current graphite die-pin transfer device stability nature poor, is difficult for firm graphite die-pin, and graphite die-pin processing is comparatively accurate difficult for colliding with for traditional transfer device is difficult for using, and traditional operation equipment transports the cracked problem of easy emergence slip of graphite die-pin, and manual operation is comparatively loaded down with trivial details, the lower problem of conveying efficiency.

The technical scheme adopted by the utility model for solving the problems is as follows: the utility model provides a special transportation equipment of graphite die-pin, includes bottom plate 1, bottom plate 1 front side wall left part rotates and sets up gyro wheel A2, bottom plate 1 front side wall right part rotates and sets up gyro wheel B3, bottom plate 1 back side wall left part rotates and sets up gyro wheel C4, bottom plate 1 back side wall right part rotates and sets up gyro wheel D5, bottom plate 1 upper side wall front end is fixed and is set up riser A6, bottom plate 1 upper side wall rear end is fixed and is set up riser B7, bottom plate 1 upper side wall rear end left and right direction is fixed and is set up channel-section steel A8, channel-section steel A8 is located between riser A6 and riser B7, plate 1 upper side wall front end left and right direction is fixed and is set up channel-section steel B9, channel-section steel B9 is located between riser A6 and riser B7, riser A6 right side wall middle part is fixed and is set up bearing 10, bottom plate 1 upper side wall middle part sets up bearing assembly 11, bearing assembly 11 includes lead screw 111, lead screw, The bearing arm comprises an internal thread sleeve 112, a rotating shaft A1121, a rotating shaft B1122, a bearing arm B113, a rotating shaft D1131, a rotating shaft F1132, a bearing arm A114, a rotating shaft C1141, a rotating shaft E1142, a guide arm A115, a guide arm B116, a guide arm C117, a guide arm D118, a groove A119, a groove B1110 and a hand wheel 1101, wherein a graphite supporting rod A12 is arranged between the upper side walls of a channel steel A8 and the bearing arm B113, the graphite supporting rod A12 is composed of a graphite support and a graphite rod, the graphite support of the graphite supporting rod A12 is positioned in the groove of the channel steel A8, the graphite rod of the graphite supporting rod A12 is arranged on the upper side wall of the bearing arm B113, the graphite supporting rod B13 is arranged between the upper side walls of the channel steel B9 and the bearing arm A114, the graphite supporting rod B13 is composed of the graphite support and the graphite rod, the graphite support of the graphite supporting rod B13 is positioned in the groove of the channel steel B9, and the graphite supporting arm B13 is arranged on the side wall of the channel steel arm A114.

Bottom plate 1 go up the lateral wall middle part left and right direction and set up lead screw 111, internal thread sleeve 112 is established to the rotatory cover on lead screw 111, just internal thread sleeve 112 with lead screw 111 threaded connection, lead screw 111 left end with bearing 10 rotates and is connected, the anterior fixed pivot A1121 that sets up of internal thread sleeve 112 lower lateral wall, the fixed pivot B1122 that sets up in internal thread sleeve 112 lower lateral wall rear portion, the left and right direction of lateral wall sets up bearing arm B113 on bottom plate 1, bearing arm B113 is located between channel-section steel A8 and lead screw 111, bearing arm B113 is the fixed pivot D1131 that sets up of lateral wall down, bearing arm B113 is the fixed pivot F1132 that sets up of lateral wall down, pivot F1132 is located pivot D1131's right side, the left and right direction of lateral wall sets up bearing arm A114 on bottom plate 1, bearing arm A114 is located between channel-section steel B9 and lead screw 111, bearing arm A114 is the fixed pivot C1141 that sets up of lateral wall down, a rotating shaft E1142 is fixedly arranged on the lower side wall of the bearing arm B113, the rotating shaft E1142 is positioned on the right side of the rotating shaft C1141, a guide arm A115 is arranged on the upper side wall of the base plate 1, the left end of the guide arm A115 is rotationally connected with the rotating shaft A1121, the right end of the guide arm A115 is rotationally connected with the rotating shaft D1131, a guide arm C117 is arranged on the upper side wall of the base plate 1, the left end of the guide arm C117 is rotationally connected with the rotating shaft B1122, the right end of the guide arm C117 is rotationally connected with the rotating shaft F1132, the guide arm A115 and the guide arm C117 are arranged in parallel, a guide arm B116 is arranged on the upper side wall of the base plate 1, the left end of the guide arm B116 is rotationally connected with the rotating shaft A1121, the right end of the guide arm B116 is rotationally connected with the right end of the rotating shaft D1131, a guide arm D118 is arranged on the upper side wall of the base plate 1, the left end of the guide arm D118 is rotationally connected with the rotating shaft B1122, and the right end of the guide arm D118 is rotationally connected with the rotating shaft F1132, and the guide arm B116 and the guide arm D118 are arranged in parallel, so that the graphite supporting rod A12 and the graphite supporting rod B13 with different lengths can be conveniently supported by the supporting component assembly 11.

Bearing arm B113 on the lateral wall set up recess A119, bearing arm A114 on the lateral wall set up recess B1110, graphite die-pin A12 the graphite pole with recess A119 cooperatees, graphite die-pin B13 the graphite pole with recess B1110 cooperatees, through graphite die-pin A12 the graphite pole with recess A119 cooperatees for graphite die-pin A12 is more firm in the transportation, through graphite die-pin B13 the graphite pole with recess B1110 cooperatees, makes graphite die-pin B13 more firm in the transportation.

The number of the graphite supporting rod A12, the graphite supporting rod B13, the groove A119 and the groove B1110 is seven.

The right end of the screw rod 111 is fixedly sleeved with a hand wheel 1101, and the screw rod 111 is convenient to rotate through the hand wheel 1101.

The right side wall of the bottom plate 1 is fixedly provided with a handle 14, and the handle 14 is convenient for pushing the transfer equipment to move.

The working principle of the utility model is as follows: push away the transshipment equipment to suitable position through the staff, hand wheel 1101 is held through the staff according to the length of graphite die-pin, then the staff rotates hand wheel 1101 and drives internal thread sleeve 112 and make bearing arm B113 and bearing arm A114 displacement dorsad, place every graphite die-pin A12's graphite support equipartition in channel-section steel A8's recess, make graphite die-pin A12's graphite pole place on adjacent recess B1110, then place every graphite die-pin B13's graphite support equipartition in channel-section steel B9's recess, make graphite die-pin A13's graphite pole place on adjacent recess A119, then hold the handle through the staff and will be equipped with graphite die-pin A12 and graphite die-pin A13 and transport to corresponding position.

The utility model has the beneficial effects that: 1. be convenient for be applicable to through bearing subassembly assembly and transport the graphite die-pin of different length, effectual carry out the transportation of stablizing to its graphite die-pin, improved the stability in the transportation, improve the transportation efficiency. 2. The screw rod is arranged in the middle of the upper side wall of the bottom plate in the left and right directions, the screw rod is sleeved with the internal thread sleeve in a rotating manner, the internal thread sleeve is in threaded connection with the screw rod, the left end of the screw rod is in rotational connection with the bearing, the front part of the lower side wall of the internal thread sleeve is fixedly provided with a rotating shaft A, the rear part of the lower side wall of the internal thread sleeve is fixedly provided with a rotating shaft B, the left and right directions of the upper side wall of the bottom plate are provided with a bearing arm B, the bearing arm B is positioned between the channel steel A and the screw rod, the lower side wall of the bearing arm B is fixedly provided with a rotating shaft D, the lower side wall of the bearing arm B is fixedly provided with a rotating shaft F, the rotating shaft F is positioned on the right side of the rotating shaft D, the left and right directions of the upper side wall of the bottom plate are provided with a bearing arm A, the bearing arm A is positioned between the channel steel B and the screw rod, the lower side wall of the bearing arm A is fixedly provided with a rotating shaft C, and the lower side wall of the bearing arm B is fixedly provided with a rotating shaft E, the rotating shaft E is positioned on the right side of the rotating shaft C, the side wall of the base plate is provided with a guide arm A, the left end of the guide arm A is rotatably connected with the rotating shaft A, the right end of the guide arm A is rotatably connected with the rotating shaft D, the side wall of the base plate is provided with a guide arm C, the left end of the guide arm C is rotatably connected with the rotating shaft B, the right end of the guide arm C is rotatably connected with the rotating shaft F, the guide arm A and the guide arm C are arranged in parallel, the side wall of the base plate is provided with a guide arm B, the left end of the guide arm B is rotatably connected with the rotating shaft A, the right end of the guide arm B is rotatably connected with the right end of the rotating shaft D, the side wall of the base plate is provided with a guide arm D, the left end of the guide arm D is rotatably connected with the rotating shaft B, the right end of the guide arm D is rotatably connected with the rotating shaft F, and the guide arm B and the guide arm D are arranged in parallel, graphite die-pin A and graphite die-pin B of different length are convenient for support through bearing subassembly assembly. 3. Recess A is seted up to the lateral wall on bearing arm B, recess B is seted up to the lateral wall on bearing arm A, graphite die-pin A's graphite pole with recess A cooperatees, graphite die-pin B's graphite pole with recess B cooperatees, through graphite die-pin A's graphite pole with recess A cooperatees for graphite die-pin A is more firm in the transportation, through graphite die-pin B's graphite pole with recess B cooperatees, makes graphite die-pin B more firm in the transportation. 4. The number of the graphite supporting rods A, the number of the graphite supporting rods B, the number of the grooves A and the number of the grooves B are seven. 5. The right end of the screw rod is fixedly sleeved with a hand wheel, and the screw rod is convenient to rotate through the hand wheel. 6. The handle is fixedly arranged on the right side wall of the bottom plate, and the transfer equipment is convenient to push to move through the handle.

Drawings

FIG. 1 is a schematic top view of the present invention;

fig. 2 is a schematic perspective top view of the base plate 1 of the present invention;

figure 3 is a schematic view of the construction of the support assembly 11 of the present invention.

Wherein, 1-bottom plate, 2-roller A, 3-roller B, 4-roller C, 5-roller D, 6-vertical plate A, 7-vertical plate B, 8-channel steel A, 9-channel steel B, 10-bearing, 11-bearing component assembly, 111-screw rod, 112-internal thread sleeve, 1121-rotating shaft A, 1122-rotating shaft B, 113-bearing arm B, 1131-rotating shaft D, 1132-rotating shaft F, 114-bearing arm A, 1141-rotating shaft C, 1142-rotating shaft E, 115-guide arm A, 116-guide arm B, 117-guide arm C, 118-guide arm D, 119-groove A, 1110-groove B, 1101-hand wheel, 12-graphite supporting rod A, 13-graphite supporting rod B and 14-handle.

Detailed Description

Embodiments of the present invention are further described below with reference to the accompanying drawings.

Referring to fig. 1-3, the transfer apparatus dedicated for graphite supporting rods according to the present embodiment includes a bottom plate 1, a roller a2 is rotatably disposed at a left portion of a front sidewall of the bottom plate 1, a roller B3 is rotatably disposed at a right portion of a front sidewall of the bottom plate 1, a roller C4 is rotatably disposed at a left portion of a rear sidewall of the bottom plate 1, a roller D5 is rotatably disposed at a right portion of a rear sidewall of the bottom plate 1, a vertical plate A6 is fixedly disposed at a front end of an upper sidewall of the bottom plate 1, a vertical plate B7 is fixedly disposed at a rear end of an upper sidewall of the bottom plate 1, a channel steel A8 is fixedly disposed at a left and right direction at a rear end of the upper sidewall of the bottom plate 1, the channel steel A8 is disposed between the vertical plate A6 and the vertical plate B7, a channel steel B9 is fixedly disposed at a left and right direction at a front end of the upper sidewall of the bottom plate 1, a channel steel B9 is disposed between the vertical plate A6 and a 7, a bearing 10 is fixedly disposed at a middle portion of a right sidewall of the vertical plate A6, a bearing assembly 11 is disposed at a middle portion of the upper sidewall of the bottom plate 1, the bearing component assembly 11 comprises a screw rod 111, an internally threaded sleeve 112, a rotating shaft A1121, a rotating shaft B1122, a bearing arm B113, a rotating shaft D1131, a rotating shaft F1132, a bearing arm A114, a rotating shaft C1141, a rotating shaft E1142, a guide arm A115, a guide arm B116, a guide arm C117, a guide arm D118, a groove A119, a groove B1110 and a hand wheel 1101, a graphite supporting rod A12 is arranged between the channel steel A8 and the upper side wall of the supporting arm B113, the graphite supporting rod A12 consists of a graphite support and a graphite rod, the graphite support of the graphite support rod A12 is positioned in the groove of the channel steel A8, the graphite rod of the graphite support rod A12 is arranged on the upper side wall of the support arm B113, a graphite supporting rod B13 is arranged between the channel steel B9 and the upper side wall of the supporting arm A114, the graphite supporting rod B13 consists of a graphite support and a graphite rod, the graphite support of the graphite support rod B13 is positioned in the groove of the channel steel B9, and the graphite rod of the graphite support rod B13 is arranged on the upper side wall of the bearing arm A114.

In an optional embodiment, the bottom plate 1 is provided with a screw rod 111 in the left and right direction of the middle part of the upper side wall, an internal thread sleeve 112 is rotatably sleeved on the screw rod 111, the internal thread sleeve 112 is connected with the screw rod 111 through threads, the left end of the screw rod 111 is rotatably connected with the bearing 10, a rotary shaft a1121 is fixedly arranged at the front part of the lower side wall of the internal thread sleeve 112, a rotary shaft B1122 is fixedly arranged at the rear part of the lower side wall of the internal thread sleeve 112, a bearing arm B113 is arranged in the left and right direction of the upper side wall of the bottom plate 1, the bearing arm B113 is arranged between the channel steel A8 and the screw rod 111, a rotary shaft D1131 is fixedly arranged at the lower side wall of the bearing arm B113, a rotary shaft F1132 is fixedly arranged at the lower side wall of the bearing arm B113, the rotary shaft F1132 is positioned at the right side of the rotary shaft D1131, a bearing arm a114 is arranged in the left and right direction of the upper side wall of the bottom plate 1, the bearing arm a114 is positioned between the channel steel B9 and the screw rod 111, a rotating shaft C1141 is fixedly arranged on the lower side wall of the bearing arm A114, a rotating shaft E1142 is fixedly arranged on the lower side wall of the bearing arm B113, the rotating shaft E1142 is positioned on the right side of the rotating shaft C1141, a guide arm A115 is arranged on the upper side wall of the base plate 1, the left end of the guide arm A115 is rotatably connected with the rotating shaft A1121, the right end of the guide arm A115 is rotatably connected with the rotating shaft D1131, a guide arm C117 is arranged on the upper side wall of the base plate 1, the left end of the guide arm C117 is rotatably connected with the rotating shaft B1122, the right end of the guide arm C117 is rotatably connected with the rotating shaft F1132, the guide arm A115 and the guide arm C117 are arranged in parallel, a guide arm B116 is arranged on the upper side wall of the base plate 1, the left end of the guide arm B116 is rotatably connected with the rotating shaft A1121, the right end of the guide arm B116 is rotatably connected with the rotating shaft D1131, a guide arm D118 is arranged on the upper side wall of the base plate 1122, and the left end of the guide arm D118 is rotatably connected with the rotating shaft B1142, the right end of the arm D118 is rotatably connected with the rotating shaft F1132, the guide arm B116 and the guide arm D118 are arranged in parallel, and the graphite supporting rod A12 and the graphite supporting rod B13 with different lengths can be conveniently supported through the supporting component assembly 11.

In an alternative embodiment, the side wall of the support arm B113 is provided with a groove a119, the side wall of the support arm a114 is provided with a groove B1110, the graphite rod of the graphite supporting rod a12 is matched with the groove a119, the graphite rod of the graphite supporting rod B13 is matched with the groove B1110, the graphite rod of the graphite supporting rod a12 is matched with the groove a119, so that the graphite supporting rod a12 is more stable in the transportation process, and the graphite rod of the graphite supporting rod B13 is matched with the groove B1110, so that the graphite supporting rod B13 is more stable in the transportation process.

In an alternative embodiment, the number of the graphite supporting rod A12, the graphite supporting rod B13, the groove A119 and the groove B1110 is seven.

In an alternative embodiment, a handwheel 1101 is fixedly sleeved at the right end of the screw rod 111, and the handwheel 1101 is used for facilitating the rotation of the screw rod 111.

In an alternative embodiment, a handle 14 is fixedly arranged on the right side wall of the bottom plate 1, and the handle 14 is used for facilitating the movement of the transfer equipment.

The working principle of the specific embodiment is as follows: push away the transshipment equipment to suitable position through the staff, hand wheel 1101 is held through the staff according to the length of graphite die-pin, then the staff rotates hand wheel 1101 and drives internal thread sleeve 112 and make bearing arm B113 and bearing arm A114 displacement dorsad, place every graphite die-pin A12's graphite support equipartition in channel-section steel A8's recess, make graphite die-pin A12's graphite pole place on adjacent recess B1110, then place every graphite die-pin B13's graphite support equipartition in channel-section steel B9's recess, make graphite die-pin A13's graphite pole place on adjacent recess A119, then hold the handle through the staff and will be equipped with graphite die-pin A12 and graphite die-pin A13 and transport to corresponding position.

The utility model has the beneficial effects that: 1. be convenient for be applicable to through bearing subassembly assembly and transport the graphite die-pin of different length, effectual carry out the transportation of stablizing to its graphite die-pin, improved the stability in the transportation, improve the transportation efficiency. 2. The screw rod is arranged in the middle of the upper side wall of the bottom plate in the left and right directions, the screw rod is sleeved with the internal thread sleeve in a rotating manner, the internal thread sleeve is in threaded connection with the screw rod, the left end of the screw rod is in rotational connection with the bearing, the front part of the lower side wall of the internal thread sleeve is fixedly provided with a rotating shaft A, the rear part of the lower side wall of the internal thread sleeve is fixedly provided with a rotating shaft B, the left and right directions of the upper side wall of the bottom plate are provided with a bearing arm B, the bearing arm B is positioned between the channel steel A and the screw rod, the lower side wall of the bearing arm B is fixedly provided with a rotating shaft D, the lower side wall of the bearing arm B is fixedly provided with a rotating shaft F, the rotating shaft F is positioned on the right side of the rotating shaft D, the left and right directions of the upper side wall of the bottom plate are provided with a bearing arm A, the bearing arm A is positioned between the channel steel B and the screw rod, the lower side wall of the bearing arm A is fixedly provided with a rotating shaft C, and the lower side wall of the bearing arm B is fixedly provided with a rotating shaft E, the rotating shaft E is positioned on the right side of the rotating shaft C, the side wall of the base plate is provided with a guide arm A, the left end of the guide arm A is rotatably connected with the rotating shaft A, the right end of the guide arm A is rotatably connected with the rotating shaft D, the side wall of the base plate is provided with a guide arm C, the left end of the guide arm C is rotatably connected with the rotating shaft B, the right end of the guide arm C is rotatably connected with the rotating shaft F, the guide arm A and the guide arm C are arranged in parallel, the side wall of the base plate is provided with a guide arm B, the left end of the guide arm B is rotatably connected with the rotating shaft A, the right end of the guide arm B is rotatably connected with the right end of the rotating shaft D, the side wall of the base plate is provided with a guide arm D, the left end of the guide arm D is rotatably connected with the rotating shaft B, the right end of the guide arm D is rotatably connected with the rotating shaft F, and the guide arm B and the guide arm D are arranged in parallel, graphite die-pin A and graphite die-pin B of different length are convenient for support through bearing subassembly assembly. 3. Recess A is seted up to the lateral wall on bearing arm B, recess B is seted up to the lateral wall on bearing arm A, graphite die-pin A's graphite pole with recess A cooperatees, graphite die-pin B's graphite pole with recess B cooperatees, through graphite die-pin A's graphite pole with recess A cooperatees for graphite die-pin A is more firm in the transportation, through graphite die-pin B's graphite pole with recess B cooperatees, makes graphite die-pin B more firm in the transportation. 4. The number of the graphite supporting rods A, the number of the graphite supporting rods B, the number of the grooves A and the number of the grooves B are seven. 5. The right end of the screw rod is fixedly sleeved with a hand wheel, and the screw rod is convenient to rotate through the hand wheel. 6. The handle is fixedly arranged on the right side wall of the bottom plate, and the transfer equipment is convenient to push to move through the handle.

The specific embodiments of the present invention should not be construed as limiting the utility model, and all similar constructions and modifications utilizing the same are intended to be included within the scope of the present invention.

Claims (6)

1. The utility model provides a special transfer apparatus of graphite die-pin, includes bottom plate (1), its characterized in that: the roller A (2) is rotatably arranged at the left part of the front side wall of the bottom plate (1), the roller B (3) is rotatably arranged at the right part of the front side wall of the bottom plate (1), the roller C (4) is rotatably arranged at the left part of the rear side wall of the bottom plate (1), the roller D (5) is rotatably arranged at the right part of the rear side wall of the bottom plate (1), the vertical plate A (6) is fixedly arranged at the front end of the upper side wall of the bottom plate (1), the vertical plate B (7) is fixedly arranged at the rear end of the upper side wall of the bottom plate (1), the channel steel A (8) is fixedly arranged at the left and right directions of the rear end of the upper side wall of the bottom plate (1), the channel steel A (8) is positioned between the vertical plate A (6) and the vertical plate B (7), the channel steel B (9) is fixedly arranged at the left and right directions of the front end of the upper side wall of the bottom plate (1), the channel steel B (9) is positioned between the vertical plate A (6) and the vertical plate B (7), the bearing (10) is fixedly arranged at the middle part of the right side wall of the vertical plate A (6), the middle part of the upper side wall of the bottom plate (1) is provided with a bearing component assembly (11), the bearing component assembly (11) comprises a screw rod (111), an internal thread sleeve (112), a rotating shaft A (1121), a rotating shaft B (1122), a bearing arm B (113), a rotating shaft D (1131), a rotating shaft F (1132), a bearing arm A (114), a rotating shaft C (1141), a rotating shaft E (1142), a guide arm A (115), a guide arm B (116), a guide arm C (117), a guide arm D (118), a groove A (119), a groove B (1110) and a hand wheel (1101), a graphite supporting rod A (12) is arranged between the upper side walls of the channel steel A (8) and the bearing arm B (113), the graphite supporting rod A (12) is composed of a graphite support and a graphite rod, the graphite support of the graphite supporting rod A (12) is positioned in the groove of the channel steel A (8), and the graphite rod of the graphite supporting rod A (12) is arranged on the upper side wall of the bearing arm B (113), set up graphite die-pin B (13) between the last lateral wall of channel-section steel B (9) and bearing arm A (114), graphite die-pin B (13) hold in the palm with the graphite pole by graphite and constitute, the graphite of graphite die-pin B (13) holds in the palm and is located in the recess of channel-section steel B (9), the graphite pole setting of graphite die-pin B (13) is in the last lateral wall of bearing arm A (114).

2. The transfer device special for the graphite supporting rod, according to claim 1, is characterized in that: bottom plate (1) go up the lateral wall middle part left and right direction and set up lead screw (111), rotatory cover is established internal thread sleeve (112) on lead screw (111), just internal thread sleeve (112) with lead screw (111) threaded connection, lead screw (111) left end with bearing (10) rotate to be connected, internal thread sleeve (112) lower lateral wall front portion is fixed and is set up pivot A (1121), internal thread sleeve (112) lower lateral wall rear portion is fixed and is set up pivot B (1122), bottom plate (1) is gone up the left and right direction of lateral wall and is set up bearing arm B (113), bearing arm B (113) is located between channel-section steel A (8) and lead screw (111), bearing arm B (113) lower lateral wall is fixed and is set up pivot D (1131), bearing arm B (113) lower lateral wall is fixed and is set up pivot F (1132), pivot F (1132) are located the right side of pivot D (1131), the left and right directions of the upper side wall of the bottom plate (1) are provided with a bearing arm A (114), the bearing arm A (114) is positioned between the channel steel B (9) and the screw rod (111), the lower side wall of the bearing arm A (114) is fixedly provided with a rotating shaft C (1141), the lower side wall of the bearing arm B (113) is fixedly provided with a rotating shaft E (1142), the rotating shaft E (1142) is positioned on the right side of the rotating shaft C (1141), the upper side wall of the bottom plate (1) is provided with a guide arm A (115), the left end of the guide arm A (115) is rotatably connected with the rotating shaft A (1121), the right end of the guide arm A (115) is rotatably connected with the rotating shaft D (1131), the upper side wall of the bottom plate (1) is provided with a guide arm C (117), the left end of the guide arm C (117) is rotatably connected with the rotating shaft B (1122), and the right end of the guide arm C (117) is rotatably connected with the rotating shaft F (1132), just guide arm A (115) and guide arm C (117) parallel arrangement, the lateral wall sets up guide arm B (116) on bottom plate (1), guide arm B (116) left end with pivot A (1121) rotates and is connected, guide arm B (116) right-hand member with pivot D (1131) right-hand member rotates and is connected, the lateral wall sets up guide arm D (118) on bottom plate (1), guide arm D (118) left end with pivot B (1122) rotates and is connected, to arm D (118) right-hand member with pivot F (1132) rotates and is connected, just guide arm B (116) and guide arm D (118) parallel arrangement.

3. The transfer device special for the graphite supporting rod, according to claim 1, is characterized in that: the upper side wall of the bearing arm B (113) is provided with a groove A (119), the upper side wall of the bearing arm A (114) is provided with a groove B (1110), a graphite rod of the graphite supporting rod A (12) is matched with the groove A (119), and a graphite rod of the graphite supporting rod B (13) is matched with the groove B (1110).

4. The transfer device special for the graphite supporting rod as claimed in claim 3, wherein: the number of the graphite supporting rod A (12), the number of the graphite supporting rod B (13), the number of the grooves A (119) and the number of the grooves B (1110) are all seven.

5. The transfer device special for the graphite supporting rod as claimed in claim 2, wherein: and a hand wheel (1101) is fixedly sleeved at the right end of the screw rod (111).

6. The transfer device special for the graphite supporting rod, according to claim 1, is characterized in that: the handle (14) is fixedly arranged on the right side wall of the bottom plate (1).

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