CN113636413B - Novel separated time equipment is with direction device - Google Patents

Abstract

The invention is suitable for the technical field of cable branching equipment, and provides a novel guiding device for the branching equipment, which comprises: the rack is fixedly provided with a sliding rail and a rack, and the sliding rail and the rack are arranged up and down; the sliding block is in threaded connection with the rack, the sliding block is in sliding connection with the sliding rail, two guide wheels are fixedly connected to the sliding block, the two guide wheels are arranged side by side along the direction of the sliding rail, a groove is formed in the guide wheels in an annular mode, and the size of the opening of the groove is matched with the diameter size of the cable; the leading wheel is equipped with the exhaust hole, two the exhaust hole is relative arrangement. Therefore, the air film is additionally arranged between the cable and the guide wheel, so that the contact area and the friction force between the cable and the guide wheel are reduced, the air film can cool the guide wheel and the cable, the surface smoothness of the cable is high, scratches are few, the blowing force of the exhaust holes is automatically adjusted by utilizing the movement of the sliding block, the reliability of the air film is ensured, and the energy loss is reduced.

Description

Novel separated time equipment is with direction device

Technical Field

The invention relates to the technical field of cable branching equipment, in particular to a novel guiding device for the cable branching equipment.

Background

The cable is wound on the cable winding drum to store the most common mode of the cable, the traditional winding mode is to wind and store the cable manually, the winding efficiency is low, and the winding quality cannot be guaranteed.

In the prior art, although some equipment for realizing the winding of the cable by driving the winding reel through the motor realizes the effective replacement of manual labor force, the winding speed is greatly improved, but the multi-structure is complex, does not have the function of winding displacement, is inconvenient to use, leads to the cable wound on the bobbin to be unevenly distributed, leads to the overlapping of the cable on the bobbin core of the bobbin to form bulges and depressions, leads to the failure of the normal winding of the cable bobbin, thereby causing low winding efficiency, improving the fault occurrence rate in the winding process, bringing great inconvenience to the work of the working personnel, in addition, the friction between the cable and the guiding device during the winding process is easy to scratch and wear the cable, meanwhile, the guide device generates heat after being used for a long time, so that the surface of the cable is easy to wear, characters printed on the surface of the cable are easy to wear off, and the appearance of the cable cannot be effectively protected.

In view of the above, the prior art is obviously inconvenient and disadvantageous in practical use, and needs to be improved.

Disclosure of Invention

In view of the above-mentioned drawbacks, an object of the present invention is to provide a novel guiding device for a wire distribution device, in which an air film is additionally disposed between a cable and a guide wheel, so as to reduce the contact area and friction between the cable and the guide wheel, the air film can cool the guide wheel and the cable, the cable has a high surface smoothness and few scratches, and the blowing force of an exhaust hole is automatically adjusted by moving a slider, so as to ensure the reliability of the air film and reduce energy consumption.

In order to achieve the above object, the present invention provides a novel guide device for a wire distribution apparatus, comprising:

the rack is fixedly provided with a sliding rail and a rack, and the sliding rail and the rack are arranged up and down;

the sliding block is in threaded connection with the rack, the sliding block is connected with the sliding rail in a sliding mode, two guide wheels are fixedly connected to the sliding block, the two guide wheels are arranged side by side along the direction of the sliding rail, a groove is formed in the guide wheels in an annular mode, and the opening size of the groove corresponds to the diameter size of the cable; the leading wheel is equipped with the exhaust hole, the exhaust hole can outwards be discharged, two the exhaust hole is arranged relatively.

According to the novel guide device for the branching equipment, the guide wheel is of a split structure, the guide wheel comprises the groove and the upper cover, the upper cover is tightly attached to the upper side of the groove, and the upper cover and the groove can axially rotate relatively.

According to the novel guide device for the branching equipment, the guide wheel further comprises a lower cover, the lower cover is tightly attached to the lower side of the groove, and the lower cover and the groove can axially rotate relatively.

According to the novel guide device for the branching equipment, the two exhaust holes are respectively provided with the air inlet pipeline, the air inlet pipeline is provided with the air pressure adjusting part, and the air pressure adjusting part is used for adjusting the ventilation sectional area of the air inlet pipeline.

According to the novel guide device for the branching device of the present invention, the air pressure adjusting portion includes: the adjusting shaft is rotatably connected with the sliding block, and one end of the adjusting shaft is in threaded connection with the rack; one end of the control shaft is provided with a sealing element, and the other end of the control shaft is in threaded connection with an adjusting gear; the other end of the adjusting shaft is in threaded connection with the adjusting gear; the adjusting gear is rotationally connected with the sliding block.

According to the novel guide device for the branching equipment, the sealing element is arranged in the air inlet pipeline, the sealing element is conical, and the sealing element is used for controlling the ventilation sectional area of the air path.

According to the novel guide device for the branching equipment, the two adjusting shafts are positioned on two sides of the rack, and threads are arranged on two sides of the rack.

According to the novel guide device for the branching equipment, the sliding block is provided with the positioning sleeve, and the positioning sleeve is rotatably connected to the outer side of the adjusting shaft.

According to the novel guide device for the branching equipment, platform structures are arranged on the upper side and the lower side of the rack, and the positioning sleeve abuts against the platform structures.

According to the novel guide device for the branching equipment, the rotation directions of the two control shafts are the same.

The invention provides a novel guide device for branching equipment, wherein exhaust holes are additionally formed in two guide wheels, a layer of air film is formed between a cable and the guide wheels, the air film is adopted for lubrication, the friction force between the cable and the guide wheels is reduced, heat generated by friction between the cable and the guide wheels is taken away, the surface defects of abrasion, scratch, scald and the like on the surface of the cable are reduced, and the product quality is improved; the rotatable upper cover and the rotatable lower cover are added, and the rolling friction connection mode of the cable and the wire guide wheel in the prior art can be realized; and the cooperation of slider and rack is utilized, realizes the gradual change of two exhaust hole atmospheric pressures to the gradual change trend of two gas pocket atmospheric pressures is opposite, regulates and control the atmospheric pressure in exhaust hole as required by oneself, has avoided the waste of resource, the energy saving.

Drawings

FIG. 1 is a schematic structural view of the present invention; FIG. 2 is a schematic bottom view of the present invention; FIG. 3 is a schematic structural view of the stent of the present invention; FIG. 4 is a schematic view of the slider configuration of the present invention; FIG. 5 is a schematic view of a half-section of the slider of the present invention; FIG. 6 is a schematic structural view of a first operating state of the present invention; FIG. 7 is a schematic structural view of a second operating state of the present invention; FIG. 8 is a schematic structural view of a third operating state of the present invention; FIG. 9 is another schematic view of the present invention showing the vent orientation; FIG. 10 is a schematic view of the guide wheel and cable arrangement of the present invention; in the figure, 1-bracket, 11-slide rail, 12-rack, 121-platform structure, 2-slide block, 21-guide wheel, 211-groove, 212-upper cover, 213-exhaust hole, 214-lower cover, 22-air pressure adjusting part, 221-adjusting shaft, 222-control shaft, 2221-sealing part, 223-adjusting gear, 23-positioning sleeve, 24-motor, 25-air inlet hole and 3-cable.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "axial", "circumferential", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

In the present invention, unless otherwise expressly stated or limited, the terms "connected," "secured," and the like are to be construed broadly, e.g., as meaning permanently attached, removably attached, or integral to one another; may be a mechanical connection; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

Referring to fig. 1, the invention provides a novel guide device for a branching device. This novel separated time for equipment direction device includes: support 1 and slider 2, support 1 installs on separated time equipment, and slider 2 sliding connection support 1 through the slip of slider 2, adjusts the different positions of cable 3.

Referring to fig. 3, a sliding rail 11 and a rack 12 are fixedly arranged between the two brackets 1, the sliding rail 11 and the rack 12 are arranged up and down, and the sliding rail 11 and the rack 12 are fixedly connected with the brackets 1. Referring to fig. 1, the sliding block 2 is slidably connected to the sliding rail 11, the motor 24 is disposed at the lower portion of the sliding block 2, the motor 24 is connected to the rack 12 through a gear, the motor 24 drives the sliding block 2 to slide on the sliding rail 11, and the reciprocating motion of the sliding block 2 is achieved through the reversing rotation of the motor 24.

Referring to fig. 4, two guide wheels 21 are fixedly arranged on the slider 2, the two guide wheels 21 are arranged in parallel along the moving direction of the slider 2, a groove 211 is annularly arranged on the guide wheel 21, the size of the groove 211 is matched with the diameter size of the cable 3, the cable 3 can pass through the two guide wheels 21, the guide wheel 21 is provided with exhaust holes 213, the exhaust holes 213 on the two guide wheels 21 are opposite, compressed gas is introduced into the exhaust holes 213, an air film is generated between the cable 3 and the guide wheels 21, the cable 3 is lubricated through the air film, meanwhile, the cable 3 is blown away from the guide wheels 21, the contact area between the cable 3 and the guide wheels 21 is reduced, the compressed gas can also quickly take away heat and dust generated by friction between the cable 3 and the guide wheels 21, and the effect of cooling and cleaning is achieved. Meanwhile, the pressure of the compressed gas and the orientation of the exhaust hole 213 can be determined according to actual conditions, so that the compressed gas is ensured to generate a gas film between the cable 3 and the guide wheel 21.

Referring to fig. 4, 5 and 10, further, the guide wheel 21 is of a split structure and is provided with a groove 211 and an upper cover 212, the upper cover 212 is rotatably connected with the groove 211, the upper cover 212 is located on the upper side of the groove 211, the upper cover 212 is tightly attached to the groove 211, the upper cover 212 and the groove 211 can rotate axially relative to each other, and when the cable 3 contacts the guide wheel 21, if the cable 3 contacts the upper cover 212, the upper cover 212 can rotate under the action of the cable 3, so that the friction force applied to the cable 3 is further reduced.

Furthermore, the guide wheel 21 is further provided with a lower cover 214, the lower cover 214 is rotatably connected with the groove 211, a bearing is arranged between the lower cover 214 and the guide wheel 21, the lower cover 214 is located below the groove 211 and is tightly attached to the groove 211, the rotation of the lower cover 214 is more flexible, when the cable 3 is in contact with the guide wheel 21, the cable 3 is in contact with the lower cover 214 due to self weight, the rotation resistance of the lower cover 214 is smaller, and the friction force borne by the cable 3 is smaller.

Referring to fig. 4 and 5, further, each exhaust hole 213 is connected to an air inlet pipe, the air inlet pipe is located inside the slider 2, an air inlet 25 is disposed on the slider 2, the air inlet 25 is externally connected to an air storage tank and is used for supplying air to the two exhaust holes 213, and the air inlet 25 is communicated with the two air inlet pipes. Be equipped with atmospheric pressure regulating part 22 on the admission line, atmospheric pressure regulating part 22 includes: the adjusting shaft 221 and the control shaft 222, the control shaft 222 is slidably connected with the slider 2, one end of the control shaft 222 is provided with a sealing element 2221, the sealing element 2221 is made of an elastic material, the sealing element 2221 is conical, the sealing element 2221 is abutted in the air path, the cross-sectional area of the air path is controlled through the conical sealing element 2221, the effect that the cross-sectional area of the air path can be gradually changed is achieved, and the sealing element 2221 is arranged in the air inlet pipeline and used for controlling the cross-sectional area of the air path; the other end of the control shaft 222 is in threaded connection with an adjusting gear 223, the adjusting gear 223 is rotatably connected with the sliding block 2, the adjusting gear 223 can only rotate along the circumferential direction of the gear and does not move, and when the adjusting gear 223 rotates, the control shaft 222 is driven to ascend or descend; the adjusting shaft 221 is rotatably connected with the sliding block 2, one end of the adjusting shaft 221 is in threaded connection with the rack 12, and the other end of the adjusting shaft 221 is in threaded connection with the adjusting gear 223. The adjusting shaft 221 is in transmission connection with the control shaft 222 through an adjusting gear 223. When the sliding block 2 slides on the sliding rail 11, the adjusting shaft 221 is engaged with the rack 12 and rotates to drive the adjusting gear 223 to rotate, the adjusting gear 223 is in threaded transmission with the control shaft 222, so that the control shaft 222 ascends or descends, and the control sealing part 2221 gradually opens or cuts off the air passage, thereby controlling the ventilation sectional area of the air passage, and further controlling the air pressure and the blowing force of the air exhaust hole 213.

Referring to fig. 2, 4 and 5, further, the two air pressure adjusting portions 22 are respectively located at two sides of the rack 12, and the two adjusting shafts 221 respectively abut against two sides of the rack 12, so as to circumferentially fix the slider 2 and prevent the slider 2 from rotating around the sliding rail 11.

Referring to fig. 4 and 5, further, a positioning sleeve 23 is sleeved on the sliding block 2 outside the adjusting shaft 221, the positioning sleeve 23 is connected with the sliding block 2 through a bearing, the rack 12 is provided with a platform structure 121 corresponding to the positioning sleeve 23, the positioning sleeve 23 slides on the platform structure 121, the positioning sleeve 23 rotates under the action of the bearing, sliding friction is changed into rolling friction, friction force is smaller, the positioning sleeves 23 on two sides are abutted to the corresponding platform structures 121 on two sides, and circumferential fixing of the sliding block 2 is more reliable and precise.

Furthermore, the rotation directions of the two control shafts 222 are the same, and since the two adjusting shafts 221 are located on two sides of the rack 12, when the slider 2 moves along one direction, the rotation directions of the two adjusting shafts 221 are opposite, and the moving directions of the two control shafts 222 are controlled to be opposite through the opposite rotation directions of the two adjusting shafts 221, so that the opening conditions of the two air inlet pipelines are opposite, and when the slider 2 moves along the same direction, the air blowing amounts of the two air outlet holes 213 are as follows: one increment and one decrement. When the sliding block 2 moves horizontally to one limit position, one air outlet hole 213 of the two air outlet holes 213 blows air to be in a fully opened state, the other air outlet hole 213 blows air to be in a fully closed state, the air outlet hole 213 in the fully opened state is gradually closed in the process that the sliding block 2 moves to the other limit position, and the air outlet hole 213 in the fully closed state is gradually opened until the sliding block 2 moves to the other limit position. Through the removal of slider 2, the air output and the atmospheric pressure of two exhaust holes 213 of automatic control under the lubricated effect of assurance air film, can also guarantee gaseous effective utilization, avoid the unnecessary energy extravagant.

Referring to fig. 6 and 10, when the slider 2 is moved to the middle position, the cable 3 is located in the middle of the two guide wheels 21, the blowing force of the two air vents 213 is the same, the cable 3 can be arranged in the center, and the heat generated by the friction between the cable 3 and the surfaces of the guide wheels 21 for a long time can be removed.

Referring to fig. 7, when the slider 2 moves to the leftmost side, the contact area between the cable 3 and the right guide wheel 21 is the largest, and at this time, through the matching of the adjusting shaft 221 and the rack 12, the blowing amount of the right exhaust hole 213 is the largest, and the blowing force is the largest, so that an air film can be generated between the cable 3 and the right guide wheel 21, the friction force is reduced, meanwhile, the left exhaust hole 213 does not blow air, the pressure between the cable 3 and the right guide wheel 21 is not increased, the total air consumption of the two exhaust holes 213 can be reduced, and the energy consumption is saved.

Referring to fig. 8, when the slider 2 moves to the rightmost side, the contact area between the cable 3 and the left guide wheel 21 is the largest, at this time, through the matching of the adjusting shaft 221 and the rack 12, the blowing amount of the left exhaust hole 213 is the largest, the blowing force is the largest, an air film can be generated between the cable 3 and the left guide wheel 21, the friction force is reduced, meanwhile, the right exhaust hole 213 does not blow air, the pressure between the cable 3 and the left guide wheel 21 is not increased, the total air consumption of the two exhaust holes 213 can be reduced, and the energy consumption is saved.

Referring to fig. 9, further, the orientation of the vent holes 213 may be slightly inclined upwards, so that when the cable 3 is bent maximally, the blowing direction of the vent holes 213 is toward the bent portion of the cable 3, the generated air film lubrication effect is better, and the orientation of the vent holes 213 may be determined according to actual conditions.

Referring to fig. 6 to 8, when the novel guide device for a wire distribution apparatus is used, the bracket 1 is fixed on the wire distribution apparatus, the cable 3 is placed in the two guide wheels 21, the slide block 2 moves to one end of the rack 12, the air inlet 25 is used for ventilating the two air pressure adjusting parts 22, the two air outlet holes 213 are matched with the rack 12 through the adjusting shaft 221, the air outlet hole 213 to which the cable 3 is pressed is completely blown, the air outlet hole 213 on the other side is not blown, the completely blown air outlet hole 213 slightly blows the cable 3 away from the guide wheel 21 at a certain distance, the cable 3 is not tightly attached to the other guide wheel 21, an air film layer is generated between the cable 3 and the guide wheel 21, the contact between the cable 3 and the guide wheel 21 is reduced, the two air outlet holes 213 are gradually changed along with the movement of the slide block 2, one is gradually pressurized and the other is gradually depressurized, and the slide block 2 moves to the middle position of the rack 12, the air pressure of the exhaust holes 213 on the two sides is the same, the blowing force on the two sides is the same, the cable 3 is suspended, the sliding block 2 continues to advance, the cable 3 gradually presses the exhaust holes 213 on the other side, one of the two exhaust holes 213 gradually increases pressure and the other gradually decreases pressure until the sliding block 2 reaches the other end of the rack 12, and at the moment, the ventilation state of the two exhaust holes 213 is completely changed from the initial state. The air is completely blown out from the air outlet hole 213 to which the cable 3 is pressed, and the blowing force of the air outlet hole 213 is maximum, so that the circulation is repeated, and the guide of the cable 3 is realized. In the guiding process, when the cable 3 contacts the lower cover 214 or the upper cover 212 due to self weight or position relation, both the lower cover 214 and the upper cover 212 can rotate, so that the friction force when the cable 3 slides is reduced, and the connection mode of rolling friction between the guide wheel 21 and the cable 3 in the prior art is kept. In the direction, two exhaust holes 213 cooperate, blow off leading wheel 21 with cable 3, the area of contact of leading wheel 21 and cable 3 has been reduced, simultaneously, form one deck air film between cable 3 and leading wheel 21, the frictional force of cable 3 and leading wheel 21 has been reduced, in long-time direction in-process, the production of frictional heat has been reduced, the heat on leading wheel 21 can be taken away fast to the air film simultaneously, the defect such as the scratch scald on 3 surperficial cables has been reduced, surface finish is good, the characters of 3 surface printing of cable keep higher definition.

In conclusion, the invention provides a novel guide device for branching equipment, wherein the two guide wheels are additionally provided with the exhaust holes, a layer of air film is formed between the cable and the guide wheels, the air film is adopted for lubrication, the friction force between the cable and the guide wheels is reduced, the heat generated by the friction between the cable and the guide wheels is taken away, the surface defects of abrasion, scratch, scald and the like on the surface of the cable are reduced, and the product quality is improved; the rotatable upper cover and the rotatable lower cover are added, and the rolling friction connection mode of the cable and the wire guide wheel in the prior art can be realized; and the cooperation of slider and rack is utilized, realizes the gradual change of two exhaust hole atmospheric pressures to the gradual change trend of two gas pocket atmospheric pressures is opposite, regulates and control the atmospheric pressure in exhaust hole as required by oneself, has avoided the waste of resource, the energy saving.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "left", "right", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

The present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof, and it should be understood that various changes and modifications can be effected therein by one skilled in the art without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (6)

1. The utility model provides a novel separated time is guider for equipment which characterized in that includes:

the rack is fixedly provided with a sliding rail and a rack, and the sliding rail and the rack are arranged up and down;

the sliding block is in threaded connection with the rack, the sliding block is in sliding connection with the sliding rail, two guide wheels are fixedly connected to the sliding block, the two guide wheels are arranged side by side along the direction of the sliding rail, a groove is formed in the guide wheels in an annular mode, and the opening size of the groove is matched with the diameter size of the cable; the guide wheel is provided with exhaust holes, the exhaust holes can exhaust outwards, and the two exhaust holes are arranged oppositely;

the guide wheel is of a split structure and comprises the groove and an upper cover, the upper cover is tightly attached to the upper side of the groove, and the upper cover and the groove can axially rotate relatively;

the guide wheel also comprises a lower cover, the lower cover is tightly attached to the lower side of the groove, and the lower cover and the groove can axially rotate relatively;

the two exhaust holes are respectively provided with an air inlet pipeline, the air inlet pipeline is provided with an air pressure adjusting part, and the air pressure adjusting part is used for adjusting the ventilation sectional area of the air inlet pipeline;

the air pressure adjusting part includes: the adjusting shaft is rotatably connected with the sliding block, and one end of the adjusting shaft is in threaded connection with the rack; one end of the control shaft is provided with a sealing element, and the other end of the control shaft is in threaded connection with an adjusting gear; the other end of the adjusting shaft is in threaded connection with the adjusting gear; the adjusting gear is rotationally connected with the sliding block.

2. The novel branching device guide apparatus of claim 1 wherein the sealing element is disposed in the air inlet duct, the sealing element is tapered, and the sealing element is used to control the cross-sectional ventilation area of the air passage.

3. The novel guide device for branching equipment as claimed in claim 2, wherein the two adjusting shafts are located on both sides of the rack, and both sides of the rack are provided with threads.

4. The novel guide device for distributing equipment of claim 3, wherein the sliding block is provided with a positioning sleeve, and the positioning sleeve is rotatably connected to the outer side of the adjusting shaft.

5. The novel guide device for branching equipment as claimed in claim 4, wherein platform structures are provided on the upper and lower sides of the rack, and the positioning sleeve abuts against the platform structures.

6. The novel branching device guide apparatus as claimed in claim 5, wherein the two control shafts are rotated in the same direction.

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