CN115839651A - Wear testing device for excavator bucket teeth - Google Patents

Abstract

The invention relates to the technical field of excavator bucket tooth abrasion testing, in particular to an excavator bucket tooth abrasion testing device which comprises a bearing mechanism, a bucket tooth shaping mechanism and a slope measuring mechanism, wherein the bearing mechanism comprises a beam plate and two positioning rods movably arranged in the beam plate. Set up through the appearance of referring to the bucket tooth and can carry out rubbing moulding a plurality of bases to bucket tooth top surface and bottom, and the rubbing film guide arm that a plurality of transversal of movable mounting just compressed tightly the bucket tooth surface in the inside cross bore of base, and assemble the first clamp splice of structure at the top installation of a plurality of bases, combination formula clamp splice and second clamp splice, the cooperation supports the drawing of montant and controls a plurality of first clamp splices, combination formula clamp splice and second clamp splice are to the quick rubbing moulding of bucket tooth, install a plurality of pointers on the combination formula clamp splice this moment and alright carry out the inclination to each position wearing and tearing of bucket tooth and measure, thereby can the person of facilitating the use wear to in the bucket tooth man-hour go on short-term test and visual observation.

Description

Wear testing device for excavator bucket teeth

Technical Field

The invention relates to the technical field of excavator bucket tooth abrasion testing, in particular to an excavator bucket tooth abrasion testing device.

Background

The excavator bucket is a bucket-shaped member for excavating loose materials such as soil, yellow sand, stones, construction waste and the like, consists of a bottom plate, a wall plate, a lug plate, a tooth plate, a side plate, bucket teeth, side teeth and the like, and is a working device which is often arranged on an excavator and is used for excavating.

Because the machine bucket tooth can contact various metals or the higher grit of hardness in the use, long-time use can cause the wearing and tearing of machine bucket, can lead to the machine bucket to appear the fracture when serious, and then can bring the influence to the efficiency of machine bucket loading and unloading material, and through the mode of artificial observation machine bucket tooth, the wearing and tearing situation of difficult accurate measurement bucket tooth during man-hour.

According to the above, how to accurately rubbing and measure the abrasion degree of the bucket teeth in the working time period is convenient for a user to intuitively and conveniently observe the abrasion condition of the bucket teeth in the working time period is the technical difficulty to be solved by the invention.

Disclosure of Invention

The present invention is directed to solving one of the technical problems of the prior art or the related art.

Therefore, the technical scheme adopted by the invention is as follows:

the utility model provides an excavator bucket tooth wear testing arrangement, includes bearing mechanism, the moulding mechanism of bucket tooth and slope measurement mechanism, bearing mechanism includes beam slab, two locating levers of movable mounting in beam slab inside, connects two springs and the backing plate of movable mounting in the locating lever bottom at beam slab both ends, including installing a plurality of roofs in the beam slab, install two end pipes in roof slab both ends recess, movable mounting tighten the sleeve pipe in the end pipe, run through to tighten intraductal traction horizontal pole, two sliders of movable mounting in the inside spout of roof, connect the extension spring between roof and slider and install the support montant on slider bottom latch closure, slope measurement mechanism is including a first clamp splice and a plurality of combination formula clamp splice and a second clamp splice that are located beam slab under, a plurality of angle measurement chi that are located the first clamp splice and a plurality of combination formula clamp splice outsides, install a plurality of gaskets on a plurality of combination formula clamp splices, connect a plurality of pressure springs in a plurality of combination formula clamp splices and a second clamp splice, be located a first clamp splice, a plurality of combination formula clamp splices and a plurality of guide arms and a plurality of base seat that are installed under a plurality of base.

The present invention in a preferred example may be further configured to: u-shaped slotted hole of centre gripping in the roof is seted up to the bottom of beam slab, and the top at beam slab both ends sets up the cylindricality shrinkage pool of retraining in the spring bottom.

By adopting the technical scheme, the two positioning rods are movably arranged in the holes at the two ends of the beam plate and are matched with the two springs for elastically supporting the two positioning rods, and after the two base plates are attached to the bucket teeth, the two springs can ensure that the slope measuring mechanism clamped on the top surfaces and the bottom surfaces of the bucket teeth integrally maintains a constant state.

The present invention in a preferred example may be further configured to: t-shaped sliding plates are arranged on the inner walls of the sliding grooves in the two inner sides of the top plate, the sliding blocks are integrally of I-shaped structures, and the sliding blocks are clamped on the two adjacent T-shaped sliding plates in an adaptive mode.

Through adopting above-mentioned technical scheme, utilize the roof beam board to carry out the centre gripping with a plurality of roofs and fix, a plurality of roofs can neatly arrange the side at the bucket tooth this moment, lie in first clamp splice, combination formula clamp splice and the second clamp splice that just below and symmetric distribution were crossed under the roof beam board this moment alright face the bucket tooth and carry out accurate rubbing measurement along the water flat line.

The present invention in a preferred example may be further configured to: the whole length of the traction cross rod is the same as that of the top plate, and the cylindrical end head at the inner end of the traction cross rod is matched and penetrates into the sliding block.

Through adopting above-mentioned technical scheme, utilize and pull horizontal pole and extension spring to connect the both ends of slider to the guide of cooperation T font slide to the slider can be realized two adjacent support poles and to the tight regulation of clamp of the first clamp splice of its bottom, combination formula clamp splice or second clamp splice along bucket tooth central line with this.

The present invention in a preferred example may be further configured to: the utility model discloses a binding sleeve pipe, including end pipe and binding sleeve pipe, the end pipe is equipped with the infundibulate cross bore with binding the inside of sheathed tube, the end pipe is made by stainless steel material, and binds the sleeve pipe and make by the silica gel material.

Through adopting above-mentioned technical scheme, the sleeve pipe is tightened to the guide of pulling the horizontal pole to the utilization, after tightening the sleeve pipe and taking out from the end pipe inner chamber, the horizontal pole that pulls this moment alright carry out free stretching along the end pipe with tighten sheathed tube inner chamber, after pulling horizontal pole control slider and removing the assigned position, can peg graft again at the end pipe inner chamber with tightening the sleeve pipe to slope measuring mechanism subassembly holistic stability behind the realization rubbing.

The present invention in a preferred example may be further configured to: cylindrical column heads are arranged at the tops of the first clamping block, the combined clamping block and the second clamping block, the first clamping block, the combined clamping block and the second clamping block are made of cast iron, the combined clamping block is composed of a main cushion block and an auxiliary cushion block of a hinge structure, and annular grooves and end heads which are matched with the inner ends of the first clamping block and the second clamping block and are arranged at the two ends of the main cushion block and the auxiliary cushion block respectively.

Through adopting above-mentioned technical scheme, utilize the butt joint of the interior main cushion of end and a combination formula clamp splice of first clamp splice inner, and combine the end of the interior vice cushion of a combination formula clamp splice to be connected with the inner annular of second clamp splice, the combination formula clamp splice under a plurality of concatenation states this moment alright with first clamp splice and second clamp splice formation chain structure, after a plurality of support montants were removed, first clamp splice this moment, the second clamp splice, and main cushion and vice cushion in a plurality of combination formula clamp splices alright carry out the moulding processing of pertinence rubbing to the top and the bottom of bucket tooth.

By adopting the technical scheme, the invention has the beneficial effects that:

1. according to the invention, a plurality of bases capable of rubbing and shaping the top surface and the bottom of the bucket tooth are arranged by referring to the appearance of the bucket tooth, a plurality of rubbing guide rods which are transversely arranged and tightly press the surface of the bucket tooth are movably arranged in transverse holes in the bases, and first clamping blocks, combined clamping blocks and second clamping blocks of an assembling structure are arranged at the tops of the bases, and are matched with the stretching of a supporting vertical rod to control the rapid rubbing and shaping of the bucket tooth by the first clamping blocks, the combined clamping blocks and the second clamping blocks, so that a plurality of pointers arranged on the combined clamping blocks can measure the inclination angle of the abrasion of each part of the bucket tooth, and the rapid detection and the visual observation of the abrasion of the bucket tooth in working hours can be conveniently carried out by users.

2. According to the invention, the top plates are arranged in the beam plate in an array distribution manner, the two sliding grooves are symmetrically arranged in the top plates, the sliding blocks capable of connecting the tops of two adjacent supporting vertical rods are movably arranged in the two sliding grooves, after the tightening sleeve is taken out, a user can change the positions of the sliding blocks in the sliding grooves by controlling the stretching of the traction cross rod, and the supporting vertical rods connected by the sliding blocks can drive the first clamping blocks or the combined clamping blocks and the second clamping blocks to adaptively clamp the bucket teeth with different sizes to the maximum extent, so that the adaptability and the universality of the device to the bucket teeth with different shapes are facilitated.

Drawings

FIG. 1 is a schematic diagram of one embodiment of the present invention;

FIG. 2 is a schematic side bottom view of one embodiment of the present invention;

FIG. 3 is a schematic partial dispersion view of FIG. 1 in accordance with one embodiment of the present invention;

FIG. 4 is a schematic partial dispersion view of FIG. 2 in accordance with one embodiment of the present invention;

FIG. 5 is a schematic partial dispersion view of the embodiment of FIG. 4;

FIG. 6 is a schematic view of the internal dispersion of FIG. 4 in accordance with one embodiment of the present invention;

FIG. 7 is an enlarged schematic view of the embodiment of the present invention at A in FIG. 6;

FIG. 8 is a schematic partial cross-sectional view of FIG. 6 in accordance with one embodiment of the present invention;

FIG. 9 is an enlarged view of the position B in FIG. 8 according to an embodiment of the present invention.

Reference numerals are as follows:

100. a load bearing mechanism; 110. a beam plate; 120. positioning a rod; 130. a spring; 140. a base plate;

200. a bucket tooth shaping mechanism; 210. a top plate; 220. an end tube; 230. tightening the sleeve; 240. a traction cross bar; 250. a tension spring; 260. a slider; 270. supporting a vertical rod;

300. a slope measuring mechanism; 310. a first clamping block; 320. an angle measuring scale; 330. a combined clamping block; 340. a second clamping block; 350. a gasket; 360. a pointer; 370. a pressure spring; 380. a base; 390. rubbing film guide rod.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings in conjunction with the following detailed description. It should be noted that the embodiments of the present invention and features of the embodiments may be combined with each other without conflict.

It is to be understood that this description is made only by way of example and not as a limitation on the scope of the invention.

The following describes an excavator bucket tooth wear testing device provided by some embodiments of the invention with reference to the accompanying drawings.

Example one

Referring to fig. 1 to 9, the wear testing device for the excavator tooth provided by the present invention includes a load bearing mechanism 100, a tooth shaping mechanism 200, and a slope measuring mechanism 300, wherein the tooth shaping mechanism 200 is installed on the load bearing mechanism 100, and the slope measuring mechanism 300 is installed on the tooth shaping mechanism 200.

The bearing mechanism 100 comprises a beam plate 110, a positioning rod 120, a spring 130 and a backing plate 140, the tooth shaping mechanism 200 comprises a top plate 210, an end pipe 220, a tightening sleeve 230, a traction cross rod 240, a tension spring 250, a sliding block 260 and a supporting vertical rod 270, and the slope measuring mechanism 300 comprises a first clamping block 310, an angle measuring scale 320, a combined clamping block 330, a second clamping block 340, a gasket 350, a pointer 360, a pressure spring 370, a base 380 and a rubbing guide rod 390.

Specifically, two positioning rods 120 are movably mounted inside a beam plate 110, two springs 130 are respectively connected to two ends of the beam plate 110, a backing plate 140 is movably mounted at the bottom end of the positioning rods 120, a plurality of top plates 210 are mounted inside the beam plate 110, two end pipes 220 are respectively mounted in concave holes at two ends of the top plates 210, a tightening sleeve 230 is movably mounted in the end pipes 220, a traction cross rod 240 penetrates through the tightening sleeve 230, two sliders 260 are movably mounted in two sliding grooves inside the top plates 210, tension springs 250 are connected between the top plates 210 and the sliders 260, supporting vertical rods 270 are mounted on buckles at the bottoms of the sliders 260, a first clamping block 310, a plurality of combined clamping blocks 330 and a second clamping block 340 are located under the beam plate 110, a plurality of angle measuring scales 320 are located on the outer sides of the first clamping block 310 and the plurality of combined clamping blocks 330, a plurality of gaskets 350 are mounted on the plurality of combined clamping blocks 330, pointers 360 are connected inside the gaskets 350, a plurality of compression springs 370 are respectively connected inside the plurality of combined clamping blocks 330 and a plurality of combined clamping blocks 340, a base 380 is respectively located inside the plurality of combined clamping blocks 310, a plurality of guide rods 380 and a plurality of guide rods 380.

Utilize movable mounting slider 260 in two spouts, and cooperation slider 260 connects two adjacent support montant 270 tops, after tightening sleeve pipe 230 outwards takes out, the user can change the position of slider 260 in the spout through the extension of control traction horizontal pole 240, the support montant 270 that is connected by slider 260 can drive first clamp splice 310 or combination formula clamp splice 330 and second clamp splice 340 to the adaptation centre gripping of unidimensional bucket tooth to the at utmost this moment, simultaneously at the first clamp splice 310 of the structure is assembled in the top installation of a plurality of bases 380, combination formula clamp splice 330 and second clamp splice 340, the extension of cooperation support montant 270 is controlled a plurality of first clamp splices 310, combination formula clamp splice 330 and second clamp splice 340 are to the quick rubbing of bucket tooth, the shaping is installed and is carried out the inclination and is measured in each position wearing and tearing of a plurality of pointers 360 alright to the bucket tooth on combination formula clamp splice 330 this moment, thereby can convenience of customers carry out quick detection and direct-viewing observation to the wearing and tearing in the bucket tooth man-hour.

Example two

Referring to fig. 3, in the first embodiment, the bottom of the beam plate 110 is provided with a U-shaped slot clamped on the top plate 210, and the tops of the two ends of the beam plate 110 are provided with cylindrical concave holes constrained at the bottom ends of the springs 130.

By movably mounting the two positioning rods 120 in the holes at the two ends of the beam plate 110 and matching with the two springs 130 to elastically support the two positioning rods 120, after the two base plates 140 are attached to the teeth, the two springs 130 provide elastic support for the slope measuring mechanism 300, so as to ensure that the slope measuring mechanism 300 maintains a constant pressure state.

EXAMPLE III

Referring to fig. 5, on the basis of the first embodiment, T-shaped sliding plates are disposed on the inner walls of two sliding grooves on the inner side of the top plate 210, the sliding block 260 is integrally of an i-shaped structure, the sliding block 260 is clamped on two adjacent T-shaped sliding plates in an adaptive manner, the overall length of the traction cross bar 240 is the same as that of the top plate 210, the cylindrical end of the inner end of the traction cross bar 240 is adapted to penetrate into the sliding block 260, funnel-shaped cross holes are disposed inside the end tube 220 and the tightening sleeve 230, the end tube 220 is made of stainless steel, and the tightening sleeve 230 is made of silica gel.

Utilize beam slab 110 to carry out centre gripping and fixed with a plurality of roof plates 210, a plurality of roof plates 210 can neatly be arranged at the side of the bucket tooth this moment, combine pull horizontal pole 240 and extension spring 250 to connect the both ends of slider 260 simultaneously, and cooperate T font slide to the guide of slider 260, so that can realize two adjacent support montants 270 and to its bottom first clamp splice 310, the tight regulation of combination formula clamp splice 330 or second clamp splice 340 along the bucket tooth central line, after tightening sleeve 230 takes out from the inner chamber of end tube 220, pull horizontal pole 240 this moment alright along the inner chamber of end tube 220 and tightening sleeve 230 freely stretch, after pull horizontal pole 240 control slider 260 moves to the assigned position, can peg graft tightening sleeve 230 in the inner chamber of end tube 220 again, so as to realize the holistic stability of rubbing back slope measurement mechanism 300 subassembly, the first clamp splice 310, combination formula clamp splice 330 and the second clamp splice 340 that lie in the beam slab 110 under and the symmetry distribution this moment, just can carry out the accurate measurement bucket tooth along the water flat line along the horizontal line.

Example four

With reference to fig. 6 to 9, on the basis of the first embodiment, cylindrical column heads are disposed at the top of the first clamping block 310, the combined clamping block 330 and the second clamping block 340, the first clamping block 310, the combined clamping block 330 and the second clamping block 340 are made of cast iron, the combined clamping block 330 is made of a main cushion block and an auxiliary cushion block with a hinge structure, and two ends of the main cushion block and the auxiliary cushion block are respectively disposed with a ring groove and an end head which are matched with inner ends of the first clamping block 310 and the second clamping block 340.

Utilize butt joint of the end of the inner of first clamp splice 310 and the interior main cushion block of a combination formula clamp splice 330 to combine the end of the interior vice cushion block of a combination formula clamp splice 330 to be connected with the inner annular of second clamp splice 340, combination formula clamp splice 330 under a plurality of concatenation states this moment alright with first clamp splice 310 and second clamp splice 340 formation chain structure, after a plurality of support montants 270 were removed, first clamp splice 310, second clamp splice 340 this moment, and main cushion block and the vice cushion block in a plurality of combination formula clamp splices 330 alright face the top and the bottom of bucket tooth and carry out the moulding of pertinence rubbing and handle.

The working principle and the using process of the invention are as follows: a plurality of rubbing guide rods 390 are movably arranged in transverse holes inside a base 380 in advance, then a plurality of assembled bases 380 and rubbing guide rods 390 inside the bases are respectively arranged at the bottoms of a first clamping block 310, an angle measuring ruler 320 and a combined clamping block 330, then a plurality of pointers 360 are arranged at one end of the combined clamping block 330 in a splicing state by utilizing a plurality of gaskets 350, at the same time, a second clamping block 340 is positioned at one end of the first clamping block 310 and one end of the combined clamping block 330 in the splicing state, then a plurality of angle measuring rulers 320 are respectively arranged at one side of the two first clamping blocks 310 and one side of the combined clamping block 330, at the same time, the outer end of the angle measuring ruler 320 arranged at one side of the first clamping blocks 310 penetrates into arc-shaped concave holes outside the combined clamping blocks 330, at the same time, the outer end of the angle measuring ruler 320 is connected with the outer end of a pressure spring 370, the pointer 360 connected to the combined clamping block 330 by the spacer 350 restricts two sides of the angle measuring ruler 320, and then the first clamping block 310 in the assembled state, the angle measuring ruler 320 and the combined clamping block 330 are respectively connected by the plurality of supporting vertical rods 270, two sliders 260 connected to the top ends of two adjacent supporting vertical rods 270 are positioned and clamped by the top plate 210, two tension springs 250 are respectively connected to the two sliders 260, two traction cross rods 240 are movably mounted on the two sliders 260, at this time, the two traction cross rods 240 are bound by the binding sleeve 230 and the end tube 220, at this time, the plurality of groups of assembled top plates 210 are positioned and clamped by the beam plate 110, when in use, a user needs to attach the base plates 140 movably mounted at two ends of the beam plate 110 to the sides of the machine bucket, at this time, the first clamping block 310, the second clamping block in the assembled state and between the two base plates 140, the combined clamping blocks 330 and the second clamping blocks 340 can clamp the top surface and the bottom surface of the machine bucket, then a user needs to sequentially draw out two tightening sleeves 230 at two ends of the top plate 210 outwards, then manually controls two traction cross rods 240 to stretch outwards, until the sliding blocks 260 drive the supporting vertical rods 270 to integrally control the adjacent first clamping blocks 310, the two combined clamping blocks 330 and the two second clamping blocks 340 to tighten towards two surfaces of the machine bucket, at the moment, the bases 380 are respectively installed at the bottoms of the first clamping blocks 310, the combined clamping blocks 330 and the second clamping blocks 340 and the movable installation inside the bases are movably installed on the rubbing guide rods 390 and can rub against the existing shape of the machine bucket, after the slope measuring mechanism 300 component rubs against the appearance of the machine bucket integrally, the user can reinsert the tightening sleeves 230 into the inner cavity of the end pipe 220, at the moment, the tops plates 210 fixed by the beam plate 110 can take down the rubbed slope measuring mechanism 300 component integrally, the user can compare normal parameters of the angles 320 of the machine bucket with the measured pointer, and observe the combined clamping blocks 330 through the appearance of the combined clamping blocks 310 and the pointer after observing the overall wear of the combined machine bucket.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the claims and their equivalents.

Claims (7)

1. The excavator bucket tooth wear testing device is characterized by comprising a bearing mechanism (100), a bucket tooth shaping mechanism (200) and a slope measuring mechanism (300);

the bearing mechanism (100) comprises a beam plate (110), two positioning rods (120) movably arranged in the beam plate (110), two springs (130) connected to two ends of the beam plate (110) and a base plate (140) movably arranged at the bottom ends of the positioning rods (120);

the bucket tooth shaping mechanism (200) is arranged on the bearing mechanism (100) and comprises a plurality of top plates (210) arranged in a beam plate (110), two end pipes (220) arranged in concave holes at two ends of the top plates (210), a tightening sleeve (230) movably arranged in the end pipes (220), a traction cross rod (240) penetrating into the tightening sleeve (230), two sliding blocks (260) movably arranged in sliding grooves in the top plates (210), a tension spring (250) connected between the top plates (210) and the sliding blocks (260) and a support vertical rod (270) arranged on a buckle at the bottom of the sliding blocks (260);

the slope measuring mechanism (300) is arranged on the bucket tooth shaping mechanism (200) and comprises a first clamping block (310), a plurality of combined clamping blocks (330) and a second clamping block (340) which are positioned right below the beam plate (110), a plurality of angle measuring scales (320) which are positioned on the outer sides of the first clamping block (310) and the combined clamping blocks (330), a plurality of gaskets (350) which are arranged on the combined clamping blocks (330), pointers (360) which are connected in the gaskets (350), a plurality of pressure springs (370) which are respectively connected in the combined clamping blocks (330) and the second clamping block (340), a plurality of bases (380) which are positioned right below the first clamping block (310), the combined clamping blocks (330) and the second clamping block (340) and a plurality of rubbing film guide rods (390) which are movably arranged in the bases (380).

2. The excavator bucket tooth wear testing device of claim 1, wherein the bottom of the beam plate (110) is provided with a U-shaped slot hole clamped on the top plate (210), and the tops of the two ends of the beam plate (110) are provided with cylindrical concave holes constrained at the bottom ends of the springs (130).

3. The excavator bucket tooth wear testing device of claim 1, wherein T-shaped sliding plates are arranged on the inner walls of two sliding grooves on the inner side of the top plate (210), the sliding block (260) is integrally in an I-shaped structure, and the sliding block (260) is clamped on two adjacent T-shaped sliding plates in an adaptive mode.

4. The excavator tooth wear testing device of claim 1, wherein the overall length of the traction cross rod (240) is the same as that of the top plate (210), and a cylindrical end head at the inner end of the traction cross rod (240) is matched and penetrates into the sliding block (260).

5. The excavator bucket tooth wear testing device of claim 1, wherein the end pipe (220) and the tightening sleeve (230) are internally provided with funnel-shaped transverse holes, the end pipe (220) is made of stainless steel materials, and the tightening sleeve (230) is made of silica gel materials.

6. The excavator tooth wear testing device according to claim 1, wherein the first clamping block (310), the combined clamping block (330) and the second clamping block (340) are provided with cylindrical column heads at the tops, and the first clamping block (310), the combined clamping block (330) and the second clamping block (340) are made of cast iron.

7. The excavator bucket tooth wear testing device of claim 1, wherein the combined clamping block (330) is composed of a main cushion block and an auxiliary cushion block of a hinge structure, and two ends of the main cushion block and the auxiliary cushion block are respectively provided with a ring groove and an end head which are matched with the inner ends of the first clamping block (310) and the second clamping block (340).

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