CN115070858B - Automatic perforating equipment for rubber layer of sports ground - Google Patents

Abstract

The invention discloses automatic perforating equipment for a rubber layer of a sports ground, which comprises a frame, and a drilling end hole device and a slotting and hole forming device which are arranged on the frame; the invention adopts automatic drilling of the end hole and cutting by using the driven cutter, and the end hole is formed by one-step forming, and the end hole is placed at a set place for operation during use without manual participation in forming; the device has the advantages of simple structure on the whole, lower use and maintenance cost, easy operation, reduced labor cost and improved construction efficiency, and meanwhile, due to the fact that the cutter is arranged to have unified standards, the holes are standard, and the device is neat and uniform on the whole and good in appearance.

Description

Automatic perforating equipment for rubber layer of sports ground

Technical Field

The invention relates to construction auxiliary equipment, in particular to automatic perforating equipment for a rubber layer of a sports ground.

Background

The rubber playground (runway, court) has the characteristics of good flatness, high compressive strength, proper hardness and elasticity and stable physical properties, is beneficial to the exertion of athlete speed and technology, effectively improves the athletic performance and reduces the falling injury rate.

The rubber playground is formed by splicing and paving a plurality of units, and drain holes are needed to be formed corresponding to the drain positions, and the drain holes are generally bar-shaped openings similar to drain grate plates. In the prior art, the procedure of opening is to drill end holes at two ends of a set hole opening position, and then manually cut off a rubber layer between the two end holes by using a cutter to form a coherent bar-shaped hole.

During actual construction, more strip-shaped holes need to be formed, labor is wasted in manual opening, the efficiency is low, the labor cost is greatly wasted, and the construction efficiency is reduced; meanwhile, the standard size is not established due to manual opening, and deviation can be generated for the standard size, so that the aesthetic feeling of the appearance is poor.

Therefore, the prior tapping mode of the rubber playground needs to be improved, the construction cost such as manpower is saved, the construction period can be relatively shortened, the construction efficiency is improved, and meanwhile, the tapping mode has uniform tapping standards, is neat and uniform on the whole, and has good appearance.

Disclosure of Invention

In view of the above, the invention aims to provide an automatic tapping device for a rubber layer of a sports ground, which has the advantages of simple structure, easy operation, reduced labor cost, improved construction efficiency, uniform tapping standard, uniform overall appearance and good appearance.

The invention relates to automatic perforating equipment for a rubber layer of a sports ground, which comprises a frame, and a drilling end hole device and a slotting hole device which are arranged on the frame;

the end drilling device comprises:

the drill rod is used for being driven to drill end holes corresponding to two ends of the set bar-shaped open hole on the rubber layer, and the diameter of each end hole is consistent with the width of the set bar-shaped open hole;

The drill rod driving motor is arranged on the rack in a driven up-and-down reciprocating manner and drives the drill rod to rotate and complete drilling of end holes in an up-and-down reciprocating manner;

The slotting and pore-forming device comprises:

The grooving cutter is used for being driven to form a cutting action and reciprocally moving and cutting the rubber layer between the two end holes along the direction of the strip-shaped opening, and the cutting width is the same as the diameter of the end holes, so that a set strip-shaped opening is formed;

The cutting driving system is used for driving the slotting cutter to complete cutting action to cut the rubber layer between the two end holes;

and the linear motion driving system is used for driving the slotting cutter to reciprocate along the direction of the strip-shaped perforating.

Further, the slotting cutter is a double-edge circular saw blade, and the width between the double edges is consistent with the width of the set opening;

the resection driving system includes:

The tool shaft is used for installing a slotting tool and driving the slotting tool to rotate to complete cutting;

and the cutting driving motor is used for driving the cutter shaft to rotate.

Further, the excision drive system further comprises:

The transmission box body is fixedly arranged on the frame, the cutter shaft is supported on the transmission box body in a rotating fit manner, and one end of the cutter shaft extends out of the transmission box body and is used for installing a slotting cutter;

The driving main shaft is supported on the transmission box body in a rotating fit manner, and one end of the driving main shaft extends out of the transmission box body and is used for being in transmission connection with the cutting driving motor;

the driving main shaft is in transmission fit with the cutter shaft;

The cutting driving motor is arranged on the frame and is in transmission connection with the driving main shaft extending out of the transmission box body.

Further, be equipped with the drilling rod motor mount pad that is used for installing drilling rod driving motor in the frame, drilling rod driving motor passes through the spring and is upwards supported, and the upper end is equipped with push switch, and drilling rod driving motor can be overcome spring force movable distance that the spring force was overcome to the downward pressure and be greater than the drilling distance of boring and establishing the end hole.

Further, the head of the drill rod is a circular saw tooth cutting edge with the diameter matched with the end hole.

Further, the number of the drilling devices is two, and the installation positions of the two drilling devices are matched with the distance between the two end holes of the strip-shaped open hole.

The slotting machine further comprises a base, wherein the frame can reciprocate along the single degree of freedom of the base in the length direction of the strip-shaped opening, so that the slotting cutter is driven to reciprocate along the strip-shaped opening direction;

The base is provided with a strip-shaped through groove for the cutting edge of the slotting cutter to extend downwards and move back and forth in the strip-shaped perforating direction.

Further, the transmission case body is detachably fixed on the frame, and the frame is arranged on the base in a mode of single-degree-of-freedom reciprocating movement through the dovetail groove sliding pair.

Further, the drill rod motor mounting seat is provided with a vertical hole for placing a drill rod driving motor, the drill driving motor is downwards placed in the vertical hole, the bottom of the vertical hole is closed by a bottom cover, and the drill rod passes through a drill rod through hole in the bottom cover;

the spring is arranged in the vertical hole, the lower end of the spring is propped against the bottom cover, and the upper end of the spring is propped against the lower end of the drill rod driving motor.

Further, the linear motion driving system comprises two linear driving motors arranged on the base and two belts correspondingly driven by the linear driving motors, the two linear driving motors are respectively provided with a driving belt wheel, one ends of the two belts are fixed on the driving belt wheels of the corresponding linear driving motors, and the other ends of the two belts are fixed on the front side and the rear side corresponding to the frame.

The invention has the beneficial effects that: the automatic perforating equipment for the rubber layer of the sports ground adopts automatic drilling of the end holes and cutting by using the driven cutter, and is formed at one time, and the automatic perforating equipment is placed at a set place for operation during use without manual participation in forming; the device has the advantages of simple structure on the whole, lower use and maintenance cost, easy operation, reduced labor cost and improved construction efficiency, and meanwhile, due to the fact that the cutter is arranged to have unified standards, the holes are standard, and the device is neat and uniform on the whole and good in appearance.

Drawings

The invention is further described below with reference to the drawings and examples.

FIG. 1 is a schematic view of a horizontal cross-sectional structure of the present invention;

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

FIG. 3 is an enlarged view of FIG. 1 taken along line A;

FIG. 4 is a schematic view of a linear drive driving pulley;

Fig. 5 is a schematic diagram of an idler configuration.

Detailed Description

As shown in the figure: the automatic perforating equipment for the rubber layer of the sports ground comprises a frame 2, and a drilling end hole device 4 and a slotting hole device which are arranged on the frame 2;

the end drilling device 4 comprises:

The drill rod 401 is used for being driven to drill end holes corresponding to two ends of the set bar-shaped open hole on the rubber layer, and the diameter of each end hole is consistent with the width of the set bar-shaped open hole; the drill rod is provided with a head part with a cutting edge and is used for drilling an end hole;

A drill rod driving motor 402, which is arranged on the frame 2 in a manner of being driven to reciprocate up and down, and drives the drill rod 401 to rotate and reciprocate up and down to finish drilling of end holes; the up-and-down reciprocating movement mode can be realized through screw rod driving and rack driving, and is not repeated here; the driven matching mode of the drill rod and the drill rod driving motor is the prior art, namely the prior claw type connection can be adopted, and the description is omitted here;

The slotting and pore-forming device comprises:

A grooving cutter 5 for being driven to form a cutting action and reciprocally move in a direction of the strip-shaped opening to cut the rubber layer between the two end holes, the cutting width being the same as the diameter of the end hole, thereby forming a set strip-shaped opening; the cutter is driven by power to reciprocate, so that the rubber layer is cut, and the strip-shaped open hole is completed; the reciprocating movement of the drill rod driving motor drives the drill rod to ascend after the end hole drilling is completed, so that the cutting action of the slotting cutter is prevented from being interfered;

The cutting driving system 6 is used for driving the slotting cutter to complete cutting action to cut the rubber layer between the two end holes; the cutting driving system can drive the slotting cutter to complete cutting action, and can reciprocate (a strip-shaped cutting edge) or rotate (a round blade cutting edge), and the driving mode adopts a common mechanical driving structure and is not repeated here;

The linear motion driving system 7 is used for driving the slotting cutter 5 to reciprocate along the direction of the strip-shaped hole, and can be realized by driving the rack to linearly move, namely, simultaneously driving the end drilling device to move so as to ensure that the cutting action of the slotting cutter penetrates through the whole strip-shaped hole.

In this embodiment, the slotting cutter 5 is a double-edged circular saw blade, and the width between the double-edged circular saw blade is consistent with the width of the set opening; the double-edge circular saw blade is equivalent to the fact that two circular saw blades are fixedly connected into a whole, and meanwhile, the double-edge circular saw blade is driven to rotate, so that two sides of a strip-shaped opening are cut off at the same time, and high construction efficiency is achieved;

the excision drive system 6 comprises:

A tool shaft 605 for mounting the slotting tool 5 and driving the slotting tool 5 to rotate to complete the excision;

a cutting drive motor 601 for driving the tool shaft 605 to rotate; the driving is completed by cutting off the driving motor 601, and the finished product motor can be purchased, so that the structure is simple and compact.

In this embodiment, the excision drive system 6 further comprises:

The transmission case body 3 is fixedly arranged on the frame 2, the cutter shaft 605 is supported on the transmission case body 3 in a rotating fit manner, and one end of the cutter shaft extends out of the transmission case body and is used for installing the slotting cutter 5; as shown in the figure, the cutter shaft 605 is supported on two long side walls of the transmission case 3 through two bearings, and the two long side walls are respectively provided with bearing seats for accommodating the bearings, which belong to a matching structure in the prior art and are not described in detail herein; the end of the cutter shaft 5 extending out of the transmission box body forms a small-diameter step shaft, the slotting cutter is sleeved on the small-diameter step shaft and is propped against a shaft shoulder to be locked by a nut, and meanwhile, a jackscrew is utilized to be screwed in and tightly propped up along the radial direction, so that the slotting cutter belongs to the existing transmission installation matching structure and is not repeated herein;

A driving main shaft 602 rotatably supported on the transmission case 3 and having one end extending out of the transmission case 3 for driving connection with the cutting driving motor 601; as shown in the figure, the driving main shaft 602 is supported on two long side walls of the transmission case body through two bearings, and the two side walls are respectively provided with a bearing seat for accommodating the bearings, which is not described herein again;

As shown in fig. 3, the matched parts of the cutter shaft 605 and the driving main shaft 602 and the long side wall of the driving box 3 form a seal through dynamic seal (such as oil seal), and the bearing parts can be lubricated by grease, which is not described herein;

The drive main shaft 602 is in transmission fit with the cutter shaft 605; the driving main shaft 602 is used for receiving the rotation power of the cutting driving motor 601 and transmitting the rotation power to the cutter shaft 605, and the transmission fit can adopt belt transmission, chain transmission or gear transmission, in this embodiment, the belt transmission is adopted to form the transmission fit, that is, the driving belt pulley 603 is arranged on the driving main shaft in a transmission fit manner, the driven belt pulley 606 is arranged on the cutter shaft 605 in a transmission fit manner, and the transmission is formed through the transmission belt 604, and the transmission belt has the characteristics of low cost and long service life;

The cutting driving motor 601 is installed on the frame 2 and is in transmission connection with the driving spindle extending out of the transmission box body 3, as shown in the figure, the cutting driving motor 601 and the driving spindle form transmission connection through a coupling, and the cutting driving motor 601 is installed on the frame 2 and is installed on the frame by adopting the existing mechanical fixing structure, and the description is omitted here.

In this embodiment, the rack 2 is provided with a drill rod motor mounting seat 201 for mounting a drill rod driving motor 402, the drill rod driving motor 402 is supported upwards by a spring 404, the upper end of the drill rod driving motor is provided with a push switch 403, and the drill rod driving motor 402 can be pressed downwards to overcome the spring force and move a distance greater than the drilling distance of a drilling end hole so as to ensure that the drilling end hole is drilled through; the push switch 403 may be a conventional switch that is turned on by being pushed down, that is, the drill rod is pushed down against the spring force while being turned on, the power is released, the drill rod driving motor 402 returns under the spring force, and then the driving frame 2 is driven by the linear motion driving system to reciprocate linearly, so as to cut from the end hole, and finally form a bar-shaped opening.

In this embodiment, the head of the drill rod 401 is a circular saw-tooth cutting edge with a diameter corresponding to the end hole, that is, the end edge of the cylindrical structure is saw-tooth, so that drilling can be completed rapidly; by compatible is meant that the diameter of the drilled hole is equal to the width of the set opening, and will not be described in detail herein.

In this embodiment, two drilling devices are provided, and the installation positions of the two drilling devices 4, 4a are adapted to the distance between the two end holes of the strip-shaped opening; as shown in the figure, the drill rod motor mounting seat 201 is mounted on the side wall of one short side of the rack by the drill rod driving motor 402, the drill rod 401, the push switch 403 and the spring 404, and the drill rod motor mounting seat 202, the push switch 4a03, the drill rod driving motor 4a02, the drill rod 4a01 and the spring 4a04 are also arranged on the side wall of the other short side of the rack, so that when the drill rod driving motor is used, the two push switches 403 and 4a03 are simultaneously pressed, the drill rod is downwards extended against the spring force, and the drilling of two end holes is completed, so that the distance standardization is ensured, and meanwhile, the length and the width standards of the strip-shaped open holes are ensured.

In this embodiment, the device further includes a base 1, and the frame 2 reciprocates with a single degree of freedom that can be driven along the base 1 in the length direction of the strip-shaped opening, so as to drive the slotting cutter 5 to reciprocate along the strip-shaped opening direction; the single-degree-of-freedom reciprocating motion matching modes are various, and can be completed by adopting a gear rack, a ball screw or direct dragging;

the base is provided with a strip-shaped through groove 102 for the cutting edge of the slotting cutter to extend downwards and move back and forth in the strip-shaped perforating direction, so that cutting is completed in the moving process.

In this embodiment, the transmission case 3 is detachably fixed to the frame 2, and the frame is disposed on the base in a manner of being capable of reciprocating in a single degree of freedom through a dovetail groove sliding pair; as shown in the figure, two parallel dovetail grooves 101 are arranged on the base, and dovetail blocks (not marked in the figure) matched with the dovetail grooves are arranged at the bottom of the frame to form a single-degree-of-freedom matching structure

As shown in the figure, the frame 2 is of a box type structure, namely, the transmission box is arranged 3 in the frame of the box type structure, and the assembly is completed through screws on two sides in the length direction (strip-shaped openings); when the cutter is required to be replaced or maintained, the follow-up action can be completed by disassembling the transmission case body 3.

In this embodiment, an example of one side is used for illustration, and the structure of the other side is identical, which is not described here again: the drill rod motor mounting seat 201 is provided with a vertical hole for placing the drill rod driving motor 402, the drill driving motor 402 is downwards placed in the vertical hole, the bottom of the vertical hole is closed by a bottom cover, and the drill rod 401 passes through a drill rod through hole on the bottom cover; the bottom cover is fixed through detachable connection, so that the bottom cover is convenient to detach and maintain;

The spring 404 is disposed in a vertical hole, the lower end of the spring is against the bottom cover, the upper end of the spring is against the lower end of the drill rod driving motor 402, as shown in the figure, the vertical hole is used for constraining the transverse degree of freedom of the drill rod driving motor, and of course, a scheme for constraining the rotational degree of freedom of the drill rod driving motor is disposed in the vertical hole, for example, a vertical bar-shaped protrusion on the wall of the vertical hole is utilized, a vertical groove matched with the vertical protrusion is disposed on the drill rod driving motor, and the spring is limited in various manners and is not repeated herein.

In this embodiment, the linear motion driving system includes two linear driving motors 707 and 708 disposed on the base and two belts 703 and 706 correspondingly driven by the linear driving motors 707 and 708, where the two linear driving motors 707 and 708 are respectively provided with driving pulleys 701 and 704, one ends of the two belts 703 and 706 are fixed on the driving pulleys of the corresponding linear driving motors, and the other ends are fixed on the front side and the rear side corresponding to the frame; namely, the two driving directions are opposite to the driving direction of the frame, and the driving of the reciprocating motion can be completed; the linear driving motors 707 and 708 adopt speed-adjustable gear motors to ensure controllable movement speed and are used for matching with the searching action of the cutter;

As shown in the figure, the linear driving motors 707 and 708 are fixed on the base 1, the base 1 is in a box-type structure (the cover can be closed or not, and the operation position of the push switch should be left under the condition of the cover), the linear driving motors 707 and 708 are fixed on the side wall of the base, and drive the driving pulleys 701 and 704 to rotate, because the two ends of the belt are fixed, the driving pulleys can drive the rack to move when rotating, the belt is released from the other side, and the opposite direction movement is opposite to the rotating direction, which is not repeated here; in this embodiment, in order to ensure the installation space and flexibility of the motor, a structure is adopted in which belt idler pulleys 702 and 705 are arranged in the reciprocating direction of the frame, the belt bypasses the idler pulleys to turn the direction and then is connected with driving pulleys 701 and 704, and meanwhile, the frame is only pulled by the belt due to the direction switching, which is not repeated here.

As shown in the figure, the whole equipment is also provided with a handle 8, the handle 8 is connected to the base and is used for being carried by hand, and meanwhile, certain pressure can be applied by pressing the handle so as to ensure the normal cutting.

When the device is used, the device is placed at a set position, two pressing switches are pressed by two hands, two end holes are drilled at the same time, a cut-off switch is turned on after the two pressing switches are finished, a straight line driving rack drives a slotting cutter 5 to move and cut simultaneously, the slotting cutter returns to an initial position to cut to the other end hole to stop after reaching the end hole position on one side, and the whole strip-shaped open hole is opened and left at the position of the other end hole to wait for the next cutting; the above-mentioned process can be completed by program control, and the automatic hole opening can be completed by setting the travel route and length, and the detailed description is omitted.

Finally, it is noted that the above embodiments are only for illustrating the technical solution of the present invention and not for limiting the same, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications and equivalents may be made thereto without departing from the spirit and scope of the technical solution of the present invention, which is intended to be covered by the scope of the claims of the present invention.

Claims (4)

1. An automatic tapping equipment for a rubber layer of a sports ground, which is characterized in that: comprises a frame, and a drilling end hole device and a slotting hole device which are arranged on the frame;

the end drilling device comprises:

The drill rod is used for being driven to drill end holes corresponding to two ends of the set bar-shaped open hole on the rubber layer, the diameter of each end hole is consistent with the width of the set bar-shaped open hole, and the head of the drill rod is a circular sawtooth cutting edge with the diameter being matched with the end hole;

The drill rod driving motor is arranged on the rack in a driven up-and-down reciprocating manner and drives the drill rod to rotate and complete drilling of end holes in an up-and-down reciprocating manner;

The number of the end hole drilling devices is two, and the installation positions of the two end hole drilling devices are matched with the distance between the two end holes of the strip-shaped open hole;

The slotting and pore-forming device comprises:

The grooving cutter is used for being driven to form a cutting action and reciprocally move along the direction of the strip-shaped opening to cut off the rubber layer between the two end holes, the cutting width is the same as the diameter of the end holes, so that a set strip-shaped opening is formed, the grooving cutter is a double-edge circular saw blade, and the width between the double edges is consistent with the width of the set opening;

The cutting driving system is used for driving the slotting cutter to complete cutting action to cut the rubber layer between the two end holes;

The linear motion driving system is used for driving the slotting cutter to reciprocate along the direction of the strip-shaped opening and comprises two linear driving motors arranged on the base and two belts correspondingly driven by the linear driving motors, the two linear driving motors are respectively provided with a driving belt wheel, one ends of the two belts are fixed on the driving belt wheels of the corresponding linear driving motors, and the other ends of the two belts are fixed on the front side and the rear side corresponding to the frame;

the resection driving system includes:

The tool shaft is used for installing a slotting tool and driving the slotting tool to rotate to complete cutting;

The transmission box body is fixedly arranged on the frame, the cutter shaft is supported on the transmission box body in a rotating fit manner, and one end of the cutter shaft extends out of the transmission box body and is used for installing a slotting cutter;

The cutting driving motor is used for driving the cutter shaft to rotate, and is arranged on the frame and is in transmission connection with the driving main shaft extending out of the transmission box body;

The driving main shaft is supported on the transmission box body in a rotating fit manner, one end of the driving main shaft extends out of the transmission box body and is externally connected with the cutting driving motor in a transmission manner, and the driving main shaft is in transmission fit with the cutter shaft;

The drilling rod motor mounting seat is arranged on the frame and used for mounting the drilling rod driving motor, the drilling rod driving motor is supported upwards through a spring, a pressing switch is arranged at the upper end of the drilling rod driving motor, and the drilling rod driving motor can be downwards pressed to overcome the spring force and move a distance larger than the drilling distance of a drilling end hole.

2. An automatic aperturing apparatus for a playing surface rubber layer as defined by claim 1, wherein: the machine frame also comprises a base, wherein the machine frame can reciprocate along the single degree of freedom driven by the base in the length direction of the strip-shaped opening, so that the slotting cutter is driven to reciprocate along the strip-shaped opening direction;

The base is provided with a strip-shaped through groove for the cutting edge of the slotting cutter to extend downwards and move back and forth in the strip-shaped perforating direction.

3. An automatic aperturing apparatus for a playing surface rubber layer as defined by claim 1, wherein: the transmission box body is detachably fixed on the frame, and the frame is arranged on the base in a mode of single-degree-of-freedom reciprocating movement through the dovetail groove sliding pair.

4. An automatic aperturing apparatus for a playing surface rubber layer as defined by claim 1, wherein: the drill rod motor mounting seat is provided with a vertical hole for placing a drill rod driving motor, the drill rod driving motor is downwards placed in the vertical hole, the bottom of the vertical hole is closed through a bottom cover, and the drill rod penetrates through a drill rod through hole in the bottom cover;

the spring is arranged in the vertical hole, the lower end of the spring is propped against the bottom cover, and the upper end of the spring is propped against the lower end of the drill rod driving motor.