CN217838054U - Lifting device of eccentric equipment - Google Patents

Abstract

The utility model discloses a hoisting tool of eccentric equipment, which comprises a base arranged at the end part of the eccentric equipment, wherein a chute is arranged on the base, a sliding block is arranged in the chute in a clamping way, and a hoisting lock catch is arranged on the sliding block; the base side is provided with adjusting part, adjusting part is including swing joint in the balancing piece of slider side end, balancing piece can drive the slider and remove along spout length direction. Through at eccentric equipment tip installation base, carry out the translation through the balancing piece on the base to the slider of installing the hoist and mount hasp and adjust, realize eccentric equipment's focus position adjustment fast for eccentric equipment gets into vertical hoisting state, has the hidden danger of slippage risk because of balanced focus process when avoiding using the suspender hoist and mount simultaneously.

Description

Lifting device of eccentric equipment

Technical Field

The utility model belongs to the technical field of the lifting device technique and specifically relates to a lifting device of eccentric equipment is related to.

Background

The traditional eccentric equipment, such as the jaw breaking eccentric main shaft, needs a hanging strip to adjust the gravity center of the main shaft during assembly, the gravity center position is difficult to control, and the main shaft cannot be vertically hung, so that the main shaft is difficult to install. For example, the patent publication "a balance hanger for hoisting and mounting eccentric equipment" (patent publication No. CN 216303033U) disclosed in chinese patent document includes a hoisting box beam and four adjustable hoisting assemblies, wherein two adjustable hoisting assemblies are installed at the upper end of the hoisting box beam and the other two adjustable hoisting assemblies are installed at the lower end of the hoisting box beam; the hoisting box beam comprises two vertical wing plates and two connecting transverse plates positioned between the two wing plate supports, and the upper end and the lower end of each wing plate are provided with a plurality of bolt holes along the length direction of the hoisting box beam; every regulation formula hoist and mount subassembly all includes two hoist and mount otic placodes, and a plurality of butt joint bolt holes have been seted up to the upper end of hoist and mount otic placode pin shaft hole and lower extreme, and two hoist and mount otic placodes laminate respectively and set up the lateral surface at two pterygoid laminas, and two hoist and mount otic placodes are fixed on corresponding pterygoid lamina through butt joint bolt hole, the downthehole bolt of bolt, are connected with the round pin axle between the pin shaft hole of two hoist and mount otic placodes.

The position of regulation formula hoist assembly about the regulation is passed through to above-mentioned hoist, makes upper and lower hoisting point atress distribute and reach moment balance in focus both sides to guarantee the hoist and mount level, but the device structure is complicated, and occupation space is big, and focus balanced speed is slow during hoist and mount.

Disclosure of Invention

The lifting device structure is complicated among the prior art, and occupation space is big, the slow scheduling problem of balanced speed during hoist and mount, the utility model provides a lifting device of eccentric equipment through at eccentric equipment tip installation base, carries out the translation through the balancing piece on the base to the slider of installing the hoist and mount hasp and adjusts, realizes the focus position adjustment of eccentric equipment fast for eccentric equipment gets into vertical hoisting state, has the hidden danger of slippage risk because of balanced focus process when avoiding using the suspender hoist and mount simultaneously.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a hoisting tool for eccentric equipment comprises a base arranged at the end part of the eccentric equipment, wherein a chute is arranged on the base, a sliding block is arranged in the chute in a clamping manner, and a hoisting lock catch is arranged on the sliding block; the base side is provided with adjusting part, adjusting part is including swing joint in the balancing piece of slider side end, balancing piece can drive the slider and remove along spout length direction. The base is arranged at the end part of the eccentric equipment, such as the shaft end of the jaw broken eccentric main shaft, the area of the base is basically equal to that of the shaft end of the jaw broken eccentric main shaft, and no extra space is occupied. Be provided with the spout that is used for balanced focus on the base, fixed mounting has the hoist and mount hasp that is used for connecting lifting hook or suspender on the slider in the spout, and after the loop wheel machine equipment hoisted eccentric equipment through hoist and mount hasp, through the fore-and-aft position of balancing piece adjusting block on the base to change the relative position of hoist and mount hasp and eccentric equipment, balance eccentric equipment's focus, until eccentric equipment is the vertical state, the device is simple, and it is convenient to use, and the regulation efficiency is higher.

Preferably, the adjusting assembly comprises a bracket arranged on the side of the base, and the balancing piece is connected to the bracket in a threaded mode. When the balance piece drives the sliding block to move back and forth, the support is kept fixed relative to the base and is used for supporting the balance piece to perform the adjusting action normally. The end part of the balance piece is clamped in the connecting hole at the side end of the sliding block, and when the balance piece rotates on the bracket, the end part of the balance piece is always clamped in the connecting hole, so that the sliding block and the balance piece are ensured to keep synchronous movement in the length direction of the sliding groove.

Preferably, the sliding groove comprises a bottom groove and a passing groove, the passing groove is arranged at the top of the bottom groove, and the width of the bottom groove is greater than that of the passing groove; the shape of the sliding block is arranged corresponding to the shape of the sliding groove. The spout is big-end-up's step open slot for the block connects the slider, avoids the slider to deviate from the condition of spout and appears in the thickness direction, ensures that the slider only can slide on spout length direction.

Preferably, a connecting assembly is arranged on the base, and the connecting assembly penetrates through the base and is connected with the end part of the eccentric equipment.

Furthermore, a through groove is formed in the sliding block, and the connecting assembly comprises a first connecting piece; the through groove extends along the length direction of the sliding block, and the first connecting piece penetrates through the through groove and penetrates through the base.

The connecting assembly is used for detachably connecting eccentric equipment and a base, a first connecting piece in the connecting assembly is arranged in the sliding groove, the sliding block can move back and forth in the sliding groove relative to the first connecting piece due to the through groove formed in the sliding block, the length range of the through groove is the moving range of the sliding block in the sliding groove, the relative distance between the sliding block and the first connecting piece is changed, the relative position of the sliding block and the base can be adjusted, and therefore the distance between the lifting lock catch and the gravity center of the eccentric equipment is adjusted.

Preferably, a fixing piece is connected to the slider in a threaded manner in the thickness direction, and the end of the fixing piece can abut against the bottom of the sliding groove. After the adjustment of the position of the sliding block is finished and the eccentric equipment is vertical, the fixing part is used for locking the relative position of the sliding block and the sliding groove, so that the adjusting assembly is locked, and the eccentric equipment is prevented from inclining again.

Preferably, the base is provided with scale marks, and the scale marks are arranged on the edge of the sliding groove along the length direction of the sliding groove.

Preferably, the zero point of the scale mark is arranged corresponding to the center point of the base.

The scale mark is used for accurately determining the displacement size of the sliding block, the zero point of the scale mark is arranged at the center point of the base, the center point of the base is used as a reference, the gravity center position of the eccentric equipment can be calculated more conveniently, the position adjustment of the adjusting assembly is carried out rapidly when the lifting is carried out again conveniently, and the working efficiency is effectively improved.

Therefore, the utility model discloses following beneficial effect has: (1) The base is arranged at the end part of the eccentric equipment, the sliding block provided with the hoisting lock catch is subjected to translational adjustment through the balance piece on the base, the gravity center position of the eccentric equipment is quickly adjusted, the eccentric equipment is enabled to enter a vertical hoisting state, and meanwhile, the hidden danger of slipping risk caused by the gravity center balancing process during hoisting by using the hanging belt is avoided; (2) The end part of the balancing piece is clamped in the connecting hole at the side end of the sliding block, and when the balancing piece rotates on the bracket, the end part of the balancing piece is always clamped in the connecting hole, so that the sliding block and the balancing piece are ensured to keep synchronous movement in the length direction of the sliding chute; (3) The scale mark on the base is used for accurately determining the displacement size of the sliding block, the zero point of the scale mark is arranged at the central point of the base, the central point of the base is used as a reference, the gravity center position of eccentric equipment can be calculated more conveniently, the position of the adjusting assembly is adjusted rapidly when the eccentric equipment is hoisted again conveniently, and the working efficiency is effectively improved.

Drawings

Fig. 1 is an assembly structure diagram of the present invention.

Fig. 2 is a top view of the present invention.

In the figure: 100. eccentric equipment, 1, base, 2, spout, 21, kerve, 22, cross the groove, 23, logical groove, 3, slider, 31, hoist and mount hasp, 4, adjusting part, 41, balancing piece, 42, support, 5, coupling assembling, 51, first connecting piece, 6, mounting, 7, scale mark.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description.

Example 1

As shown in fig. 1 and 2, a hoisting tool for eccentric equipment comprises a base 1 installed at an end of the eccentric equipment 100, wherein a chute 2 is arranged on the base 1, a sliding block 3 is arranged in the chute 2 in a clamping manner, and a hoisting lock catch 31 is arranged on the sliding block 3; the side of the base 1 is provided with an adjusting component 4, the adjusting component 4 comprises a balance piece 41 movably connected to the side end of the sliding block 3, and the balance piece 41 can drive the sliding block 3 to move along the length direction of the sliding chute 2. The adjusting assembly 4 comprises a bracket 42 arranged at the side of the base 1, and the balancing piece 41 is in threaded connection with the bracket 42. When the balance member 41 drives the slider 3 to move forward and backward, the bracket 42 is kept fixed relative to the base 1, and the adjusting action for supporting the balance member 41 is normally performed. The chute 2 comprises a bottom chute 21 and a through chute 22, the through chute 22 is arranged at the top of the bottom chute 21, and the width of the bottom chute 21 is greater than that of the through chute 22; the shape of the sliding block 3 is arranged corresponding to the shape of the sliding chute 2. The slider 3 is last along thickness direction threaded connection have a mounting 6, the bottom of 6 butt spouts 2 of mounting 6 tip.

The base 1 is installed at the end of the eccentric device 100, for example, the shaft end of the jaw broken eccentric main shaft, and the area of the base 1 is substantially equal to that of the shaft end of the jaw broken eccentric main shaft, so that no additional space is occupied. The base 1 is provided with the spout 2 that is used for balanced focus, fixed mounting has the hoist and mount hasp 31 that is used for connecting lifting hook or suspender on the slider 3 in the spout 2, after the loop wheel machine equipment hoists eccentric equipment 100 through hoist and mount hasp 31, adjust the fore-and-aft position of slider 3 on the base 1 through balancing piece 41, thereby change hoist and mount hasp 31 and eccentric equipment 100's relative position, balance eccentric equipment 100's focus, until eccentric equipment 100 is the vertical state, the device is simple, it is convenient to use, and the regulating efficiency is higher. The end of the balance member 41 is engaged with the connecting hole at the side end of the slider, and when the balance member 41 rotates on the bracket 42, the end of the balance member 41 is engaged with the connecting hole all the time, thereby ensuring that the slider 3 and the balance member 41 move synchronously in the length direction of the chute 2. The sliding groove 2 is a stepped open groove with a large lower part and a small upper part and is used for clamping and connecting the sliding block 3, the sliding block 3 is prevented from being separated from the sliding groove 2 in the thickness direction, and the sliding block 3 is ensured to slide only in the length direction of the sliding groove 2. After the position of the sliding block 3 is adjusted and the eccentric device 100 is vertical, the fixing member 6 is used for locking the relative position of the sliding block 3 and the sliding chute 2, so that the adjusting assembly 4 is locked and the eccentric device 100 is prevented from inclining again.

The base 1 is provided with a connecting assembly 5, and the connecting assembly 5 penetrates through the base 1 and is connected with the end part of the eccentric device 100. A through groove 23 is formed in the sliding block 3, and a first connecting piece 51 is arranged in the connecting component 5; the through groove 23 extends along the length direction of the sliding block 3, and the first connecting piece 51 passes through the through groove 23 and penetrates through the base 1.

The connecting assembly 5 is used for detachably connecting the eccentric device 100 and the base 1, the first connecting piece 51 in the connecting assembly 5 is arranged in the sliding groove 2, the through groove 23 formed in the sliding block 3 enables the sliding block 3 to move back and forth in the sliding groove 2 relative to the first connecting piece 51, the length range of the through groove 23 is the moving range of the sliding block 3 in the sliding groove 2, the relative distance between the sliding block 3 and the first connecting piece 51 is changed, the adjustment of the relative position between the sliding block 3 and the base 1 can be completed, and therefore the distance adjustment of the hoisting lock catch 31 and the gravity center of the eccentric device 100 is achieved.

The base 1 is provided with scale marks 7, and the scale marks 7 are arranged on the edge of the sliding groove 2 along the length direction of the sliding groove 2. The zero point of the scale mark 7 is arranged corresponding to the central point of the base 1. Scale mark 7 is used for the displacement size of accurate definite slider 3, and the zero point of scale mark 7 sets up in base 1 central point department to base 1 central point is the benchmark, and the focus position of calculation eccentric device 100 that can be more convenient carries out the position control of adjusting part 4 fast when conveniently hoisting once more, effectively improves work efficiency.

In this embodiment, the eccentric device 100 is a jaw breaking eccentric main shaft, the connecting assembly 5 includes three connecting members, the connecting members are fastening bolts, the first connecting member 51 is disposed on the sliding groove 2, and the other two connecting members are symmetrically disposed on two sides of the sliding groove 2 along a central line of the sliding groove 2. The fixing piece 6 is a bolt piece and is arranged on the central line of the sliding chute 2.

When the clamping device is used in practice, the base 1 is fixed on the end face of the jaw broken eccentric main shaft by using three clamping bolts, the sliding block 3 is inserted and arranged in the sliding groove 2 at the moment, the support 42 abuts against the side wall of the base 1, and the first connecting piece 51 is fixedly arranged in the through groove 23; then, the main shaft is hoisted by a crane through the hoisting lock catch 31; the position of the sliding block 3 in the horizontal direction is adjusted through the balance piece 41, the through groove 23 translates relative to the first connecting piece 51, and the relative position of the gravity center of the main shaft and the lifting lock catch 31 is adjusted along with the movement of the sliding block 3, so that the gravity center of the main shaft is vertical to the ground; and finally, the position of the sliding block 3 is locked by using the fixing piece 6, and the displacement size is determined by using the scale marks 7 on the base 1, so that the subsequent work and use are facilitated.

In addition to the above embodiments, the technical features of the present invention can be re-selected and combined within the scope of the present invention as disclosed in the claims and the specification to constitute new embodiments, which can be realized by those skilled in the art without any creative work, therefore, the embodiments of the present invention not described in detail should be regarded as specific embodiments of the present invention and within the protection scope of the present invention.

Claims (8)

1. A hoisting tool of eccentric equipment is characterized by comprising a base arranged at the end part of the eccentric equipment, wherein a chute is arranged on the base, a sliding block is arranged in the chute in a clamping manner, and a hoisting lock catch is arranged on the sliding block; the base side is provided with adjusting part, adjusting part is including swing joint in the balancing piece of slider side end, balancing piece can drive the slider and remove along spout length direction.

2. The eccentric equipment lifting tool of claim 1, wherein the adjusting component comprises a bracket arranged at the side of the base, and the balancing member is screwed with the bracket.

3. The hoisting tool of eccentric equipment according to claim 1, wherein the sliding groove comprises a bottom groove and a through groove, the through groove is arranged at the top of the bottom groove, and the width of the bottom groove is greater than that of the through groove; the shape of the sliding block is arranged corresponding to the shape of the sliding groove.

4. The eccentric equipment lifting tool of claim 1, wherein the base is provided with a connecting assembly, and the connecting assembly penetrates through the base and is connected with the end part of the eccentric equipment.

5. The hoisting tool of claim 4, wherein the sliding block is provided with a through groove, and the connecting assembly comprises a first connecting piece; the through groove extends along the length direction of the sliding block, and the first connecting piece penetrates through the through groove and penetrates through the base.

6. The hoisting tool of eccentric equipment according to any one of claims 1 to 5, wherein the slide block is screwed with a fixing member along the thickness direction, and the end of the fixing member can abut against the bottom of the sliding groove.

7. The hoisting tool of eccentric equipment according to any one of claims 1 to 5, wherein the base is provided with scale marks, and the scale marks are arranged at the edge of the sliding chute along the length direction of the sliding chute.

8. The eccentric equipment lifting tool according to claim 7, wherein the zero point of the graduation mark is arranged corresponding to the center point of the base.

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