An electromechanical device mounting rack
By designing an electromechanical equipment mounting frame and using components such as magnets, airbags, and springs to fix and straighten cables, the problems of climbing danger and low efficiency during cable installation are solved, achieving safe and efficient cable installation.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Patents(China)
- Current Assignee / Owner
- THE FIRST COMPARY OF CHINA EIGHTH ENG BUREAU LTD
- Filing Date
- 2023-03-29
- Publication Date
- 2026-06-23
AI Technical Summary
In building construction, cable installation requires workers to climb to heights, which is dangerous and inefficient.
Design an electromechanical equipment mounting frame, including a fixing frame, a cable rack and a trolley, and use components such as magnets, airbags and springs to fix and straighten cables, avoiding climbing operations.
This method enables efficient cable fixing and straightening, avoiding the dangers of workers climbing to heights and improving work efficiency.
Smart Images

Figure CN116488060B_ABST
Abstract
Description
Technical Field
[0001] This invention relates to the field of electromechanical equipment installation technology, and more particularly to an electromechanical equipment mounting bracket. Background Technology
[0002] In construction, cables are essential equipment that needs to be installed, serving the purpose of transmitting electricity. During installation, cables are typically transported and used in whole rolls. After arriving at the construction site, wiring and installation are carried out. Often, cables are installed at a relatively high position on walls, requiring workers to climb using tools such as ladders. The work includes securing and straightening the cables. This climbing process is inherently dangerous and inefficient. Therefore, this paper presents a mechanical equipment mounting frame that allows for cable securing, straightening, and adjustment with minimal or no climbing. Summary of the Invention
[0003] The purpose of this invention is to provide an electromechanical equipment mounting bracket that is simple to operate and avoids the need for high-altitude cable installation.
[0004] This invention is achieved through the following measures:
[0005] An electromechanical equipment mounting frame, characterized in that it includes a fixing frame, a cable rack, and a trolley used in conjunction with the cable rack;
[0006] The mounting bracket includes a mounting plate with several bolt holes for bolt installation. The mounting plate is fixed to the wall where the cable needs to be installed. A pair of fixing plates are symmetrically arranged on the mounting plate, and a locking block is provided on the inner side of the fixing plates on both sides.
[0007] The cable frame includes a mounting block that is slidably disposed between the two fixing plates. Each side of the mounting block is provided with a slot that cooperates with the locking block. The locking blocks on both sides are disposed in the corresponding slots. A support block is provided on the lower part of the side of the locking block away from the fixing frame. A groove is provided on the lower part of the support block. A magnet is provided on the bottom surface of the groove.
[0008] The trolley includes a base plate, on which a support rod is provided. The free end of the support rod engages with the groove, and a metal block is provided on the free end face of the support rod to engage with the magnet. The engagement of the magnet and the metal block ensures a firm connection between the support rod and the cable frame.
[0009] The invention also has the following specific features:
[0010] U-shaped grooves are provided on the inner surfaces of the two fixing plates facing each other, and U-shaped blocks are slidably arranged in the U-shaped grooves on both sides. A support plate that cooperates with the mounting block is provided between the two fixing plates. The support plate is located between the two sides of the U-shaped block, and the locking block is provided on the side end face of the U-shaped block above the support plate.
[0011] A spring is provided between the bottom surface of the U-shaped groove and the bottom surface of the U-shaped block. One end of the spring is fixed to the bottom surface of the U-shaped groove, and the other end of the spring is fixed to the bottom surface of the U-shaped block. The spring causes the locking block to be locked in the groove.
[0012] A rectangular tube is provided on the lower surface of the support plate, and an airbag is provided inside the rectangular tube. An inflation port connected to the airbag is provided on the bottom surface of the rectangular tube. After the airbag is inflated, it extends to both sides and pushes the lower side end faces of the U-shaped blocks on both sides, so that the U-shaped blocks overcome the elastic force of the spring and slide inward, thereby causing the locking block to exit the locking slot and release the fixation of the cable frame.
[0013] Both sides of the fixed plate are provided with inclined surfaces, and both sides of the inclined surfaces are provided with a sliding groove. A matching sliding plate is provided in the sliding groove. A limiting sliding groove is provided on one side of the sliding groove. Correspondingly, a limiting sliding rod that cooperates with the limiting sliding groove is provided on one side of the sliding plate.
[0014] A second spring is provided between the upper end face of the inner side of the slide groove and the slide plate. One end of the second spring is provided on the upper end face of the inner side of the slide groove, and the other end of the second spring is provided on the slide plate. An airbag is provided on the lower end face of the inner side of the slide groove. An inflation port is provided on the outer side of the fixing plate, which is connected to the airbag. After the airbag is inflated, it extends and pushes the slide plate to slide along the slide groove.
[0015] A round rod is provided on each of the mounting plates above the fixing plates on both sides. A pressure plate is rotatably mounted around each of the round rods on both sides. Each pressure plate includes a long plate on one side of the round rod and a short plate on the other side. The short plate cooperates with the sliding plate below. An end plate is provided at the free end of each round rod. An annular plate is provided on the side of the pressure plate facing the end plate, and the annular plate is located around the round rod. A torsion spring is provided around the round rod between the end plate and the annular plate, with one end of the torsion spring fixed to the end plate. The other end of the torsion spring is fixed to the annular plate. The upper surface of the corresponding mounting block is provided with a pair of auxiliary plates that cooperate with the long plates on both sides. The torsion spring can ensure that the pressure plate is in a vertical state. At this time, the long plate is on top and the short plate is on the bottom. When the slide plate is pushed by the second airbag and slides, the slide plate pushes the short plate, causing the pressure plate to rotate along the first round rod, thereby causing the long plate to rotate towards the middle of the first round rod on both sides until it presses on the auxiliary plate, thereby pressing the mounting block and ensuring that the locking block smoothly enters the locking groove.
[0016] The mounting block is provided with a clamping mechanism, which includes a rectangular rod. The rectangular rod is disposed on the side of the mounting block away from the fixing frame. A groove two extending through both ends is provided on the side of the rectangular rod away from the mounting block. A matching arc-shaped rubber pad is provided on the bottom surface of the groove two. A matching pressure plate is provided inside the groove two. An arc-shaped rubber pad two is provided on the side of the pressure plate facing the inside of the groove two.
[0017] An outer plate is provided on the side of the rectangular rod away from the mounting block by a nut and bolt structure. A pair of through holes are provided on the outer plate. A pair of round rods II that mate with the through holes are provided on the clamping plate. The free ends of the round rods II on both sides pass through the corresponding through holes and are provided with connecting plates. A round rod III is provided on the inner side of the connecting plate facing the outer plate. A sleeve that mates with the round rod III is provided on the corresponding outer plate. The round rod III is slidably disposed in the sleeve. An air bladder III is provided on the bottom surface of the sleeve. An inflation port III that communicates with the air bladder III is provided on the outer side of the sleeve.
[0018] Springs are provided around the outermost plate and the clamping plate on both sides of the circular rod II. One end of the spring III is fixed to the outermost plate and the other end is fixed to the clamping plate. After the cable is inserted into the groove II, the clamping plate is slid into the groove II and the outermost plate is installed onto the rectangular rod by a nut and bolt structure. The nut and bolt are tightened until the clamping plate presses the cable. Then, by inflating the airbag III, the airbag III pushes the circular rod III outward to slide, thereby causing the clamping plate to overcome the elastic force of the spring III and slide outward to loosen the cable. After that, the cable can be straightened and tightened.
[0019] The upper surface of the base plate is provided with a pair of vertical plates. A lead screw and a slide rod are provided between the two vertical plates. The lead screw is rotatably disposed between the two vertical plates. A lead screw slider is provided around the lead screw and the slide rod. A motor is provided after one end of the lead screw passes through one of the vertical plates. The motor drives the lead screw to rotate, which in turn drives the lead screw slider to slide, thereby straightening the cable.
[0020] A vertical plate is provided on the lead screw slider one, and an upper top plate is provided at the free end of the vertical plate. A through circular hole is provided on the upper top plate, and the circular hole cooperates with the support rod. A motor two is provided on the lead screw slider one on one side of the vertical plate. A lead screw two is provided at the output end of the motor two. The free end of the lead screw two is rotatably mounted on the upper top plate. A lead screw slider two is provided around the lead screw two. The support rod is provided on the lead screw slider two. The free end of the support rod slides through the circular hole. The motor two can drive the lead screw two to rotate, thereby driving the support rod to slide up and down.
[0021] A long strip plate is provided on the periphery near the free end of the support rod, and a column is provided on the long strip plate. A clamp is provided on the end face of the free end of the column. The clamp is higher than the free end of the support rod to facilitate subsequent operations and avoid interference between the support rod and the cable frame.
[0022] The clamp includes a rectangular plate mounted on the column. A fixed arc-shaped clamp is provided on one side of the upper surface of the rectangular plate, and a slide rail plate is provided on one side of the fixed arc-shaped clamp. A downward-facing vertical plate is provided at the free end of the slide rail plate and connected to the rectangular plate. A movable arc-shaped clamp that cooperates with the fixed arc-shaped clamp is slidably arranged around the slide rail plate. Sealing plates are provided on both sides of the rectangular plate. The rectangular plate, the sealing plates on both sides, the slide rail plate, the fixed arc-shaped clamp, and the movable arc-shaped clamp together form an airbag cavity. An airbag four is provided in the airbag cavity. An inflation port four communicating with the airbag four is provided on the outer side of one sealing plate.
[0023] A spring four is provided between the vertical plate two and the movable arc-shaped clamp. One end of the spring four is fixed to the vertical plate two, and the other end of the spring four is fixed to the movable arc-shaped clamp. The function of the spring four is to make the movable arc-shaped clamp clamp the cable. When the airbag four is inflated, it will push the movable arc-shaped clamp to move outward and release the clamp on the cable. When the airbag four is deflated, the movable arc-shaped clamp will clamp the cable again.
[0024] A magnet is provided on the mounting plate between the two fixing plates. Correspondingly, a metal block is provided on the side of the mounting block to cooperate with the magnet. The magnet is embedded in the mounting plate, that is, the plane of the magnet is flush with the surface of the mounting plate. The cooperation between the magnet and the metal block makes it easier for the mounting block to fit with the mounting plate during installation, ensuring the docking of the card block and the card slot.
[0025] The lower surface of the base plate is provided with several casters.
[0026] The method is as follows:
[0027] S1. Fix several of the aforementioned fixing brackets to the wall surface using expansion bolts;
[0028] S2. Place the cable into the cable rack and clamp it in place. Then place the cable rack on the free end of the support rod of the trolley. Then extend the support rod by the second motor until the cable rack is sent to the same height as the fixed frame.
[0029] S3. Inflate the first airbag so that the locking block is retracted into the U-shaped groove. Then adjust the position of the trolley so that the mounting block is placed between the two fixing plates. Then inflate the second airbag so that the long plate rotates towards the middle of the two round rods until it presses against the auxiliary plate, thereby pressing the mounting block and ensuring that the locking block smoothly enters the slot. Then release the gas from the first airbag so that the locking block enters the slot and locks the cable frame in place.
[0030] S4. When straightening the cable, first lower the support rod and clamp the cable on one side of the cable frame with the clamp. When clamping, first inflate the airbag four, then put the cable between the fixed arc clamp and the movable arc clamp. Then deflate the airbag four to clamp the cable. Then inflate the airbag three to release the clamping plate on the cable frame from clamping the cable. Then start the motor one to move the clamp away from the cable frame to straighten the cable. Then release the gas in the airbag three to make the clamping plate clamp the cable again.
[0031] S5. Repeat step S4 until the cable is straightened, and finally fix the cable in place using the cable rack.
[0032] The beneficial effects of this invention are: the device has a simple structure and is easy to operate, realizing the fixed installation of cables at higher positions and the straightening and adjustment of cables, avoiding the dangers caused by workers climbing to heights, and improving work efficiency. Attached Figure Description
[0033] Figure 1 This is a schematic diagram of the overall structure of an embodiment of the present invention.
[0034] Figure 2 This is a schematic diagram of the structure of the fixing frame in an embodiment of the present invention.
[0035] Figure 3 This is a schematic diagram of the cable tray structure in an embodiment of the present invention.
[0036] Figure 4 This is a schematic diagram of the structure of the vehicle in an embodiment of the present invention.
[0037] Figure 5 This is a schematic diagram of the fixture in an embodiment of the present invention.
[0038] Figure 6 This is a schematic diagram of the bottom structure of the cable tray in an embodiment of the present invention.
[0039] The attached diagrams are labeled as follows: 1. Fixing frame; 2. Cable frame; 3. Trolley; 4. Mounting plate; 5. Long plate; 6. Torsion spring; 7. Fixing plate; 8. Short plate; 9. Spring II; 10. Inclined surface; 11. Slide plate; 12. Airbag II; 13. Locking block; 14. U-shaped block; 15. U-shaped groove; 16. Spring I; 17. Support plate; 18. Airbag I; 19. Locking groove; 20. Mounting block; 21. Auxiliary plate; 22. Rectangular rod; 23. Outer side plate; 24. Sleeve; 25. Round rod III; 26. Connecting plate; 27. Round rod II; 28. Spring III; 29. Pressure plate; 30. Groove II; 31. Motor I; 32. Base plate; 33. Lead screw I; 34. Lead screw slider I; 35. Motor II; 36. Lead screw II; 37. Lead screw slider II; 38. Top plate; 39. Vertical plate; 40. Support rod; 41. Clamp; 42. Rectangular plate; 43. Vertical plate II; 44. Spring IV; 45. Slide rail plate; 46. Movable arc clamp; 47. Fixed arc clamp; 48. Sealing plate; 49. Support block; 50. Groove I. Detailed Implementation
[0040] To clearly illustrate the technical features of this solution, the following detailed implementation method will be used to explain the solution.
[0041] See Figure 1-6An electromechanical equipment mounting frame includes a fixed frame 1, a cable rack 2, and a trolley 3 used in conjunction with the cable rack 2;
[0042] The mounting bracket 1 includes a mounting plate 4, which has several bolt holes for bolt installation. The mounting plate 4 is fixed to the wall where the cable needs to be installed. A pair of fixing plates 7 are symmetrically arranged on the mounting plate 4, and a locking block 13 is provided on the inner side of the two fixing plates 7 facing each other.
[0043] The cable rack 2 includes a mounting block 20 that is slidably disposed between two fixed plates 7. Both sides of the mounting block 20 are provided with slots 19 that cooperate with the locking blocks 13. The locking blocks 13 on both sides are disposed in the corresponding slots 19. A support block 49 is provided on the lower part of the side of the locking block 13 away from the fixed frame 1. A groove 50 is provided on the lower part of the support block 49. A magnet is provided on the bottom surface of the groove 50.
[0044] The trolley 3 includes a base plate 32, on which a support rod 40 is provided. The free end of the support rod 40 engages with a groove 50. A metal block 1 that engages with a magnet 1 is provided on the free end face of the support rod 40. The engagement of the magnet 1 and the metal block 1 ensures a firm connection between the support rod 40 and the cable frame 2.
[0045] U-shaped grooves 15 are provided on the inner surfaces of the two fixing plates 7 facing each other. U-shaped blocks 14 are slidably arranged in the U-shaped grooves 15 on both sides. A support plate 17 that cooperates with the mounting block 20 is provided between the two fixing plates 7. The support plate 17 is located between the two sides of the U-shaped block 14. A locking block 13 is provided on the side end face of the U-shaped block 14 above the support plate 17.
[0046] A spring 16 is provided between the bottom surface of the U-shaped groove 15 and the bottom surface of the U-shaped block 14. One end of the spring 16 is fixed to the bottom surface of the U-shaped groove 15, and the other end of the spring 16 is fixed to the bottom surface of the U-shaped block 14. The spring 16 causes the locking block 13 to be locked in the locking groove 19.
[0047] A rectangular tube is provided on the lower surface of the support plate 17, and an airbag 18 is provided inside the rectangular tube. An inflation port 1 is provided on the bottom surface of the rectangular tube, which is connected to the airbag 18. After the airbag 18 is inflated, it extends to both sides and pushes the lower side end face of the U-shaped blocks 14 on both sides, so that the U-shaped blocks 14 overcome the elastic force of the spring 16 and slide inward, thereby causing the locking block 13 to exit the locking slot 19 and release the fixation of the cable frame 2.
[0048] Both sides of the fixed plate 7 are provided with inclined surfaces 10, and both sides of the inclined surfaces 10 are provided with sliding grooves. A matching sliding plate 11 is provided in the sliding groove. A limiting sliding groove is provided on one side of the sliding groove. A limiting sliding rod that matches the limiting sliding groove is provided on one side of the corresponding sliding plate 11.
[0049] A second spring 9 is provided between the upper end face of the inner side of the slide groove 1 and the slide plate 11. One end of the second spring 9 is provided on the upper end face of the inner side of the slide groove 1, and the other end of the second spring 9 is provided on the slide plate 11. An airbag 12 is provided on the lower end face of the inner side of the slide groove 1. An inflation port 2 is provided on the outer side of the fixing plate 7, which is connected to the airbag 12. After the airbag 12 is inflated, it extends and pushes the slide plate 11 to slide along the slide groove 1.
[0050] Both sides of the mounting plate 4 above the fixed plates 7 are provided with a round rod 1. A pressure plate is rotatably mounted around the outer periphery of each round rod 1. The pressure plate includes a long plate 5 on one side of the round rod 1 and a short plate 8 on the other side of the round rod 1. The short plate 8 cooperates with the sliding plate 11 below. An end plate is provided at the free end of the round rod 1. An annular plate is provided on the side of the pressure plate facing the end plate. The annular plate is located around the outer periphery of the round rod 1. A torsion spring 6 is provided around the outer periphery of the round rod 1 between the end plate and the annular plate. One end of the torsion spring 6 is fixed to the end plate, and the other end of the torsion spring 6... The end is fixed on the ring plate. The upper surface of the corresponding mounting block 20 is provided with a pair of auxiliary plates 21 that cooperate with the long plates 5 on both sides respectively. The torsion spring 6 can ensure that the pressure plate is in a vertical state. At this time, the long plate 5 is on top and the short plate 8 is on the bottom. When the slide plate 11 is pushed by the airbag 12 and slides, the slide plate 11 pushes the short plate 8, causing the pressure plate to rotate along the round rod, thereby causing the long plate 5 to rotate towards the middle of the round rods on both sides until it presses on the auxiliary plate 21, thereby pressing the mounting block 20 and ensuring that the locking block 13 smoothly enters the locking groove 19.
[0051] The mounting block 20 is provided with a clamping mechanism, which includes a rectangular rod 22. The rectangular rod 22 is located on the side of the mounting block 20 away from the fixing frame 1. A groove 20 extending through both ends is provided on the side of the rectangular rod 22 away from the mounting block 20. A matching arc-shaped rubber pad is provided on the bottom surface of the groove 20. A matching pressure plate 29 is provided inside the groove 20. An arc-shaped rubber pad 2 is provided on the side of the pressure plate 29 facing the inside of the groove 20.
[0052] An outer plate 23 is provided on the side of the rectangular rod 22 away from the mounting block 20 by means of a nut and bolt structure. A pair of through holes are provided on the outer plate 23. A pair of round rods 27 that mate with the through holes are provided on the clamping plate 29. The free ends of the round rods 27 on both sides pass through the corresponding through holes and are provided with connecting plates 26. A round rod 25 is provided on the inner side of the connecting plate 26 facing the outer plate 23. A sleeve 24 that mates with the round rod 25 is provided on the corresponding outer plate 23. The round rod 25 is slidably disposed in the sleeve 24. An airbag is provided on the bottom surface inside the sleeve 24. An inflation port 3 that connects to the airbag is provided on the outer side of the sleeve 24.
[0053] Springs 28 are provided around the outermost circular rod 27 between the outermost plates 23 and the clamping plate 29. One end of the springs 28 is fixed to the outermost plate 23, and the other end is fixed to the clamping plate 29. After the cable is inserted into the groove 30, the clamping plate 29 is slid into the groove 30, and the outermost plate 23 is installed onto the rectangular rod 22 by means of a nut and bolt structure. The nuts and bolts are tightened until the clamping plate 29 clamps the cable. Then, by inflating the airbag 3, the airbag 3 pushes the circular rod 25 outward to slide, thereby causing the clamping plate 29 to overcome the elastic force of the springs 28 and slide outward to loosen the cable. After that, the cable can be straightened and tightened.
[0054] The upper surface of the base plate 32 is provided with a pair of vertical plates. A lead screw 33 and a slide bar are provided between the two vertical plates. The lead screw 33 is rotatably mounted between the two vertical plates. A lead screw slider 34 is provided around the lead screw 33 and the slide bar. One end of the lead screw 33 passes through one of the vertical plates and is connected to a motor 31. The motor 31 drives the lead screw 33 to rotate, which in turn drives the lead screw slider 34 to slide, thereby straightening the cable.
[0055] A vertical plate 39 is provided on the lead screw slider 34. An upper top plate 38 is provided at the free end of the vertical plate 39. A through circular hole is provided on the upper top plate 38, which mates with the support rod 40. A motor 35 is provided on the lead screw slider 34 on one side of the vertical plate 39. A lead screw 36 is provided at the output end of the motor 35. The free end of the lead screw 36 is rotatably mounted on the upper top plate 38. A lead screw slider 37 is provided around the lead screw 36. A support rod 40 is provided on the lead screw slider 37. The free end of the support rod 40 slides through the circular hole. The motor 35 can drive the lead screw 36 to rotate, thereby driving the support rod 40 to slide up and down.
[0056] A long strip plate is provided on the periphery of the support rod 40 near its free end. A column is provided on the long strip plate. A clamp 41 is provided on the end face of the free end of the column. The clamp 41 is higher than the free end of the support rod 40 to facilitate subsequent operations and avoid interference between the support rod 40 and the cable frame 2.
[0057] The clamp 41 includes a rectangular plate 42 mounted on a column. A fixed arc-shaped clamp 47 is mounted on one side of the upper surface of the rectangular plate 42. A slide rail plate 45 is mounted on one side of the fixed arc-shaped clamp 47. A downward vertical plate 43 is mounted on the free end of the slide rail plate 45 and connected to the rectangular plate 42. A movable arc-shaped clamp 46 that cooperates with the fixed arc-shaped clamp 47 is slidably mounted around the slide rail plate 45. Sealing plates 48 are mounted on both sides of the rectangular plate 42. The rectangular plate 42, the two sealing plates 48, the slide rail plate 45, the fixed arc-shaped clamp 47, and the movable arc-shaped clamp 46 together form an airbag cavity. An airbag is mounted inside the airbag cavity. An inflation port 4 connected to the airbag 4 is mounted on the outer side of one sealing plate 48.
[0058] A spring 44 is provided between the vertical plate 2 43 and the movable arc-shaped clamp 46. One end of the spring 44 is fixed to the vertical plate 2 43, and the other end of the spring 44 is fixed to the movable arc-shaped clamp 46. The function of the spring 44 is to make the movable arc-shaped clamp 46 clamp the cable. When the airbag 4 is inflated, it will push the movable arc-shaped clamp 46 to move outward and release the clamp on the cable. When the airbag 4 is deflated, the movable arc-shaped clamp 46 will clamp the cable again.
[0059] A magnet is provided on the mounting plate 4 between the two fixing plates 7. A metal block 2 that cooperates with the magnet is provided on the side of the mounting block 20. The magnet is embedded in the mounting plate 4, that is, the plane of the magnet is flush with the surface of the mounting plate 4. The cooperation between the magnet and the metal block 2 makes it easier for the mounting block 20 to fit with the mounting plate 4 during installation, ensuring the docking of the card block 13 and the card slot 19.
[0060] Several casters are provided on the lower surface of the base plate 32.
[0061] The method is as follows:
[0062] S1. Fix several fixing brackets 1 to the wall using expansion bolts;
[0063] S2. Place the cable into the cable rack 2 and clamp it in place. Then place the cable rack 2 on the free end of the support rod 40 of the trolley 3. Then extend the support rod 40 by the motor 35 until the cable rack 2 is sent to the same height as the fixed frame 1.
[0064] S3. Inflate airbag 18 so that the locking block 13 is retracted into the U-shaped groove 15. Then adjust the position of the trolley 3 so that the mounting block 20 is placed between the two fixing plates 7. Then inflate airbag 22 so that the long plate 5 rotates towards the middle of the two round rods until it presses on the auxiliary plate 21, thereby pressing the mounting block 20 and ensuring that the locking block 13 smoothly enters the slot 19. Then release the gas from airbag 18 so that the locking block 13 enters the slot 19 and locks the cable frame 2 in place.
[0065] S4. When straightening the cable, first lower the support rod 40, and use the clamp 41 to clamp the cable on one side of the cable frame 2. When clamping, first inflate the airbag four, then put the cable between the fixed arc clamp 47 and the movable arc clamp 46. Then deflate the airbag four to clamp the cable. Then inflate the airbag three to release the clamping plate 29 on the cable frame 2 from clamping the cable. Then start the motor 31 to move the clamp 41 away from the cable frame 2 in order to straighten the cable. Then release the gas in the airbag three to make the clamping plate 29 clamp the cable again.
[0066] S5. Repeat step S4 until the cable is straightened, and finally fix the cable in place using cable tray 2.
[0067] The technical features of this invention not described can be implemented by or using existing technology, and will not be repeated here. Of course, the above description is not a limitation of this invention, and this invention is not limited to the examples above. Any changes, modifications, additions or substitutions made by those skilled in the art within the scope of this invention should also be within the protection scope of this invention.
Claims
1. A mounting bracket for electromechanical equipment, characterized in that, It includes a mounting frame (1), a cable rack (2), and a trolley (3) used in conjunction with the cable rack (2); The fixing frame (1) includes a mounting plate (4), which has a plurality of bolt holes for bolt installation. A pair of fixing plates (7) are symmetrically arranged on the mounting plate (4), and a locking block (13) is provided on the inner side of the fixing plates (7) on both sides. The cable frame (2) includes a mounting block (20) slidably disposed between the two fixing plates (7). The mounting block (20) has a slot (19) on each side that cooperates with the locking block (13). The two locking blocks (13) are disposed in the corresponding slots (19). A support block (49) is disposed on the lower part of the side of the locking block (13) away from the fixing frame (1). A groove (50) is disposed on the lower part of the support block (49). A magnet is disposed on the bottom surface of the groove (50). The trolley (3) includes a base plate (32), on which a support rod (40) is provided. The free end of the support rod (40) is engaged with the groove (50), and a metal block (1) is provided on the free end face of the support rod (40) to engage with the magnet (1). The mounting block (20) is provided with a clamping mechanism, which includes a rectangular rod (22). The rectangular rod (22) is located on the side of the mounting block (20) away from the fixing frame (1). The side of the rectangular rod (22) away from the mounting block (20) is provided with a groove two (30) that passes through both ends. The bottom surface of the groove two (30) is provided with a matching arc-shaped rubber pad one. The groove two (30) is provided with a matching pressure plate (29). The side of the pressure plate (29) facing the inside of the groove two (30) is provided with an arc-shaped rubber pad two. An outer plate (23) is provided on the side of the rectangular rod (22) away from the mounting block (20) by means of a nut and bolt structure. A pair of through holes are provided on the outer plate (23). A pair of round rods (27) that cooperate with the through holes are provided on the clamping plate (29). The free ends of the round rods (27) on both sides pass through the corresponding through holes and are provided with connecting plates (26). A round rod (25) is provided on the inner side of the connecting plate (26) facing the outer plate (23). A sleeve (24) that cooperates with the round rod (25) is provided on the outer plate (23). The round rod (25) is slidably disposed in the sleeve (24). An airbag is provided on the bottom surface inside the sleeve (24). An inflation port (3) that communicates with the airbag is provided on the outer side of the sleeve (24). Springs three (28) are provided around the outer side plate (23) and the pressure plate (29) on both sides of the outer side plate (23) and the pressure plate (29). One end of the spring three (28) is fixed on the outer side plate (23) and the other end of the spring three (28) is fixed on the pressure plate (29). The upper surface of the base plate (32) is provided with a pair of vertical plates, and a lead screw (33) and a slide rod are provided between the two vertical plates. A lead screw slider (34) is provided around the lead screw (33) and the slide rod. A motor (31) is provided after one end of the lead screw (33) passes through one of the vertical plates. A vertical plate (39) is provided on the lead screw slider (34), and an upper top plate (38) is provided on the free end of the vertical plate (39). A through circular hole is provided on the upper top plate (38), and the circular hole cooperates with the support rod (40). A motor (35) is provided on the lead screw slider (34) on one side of the vertical plate (39), and a lead screw (36) is provided at the output end of the motor (35). The free end of the lead screw (36) is rotatably mounted on the upper top plate (38). A lead screw slider (37) is provided around the lead screw (36), and the support rod (40) is provided on the lead screw slider (37). The free end of the support rod (40) slides through the circular hole. The support rod (40) has a long strip plate near its free end, a column is provided on the long strip plate, and a clamp (41) is provided on the end face of the free end of the column. The clamp (41) includes a rectangular plate (42) set on the column. A fixed arc-shaped clamp (47) is provided on one side of the upper surface of the rectangular plate (42). A slide rail plate (45) is provided on one side of the fixed arc-shaped clamp (47). A downward vertical plate (43) is provided at the free end of the slide rail plate (45) and connected to the rectangular plate (42). A movable arc-shaped clamp (46) that cooperates with the fixed arc-shaped clamp (47) is slidably provided on the periphery of the slide rail plate (45). A sealing plate (48) is provided on both sides of the rectangular plate (42). The rectangular plate (42), the sealing plates (48) on both sides, the slide rail plate (45), the fixed arc-shaped clamp (47) and the movable arc-shaped clamp (46) together form an airbag cavity. An airbag four is provided in the airbag cavity. An inflation port four that communicates with the airbag four is provided on the outer side of the sealing plate (48) on one side. A spring four (44) is provided between the vertical plate two (43) and the movable arc-shaped clamp (46). One end of the spring four (44) is fixed on the vertical plate two (43), and the other end of the spring four (44) is fixed on the movable arc-shaped clamp (46).
2. The electromechanical equipment mounting bracket according to claim 1, characterized in that, U-shaped grooves (15) are provided on the inner sides of the two fixing plates (7) facing each other. U-shaped blocks (14) are slidably arranged in the U-shaped grooves (15) on both sides. A support plate (17) that cooperates with the mounting block (20) is provided between the two fixing plates (7). The support plate (17) is located between the two sides of the U-shaped block (14). The locking block (13) is provided on the side end face of the U-shaped block (14) above the support plate (17). A spring (16) is provided between the bottom surface of the U-shaped groove (15) and the bottom surface of the U-shaped block (14). One end of the spring (16) is fixed to the bottom surface of the U-shaped groove (15), and the other end of the spring (16) is fixed to the bottom surface of the U-shaped block (14). The lower surface of the support plate (17) is provided with a rectangular tube, and an airbag (18) is provided inside the rectangular tube. An inflation port connected to the airbag (18) is provided on the bottom surface of the rectangular tube.
3. The electromechanical equipment mounting bracket according to claim 2, characterized in that, Both sides of the fixed plate (7) are provided with inclined surfaces (10), and both sides of the inclined surfaces (10) are provided with a sliding groove. A matching sliding plate (11) is provided in the sliding groove. A limiting sliding groove is provided on one side of the sliding groove. A limiting sliding rod that matches the limiting sliding groove is provided on one side of the corresponding sliding plate (11). A second spring (9) is provided between the upper end face of the inner side of the slide groove and the slide plate (11). One end of the second spring (9) is provided on the upper end face of the inner side of the slide groove, and the other end of the second spring (9) is provided on the slide plate (11). An airbag (12) is provided on the lower end face of the inner side of the slide groove. An inflation port (2) is provided on the outer side of the fixing plate (7) and connected to the airbag (12). A round rod is provided on the mounting plate (4) above the fixing plate (7) on both sides. A pressure plate is rotatably provided on the periphery of the round rod on both sides. The pressure plate includes a long plate (5) on one side of the round rod and a short plate (8) on the other side of the round rod. The short plate (8) cooperates with the sliding plate (11) below. An end plate is provided at the free end of the round rod. An annular plate is provided on the side of the pressure plate facing the end plate. The annular plate is provided on the periphery of the round rod. A torsion spring (6) is provided on the periphery of the round rod between the end plate and the annular plate. One end of the torsion spring (6) is fixed on the end plate, and the other end of the torsion spring (6) is fixed on the annular plate. A pair of auxiliary plates (21) are provided on the upper surface of the mounting block (20) respectively, which cooperate with the long plates (5) on both sides.
4. The electromechanical equipment mounting bracket according to claim 1, characterized in that, A magnet is provided on the mounting plate (4) between the two fixing plates (7) on both sides, and a metal block (20) is provided on the side of the mounting block (20) to cooperate with the magnet.
5. The electromechanical equipment mounting bracket according to any one of claims 1-4, characterized in that, The lower surface of the base plate (32) is provided with several casters.