CN216096785U - Single-rail drag chain structure of groove cutting machine - Google Patents

Abstract

The utility model relates to the technical field of groove cutting, in particular to a single-rail drag chain structure of a groove cutting machine, which comprises: the cable drag chain is U-shaped and comprises a bending part, and two ends of the opening of the cable drag chain are respectively positioned at two sides of the Z-axis moving device; the installation rod is arranged above the control box and is provided with a movable moving piece, the side wall of the moving piece is located on the inner side of the middle part of the bending part, and meanwhile, limiting assemblies connected with the cable drag chain are arranged on two sides of the Z-axis moving device. Therefore, the limiting assembly and the side wall of the moving member are positioned on the inner side of the middle part of the bending part, so that the limiting assembly and the side wall of the moving member are used for limiting the moving area of the cable drag chain, namely the moving height of the cable drag chain and the distance between the cable drag chain and the Z-axis moving device are limited, the action amplitude and the angle of the cable drag chain are further reduced, and the condition that the cable drag chain is broken due to overlarge disturbance degree can be relieved. Meanwhile, the moving device can adjust the distance between the cable drag chain and the Z-axis moving device so as to adjust the moving range of the cable drag chain.

Description

Single-rail drag chain structure of groove cutting machine

Technical Field

The utility model relates to the technical field of groove cutting, in particular to a single-rail drag chain structure of a groove cutting machine.

Background

The groove cutting machine is used for processing grooves, comprises a moving device and a cutting device which are provided with three shafts, and the cutting device comprises a cutting head and a control box, wherein a motor and various electronic elements used for controlling the cutting head are arranged in the control box.

For example, patent No. 2019103291942 and the patent name is groove cutting machine, can see from this patent that Z axle mobile device sets up on cutting device, and cutting device includes the cable tow chain to cutting head and control box are connected respectively to cable tow chain both ends. Meanwhile, the cable drag chain is connected with the Z-axis moving device and located above the Z-axis moving device, so that the cable drag chain can be influenced in the moving process of the Z-axis moving device, meanwhile, the cutting head can drive the cable drag chain to move when rotating, the cable drag chain can rotate and move at any angle, the action amplitude and the angle of the cable drag chain are large, and the cable drag chain can break due to overlarge disturbance.

Disclosure of Invention

The utility model aims to provide a single-rail drag chain structure of a groove cutting machine, which is used for limiting the moving area of a cable drag chain by positioning a limiting component and the side wall of a moving member at the inner side of the middle part of a bending part, namely limiting the moving height of the cable drag chain and the distance between the cable drag chain and a Z-axis moving device, and further reducing the action amplitude and angle of the cable drag chain, so that the condition that the cable drag chain is broken due to overlarge disturbance can be relieved, and the problem that the cable drag chain is broken due to overlarge disturbance can be solved.

The purpose of the utility model is realized as follows:

a single-rail drag chain structure of a groove cutting machine, comprising:

the two ends of the cable drag chain are respectively connected with the cutting head and the control box, the cable drag chain is U-shaped and comprises a bending part, the two ends of the opening of the cable drag chain are respectively positioned at the two sides of the Z-axis moving device, and the two sides of the Z-axis moving device are provided with limiting assemblies connected with the cable drag chain so as to limit the moving range of the cable drag chain;

and the mounting rod is arranged above the control box and is provided with a movable moving member, a moving assembly is arranged between the side wall of the mounting rod and the moving member, and the side wall of the moving member is positioned on the inner side of the middle part of the bending part.

Preferably, the limiting assembly comprises a first sleeve ring, the first sleeve ring is sleeved on the cable drag chain, a second connecting portion is arranged at the bottom of the first sleeve ring, and the second connecting portion is connected with the side wall of the Z-axis moving device through a corner connecting strip.

Preferably, the limiting assembly further comprises a second sleeve ring, the second sleeve ring is sleeved on the cable drag chain, the first connecting part is arranged at the top of the first sleeve ring, and the third connecting part and the fourth connecting part are respectively arranged on two sides of the second sleeve ring;

the first connecting part and the third connecting part are connected through a mounting plate, and the four-way connecting part passes through a corner connecting strip and is connected with the side wall of the Z-axis moving device.

Preferably, spacing subassembly still includes lantern ring three, and lantern ring three cover locate the cable tow chain on to an inner wall of lantern ring outwards extends and is provided with cowl, and when the cable tow chain removed, thereby cowl and lantern ring three butt restriction cable tow chain moved to the direction of lantern ring one.

Preferably, a moving frame and a driving source for driving the moving frame to move are arranged at the top of the mounting rod, the moving member is arranged on the moving frame, and connecting plates are arranged on two sides of the moving frame;

the moving assembly comprises sliding rails arranged on two sides of the mounting rod and sliding blocks arranged on the inner wall of the connecting plate, and the sliding blocks are movably arranged on the sliding rails.

Preferably, the slide rail comprises a slide way and a bottom plate connected with the mounting rod, the top of the slide way is a cylinder, and two sides of the joint between the top of the slide way and the bottom plate are inclined planes;

the slide block is provided with a sliding groove, two sides of the opening of the sliding groove are inwards provided with a butting part, the sliding groove is sleeved on the top of the sliding way, and the butting part is closed to the inclined plane.

Preferably, the through-hole has been seted up at the moving member middle part, and removes frame one end and buckle and the shaping has the standing groove, the moving member is located the standing groove to there is the connecting axle to pass the through-hole, and the connecting axle both ends expose and with standing groove both sides inner wall connection.

Preferably, the driving source is kept away from and is equipped with the distancer by an pot head of removal frame, and the distancer is used for detecting the distance between removal frame and the distancer to give control box routing information and then control whether the driving source drives the removal frame and remove.

Compared with the prior art, the utility model has the outstanding and beneficial technical effects that:

1. according to the utility model, the limiting component and the side wall of the moving part are positioned on the inner side of the middle part of the bending part, so that the moving area of the cable drag chain is limited, namely the moving height of the cable drag chain and the distance between the cable drag chain and the Z-axis moving device are limited, and the action amplitude and angle of the cable drag chain are further reduced, so that the condition that the cable drag chain is broken due to overlarge disturbance degree can be relieved. Meanwhile, the moving device can adjust the distance between the cable drag chain and the Z-axis moving device so as to adjust the moving range of the cable drag chain.

2. According to the utility model, the first lantern ring and the second lantern ring are arranged, namely the two lantern rings are arranged, and the mounting plate is matched, so that the limited area of the cable drag chain, namely the surface enlarged from a point, can be enlarged, and the moving range of the cable drag chain can be better limited.

3. According to the utility model, the arc-shaped baffle is abutted against the third lantern ring, so that the movement of the cable drag chain towards the first lantern ring is limited, and the situation that the use of the cutting head is influenced by the fact that the cable drag chain between the first lantern ring and the cutting head is too short is further avoided.

4. According to the utility model, the moving assembly is arranged between the side wall of the mounting rod and the moving member, and the driving source is arranged at the top of the mounting rod, so that the surrounding space of the mounting rod is well utilized, namely, the mounting of the driving source and the moving assembly can be realized by one mounting rod without other structures, thereby simplifying the structure and reasonably utilizing the space.

5. The top of the slide way is cylindrical, two sides of the joint between the top of the slide way and the bottom plate are inclined planes, the slide groove is sleeved at the top of the slide way, and the abutting part and the inclined planes are closed, so that the slide way and the slide block are connected more stably, and meanwhile, the slide way can play a good limiting role and avoid right-angle abrasion.

6. The distance between the movable frame and the distance measuring device is detected through the distance measuring device, so that information is sent to the control box to control whether the driving source drives the movable frame to move or not.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

FIG. 2 is a schematic cross-sectional view of the present invention.

Fig. 3 is a schematic structural view of the moving member and the mounting rod.

Fig. 4 is a schematic structural diagram of the slide rail and the slide block.

Fig. 5 is a schematic structural diagram of the first lantern ring and the second lantern ring.

Fig. 6 is a schematic structural diagram of the first and third lantern rings.

Reference numerals: 1-cable drag chain; 11-a bend; 2-mounting a rod; 21-a slide rail; 211-a slide;

212-a backplane; 213-inclined plane; 3-a moving part; 31-a through hole; 32-arc surface; 4-a moving rack;

41-connecting plate; 42-a slide block; 421-a chute; 422-an abutment; 43-placing a groove; 5-a drive source;

6-connecting shaft; 7-lantern ring one; 71-connecting part one; 72-link two; 73-a curved baffle;

8-lantern ring II; 81-connecting part three; 82-connecting part four; 9-lantern ring III; 20-mounting a plate;

30-corner connecting strips; 40-a distance meter.

Detailed Description

The following describes embodiments of the present invention in further detail with reference to the accompanying drawings.

As shown in fig. 1 to 6, a monorail drag chain structure of a groove cutting machine comprises: cable tow chain 1 and installation pole 2, wherein 1 both ends of cable tow chain are connected with cutting head and control box respectively, and cable tow chain 1 is the U type and includes flexion 11 to 1 opening part both ends of cable tow chain are located Z axle mobile device both sides respectively.

Therefore, in the actual use process, the two ends of the opening of the cable drag chain 1 are respectively positioned at the two sides of the Z-axis moving device, so that the influence of the Z-axis moving device on the cable drag chain 1 in the moving process is avoided.

Meanwhile, two sides of the Z-axis moving device are provided with limiting assemblies connected with the cable drag chain 1, so that the moving range of the cable drag chain 1 is limited. And installation pole 2 sets up in control box top and is provided with mobilizable moving member 3, and is provided with the removal subassembly between installation pole 2 lateral wall and moving member 3 to moving member 3 lateral wall is located the inboard in the middle part of flexion 11.

Thereby it increases area of contact to wherein moving member 3 lateral wall can correspond the shaping of cable tow chain 1 to cambered surface 32, and then better spacing.

Therefore in the in-service use process, be located the inboard in 11 middle parts of flexion through spacing subassembly and 3 lateral walls of moving member to form three point spacing and then be used for restricting the region that cable tow chain 1 removed, restrict the height that cable tow chain 1 removed promptly and the distance between cable tow chain 1 and the Z axle mobile device, and then reduce the action range and the angle of cable tow chain 1, so can slow down cable tow chain 1 and can be because the too big cracked condition of disturbance degree.

Meanwhile, the moving device 3 can adjust the distance between the cable drag chain 1 and the Z-axis moving device so as to adjust the moving range of the cable drag chain 3. This is because different items or different equipment may require different lengths of the cable drag chain 1 and thus may be adjusted by the moving arrangement of the moving member 3.

For example, the distance between the cable drag chain 1 and the Z-axis moving device can be shortened by approaching the moving member 3 to a point along the Z-axis moving device, so that more cable drag chains 1 can move towards the cutting head in the moving process, and the rotating range of the cutting head is larger.

Wherein the structure of spacing subassembly does: as shown in fig. 1 and 5, the limiting assembly includes a first sleeve ring 7, the first sleeve ring 7 is sleeved on the cable drag chain 1, and a second connecting portion 72 is disposed at the bottom of the first sleeve ring 7, and the second connecting portion 72 is connected to the sidewall of the Z-axis moving device through the corner connecting strip 30.

Therefore, in the actual use process, the cable drag chain 1 is limited through the first lantern ring 7.

The structure of spacing subassembly corresponds the part difference that cable tow chain 1 is connected then adopts different structures simultaneously, and the spacing subassembly that this section of adopting is connected as cable tow chain 1 and control box is: as shown in fig. 1 and 5, the limiting assembly further includes a second sleeve ring 8, the second sleeve ring 8 is sleeved on the cable drag chain 1, the top of the first sleeve ring 7 is provided with a first connecting portion 71, and two sides of the second sleeve ring 8 are respectively provided with a third connecting portion 81 and a fourth connecting portion 82.

Wherein the first connection portion 71 and the third connection portion 81 are connected by the mounting plate 20, and the fourth connection portion 82 is connected with the Z-axis moving device side wall by the corner connection bar 30.

Therefore in the in-service use process, thereby carry on spacingly to cable tow chain 1 through the setting of lantern ring one 7 and lantern ring two 8, the setting of two lantern rings simultaneously and cooperation mounting panel to can enlarge the face that the restriction area of cable tow chain 1 enlarges from the point promptly, and then the moving range of restriction cable tow chain 1 that can be better.

When the spacing subassembly that this section of adoption that cable tow chain 1 and cutting head are connected is: as shown in fig. 1, 2 and 5, the limiting assembly further includes a third sleeve ring 9, the third sleeve ring 9 is sleeved on the cable drag chain 1, and an arc-shaped baffle plate 73 is arranged on the inner wall of the first sleeve ring 7 in an outward extending manner, when the cable drag chain 1 moves, the arc-shaped baffle plate 73 abuts against the third sleeve ring 9 so as to limit the cable drag chain 1 to move towards the first sleeve ring 7.

Therefore, in the actual use process, the arc-shaped baffle plate 73 is abutted to the third lantern ring 9, so that the movement of the cable drag chain 1 towards the first lantern ring 7 is limited, and the situation that the use of the cutting head is influenced due to the fact that the cable drag chain 1 between the first lantern ring 7 and the cutting head is too short is avoided.

As shown in fig. 1 to 3, the related structure of the moving assembly is: the top of the mounting rod 2 is provided with a moving frame 4 and a driving source 5 for driving the moving frame 4 to move, and moving members are arranged on the moving frame 4, and connecting plates 41 are arranged on two sides of the moving frame 4. Wherein the drive source 5 is a cylinder.

The moving assembly comprises slide rails 21 arranged on two sides of the mounting rod 2 and slide blocks 42 arranged on the inner wall of the connecting plate 41, and the slide blocks 42 are movably arranged on the slide rails 21.

Therefore in the in-service use process, when the driving source 5 drives the moving frame 4 to move, the sliding block 42 moves on the sliding rail 21 at the moment, so that the guiding effect is achieved, the moving component is arranged between the side wall of the installation rod 2 and the moving component 3, and the driving source 5 is arranged at the top of the installation rod 2, so that the surrounding space of the installation rod 2 is well utilized, namely, the installation of the driving source 5 and the moving component can be achieved by one installation rod 2, other structures are not needed, and the structure is simplified and the space is reasonably utilized. Meanwhile, the moving components are arranged on two sides of the movable support, so that the movement is more stable.

As shown in fig. 4, the slide rail 21 and the slider 42 have the following structure: firstly, the slide rail 21 comprises a slide rail 211 and a bottom plate 212 connected with the mounting rod 2, the top of the slide rail 211 is a cylinder, and two sides of the joint between the top of the slide rail 211 and the bottom plate 212 are both inclined surfaces 213.

The sliding block 42 is provided with a sliding groove 421, and two sides of the opening of the sliding groove 421 are provided with an abutting portion 422 inwards, wherein the sliding groove 421 is sleeved on the top of the sliding rail 211, and the abutting portion 422 is close to the inclined surface 213.

Therefore, in the actual use process, the top of the sliding way 211 is a cylinder, and both sides of the joint between the top of the sliding way 211 and the bottom plate 212 are the inclined planes 213, and meanwhile, the sliding groove 421 is sleeved on the top of the sliding way 211, and the abutting part 422 is close to the inclined planes 213.

Compare the slide rail 21 and the slider 42 of square groove and square, thereby slide 211 has increased area of contact through cylindrical cambered surface replacement plane, and then makes to be connected more stably between slide rail 21 and the slider 42, also avoids the right angled wearing and tearing simultaneously. And the abutting part 422 is close to the inclined plane 213, thereby playing a good role in limiting.

As shown in fig. 2 and 3, the structure between the moving member 3 and the moving frame 4 is: at first, the through hole 31 is opened in the middle of the moving member 3, and the placing groove 43 is formed by bending one end of the moving frame 4, the moving member 3 is positioned in the placing groove 43, the connecting shaft 6 penetrates through the through hole 31, and the two ends of the connecting shaft 6 are exposed and connected with the inner walls of the two sides of the placing groove 43.

Therefore, in the actual use process, the placing groove 43 is bent and formed at one end of the moving frame 4, and the moving member 3 is located in the placing groove 43, that is, the installation is realized by one plate. And there is a baffle after buckling to protect moving member 3, and also can be better cooperation with the measurement of distancer 40.

Meanwhile, the cable drag chain 1 moves to drive the moving part 3 to rotate, so that a bearing is arranged between the moving part 3 and the connecting shaft 6.

As shown in fig. 3, one end of the driving source 5, which is far away from the movable frame 4, is sleeved with a distance meter 40, and the distance meter 40 is used for detecting the distance between the movable frame 4 and the distance meter 40, so as to send information to the control box and further control whether the driving source 5 drives the movable frame 4 to move.

Therefore, during actual use, the distance between the movable frame 4 and the distance measuring device 40 is detected by the distance measuring device 40, so as to send information to the control box to control whether the driving source 5 drives the movable frame 4 to move.

This is because the cable drag chain 1 of one device is limited, and when different products are processed, the corresponding cutting head rotation range is different, and at this time, the cutting head rotation range can be realized by adjusting the distance between the cable drag chain 1 and the Z-axis moving device, and then whether the distance between the cable drag chain 1 and the Z-axis moving device is proper or not is detected by the distance measuring device 40.

The foregoing shows and describes the general principles and features of the present invention, together with the advantages thereof. While the present invention is not limited to the above-described embodiments, various changes and modifications may be made without departing from the spirit and scope of the utility model, and these changes and modifications are intended to be included within the scope of the utility model as claimed.

Claims (8)

1. The utility model provides a single track tow chain structure of groove cutting machine which characterized in that includes:

the cable drag chain (1) is connected with the cutting head and the control box at two ends respectively, the cable drag chain (1) is U-shaped and comprises a bending part (11), two ends of an opening of the cable drag chain (1) are located on two sides of the Z-axis moving device respectively, and limiting assemblies connected with the cable drag chain (1) are arranged on two sides of the Z-axis moving device and used for limiting the moving range of the cable drag chain (1);

the installation rod (2) is arranged above the control box and is provided with a movable moving piece (3), a moving assembly is arranged between the side wall of the installation rod (2) and the moving piece (3), and the moving piece (3) is located on the inner side of the middle of the bending portion (11).

2. The monorail drag chain structure of the groove cutting machine as defined in claim 1, wherein: the limiting assembly comprises a first lantern ring (7), the first lantern ring (7) is sleeved on the cable drag chain (1), a second connecting portion (72) is arranged at the bottom of the first lantern ring (7), and the second connecting portion (72) is connected with the side wall of the Z-axis moving device through a corner connecting strip (30).

3. The monorail drag chain structure of the groove cutting machine as defined in claim 2, wherein: the limiting assembly further comprises a second sleeve ring (8), the second sleeve ring (8) is sleeved on the cable drag chain (1), the top of the first sleeve ring (7) is provided with a first connecting part (71), and two sides of the second sleeve ring (8) are respectively provided with a third connecting part (81) and a fourth connecting part (82);

the first connecting part (71) is connected with the third connecting part (81) through the mounting plate (20), and the fourth connecting part (82) is connected with the side wall of the Z-axis moving device through the corner connecting strip (30).

4. The monorail drag chain structure of the groove cutting machine as defined in claim 2, wherein: the limiting assembly further comprises a third lantern ring (9), the third lantern ring (9) is sleeved on the cable drag chain (1), the inner wall of the first lantern ring (7) extends outwards to form an arc-shaped baffle plate (73), and when the cable drag chain (1) moves, the arc-shaped baffle plate (73) abuts against the third lantern ring (9) to limit the cable drag chain (1) to move towards the first lantern ring (7).

5. The monorail drag chain structure of the groove cutting machine according to any one of claims 1-4, wherein: the top of the mounting rod (2) is provided with a moving frame (4) and a driving source (5) for driving the moving frame (4) to move, the moving piece is arranged on the moving frame (4), and two sides of the moving frame (4) are provided with connecting plates (41);

the moving assembly comprises sliding rails (21) arranged on two sides of the mounting rod (2) and sliding blocks (42) arranged on the inner wall of the connecting plate (41), and the sliding blocks (42) are movably arranged on the sliding rails (21).

6. The monorail drag chain structure of the groove cutting machine as defined in claim 5, wherein: the sliding rail (21) comprises a sliding way (211) and a bottom plate (212) connected with the mounting rod (2), the top of the sliding way (211) is cylindrical, and two sides of the joint between the top of the sliding way (211) and the bottom plate (212) are both inclined planes (213);

the sliding block (42) is provided with a sliding groove (421), two sides of the opening of the sliding groove (421) are inwards provided with a butting part (422), the sliding groove (421) is sleeved on the top of the sliding rail (211), and the butting part (422) is close to the inclined plane (213).

7. The monorail drag chain structure of the groove cutting machine as defined in claim 5, wherein: through-hole (31) have been seted up in moving member (3) middle part, and move frame (4) one end and buckle and the shaping has standing groove (43), moving member (3) are located standing groove (43) to have connecting axle (6) to pass through-hole (31), and connecting axle (6) both ends expose and with standing groove (43) both sides inner wall connection.

8. The monorail drag chain structure of the groove cutting machine as defined in claim 5, wherein: the distance measuring device is characterized in that one end of the driving source (5) far away from the moving frame (4) is sleeved with the distance measuring device (40), and the distance measuring device (40) is used for detecting the distance between the moving frame (4) and the distance measuring device (40), so that information is sent to the control box to control whether the driving source (5) drives the moving frame (4) to move or not.

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