CN210683084U - Lifting device for electrode entering cooling water pool - Google Patents

Abstract

The utility model provides an electrode gets into cooling water pool elevating gear relates to an electrode gets into cooling water pool elevating gear technical field. The utility model discloses an including lower base and last base, be provided with first bearing structure on the base down, cylinder structure and second bearing structure, first bearing structure includes first shock attenuation seat and first telescopic link, cylinder structure includes cylinder and second telescopic link, second bearing structure includes second shock attenuation seat and third telescopic link, first shock attenuation seat and cylinder are connected with last base bottom through first telescopic link and second telescopic link respectively, the center department of going up the base is provided with the through-hole, it is provided with the workstation to go up the base upper end, the cylinder passes through the second telescopic link and is connected with last base bottom, the second telescopic link pierces through the through-hole that sets up on last base. The utility model discloses reduced the roll distance of electrode on getting into the cooling water pond at the sloping iron plate, prevented to cause inner structure to damage because the roll.

Description

Lifting device for electrode entering cooling water pool

Technical Field

The utility model relates to an electrode gets into cooling water pool elevating gear technical field, especially relates to an electrode gets into cooling water pool elevating gear.

Background

Along with the continuous improvement of mechanical level, the lift has also walked into our life, and many lift workstations all do not have shock-absorbing function at present, if have the heavy object to put at the workstation, then to the elevating gear of workstation bottom damage to some extent, the long life that can reduce the lift, simultaneously, in current electrode production field, the electrode gets into the cooling water pond and all adopts the conveying that rolls on oblique iron plate usually, causes the damage to the inner structure of electrode easily.

SUMMERY OF THE UTILITY MODEL

To the weak point that exists in the above-mentioned problem, the utility model provides an electrode gets into cooling water pool elevating gear makes it reduce the roll distance of electrode on getting into the cooling water pool at the sloping iron plate, prevents to cause inner structure to damage because the roll.

In order to solve the problem, the utility model provides an electrode gets into cooling water pool elevating gear, wherein, be in including lower base and setting the last base of base top down, be provided with first bearing structure, cylinder structure and second bearing structure on the base down, first bearing structure cylinder structure with the second bearing structure sets gradually from a left side to the right side, and first bearing structure is including setting up first cushion socket on the base down and with the first telescopic link that first cushion socket is connected, cylinder structure is including setting up cylinder on the base down and with the second telescopic link that the cylinder is connected, second bearing structure is including setting up second cushion socket on the base down and with the third telescopic link that the second cushion socket is connected, first cushion socket the cylinder with the second cushion socket passes through respectively first telescopic link, a, The second telescopic link with the third telescopic link with go up the base bottom and connect, the center department of going up the base is provided with the through-hole, it is provided with the workstation to go up the base upper end, the cylinder passes through the second telescopic link with the workstation bottom is connected, the second telescopic link pierces through the setting and is in go up through-hole on the base, first bearing structure with the second bearing structure is the same.

Preferably, a damping support is arranged between the lower base 1 and the upper base and comprises a first damping support and a second damping support, the first damping support is arranged between the first supporting structure and the cylinder structure, and the second damping support is arranged between the cylinder structure and the second supporting structure.

Preferably, the first damping support comprises a first telescopic support, a second telescopic support, a third telescopic support, a fourth telescopic support, a fifth telescopic support and a sixth telescopic support which are sequentially connected end to end, the top end of the first telescopic support is connected with the upper base, the lower end of the sixth telescopic support is connected with the lower base, and the first damping support and the second damping support are identical in structure.

Preferably, a supporting structure is arranged between the workbench and the upper base and comprises a first supporting structure arranged at the left end of the upper base and a second supporting structure arranged at the right end of the upper base.

Preferably, the first supporting structure comprises a first shock pad, a supporting column and a second shock pad, a third shock pad is arranged at the lower end of the workbench, the supporting column corresponds to the third shock pad, and the lower end of the supporting column is arranged on the first shock pad. The first support structure and the second support structure are structurally identical.

Preferably, the workbench is provided with a limiting block, and the limiting block comprises a first limiting block arranged at the left end of the workbench and a second limiting block arranged at the right end of the workbench.

Compared with the prior art, the utility model has the advantages of it is following:

the utility model discloses simple structure, low cost, safe and reliable, work efficiency is high to reduced the roll distance of electrode on getting into the cooling water pond on the sloping iron plate, prevented to cause inner structure to damage because the roll.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention will be further described in detail with reference to the accompanying drawings and examples, which are not intended to limit the present invention.

As shown in FIG. 1, the embodiment of the present invention includes a lower base 1 and an upper base 2 disposed above the lower base 1, the lower base 1 is provided with a first supporting structure, a cylinder structure and a second supporting structure, the first supporting structure, the cylinder structure and the second supporting structure are sequentially disposed from left to right, the first supporting structure includes a first shock absorbing seat 3 disposed on the lower base 1 and a first telescopic rod 4 connected to the first shock absorbing seat 3, the cylinder structure includes a cylinder 5 disposed on the lower base 1 and a second telescopic rod 6 connected to the cylinder 5, the second supporting structure includes a second shock absorbing seat 7 disposed on the lower base 1 and a third telescopic rod 8 connected to the second shock absorbing seat 7, the first shock absorbing seat 3, the cylinder 5 and the second shock absorbing seat 7 respectively pass through the first telescopic rod 4, The second telescopic link 6 with the third telescopic link 8 with go up 2 bottoms of base and connect, the center department of going up base 2 is provided with the through-hole, it is provided with workstation 9 to go up 2 upper ends of base, cylinder 5 passes through the second telescopic link 6 with workstation 9 bottom is connected, the second telescopic link 6 pierces through and sets up go up the through-hole on the base 2. The first support structure and the second support structure are identical.

Lower base 1 with be provided with shock absorber support 10 between last base 2, shock absorber support 10 includes first shock absorber support and second shock absorber support, first shock absorber support sets up first bearing structure with between the cylinder structure, second shock absorber support sets up the cylinder structure with between the second bearing structure. The first damping support comprises a first telescopic support, a second telescopic support, a third telescopic support, a fourth telescopic support, a fifth telescopic support and a sixth telescopic support which are sequentially connected end to end, the top end of the first telescopic support is connected with the upper base, and the lower end of the sixth telescopic support is connected with the lower base. The first shock absorption support and the second shock absorption support are identical in structure.

The workbench 9 and be provided with bearing structure between the upper base 2, bearing structure is including setting up the first bearing structure 11 of upper base 2 left end and setting are in the second bearing structure 12 of upper base 2 right-hand member. First bearing structure 11 includes first shock pad 13, support column 14 and second shock pad 15, workstation 9 lower extreme is provided with third shock pad 16, support column 14 with third shock pad 16 corresponds the setting, the lower extreme setting of support column 14 is in on the first shock pad 13. The first support structure and the second support structure are structurally identical.

Be provided with stopper 17 on workstation 9, stopper 17 is including setting up the first stopper of workstation 9 left end is in with the setting the second stopper of workstation 9 right-hand member.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (6)

1. A lifting device for an electrode entering a cooling water pool is characterized by comprising a lower base and an upper base arranged above the lower base, wherein a first supporting structure, a cylinder structure and a second supporting structure are arranged on the lower base, the first supporting structure, the cylinder structure and the second supporting structure are sequentially arranged from left to right, the first supporting structure comprises a first damping seat arranged on the lower base and a first telescopic rod connected with the first damping seat, the cylinder structure comprises a cylinder arranged on the lower base and a second telescopic rod connected with the cylinder, the second supporting structure comprises a second damping seat arranged on the lower base and a third telescopic rod connected with the second damping seat, the first damping seat, the cylinder and the second damping seat are respectively connected with the bottom end of the upper base through the first telescopic rod, the second telescopic rod and the third telescopic rod, the center department of going up the base is provided with the through-hole, it is provided with the workstation to go up the base upper end, the cylinder passes through the second telescopic link with the workstation bottom is connected, the second telescopic link pierces through the setting and is in go up the through-hole on the base, first bearing structure with the second bearing structure is the same.

2. The electrode access cooling pool lifting device of claim 1, wherein a shock mount is disposed between said lower base 1 and said upper base, said shock mount comprising a first shock mount and a second shock mount, said first shock mount disposed between said first support structure and said cylinder structure, said second shock mount disposed between said cylinder structure and said second support structure.

3. The electrode entering cooling water pool lifting device according to claim 2, wherein the first damping support comprises a first telescopic support, a second telescopic support, a third telescopic support, a fourth telescopic support, a fifth telescopic support and a sixth telescopic support which are sequentially connected end to end, the top end of the first telescopic support is connected with the upper base, the lower end of the sixth telescopic support is connected with the lower base, and the first damping support and the second damping support are identical in structure.

4. The electrode entry cooling pool lifting device of claim 3, wherein a support structure is disposed between said table and said upper base, said support structure comprising a first support structure disposed at a left end of said upper base and a second support structure disposed at a right end of said upper base.

5. The electrode entry cooling pool lifting device of claim 4, wherein the first support structure comprises a first shock pad, a support column and a second shock pad, a third shock pad is disposed at the lower end of the worktable, the support column is disposed corresponding to the third shock pad, the lower end of the support column is disposed on the first shock pad, and the first support structure and the second support structure are structurally identical.

6. The electrode entering cooling water pool lifting device according to claim 5, wherein a limiting block is arranged on the workbench, and the limiting block comprises a first limiting block arranged at the left end of the workbench and a second limiting block arranged at the right end of the workbench.

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