CN218021379U - Electrodynamic type ladle transfer device that stability is high - Google Patents

Abstract

The utility model discloses an electrodynamic type ladle transfer device that stability is high relates to iron and steel smelting equipment technical field, including the device casing, the bottom of device casing one side is installed and is removed the wheel, actuating mechanism is located the one side that the device casing kept away from and removes the wheel, one side of device casing is connected and is fixed with driving motor and fixture. The utility model discloses a set up fixture, press shrink piece extrusion shrink spring shrink to remove, drive the fixed block and remove the rigidity to the support column, press support column extrusion connecting rod, inside the connecting rod extrusion spring shrink removed to flexible post, accomplish the rigidity to the clamping plate, loosen the extrusion to the shrink piece, the shrink spring promotes the shrink piece and drives the fixed block and resets, accomplish the rigidity to the support column, can accomplish the centre gripping fixed to the ladle position, thereby improve the stability of device casing when removing.

Description

Electrodynamic type ladle transfer device that stability is high

Technical Field

The utility model relates to a steel smelting equipment technical field specifically is an electrodynamic type ladle transfer device that stability is high.

Background

The ladle, also known as ladle, is a container for holding and transferring molten steel, and is composed of shell cutting, refractory inner material, lifting trunnion and sliding gate.

And electrodynamic type ladle transfer device on market is when transporting the ladle, directly places the ladle and transports on transfer device, and is easy when transfer device removes, and the ladle that the top was placed takes place to rock easily to lead to making transfer device when removing in the ladle easily, the ladle that the top was placed takes place to rock easily, thereby lead to the inside molten steel of ladle to take place phenomenons such as sputter because of rocking easily, cause certain injury to peripheral staff, thereby make transfer device stability relatively poor when using.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

In order to solve the above problems in the prior art, the utility model provides an electrodynamic type ladle transfer device that stability is high.

(II) technical scheme

In order to achieve the above object, the utility model discloses a main technical scheme include:

an electric ladle transfer device with high stability comprises a device shell and a driving mechanism with a driving motor, wherein the bottom end of one side of the device shell is provided with a moving wheel, the driving mechanism is positioned on one side of the device shell, which is far away from the moving wheel, and penetrates into the device shell, the driving motor is installed on one side of the device shell, and the top end of the device shell is connected with a clamping mechanism penetrating into the device shell; fixture is including the grip block, the grip block has two, two the grip block is located the top of device casing to run through to the inside of device casing, the inside sliding connection of device casing has and is located the flexible post of grip block one end, the flexible post is kept away from fixedly connected with expanding spring between the one end of grip block and the device casing.

Furthermore, actuating mechanism is still including the transmission post, the transmission post is located driving motor's one side, and is located the inside of device casing, the outer wall that driving motor one side was kept away from to the transmission post cup joints and is fixed with transmission bevel gear, the inside rotation of device casing is connected with the connecting axle that is located transmission bevel gear one side, the outer wall cup joint of connecting axle is fixed with the connection bevel gear that is located transmission bevel gear and keeps away from transmission post one side, the both ends connection of connecting axle is fixed with the drive wheel.

Further, fixture is still including the connecting rod, connecting rod sliding connection is in the inside of device casing, and is located the one side that flexible post is close to the connecting axle, the inside sliding connection of device casing has the support column that is located connecting rod one end, and extends and run through to the top of device casing, one side installation on support column top is fixed with the shrink piece, the shrink piece runs through to the inside of support column, one side of shrink piece and the internal connection of support column are fixed with the shrink spring, the bottom fixedly connected with fixed block of shrink piece, the fixed block runs through the inside of support column to device casing.

Furthermore, the transmission column is rotatably connected with the device shell through a bearing, the driving motor is fixedly installed on one side of the device shell through a bolt, and the transmission bevel gear is meshed with the connection bevel gear.

Further, the inside of device casing is provided with support column assorted shrink groove, the inside of device casing be provided with connecting rod assorted sliding tray, the inside of device casing be provided with a plurality ofly with fixed block assorted fixed slot.

Furthermore, a chamfer is arranged on one side of the bottom end of the connecting rod, an arc surface matched with the connecting rod is arranged at the bottom end, close to the connecting rod, of the supporting column, and a spring is arranged at the top end of the connecting rod.

Furthermore, one side of flexible post is provided with a plurality of fixed slots with connecting rod assorted, the inside of device casing is provided with flexible post assorted shifting chute, the inside of grip block be provided with ladle assorted centre gripping groove.

(III) advantageous effects

The utility model has the advantages that: through setting up fixture, place the ladle between the grip block, and extrude the grip block and drive flexible post extrusion expanding spring shrink and remove, drive the grip block and remove to suitable position after, accomplish the preliminary fixation to the ladle, press shrink block extrusion contracting spring shrink and remove, drive the fixed block and remove the rigidity to the support column, press support column extrusion connecting rod, connecting rod extrusion spring shrink and remove to flexible post inside, accomplish the rigidity to the grip block, loosen the extrusion to the shrink block, shrink spring promotes shrink block and drives the fixed block and reset, accomplish the rigidity to the support column, through the mutual cooperation between a plurality of parts above, can accomplish the centre gripping fixed to the ladle position, thereby improve the stability of device casing when removing.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic connection diagram of the connection bevel gear and the transmission bevel gear according to the present invention;

FIG. 3 is a sectional view of the device housing of the present invention;

FIG. 4 is an enlarged view of the point A of the present invention;

fig. 5 is a structural sectional view of the support pillar of the present invention.

In the figure: 1. a device housing; 101. a moving wheel; 2. a drive mechanism; 201. a drive motor; 202. a drive post; 203. a drive bevel gear; 204. a connecting shaft; 205. connecting a bevel gear; 206. a drive wheel; 3. a clamping mechanism; 301. a clamping plate; 302. a telescopic column; 303. a tension spring; 304. a connecting rod; 305. a support pillar; 306. a contraction block; 307. a retraction spring; 308. and (5) fixing blocks.

Detailed Description

For a better understanding of the present invention, reference will now be made in detail to the present invention, examples of which are illustrated in the accompanying drawings.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "front end", "rear end", "both ends", "one end", "the other end" and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element to which the reference is made must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "provided," "connected," and the like are to be construed broadly, and for example, "connected" may be either fixedly connected or detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The utility model discloses an electrodynamic type ladle transfer device that stability is high of an embodiment, as shown in fig. 1-5, it includes: the device comprises a device shell 1 and a driving mechanism 2 with a driving motor 201, wherein the bottom end of one side of the device shell 1 is provided with a moving wheel 101, the driving mechanism 2 is positioned on one side of the device shell 1, which is far away from the moving wheel 101, and penetrates into the device shell 1, the driving motor 201 is installed on one side of the device shell 1, and the top end of the device shell 1 is connected with a clamping mechanism 3 which penetrates into the device shell 1; fixture 3 is including grip block 301, and grip block 301 has two, and two grip blocks 301 are located the top of device casing 1 to run through to the inside of device casing 1, the inside sliding connection of device casing 1 has the flexible post 302 that is located grip block 301 one end, and fixedly connected with expanding spring 303 between the one end that clamp block 301 was kept away from to flexible post 302 and the device casing 1.

In the above embodiment, place the ladle on 1 top of device casing, and extrude grip block 301, grip block 301 drives flexible post 302 extrusion expanding spring 303 shrink and removes, make the ladle remove to the inside back of device casing 1, grip block 301 accomplishes fixing in advance to the ladle, 2 internals of rethread actuating mechanism drive and remove wheel 101 and remove, drive device casing 1 and remove, 2 internals of actuating mechanism drive 3 internals of gripper mechanism simultaneously and accomplish the rigidity to flexible post 302, can accomplish the centre gripping of ladle when removing the transportation fixed, thereby improve the stability that the transfer device removed.

Further, in this embodiment, as shown in fig. 2 to 4, the driving mechanism 2 further includes a transmission column 202, the transmission column 202 is located on one side of the driving motor 201 and located inside the device housing 1, a transmission bevel gear 203 is fixedly sleeved on an outer wall of the transmission column 202 on the side away from the driving motor 201, a connecting shaft 204 located on one side of the transmission bevel gear 203 is rotatably connected inside the device housing 1, a connecting bevel gear 205 located on the side of the transmission bevel gear 203 away from the transmission column 202 is fixedly sleeved on an outer wall of the connecting shaft 204, and two ends of the connecting shaft 204 are fixedly connected with driving wheels 206.

In the above embodiment, the driving motor 201 is started to drive the transmission column 202 to rotate, the transmission column 202 rotates to drive the transmission bevel gear 203 to rotate, the transmission bevel gear 203 rotates to drive the connection bevel gear 205 to rotate, the connection bevel gear 205 rotates to drive the connection shaft 204 to rotate, the connection shaft 204 rotates to drive the driving wheel 206 to rotate, and the driving wheel 206 rotates to drive the device housing 1 to move by moving the wheel 101, so as to drive the device housing 1 to move.

Further, in this embodiment, as shown in fig. 3 to 5, the clamping mechanism 3 further includes a connecting rod 304, the connecting rod 304 is slidably connected inside the device housing 1 and located on one side of the telescopic column 302 close to the connecting shaft 204, the top end of the device housing 1 is slidably connected with a supporting column 305 located at one end of the connecting rod 304 and extends to penetrate through the top end of the device housing 1, a contracting block 306 is fixed on one side of the top end of the supporting column 305, the contracting block 306 penetrates through the inside of the supporting column 305, a contracting spring 307 is fixed on one side of the contracting block 306 and connected inside the supporting column 305, a fixing block 308 is fixedly connected to the bottom end of the contracting block 306, and the fixing block 308 penetrates through the inside of the supporting column 305 to the device housing 1.

Further, in the present embodiment, as shown in fig. 1 to 2, the transmission column 202 is rotatably connected to the device housing 1 through a bearing, the driving motor 201 is fixed to one side of the device housing 1 through a bolt, and the transmission bevel gear 203 is engaged with the connection bevel gear 205; through the mutual meshing of the transmission bevel gear 203 and the connection bevel gear 205, the transmission column 202 rotates to drive the connection shaft 204 to rotate, and therefore the driving wheel 206 is driven to rotate.

Further, in the present embodiment, as shown in fig. 3 to 5, a shrinking groove matched with the supporting column 305 is provided inside the device housing 1, a sliding groove matched with the connecting rod 304 is provided inside the device housing 1, and a plurality of fixing grooves matched with the fixing block 308 are provided inside the device housing 1; the connecting rod 304 is convenient to move in the device shell 1 through a sliding groove matched with the connecting rod 304 in the device shell 1, and meanwhile, the fixing block 308 is pushed by the shrinkage spring 307 to shrink and move in a fixing groove on the device shell 1, so that the fixing block 308 can complete the position fixing of the supporting column 305 in the device shell 1.

Further, in this embodiment, as shown in fig. 3 to 5, a chamfer is disposed on one side of the bottom end of the connecting rod 304, an arc surface matched with the connecting rod 304 is disposed on the bottom end of the supporting column 305 close to the connecting rod 304, and a first spring is disposed on the top end of the connecting rod 304; through the arc surface of the support column 305, which is matched with the chamfer of the connecting rod 304, the support column 305 can move to press the connecting rod 304 in the device shell 1 conveniently.

Further, in this embodiment, as shown in fig. 3 to 5, one side of the telescopic column 302 is provided with a plurality of fixing grooves matched with the connecting rods 304, the inside of the device housing 1 is provided with moving grooves matched with the telescopic column 302, and the inside of the clamping plate 301 is provided with clamping grooves matched with the ladle; through a plurality of fixed slots matched with the connecting rod 304 on one side of the telescopic column 302, the connecting rod 304 can be conveniently moved to the inside of the telescopic column 302, and the position fixing of the telescopic column 302 is completed.

During implementation, a steel ladle is placed between the clamping plates 301, the clamping plates 301 are squeezed, the clamping plates 301 drive the telescopic columns 302 to squeeze the telescopic springs 303 to shrink and move, the telescopic columns 302 move to drive the clamping plates 301 to move, after the clamping plates 301 move to a proper position, pre-fixing of the steel ladle is completed, the telescopic blocks 306 are pressed to squeeze the telescopic springs 307 to shrink and move, the telescopic blocks 306 move to drive the fixing blocks 308 to move, the fixing blocks 308 move to release fixing of the supporting columns 305, the supporting columns 305 are pressed to squeeze the connecting rods 304, the connecting rods 304 squeeze the springs to shrink and move, the connecting rods 304 move to the inside of the telescopic columns 302, fixing of the clamping plates 301 is completed, squeezing of the telescopic blocks 306 is released, the telescopic springs 307 push the telescopic blocks 306 to drive the fixing blocks 308 to reset, fixing of the supporting columns 305 is completed, clamping and fixing of the position of the steel ladle can be completed, and stability of the device shell 1 during movement is improved.

The above is only the preferred embodiment of the present invention, and all the equivalent changes and modifications made according to the claims of the present invention should be covered by the present invention.

Claims (7)

1. An electric ladle transfer device with high stability comprises a device shell (1) and a driving mechanism (2) with a driving motor (201), wherein the bottom end of one side of the device shell (1) is provided with a moving wheel (101), the driving mechanism (2) is positioned on one side, far away from the moving wheel (101), of the device shell (1), and the driving motor (201) is installed on one side of the device shell (1), and is characterized in that the top end of the device shell (1) is connected with a clamping mechanism (3);

fixture (3) are including grip block (301), grip block (301) are located the top of device casing (1), the inside sliding connection of device casing (1) has and is located telescopic column (302) of grip block (301) one end, fixedly connected with expanding spring (303) between the one end that grip block (301) and device casing (1) are kept away from to telescopic column (302).

2. The high-stability electric ladle transfer device according to claim 1, wherein the driving mechanism (2) further comprises a transmission column (202), the transmission column (202) is located on one side of the driving motor (201), a transmission bevel gear (203) is fixedly sleeved on an outer wall of the transmission column (202) on the side away from the driving motor (201), a connecting shaft (204) located on one side of the transmission bevel gear (203) is rotatably connected to the inside of the device housing (1), a connecting bevel gear (205) located on the side of the transmission bevel gear (203) away from the transmission column (202) is fixedly sleeved on an outer wall of the connecting shaft (204), and driving wheels (206) are fixedly connected to two ends of the connecting shaft (204).

3. The high-stability electric ladle transfer device according to claim 2, wherein the clamping mechanism (3) further comprises a connecting rod (304), the connecting rod (304) is slidably connected to one side of the telescopic column (302) close to the connecting shaft (204), a supporting column (305) located at one end of the connecting rod (304) is slidably connected to the inside of the device housing (1) and extends to the top end of the device housing (1), a contraction block (306) is fixedly installed on one side of the top end of the supporting column (305), a contraction spring (307) is fixedly connected to one side of the contraction block (306) and the inside of the supporting column (305), and a fixing block (308) is fixedly connected to the bottom end of the contraction block (306).

4. The electric ladle transfer device with high stability according to claim 2, wherein the transmission column (202) is rotatably connected with the device shell (1) through a bearing, the driving motor (201) is fixedly installed on one side of the device shell (1) through a bolt, and the transmission bevel gear (203) is meshed with the connection bevel gear (205).

5. The electrodynamic ladle transfer device with high stability according to claim 3, wherein the inside of the device housing (1) is provided with a shrink groove matching with the support column (305), the inside of the device housing (1) is provided with a sliding groove matching with the connecting rod (304), and the inside of the device housing (1) is provided with a plurality of fixing grooves matching with the fixing block (308).

6. The electrodynamic ladle transfer device with high stability according to claim 3, wherein the bottom end side of the connecting rod (304) is provided with a chamfer, the bottom end of the supporting column (305) close to the connecting rod (304) is provided with a circular arc surface matched with the connecting rod (304), and the top end of the connecting rod (304) is provided with a first spring.

7. The electrodynamic ladle transfer device with high stability according to claim 3, wherein one side of the telescopic column (302) is provided with a plurality of fixing grooves matching with the connecting rods (304), the interior of the device housing (1) is provided with moving grooves matching with the telescopic column (302), and the interior of the clamping plate (301) is provided with clamping grooves matching with the ladles.

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