CN202989712U - Small high-speed rope saw cutting device for ballastless tracks - Google Patents

Abstract

The utility model discloses a small high-speed rope saw cutting device for ballastless tracks. The device comprises a universal tool trolley which is supported on a ballastless track consisting of steel rails and a track slab through four wheels, wherein a storage box accommodating accessories for maintenance is placed in the trolley; a handrail is arranged at the rear end; lock mechanisms are mounted at four corners of the trolley; a lateral drilling suspension bracket is connected to one side or each side of the trolley through a lateral drilling suspension bracket mounting plate; a guide rail is arranged at the front end of the trolley; a vertical drilling mounting bracket is mounted on the guide rail; and support mounting plates on two sides of the trolley are connected with a rope saw cutting suspension bracket through rope saw cutting mounting plates. According to the small high-speed rope saw cutting device for ballastless tracks, maintenance devices have universality, and different maintenance device mounting brackets are mounted, so that different maintenance work is achieved, unilateral or bilateral drilling and single or multiple hole drilling are realized simultaneously, the drilling efficiency is improved effectively, rope saw cutting is flexible and changeful, and various maintenance device mounting brackets are assembled and dissembled simply and conveniently.

Description

Equipment is cut in a kind of rope sawing of miniature high-speed non-fragment orbit

Technical field

The utility model relates to ballastless track of high-speed railway and keeps in repair the field, cuts equipment in particular to a kind of rope sawing of miniature high-speed non-fragment orbit.

Background technology

At present, the High-speed Railway Network of China begins to take shape, and the high speed railway track pattern is take non-fragment orbit as main.In general, non-fragment orbit has higher stability and durability, seldom needs after building up to safeguard.But under the long term of train load and factor of natural environment, produce destruction in case the force transferring part of moderate finite deformation or track occurs on the basis, the strength and stability of track structure just is difficult to guarantee, and is difficult for reparation.

Although China is longer to the non-fragment orbit research history, at present to build and putting into effect high-speed railway and lay non-fragment orbit maximum country, but major part is all built up by innovation again in recent years, and the research of ballastless track system especially CRTS series ballastless track system recovery technique also is in the Primary Study stage.To the development of ballastless track of high-speed railway system repaired item, be a R﹠D process of growing out of nothing, filled up the blank of domestic ballastless track of high-speed railway system repaired item.

for example notice of authorization number discloses a kind of fine adjustment equipment for ballastless track slab of high-speed railway for the Chinese patent of CN 202208871 U, comprise a plurality of adjusters, console, power distributing cabinet and mobile vehicle frame, a plurality of adjusters all are electrically connected to console, adjuster comprises elevation adjuster and horizontal adjustment device, elevation adjuster and horizontal adjustment device join with vertical screw and horizontal screw bolt respectively, mobile vehicle frame comprises support body, the bottom of support body is connected with and can drives a plurality of universal caster wheels that support body moves forward and backward, be provided with connecting rod on support body, this accurate-adjusting equipment easy to use and flexible, degree of regulation is high, be convenient to promote the use of, but it is whole that this accurate-adjusting equipment only carries out accurate adjustment for track plates, can not keep in repair other fault that occurs on track.

For example notice of authorization number discloses a kind of fully automatic, multiple operation rail maintenance apparatus for the United States Patent (USP) of CN 1168434 A again, comprise a movable machine, it has a body frame, and be used for to promote driving mechanism that this machine crosses a basal plane, and link with machine and link with machine for the sensor of surveying at least one position that is positioned the target on described basal plane and one, and the encoder component exercise data that is used for the acquisition exercise data comprises that machine crosses the displacement of basal plane and of speed at least.This maintenance of equipment is full-automatic maintenance of equipment, and the degree of accuracy is higher, but this maintenance of equipment complicated structure, floor space is larger, and operating system is comparatively complicated, and needs the professional just can operate.

The utility model content

In order to solve the above-mentioned technological deficiency that exists in prior art, the utility model provides a kind of can install the general utility tool dolly of different maintenances of equipment and supporting difference maintenance equipment mounting frame thereof, in maintenance sites, can be according to different maintenance requirements, the maintenance of equipment installing rack can complete corresponding maintenance work is installed on the general utility tool dolly is solved the difficulty that runs in the maintenance of non-fragment orbit, as to the horizontal drilling deep hole of CA screed, track twist drill anchor hole, track plates cutting and whole CA screed horizontal resection etc.

To achieve these goals, the technical solution of the utility model is:

Equipment is cut in a kind of rope sawing of miniature high-speed non-fragment orbit, comprise by four wheels and be bearing in general utility tool dolly on the non-fragment orbit that is formed by rail and track plates, put the storage tank that accessory is used in maintenance in the general utility tool dolly, the rear end is equipped with handrail, and four jiaos of described general utility tool dolly are equipped with locking mechanism; The bearing installing plate of general utility tool dolly both sides cuts installing plate by the rope sawing and cuts suspension and link together with the rope sawing.

Preferably, described general utility tool dolly is supported by structural framing, and structural framing mainly is welded by rectangular tube.

Preferably, described wheel is embedded in structural framing in above-mentioned arbitrary scheme; Respectively there is a support bar wheel both sides, and by an axle, wheel and support bar are cascaded, and support bar is welded on the side of structural framing.

Preferably, the rectangular tube of described structural framing front end is removed the face with the welding of general utility tool dolly, has been screwed respectively five panels on its excess-three face in above-mentioned arbitrary scheme.

Preferably, the close one side of described bearing installing plate and storage tank is welded with three gussets in above-mentioned arbitrary scheme.

Preferably, described bearing installing plate top has two bolt fixing holes in above-mentioned arbitrary scheme; The bottom of bearing installing plate is bolted the installation board slot of lock screw.

The front end of general utility tool dolly has a guide rail, rail length equates with the width of track plates, guide rail is be used to vertical boring installing rack is installed, and realized that vertical boring installing rack can slide on guide rail, realize that therefore the general utility tool dolly can be in the horizontal optional position boring of whole track plates.Because vertical boring installing rack will slide on guide rail, therefore in order to reduce the contact area of vertical boring installing rack and guide rail, and it is easier to be more laborsaving that vertical boring installing rack is slided on guide rail, also reduce simultaneously the machine area, except the face of the rectangular tube of structural framing front end and the welding of general utility tool dolly, its excess-three has been screwed respectively five panels for vertical boring installing rack is installed on a surface.

The general utility tool dolly each side is provided with a bearing installing plate, in order to improve the strength and stability of bearing installing plate, is welded with three gussets at the bearing installing plate near the one side of storage tank.Bearing installing plate top has two bolt fixing holes; The installing plate cover that lock screw is installed is fixed by bolts to the bottom of bearing installing plate, forms a groove with the bearing installing plate simultaneously, and this groove is mainly for the installing rack that limits the maintenance of equipment that coordinates with the bearing installing plate.When the bed plate of maintenance of equipment installing rack embeds in groove, lock screw closely fits together bed plate and the bearing installing plate of maintenance of equipment installing rack seamless, thereby guaranteed, the maintenance of equipment installing rack can be because of vibration vibration greatly and ceaselessly when operation.

Preferably, described locking mechanism comprises rail snap close, lateral locking double-screw bolt and vertical lock stud in above-mentioned arbitrary scheme.

Preferably, described vertical lock stud is welded on the top panel of rail snap close in above-mentioned arbitrary scheme, and perpendicular to the top panel of rail snap close; Vertical lock stud is arranged in waist hole on the short slab of general utility tool dolly, and can slide.

Preferably, the inside groove of described rail buckle structure and rail profile mate in above-mentioned arbitrary scheme.

Preferably, described lateral locking double-screw bolt is resisted against on rail shackle sides panel in above-mentioned arbitrary scheme.

Locking mechanism is regulated the position of rail snap close by waist hole on short slab, at non-job state, make the rail snap close break away from rail by the position of regulating the rail snap close, thereby do not affect the quick transition operation of short distance of general utility tool dolly; Under the diagram job state, utilize locking mechanism can make the general utility tool dolly be locked in securely on rail when operation, rail snap close in locking mechanism coordinates with rail, recycling lateral locking double-screw bolt limits the lateral displacement of general utility tool dolly, and vertical lock stud limits the vertical deviation of general utility tool dolly.

Preferably, the bottom that installing plate is cut in described rope sawing is arranged in the installing plate cover of general utility tool dolly in above-mentioned arbitrary scheme, and the bearing installing plate that makes the rope sawing cut installing plate and general utility tool dolly by lock screw fits together.

Preferably, the top of installing plate is cut in described rope sawing and the bearing installing plate of general utility tool dolly removably is linked together by attachment bolt in above-mentioned arbitrary scheme.

Preferably, welding one short semi girder on installing plate is cut in described rope sawing in above-mentioned arbitrary scheme, and the bottom of short semi girder is welded with the leading block erection column, on the leading block erection column, leading block is installed.

Preferably, be wound with the rope sawing on described leading block and cut rope in above-mentioned arbitrary scheme.

Preferably, the track plates of rope cutting non-fragment orbit under the drive of power source is cut in described rope sawing in above-mentioned arbitrary scheme.

The bottom of the rope sawing being cut installing plate is arranged in the installing plate cover of general utility tool dolly, and is in the same place by the bearing installing plate secure fit that lock screw makes the rope sawing cut installing plate and general utility tool dolly; The top of installing plate is cut in the rope sawing and the bearing installing plate of general utility tool dolly is linked together reliably by attachment bolt, only attachment bolt need to be turned on to get final product when dismounting.After the bearing installing plate that installing plate and general utility tool dolly are cut in the rope sawing links together, again leading block direction as required is arranged on the leading block erection column, at last the rope sawing cut rope along leading block around, cut by the sawing of power source band running rope the track plates that the rope shuttling movement is realized the cutting non-fragment orbit like this.

Second aspect of the present utility model provides a kind of flank hole suspension, and this flank hole suspension and described general utility tool dolly link together, and the flank hole suspension is connected to the one or both sides of general utility tool dolly by flank hole suspension installing plate.

The 3rd aspect of the present utility model provides a kind of vertical boring installing rack, and this vertical boring installing rack and described general utility tool dolly link together, and vertical boring installing rack is connected on the guide rail of general utility tool dolly front end.

Preferably, the bottom of the flank hole suspension installing plate of described flank hole suspension is arranged in the installing plate cover of general utility tool dolly, and by lock screw, the bearing installing plate secure fit of flank hole suspension installing plate and general utility tool dolly is in the same place.

Preferably, the top of the flank hole suspension installing plate of described flank hole suspension and the bearing installing plate of general utility tool dolly link together by attachment bolt is dismountable in above-mentioned arbitrary scheme.

Preferably, described flank hole suspension installing plate is welded on semi girder one end in above-mentioned arbitrary scheme; Semi girder is rectangular tube, and its other end is provided with extensible canopy.

Preferably, the intersection of described semi girder and flank hole suspension installing plate is welded with four gussets in above-mentioned arbitrary scheme.

Preferably, described semi girder has a waist hole near the bottom of extensible canopy one end, and is welded with eight blocks in above-mentioned arbitrary scheme, and extensible canopy can slide in semi girder.

Preferably, described extensible canopy is fixed with bolt near an end of semi girder, and snap close and spring are housed on bolt in above-mentioned arbitrary scheme.

Preferably, the other end of described extensible canopy is welded with auger supporting backboard in above-mentioned arbitrary scheme, and auger supporting backboard is provided with the auger mount pad.

Preferably, described auger mount pad is provided with the dovetail structure in above-mentioned arbitrary scheme, and by trip bolt, the auger mount pad is fixed on auger supporting backboard; Handle, lead screw pair and guide rail are installed on the auger mount pad.

Preferably, described guide rail is provided with auger in above-mentioned arbitrary scheme, and auger can be at the guide rail lateral sliding.

Preferably, described extensible canopy is in the indentation position when limited space in above-mentioned arbitrary scheme, and undersized auger is installed on the auger mount pad; When limited in the space, extensible canopy is not in and stretches out the position, the higher auger of drilling efficiency is installed on the flank hole suspension.

When limited space, the general utility tool dolly that the flank hole suspension is installed is not surpassing under the prerequisite of gauge, satisfies simultaneously non-fragment orbit boring demand.During the one-sided installation of flank hole suspension, can carry out one-sided boring maintenance activity to non-fragment orbit; When flank hole suspension bilateral is installed, can realize the boring maintenance activity to the non-fragment orbit bilateral.

Preferably, described vertical boring installing rack is arranged on guide rail by slide block and baffle plate in above-mentioned arbitrary scheme; Vertical boring installing rack can slide on guide rail.

Preferably, described slide block top and baffle plate link together by attachment bolt is dismountable, and trip bolt is installed on baffle plate in above-mentioned arbitrary scheme.

Preferably, be provided with the L-type installing plate in the vertical chute of described slide block in above-mentioned arbitrary scheme.

Preferably, the middle part of a side plate of described L-type installing plate has a waist hole in above-mentioned arbitrary scheme, and the L-type installing plate is fixed in slide block by an attachment bolt that passes lockplate and this edge plate waist hole.

Preferably, this edge plate of described L-type installing plate is provided with four row's sulculuses in above-mentioned arbitrary scheme.

Vertical boring installing rack is arranged on guide rail by slide block and baffle plate, and vertical boring installing rack can slide arbitrarily on guide rail and adjust the position.After sliding into correct position on guide rail, utilize trip bolt that vertical boring installing rack is fixed when vertical boring installing rack, vertical boring take two vertical boring installing racks on one group of guide rail that is arranged on the general utility tool dolly.Auger is arranged on two vertical boring installing racks, stays certain interval between two vertical boring installing racks, utilizes this gap to be fixed together auger and vertical boring installing rack with screw bolt and nut, and the gap should be less than the diameter of bolt.In order to improve drilling efficiency, in the situation that generator or other power source power and space allow, the vertical boring installing rack that can allow many groups that auger is installed carries out vertical bore operation simultaneously.

Description of drawings

Fig. 1 is for cutting the structural representation of a preferred embodiment of equipment according to the rope sawing of miniature high-speed non-fragment orbit of the present utility model;

Fig. 2 is for cutting the structural framing of embodiment illustrated in fig. 1 middle general utility tool dolly of equipment and the top view of train according to the rope sawing of miniature high-speed non-fragment orbit of the present utility model;

Fig. 3 is for cutting the structural representation of the embodiment illustrated in fig. 1 middle general utility tool dolly locking mechanism of equipment according to the rope sawing of miniature high-speed non-fragment orbit of the present utility model;

Fig. 4 is the structural representation of rail snap close in the embodiment illustrated in fig. 3 middle locking mechanism that cuts equipment according to the rope sawing of miniature high-speed non-fragment orbit of the present utility model;

Fig. 5 is for cutting the structural representation of the flank hole suspension of equipment according to the rope sawing of miniature high-speed non-fragment orbit of the present utility model;

Fig. 6 is for to cut the embodiment illustrated in fig. 1 middle general utility tool dolly of equipment and the structural representation of flank hole suspension assembly according to the rope sawing of miniature high-speed non-fragment orbit of the present utility model;

In equipment, a flank hole suspension is arranged on the structural representation of realizing one-sided boring on the general utility tool dolly to Fig. 7 in order to cut according to the rope sawing of miniature high-speed non-fragment orbit of the present utility model;

In equipment, two flank hole suspensions are arranged on the structural representation of realizing bilateral boring on the general utility tool dolly to Fig. 8 in order to cut according to the rope sawing of miniature high-speed non-fragment orbit of the present utility model;

Fig. 9 is for cutting the structural representation of vertical boring installing rack in equipment according to the rope sawing of miniature high-speed non-fragment orbit of the present utility model;

Figure 10 is for to cut the embodiment illustrated in fig. 1 middle general utility tool dolly of equipment and the structural representation of vertical boring installing rack assembly according to the rope sawing of miniature high-speed non-fragment orbit of the present utility model;

Figure 11 cuts the structural representation of suspension for cut the sawing of restricting in equipment according to the rope sawing of miniature high-speed non-fragment orbit of the present utility model;

Figure 12 cuts the structural representation of suspension assembly for the embodiment illustrated in fig. 1 middle general utility tool dolly that cuts equipment according to the rope sawing of miniature high-speed non-fragment orbit of the present utility model and the sawing of restricting.

Attached number in the figure:

general utility tool dolly 1, wheel 2, rail 3, track plates 4, non-fragment orbit 5, storage tank 6, handrail 7, guide rail 8, panel 9, bearing installing plate 10, gusset 11, bolt fixing hole 12, lock screw 13, installing plate cover 14, structural framing 15, support bar 16, axle 17, locking mechanism 18, short slab 19, rail snap close 20, lateral locking double-screw bolt 21, vertical lock stud 22, flank hole suspension 23, flank hole suspension installing plate 24, semi girder 25, block 26, extensible canopy 27, bolt 28, snap close 29, spring 30, auger mount pad 31, auger 32, auger supporting backboard 33, handle 34, lead screw pair 35, trip bolt 36, guide rail 37, attachment bolt 38, gauge 39, vertical boring installing rack 40, slide block 41, baffle plate 42, L-type installing plate 43, lockplate 44, suspension 45 is cut in the rope sawing, short semi girder 46, installing plate 47 is cut in the rope sawing, leading block erection column 48, leading block 49, rope 50 is cut in the rope sawing, power source 51.

The specific embodiment

The specific embodiment of equipment is cut in the rope sawing of a kind of miniature high-speed non-fragment orbit of the present utility model below in conjunction with Figure of description is further described.

At first consult shown in Figure 1, general utility tool dolly 1 in the utility model is bearing on the non-fragment orbit 5 that is comprised of rail 3 and track plates 4 by four wheels 2, there is one can put maintenance with the storage tank 6 of accessory etc. by steel plate butt welding above dolly 1, the rear end of dolly 1 has one to be used for the handrail 7 that dolly 1 is carried out simultaneously, to realize short-range quick transition maintenance activity.

The front end of general utility tool dolly 1 has a guide rail 8, guide rail 8 length equate with the width of track plates 4, guide rail 8 is be used to vertical boring installing rack 40 is installed, and realized that vertical boring installing rack 40 can slide on guide rail 8, realize that therefore general utility tool dolly 1 can be in the horizontal optional position boring of whole track plates 4.Because vertical boring installing rack 40 will slide on guide rail 8, therefore in order to reduce the contact area of vertical boring installing rack 40 and guide rail 8, and it is easier to be more laborsaving that vertical boring installing rack 40 is slided on guide rail 8, also reduce simultaneously the machine area, except the face of the rectangular tube of structural framing 15 front ends and 1 welding of general utility tool dolly, its excess-three has been screwed respectively five panels 9 on a surface.

General utility tool dolly 1 each side is provided with a bearing installing plate 10, in order to improve the strength and stability of bearing installing plate 10, is welded with three gussets 11 at bearing installing plate 10 near the one side of storage tanks 6.Bearing installing plate 10 tops have two bolt fixing holes 12; The installing plate cover 14 that lock screw 13 is installed is fixed by bolts to the bottom of bearing installing plate 10, forms a groove with bearing installing plate 10 simultaneously, and this groove is mainly for the installing rack that limits the maintenance of equipment that coordinates with bearing installing plate 10.When the bed plate of maintenance of equipment installing rack embeds in groove, lock screw 13 closely fits together bed plate and the bearing installing plate 10 of maintenance of equipment installing rack seamless, thereby guaranteed, the maintenance of equipment installing rack can be because of vibration vibration greatly and ceaselessly when operation.

Next consult shown in Figure 2, general utility tool dolly 1 is for the reduce whole height, adopt the structure of wheel 2 embedded structure frameworks 15, respectively there is a support bar 16 wheel 2 both sides, and by an axle 17, wheel 2 and support bar 16 are cascaded, support bar 16 is to be welded on the side of structural framing 15.General utility tool dolly 1 and structural framing 15 are welded by rectangular tube, for bulk strength and the stability that improves structural framing 15, are welded with eight gussets 11 in structural framing 15 inboards.

Below in conjunction with Fig. 1, Fig. 3 is described, general utility tool dolly 1 has four locking mechanisms 18 as shown in Figure 3, lays respectively at four edges of general utility tool dolly 1 bottom.Locking mechanism 18 is regulated the position of rail snap close 20 by waist hole on short slab 19, at non-job state, make rail snap close 20 break away from rail 3 by the position of regulating rail snap close 20, thereby do not affect the quick transition operation of short distance of general utility tool dolly 1; Under the diagram job state, utilize locking mechanism 18 can make general utility tool dolly 1 be locked in securely on rail 3 when operation, rail snap close 20 in locking mechanism 18 coordinates with rail 3, recycling lateral locking double-screw bolt 21 limits the lateral displacement of general utility tool dolly 1, and vertical lock stud 22 limits the vertical deviation of general utility tool dolly 1.

The inside groove of rail snap close 20 structures shown in Figure 4 and rail 3 appearance similars, the upper plane of rail snap close 20 are welded with a vertical lock stud 22.In addition, the inside groove of rail snap close 20 structures is that rail type according to rail 30 mates.

Figure 5 shows that the structural representation of flank hole suspension 23.Flank hole suspension installing plate 24 and semi girder 25 weld together, and for flexing resistance and the stability that improves semi girder 25, have welded four gussets 11 on flank hole suspension installing plate 24 and semi girder 25.The end of semi girder 25 is stretching structure, and namely extensible canopy 27.In addition, at semi girder 25(rectangular tube) have a waist hole near the bottom of extensible canopy 27 1 ends, and be welded with eight blocks 26, extensible canopy 27 can be at semi girder 25(rectangular tube) in slip, and be fixed with a bolt 28 on extensible canopy 27, snap close 29 and spring 30 are housed on bolt 28.Snap close 29 locks the position of snap close 29 by block 26, the effect of spring 30 is snap close 29 to be completed at extensible canopy 27 relock in block 26 after flexible.When limited space, extensible canopy 27 is in the indentation position, and at this moment undersized auger 32 is installed on auger mount pad 31; When the space was not limited, extensible canopy 27 was in and stretches out the position, at this moment the higher auger of drilling efficiency 32 was installed on flank hole suspension 23.Auger supporting backboard 33 is welded on extensible canopy 27, for flexing resistance and the structural strength that improves extensible canopy 27, is welded with four gussets 11 at auger supporting backboard 33 and extensible canopy 27 intersections.

Auger mount pad 31 is arranged on auger supporting backboard 33 by the dovetail structure, auger mount pad 31(is flank hole) height and position drive lead screw pair 35 by turning handle 34 and rotate and regulate, the locking of auger mount pad 31 is the panel of dovetail structure to be pressed on the dovetail of auger mount pad 31 tightly realize.Auger mount pad 31 is provided with auger guide rail 37, has therefore realized regulating by lead screw pair 35 height and position of auger 32 flank holes, and auger 32 can slide on guide rail 37 and realize the flank hole feeding.

Next consult flank hole suspension 23 shown in Figure 6 and be arranged on structural representation on general utility tool dolly 1.The bottom of flank hole suspension installing plate 24 is arranged in the installing plate cover 14 of general utility tool dolly 1, and by lock screw 13, bearing installing plate 10 secure fit of flank hole suspension installing plate 24 and general utility tool dolly 1 is in the same place; The top of flank hole suspension installing plate 24 and the bearing installing plate 10 of general utility tool dolly 1 are linked together reliably by attachment bolt 38, only attachment bolt 38 need to be turned on to get final product when dismounting.

As Fig. 7, shown in Figure 8, be respectively flank hole suspension 23 and be arranged on the one-sided installation of general utility tool dolly 1 and the structural representation of bilateral.When being limited space in Fig. 7, the general utility tool dolly 1 that flank hole suspension 23 is installed is not surpassing under the prerequisite of gauge 39, satisfies simultaneously non-fragment orbit boring demand.As shown in Figure 7, during the one-sided installation of flank hole suspension 23, can carry out one-sided boring maintenance activity to non-fragment orbit; As shown in Figure 8, when flank hole suspension 23 bilaterals are installed, can realize the boring maintenance activity to the non-fragment orbit bilateral.

The structural representation of vertical boring installing rack 40 shown in Figure 9.Slide block 41 tops and the baffle plate 42 of vertical boring installing rack 40 link together by attachment bolt 38 is dismountable, and trip bolt 36 is installed on baffle plate 42, utilize trip bolt 36 that vertical boring installing rack 40 is fixed on guide rail 8.A side plate of the L-type installing plate 43 of vertical boring installing rack 40 is arranged in slide block 41, the this edge integrated circuit board is in the vertical chute of slide block 41, and then limited the rotation of L-type installing plate 43, and the middle part of this edge plate has a waist hole, and L-type installing plate 43 is fixed in slide block 41 by an attachment bolt 38 that passes lockplate 44 and this edge plate waist hole.A blend stop is respectively arranged on lockplate 44 both sides, and this blend stop inserts in the sulculus of opening on slide block 41 and this edge plate simultaneously, thus the vertical deviation of restriction L-type installing plate 43.When the blend stop on lockplate 44 leaves sulculus on this edge plate, L-type installing plate 43 can slide in the chute of slide block, when sliding into certain position, blend stop on lockplate 44 can fix L-type installing plate 43 by another sulculus on insertion this edge plate again, the this edge plate is provided with four row's sulculuses, so L-type installing plate 43 can access four height values on slide block, we can increase the row of sulculus as required certainly, such as 5 rows, 6 rows, 7 rows etc.

Figure 10 shows that vertical boring installing rack 40 is arranged on the structural representation on general utility tool dolly 1.Vertical boring installing rack 40 is arranged on guide rail 8 by slide block 41 and baffle plate 42, and vertical boring installing rack 40 can slide arbitrarily on guide rail 8 and adjust the position.After sliding into correct position on guide rail 8, utilize trip bolt 36 to make vertical boring installing rack 40 fixing when vertical boring installing rack 40, vertical boring take two vertical boring installing racks 40 on one group of guide rail 8 that is arranged on general utility tool dolly 1.Auger 32 is arranged on two vertical boring installing racks 40, stay certain interval between two vertical boring installing racks 40, utilize this gap to be fixed together auger 32 and vertical boring installing rack 40 with screw bolt and nut, the gap should be less than the diameter of bolt, with reference in Figure 10 shown in dotted line.In order to improve drilling efficiency, in the situation that generator or other power source power and space allow, the vertical boring installing rack 40 that can allow many groups that auger 32 is installed carries out vertical bore operation simultaneously.

Figure 11 shows that the rope sawing cuts the structural representation of suspension 45.The short semi girder 46 that suspension 45 is cut in the rope sawing is welded on the rope sawing and cuts on installing plate 47, and leading block erection column 48 is welded on short semi girder 46 bottoms, and leading block 49 direction as required is arranged on leading block erection column 48.

Figure 12 shows that the rope sawing cuts suspension 45 and be arranged on structural representation on general utility tool dolly 1.The bottom of the rope sawing being cut installing plate 47 is arranged in the installing plate cover 14 of general utility tool dolly 1, and is in the same place by bearing installing plate 10 secure fit that lock screw 13 makes the rope sawing cut installing plate 47 and general utility tool dolly 1; The top of installing plate 47 is cut in the rope sawing and the bearing installing plate 10 of general utility tool dolly 1 is linked together reliably by attachment bolt 38, only attachment bolt 38 need to be turned on to get final product when dismounting.After the bearing installing plate 10 that installing plate 47 and general utility tool dolly 1 are cut in the rope sawing links together, again leading block 49 direction as required is arranged on leading block erection column 48, at last the rope sawing cut rope 50 along leading block 49 around, cut with the running rope sawing track plates 4 that rope 50 shuttling movements are realized the cutting non-fragment orbits by power source 51 like this.

Any combination that equipment comprises each several part in this manual is cut in the rope sawing that it will be apparent to those skilled in the art that a kind of miniature high-speed non-fragment orbit of the present utility model.As space is limited and in order to be to make manual simple and clear, these combinations not to be introduced one by one in detail at this, but after having seen this manual, the scope of the present utility model that any combination of the each several part that is made of this manual consists of is self-evident.

Claims (15)

1. equipment is cut in the rope sawing of a miniature high-speed non-fragment orbit, comprise by four wheels (2) and be bearing in general utility tool dolly (1) on the non-fragment orbit (5) that is formed by rail (3) and track plates (4), put the storage tank (6) that accessory is used in maintenance in general utility tool dolly (1), the rear end is equipped with handrail (7), it is characterized in that: four jiaos of described general utility tool dolly (1) are equipped with locking mechanism (18); The bearing installing plate (10) of general utility tool dolly (1) both sides cuts installing plate (47) by the rope sawing and cuts suspension (45) and link together with the rope sawing.

2. equipment is cut in rope sawing as claimed in claim 1, it is characterized in that: described general utility tool dolly (1) is supported by structural framing (15), and structural framing (15) mainly is welded by rectangular tube.

3. cut equipment as the rope sawing of claim 1 or 2, it is characterized in that: described wheel (2) is embedded in structural framing (15); Respectively there is a support bar (16) wheel (2) both sides, and by an axle (17), wheel (2) and support bar (16) are cascaded, and support bar (16) is welded on the side of structural framing (15).

4. equipment is cut in rope sawing as claimed in claim 2, it is characterized in that: the rectangular tube of described structural framing (15) front end is removed the face with general utility tool dolly (1) welding, has been screwed respectively five panels (9) on its excess-three face.

5. equipment is cut in rope sawing as claimed in claim 1, it is characterized in that: the close side of described bearing installing plate (10) and storage tank (6) is welded with three gussets (11).

6. cut equipment as the rope sawing of claim 1 or 5, it is characterized in that: described bearing installing plate (10) top has two bolt fixing holes (12); The bottom of bearing installing plate (10) is bolted the installation board slot (14) of lock screw (13).

7. equipment is cut in rope sawing as claimed in claim 1, it is characterized in that: described locking mechanism (18) comprises rail snap close (20), lateral locking double-screw bolt (21) and vertical lock stud (22).

8. equipment is cut in rope sawing as claimed in claim 7, it is characterized in that: described vertical lock stud (22) is welded on the top panel of rail snap close (20), and perpendicular to the top panel of rail snap close (20); Vertical lock stud (22) is arranged in waist hole on the short slab (19) of general utility tool dolly (1), and can slide.

9. cut equipment as the rope sawing of claim 7 or 8, it is characterized in that: the inside groove of described rail snap close (20) structure and rail (3) profile coupling.

10. equipment is cut in rope sawing as claimed in claim 7, it is characterized in that: described lateral locking double-screw bolt (21) is resisted against on rail snap close (20) side panel.

11. equipment is cut in rope sawing as claimed in claim 1, it is characterized in that: the bottom that installing plate (47) is cut in described rope sawing is arranged in the installing plate cover (14) of general utility tool dolly (1), and the bearing installing plate (10) that makes the rope sawing cut installing plate (47) and general utility tool dolly (1) by lock screw (13) fits together.

12. equipment is cut in rope sawing as claimed in claim 1, it is characterized in that: the top of installing plate (47) is cut in described rope sawing and the bearing installing plate (10) of general utility tool dolly (1) removably is linked together by attachment bolt (38).

13. equipment is cut in the rope sawing as claim 1 or 11 or 12, it is characterized in that: the upper welding of installing plate (47) one short semi girder (46) is cut in described rope sawing, the bottom of short semi girder (46) is welded with leading block erection column (48), and leading block (49) is installed on leading block erection column (48).

14. equipment is cut in the rope sawing as claim 13, it is characterized in that: be wound with the rope sawing on described leading block (49) and cut rope (50).

15. equipment is cut in the rope sawing as claim 14, it is characterized in that: rope (50) cuts non-fragment orbit under the drive of power source (51) track plates (4) is cut in described rope sawing.

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