CN108980529B - Computer main machine base based on friction braking - Google Patents

Abstract

The invention belongs to the technical field of bases, and particularly relates to a computer main machine base based on friction braking, which comprises an adjusting rod, a supporting block, a rear wheel, a front wheel and a friction plate, wherein the main machine base plays a role in fixing the main machine base through the friction between the friction plate and the ground; the host is prevented from being pushed by people to drive the host base to slide, so that various plugs on the host are disconnected with the host, files which are operated on the computer and are not stored are prevented from being lost, and inconvenience is brought to a user; meanwhile, when people need to move the main machine, the main machine base can control the movement of the friction plate through the rotation of the rear wheel so as to move the main machine to a specified position, and after the main machine base moves to the specified position, the friction plate can be contacted and rubbed with the ground again through controlling the adjusting rod, so that the main machine base is fixed; namely, the fixing function is realized for the host.

Description

Computer main machine base based on friction braking

Technical Field

The invention belongs to the technical field of bases, and particularly relates to a computer main machine base based on friction braking.

Background

Currently, for a portable main chassis with wheels mounted under the main chassis, the portable main chassis can be moved in the office area conveniently. After the movable mainframe box is placed in a working area, if a worker kicks the mainframe box carelessly, the mainframe box slides after being subjected to large external kicking force, a power line of the mainframe box is possibly separated from a socket, and then the mainframe box is powered off instantly, so that data in a computer is lost under the condition of not being stored, and certain loss is caused to the worker. In order to prevent the main chassis from sliding due to a large kicking force, it is necessary to design a computer chassis that can be kept stationary due to a large kicking force.

The invention designs a computer main machine base based on friction braking to solve the problems.

Disclosure of Invention

In order to solve the defects in the prior art, the invention discloses a computer main base based on friction braking, which is realized by adopting the following technical scheme.

The utility model provides a computer main frame base based on friction braking which characterized in that: the device comprises an adjusting rod, a supporting block, a rear wheel, a front wheel, a friction plate, a first rotating shaft, a trapezoidal guide groove, a square hole, a guide hole, a shaft hole, a mounting groove, a first spring, a second spring, a driving plate, a transmission shaft, a second support, a driving wheel, a trapezoidal guide block, a fixing plate, a second rotating shaft, a first gear, a connecting plate, a worm sleeve, a rack, a supporting rod, a square sleeve, a T-shaped guide groove, a driving mounting plate, a trigger triangular block, a spring fixing plate, a second gear, a third gear, a fourth gear, a fifth gear, a sixth gear, a one-way ring, a third rotating shaft, a fourth rotating shaft, a fifth rotating shaft, a sixth rotating shaft, a seventh rotating shaft, a first square guide groove, a second square guide groove, a first guide block, a third spring, a fourth spring, a second guide block, an eighth rotating shaft and a T-shaped guide block, wherein the inner side; two shaft holes communicated with the inner side of the supporting block are symmetrically formed on two side surfaces of one end of the supporting block; the lower side surface of the other end of the supporting block is symmetrically provided with two square holes communicated with the inner side of the supporting block; two trapezoidal guide grooves are symmetrically formed in the upper end face of the inner side of one end, provided with the square hole, of the supporting block; the end surface of one end of the supporting block, which is provided with the square hole, is provided with a square guide hole communicated with the inner side of the supporting block; the upper end of the supporting block is provided with a placing groove; the two first rotating shafts are respectively and symmetrically arranged on two sides of one end of the supporting block, which is provided with the square hole; the two front wheels are respectively arranged on the two first rotating shafts; the eighth rotating shaft is arranged on the supporting block through two shaft holes on the supporting block; the two rear wheels are symmetrically arranged on the eighth rotating shaft and are positioned on the outer side of the supporting block.

The mounting structures on the two sides of the inner side of the end, provided with the square hole, of the supporting block are completely the same and are mutually symmetrical, and a trapezoidal guide block is mounted on the upper side of the driving mounting plate on any one of the two sides of the inner side of the end, provided with the square hole, of the supporting block; the driving mounting plate is arranged on the inner side of the supporting block through the matching of the trapezoidal guide block and one of the two trapezoidal guide grooves formed in the supporting block and the trapezoidal guide groove on the corresponding side of the trapezoidal guide block; a first spring is arranged between the front end of the driving mounting plate and the front end surface of the inner side of the supporting block; the trigger triangular block is arranged on the lower side of the driving mounting plate; the upper end of the supporting rod is provided with an inclined plane; the supporting rod is arranged on the supporting block through the matching of one square hole on the corresponding side of the supporting block and two square holes formed on the supporting block, and the upper end and the lower end of the supporting rod are respectively positioned on the inner side and the outer side of the supporting block; the inclined plane on the supporting rod is matched with the inclined plane on the trigger triangular block; the spring fixing disc is arranged on the supporting rod and is positioned on the inner side of the supporting block; a second spring is arranged between the spring fixing disc and the lower end surface of the inner side of the supporting block; the friction plate is arranged at the lower end of the support rod.

The connecting plate is arranged between the two driving mounting plates; the lower side surface of one end of the driving plate is provided with a T-shaped guide groove; one end of the driving plate, which is provided with a T-shaped guide groove, is provided with a square sleeve; the driving plate is arranged on one side of the connecting plate through the matching of the square sleeve and the connecting plate; the rack is arranged on the lower side of the other end of the driving plate; one end of the adjusting rod is provided with a T-shaped guide block; the adjusting rod is arranged on the supporting block through the matching of the T-shaped guide block and the T-shaped guide groove on the driving plate, and the other end of the adjusting rod penetrates through a guide hole formed in the supporting block and is positioned outside the supporting block; the adjusting rod is in sliding fit with the guide hole; a first square guide groove and a second square guide groove are formed in one side face of the fixing plate and are symmetrical to each other; the upper end of the fixing plate is arranged on the upper end surface of the inner side of the supporting block; the third rotating shaft is arranged on the fixed plate; one end of the third gear is a bevel gear end; the third gear is arranged on the third rotating shaft; one end of the seventh rotating shaft is provided with a first guide block; the seventh rotating shaft is arranged on the fixed plate through the matching of the first guide block and a second square guide groove formed in the fixed plate, and a third spring is arranged between the first guide block and one end face of the second square groove; the fourth gear is arranged on the seventh rotating shaft; the fourth gear is matched with the third gear; the sixth rotating shaft is arranged on the fixed plate; the fifth gear is arranged on the sixth rotating shaft; the fifth gear is matched with the fourth gear; the fifth rotating shaft is arranged on the fixed plate; the sixth gear is arranged on the fifth rotating shaft through a one-way ring; the sixth gear is meshed with the fifth gear; the sixth gear is meshed with the rack; one end of the fourth rotating shaft is provided with a second guide block; the fourth rotating shaft is arranged on the fixed plate through the matching of the second guide block and a first square guide groove formed in the fixed plate, and a fourth spring is arranged between the second guide block and one end face of the first square groove; the second gear is arranged on the fourth rotating shaft; the second gear is matched with the third gear; the second gear is matched with the sixth gear.

One end of the transmission shaft is provided with bevel teeth; the transmission shaft is arranged on the inner side of the supporting block through a second support, and one end of the transmission shaft with the bevel gear is meshed with the bevel gear end of the third gear; the first gear is arranged at the other end of the transmission shaft; the second rotating shaft is fixedly arranged on the rear end face of the supporting block; one end of the driving wheel is a worm wheel, and the other end of the driving wheel is a gear; the driving wheel is arranged on the second rotating shaft; the driving wheel is meshed with the first gear through the gear end; the worm sleeve is nested on the eighth rotating shaft and is meshed with the worm wheel end on the driving wheel.

In an initial state, the first spring has certain tension; the lowest end of the friction plate is flush with the lowest side of the rear wheel; the lowest end of the friction plate is higher than the lowest side of the front wheel.

As a further improvement of the present technology, the first spring is an extension spring; the second spring is an extension spring; the third spring is a compression spring; the fourth spring is a compression spring.

As a further improvement of the present technology, the friction plate has a friction rubber thereon.

As a further improvement of the technology, the square sleeve is mounted on the connecting plate through a linear bearing.

As a further improvement of the technology, the adjusting rod is installed in the guide hole through a linear bearing.

When the third gear rotates towards one side provided with the second gear, the third gear can drive the second gear to rotate; the second gear rotates to drive the sixth gear to rotate; in the process, the fourth gear is shifted by the teeth on the third gear, so that the fourth gear is driven by a driving force along the direction of the second square guide groove, and under the action of the driving force, the fourth gear drives the first guide block to move along the second square guide groove through the seventh rotating shaft, so that the fourth gear is separated from the third gear and the fifth gear; in this state, the rotation of the third gear does not interfere with the sixth gear through the transmission of the fourth gear; when the third gear rotates towards one side provided with the fourth gear, the third gear can drive the fourth gear to rotate; the fourth gear rotates to drive the fifth gear to rotate; the fifth gear rotates to drive the sixth gear to rotate; in the process, the rotation of the third gear can stir the second gear through teeth on the third gear, so that the second gear is subjected to a driving force along the direction of the first square guide groove, and under the action of the driving force, the second gear can drive the second guide block to move along the first square guide groove through the fourth rotating shaft, so that the second gear is separated from the third gear and the sixth gear; in this state, the rotation of the third gear does not interfere with the sixth gear through the transmission of the second gear; no matter which one of the second gear and the fourth gear is driven by the third gear to rotate, the rotation direction transmitted to the sixth gear is the same rotation direction, and the rack meshed with the third gear can be driven to move towards one side provided with the rear wheel; the third spring and the fourth spring play a role in restoring the fourth gear and the second gear.

When the rear wheel rotates towards the direction of installing the front wheel, the rear wheel can drive the eighth rotating shaft to rotate; the eighth rotating shaft rotates to drive the worm sleeve arranged on the eighth rotating shaft to rotate; the worm sleeve rotates to drive a driving wheel meshed with the worm sleeve to rotate; the driving wheel rotates to drive the first gear meshed with the driving wheel to rotate; the first gear rotates to drive the transmission shaft to rotate; the transmission shaft rotates to drive the third gear to rotate; according to the invention, the worm sleeve and the worm wheel on the driving wheel are matched to play a role in reducing speed and increasing torque, so that the torque transmitted to the third gear through the rear wheel is large enough; the one-way ring arranged between the fifth rotating shaft and the sixth gear has the function of preventing the rack from moving reversely under the action of the first spring; thereby affecting the movement of the supporting rod; the rack is self-locked by the unidirectional ring. The second spring has the function that when the triangular block is triggered to lose the limit of the supporting rod, the second spring provides an upward pulling force for the supporting rod so that the supporting rod moves upwards. The T-shaped guide block and the T-shaped guide groove have the function of preventing the driving plate from interfering with the adjusting rod in the moving process.

Compared with the traditional base technology, the host base designed by the invention has a fixing effect on the host base through the friction between the friction plate and the ground; the host is prevented from being pushed by people to drive the host base to slide, so that various plugs on the host are disconnected with the host, files which are operated on the computer and are not stored are prevented from being lost, and inconvenience is brought to a user; meanwhile, when people need to move the main machine, the main machine base can control the movement of the friction plate through the rotation of the rear wheel so as to move the main machine to a specified position, and after the main machine base moves to the specified position, the friction plate can be contacted and rubbed with the ground again through controlling the adjusting rod, so that the main machine base is fixed; namely, the fixing function is realized for the host.

Drawings

Fig. 1 is an external view of an entire part.

Fig. 2 is a schematic view of the overall component distribution.

Fig. 3 is a schematic view of the rear wheel arrangement.

FIG. 4 is a schematic view of the support block configuration.

Fig. 5 is a schematic view of the trapezoidal channel distribution.

Fig. 6 is a schematic plan view of the internal structural distribution of the integral unit.

Fig. 7 is an installation schematic diagram of the internal structure of the integral component.

Fig. 8 is a schematic view of a trapezoidal guide block installation.

Fig. 9 is a schematic view of the internal structural distribution of the integral component.

Fig. 10 is a schematic view of the internal structural fit of the integral component.

Fig. 11 is a drive plate mounting schematic.

Fig. 12 is a schematic view of the adjustment lever installation.

Fig. 13 is a schematic view of T-shaped guide block installation.

Fig. 14 is a schematic view of a driving plate structure.

FIG. 15 is a schematic view of the friction plate installation.

Fig. 16 is a schematic view of the engagement of the rack with the sixth gear.

Fig. 17 is a rack mounting schematic.

Fig. 18 is a sixth gear mounting schematic.

Fig. 19 is a schematic view of a first square guide groove arrangement.

FIG. 20 is a fourth gear mounting schematic.

Fig. 21 is a second gear mounting schematic.

Fig. 22 is a schematic view of the engagement of the drive shaft and the third gear.

Number designation in the figures: 1. adjusting a rod; 2. a support block; 3. a rear wheel; 4. a front wheel; 5. a friction plate; 7. a first rotating shaft; 8. a trapezoidal guide groove; 9. a square hole; 10. a guide hole; 11. a shaft hole; 12. a placing groove; 13. a first spring; 14. a second spring; 15. a drive plate; 16. a drive shaft; 17. a second support; 18. a drive wheel; 19. a trapezoidal guide block; 20. a fixing plate; 23. a second rotating shaft; 24. a first gear; 25. a connecting plate; 26. a worm sleeve; 27. a rack; 28. a support bar; 29. a square sleeve; 30. a T-shaped guide groove; 31. driving the mounting plate; 32. triggering the triangular block; 33. a spring fixing disc; 34. a second gear; 35. a third gear; 36. a fourth gear; 37. a fifth gear; 38. a sixth gear; 40. a unidirectional ring; 41. a third rotating shaft; 42. a fourth rotating shaft; 43. a fifth rotating shaft; 44. a sixth rotating shaft; 45. a seventh rotating shaft; 46. a first square guide groove; 47. a second square guide groove; 48. a first guide block; 49. a third spring; 50. a fourth spring; 51. a second guide block; 52. an eighth rotating shaft; 61. t-shaped guide block.

Detailed Description

As shown in fig. 1 and 2, the device comprises an adjusting rod 1, a supporting block 2, a rear wheel 3, a front wheel 4, a friction plate 5, a first rotating shaft 7, a trapezoidal guide groove 8, a square hole 9, a guide hole 10, a shaft hole 11, a mounting groove 12, a first spring 13, a second spring 14, a driving plate 15, a transmission shaft 16, a second support 17, a driving wheel 18, a trapezoidal guide block 19, a fixing plate 20, a second rotating shaft 23, a first gear 24, a connecting plate 25, a worm sleeve 26, a rack 27, a supporting rod 28, a square sleeve 29, a T-shaped guide groove 30, a driving mounting plate 31, a trigger triangular block 32, a spring fixing plate 33, a second gear 34, a third gear 35, a fourth gear 36, a fifth gear 37, a sixth gear 38, a one-way ring 40, a third rotating shaft 41, a fourth rotating shaft 42, a fifth rotating shaft 43, a sixth rotating shaft 44, a seventh rotating shaft 45, a first square guide groove 46, a second square guide groove 47, a first guide block 48, A third spring 49, a fourth spring 50, a second guide block 51, an eighth rotating shaft 52 and a T-shaped guide block 61, wherein as shown in FIG. 4, the inner side of the support block 2 is provided with a cavity; two shaft holes 11 communicated with the inner side of the supporting block 2 are symmetrically formed on two side surfaces of one end of the supporting block 2; the lower side surface of the other end of the supporting block 2 is symmetrically provided with two square holes 9 communicated with the inner side of the supporting block 2; as shown in fig. 5, two trapezoidal guide grooves 8 are symmetrically formed on the upper end surface of the inner side of the supporting block 2 at the end provided with the square hole 9; the end surface of one end of the supporting block 2 provided with the square hole 9 is provided with a square guide hole 10 communicated with the inner side of the supporting block 2; the upper end of the supporting block 2 is provided with a placing groove 12; as shown in fig. 3, two first rotating shafts 7 are respectively and symmetrically installed at two sides of one end of the supporting block 2, which is provided with a square hole 9; the two front wheels 4 are respectively arranged on the two first rotating shafts 7; the eighth rotating shaft 52 is installed on the supporting block 2 through two shaft holes 11 on the supporting block 2; the two rear wheels 3 are symmetrically installed on the eighth rotating shaft 52 and located outside the supporting block 2.

As shown in fig. 9 and 11, the mounting structures of the two inner sides of the supporting block 2 at the end with the square hole 9 are completely the same and symmetrical to each other, and as shown in fig. 15, the upper side of the driving mounting plate 31 is provided with a trapezoidal guide block 19 for any one of the two inner sides of the supporting block 2 at the end with the square hole 9; as shown in fig. 8, the driving mounting plate 31 is mounted inside the supporting block 2 by the cooperation of the trapezoidal guide block 19 and one of the two trapezoidal guide grooves 8 opened on the supporting block 2 corresponding to the trapezoidal guide groove 8; as shown in fig. 6 and 11, a first spring 13 is mounted between the front end of the drive mounting plate 31 and the front end surface of the inner side of the support block 2; as shown in fig. 15, the trigger triangle block 32 is mounted on the lower side of the drive mounting plate 31; the upper end of the support rod 28 is provided with an inclined surface; the supporting rod 28 is arranged on the supporting block 2 through the matching of one square hole 9 on the corresponding side of the two square holes 9 formed on the supporting block 2, and the upper end and the lower end of the supporting rod 28 are respectively positioned on the inner side and the outer side of the supporting block 2; the inclined plane on the supporting rod 28 is matched with the inclined plane on the trigger triangular block 32; the spring fixing plate 33 is arranged on the supporting rod 28 and is positioned on the inner side of the supporting block 2; as shown in fig. 7, a second spring 14 is installed between the spring fixing plate 33 and the lower end surface of the inner side of the support block 2; the friction plate 5 is mounted on the lower end of the support bar 28.

As shown in fig. 11, the connecting plate 25 is mounted between two drive mounting plates 31; as shown in fig. 14, a T-shaped guide groove 30 is formed on the lower side of one end of the driving plate 15; a square sleeve 29 is arranged at one end of the driving plate 15 provided with a T-shaped guide groove 30; as shown in fig. 11, the driving plate 15 is mounted on one side of the connecting plate 25 by the fitting of the square sleeve 29 with the connecting plate 25; the rack 27 is arranged at the lower side of the other end of the driving plate 15; as shown in fig. 13, one end of the adjusting lever 1 is provided with a T-shaped guide block 61; as shown in fig. 12, the adjusting rod 1 is mounted on the supporting block 2 by the T-shaped guide block 61 matching with the T-shaped guide slot 30 on the driving plate 15, and the other end of the adjusting rod 1 passes through the guide hole 10 opened on the supporting block 2 and is located outside the supporting block 2; the adjusting rod 1 is in sliding fit with the guide hole 10; as shown in fig. 19, a first square guide groove 46 and a second square guide groove 47 are formed on one side surface of the fixing plate 20, and the first square guide groove 46 and the second square guide groove 47 are symmetrical to each other; as shown in fig. 7, the upper end of the fixing plate 20 is mounted on the upper end surface of the inside of the supporting block 2; as shown in fig. 18, the third rotating shaft 41 is mounted on the fixed plate 20; as shown in fig. 12, one end of the third gear 35 is a bevel end; the third gear 35 is mounted on the third rotating shaft 41; as shown in fig. 20, a first guide block 48 is mounted at one end of the seventh rotating shaft 45; as shown in fig. 17, the seventh rotating shaft 45 is mounted on the fixing plate 20 through the cooperation of the first guide block 48 and the second square guide slot 47 formed on the fixing plate 20, and a third spring 49 is mounted between the first guide block 48 and one end surface of the second square slot; the fourth gear 36 is mounted on the seventh rotating shaft 45; as shown in fig. 16, the fourth gear 36 is engaged with the third gear 35; as shown in fig. 18, the sixth rotating shaft 44 is mounted on the fixed plate 20; the fifth gear 37 is mounted on the sixth rotating shaft 44; the fifth gear 37 cooperates with the fourth gear 36; the fifth rotating shaft 43 is installed on the fixed plate 20; the sixth gear 38 is mounted on the fifth rotating shaft 43 through a one-way ring 40; the sixth gear 38 meshes with the fifth gear 37; the sixth gear 38 is engaged with the rack 27; as shown in fig. 21, a second guide block 51 is mounted at one end of the fourth rotating shaft 42; the fourth rotating shaft 42 is mounted on the fixed plate 20 through the cooperation of the second guide block 51 and the first square guide groove 46 opened on the fixed plate 20, and a fourth spring 50 is mounted between the second guide block 51 and one end surface of the first square groove; as shown in fig. 16, the second gear 34 is mounted on the fourth rotating shaft 42; the second gear 34 cooperates with a third gear 35; the second gear 34 is engaged with a sixth gear 38.

As shown in fig. 22, one end of the drive shaft 16 has a bevel gear; the transmission shaft 16 is arranged on the inner side of the supporting block 2 through a second support 17, and one end of the transmission shaft 16 with conical teeth is meshed with the conical teeth end of the third gear 35; a first gear 24 is mounted on the other end of the drive shaft 16; the second rotating shaft 23 is fixedly arranged on the rear end face of the supporting block 2; as shown in fig. 22, one end of the driving wheel 18 is a worm wheel, and the other end of the driving wheel 18 is a gear; the driving wheel 18 is arranged on the second rotating shaft 23; the drive wheel 18 is in engagement with the first gear wheel 24 via a gear end; as shown in fig. 10, the worm housing 26 is nested on the eighth rotating shaft 52, and the worm housing 26 meshes with the worm wheel end of the drive wheel 18.

In the initial state, the first spring 13 has a certain tension; the lowermost end of the friction plate 5 is flush with the lowermost side of the rear wheel 57; the lowermost end of the friction plate 5 is higher than the lowermost side of the front wheel 4.

The first spring 13 is an extension spring; the second spring 14 is an extension spring; the third spring 49 is a compression spring; the fourth spring 50 is a compression spring.

The friction plate 5 has friction rubber thereon.

The square sleeve is mounted on the connecting plate 25 by means of a linear bearing.

The adjusting rod 1 is installed in the guide hole 10 through a linear bearing.

In summary, the following steps:

the beneficial effects of the design of the invention are as follows: the main machine base has a fixing function through the friction between the friction plate 5 and the ground; the host is prevented from being pushed by people to drive the host base to slide, so that various plugs on the host are disconnected with the host, files which are operated on the computer and are not stored are prevented from being lost, and inconvenience is brought to a user; meanwhile, according to the main machine base designed by the invention, when people need to move the main machine, the movement of the friction plate 5 can be controlled through the rotation of the rear wheel 57, so that the main machine is moved to a specified position, and after the main machine is moved to the specified position, the friction plate 5 can be contacted and rubbed with the ground again through controlling the adjusting rod 1, so that the main machine base is fixed; namely, the fixing function is realized for the host.

When the third gear 35 rotates towards the side where the second gear 34 is installed, the third gear 35 will drive the second gear 34 to rotate; the second gear 34 rotates to drive the sixth gear 38 to rotate; in the process, the rotation of the third gear 35 can shift the fourth gear 36 through the teeth thereon, so that the fourth gear 36 receives a driving force along the direction of the second square guide slot 47, and under the driving force, the fourth gear 36 drives the first guide block 48 to move along the second square guide slot 47 through the seventh rotating shaft 45, so that the fourth gear 36 is disengaged from the third gear 35 and the fifth gear 37; in this state, the rotation of the third gear 35 does not interfere with the sixth gear 38 through the transmission of the fourth gear 36; when the third gear 35 rotates towards the side where the fourth gear 36 is installed, the third gear 35 will drive the fourth gear 36 to rotate; the fourth gear 36 rotates to drive the fifth gear 37 to rotate; the fifth gear 37 rotates to drive the sixth gear 38 to rotate; in the process, the rotation of the third gear 35 will shift the second gear 34 via the teeth thereon, so that the second gear 34 receives a driving force along the first square guide groove 46, and under the driving force, the second gear 34 will drive the second guide block 51 to move along the first square guide groove 46 via the fourth rotating shaft 42, so that the second gear 34 is disengaged from the third gear 35 and the sixth gear 38; in this state, the rotation of the third gear 35 does not interfere with the sixth gear 38 through the transmission of the second gear 34; no matter which one of the second gear 34 and the fourth gear 36 is driven by the third gear 35 to rotate, the rotation direction finally transmitted to the sixth gear 38 is the same rotation direction, and the rack 27 meshed with the rotation direction can be driven to move towards the side provided with the rear wheel 57; the third spring 49 and the fourth spring 50 function to restore the fourth gear 36 and the second gear in the present invention.

When the rear wheel 57 rotates towards the direction of installing the front wheel 4, the rear wheel 57 drives the eighth rotating shaft 52 to rotate; the eighth rotating shaft 52 rotates to rotate the worm gear 26 mounted thereon; the worm sleeve 26 rotates to drive the driving wheel 18 engaged with the worm sleeve to rotate; the driving wheel 18 rotates to drive the first gear 24 meshed with the driving wheel to rotate; the first gear 24 rotates to drive the transmission shaft 16 to rotate; the transmission shaft 16 rotates to drive the third gear 35 to rotate; the worm sleeve 26 and the worm wheel on the driving wheel 18 can play the roles of reducing speed and increasing torque so that the torque transmitted to the third gear 35 through the rear wheel 57 is large enough; the one-way ring 40 installed between the fifth rotating shaft 43 and the sixth gear 38 in the present invention functions to prevent the rack 27 from moving reversely by the first spring 13; thereby affecting movement of the support bar 28; the rack 27 is self-locked by the one-way ring 40. The second spring 14 of the present invention is used to provide an upward pulling force to the supporting bar 28 by the second spring 14 when the supporting bar 28 is not restrained by the trigger triangle 32, so that the supporting bar 28 moves upward. The T-shaped guide block 61 and the T-shaped guide groove 30 of the present invention function to prevent the driving plate 15 from interfering with the adjustment lever 1 during movement.

A specific embodiment; when the computer base designed by the invention is used, in an initial state, the friction plate 5 is in contact with the ground, and the lowest end of the friction plate 5 is flush with the lowest side of the rear wheel 57; first spring 13 is in tensile state, and because trapezoidal guide block is located corresponding trapezoidal guide slot one end, trapezoidal guide slot has limiting displacement to trapezoidal guide block at first spring end, can guarantee that the pulling force that first spring 13 set for can be greater than the host computer and transmit the pulling force to first spring 13 on triggering three hornblocks 32 through supporting shoe 2, has ensured like this that the gravity at initial state mainframe box will not trigger three hornblocks and to deviating from the extrusion of first spring direction, causes friction plate 5 to keep away from ground. In the above state, the supporting block 2 is in a horizontal state, and a certain friction force is provided between the friction plate 5 and the ground; the friction plate 5 is used for fixing the base of the main machine, so that the main machine is prevented from being pushed by people to slide under the action of the pushing force applied to the main machine by accident; various plugs on the host are disconnected from the host, so that files which are operated on the computer and are not stored are lost; when people need to move the main machine, firstly, the front end of the main machine base, namely one end provided with the front wheel 4, is lifted, and then the main machine base is dragged forwards and backwards to enable the rear wheel 57 of the main machine base to rotate; rotation of the rear wheel 57 of the main unit base causes the third gear 35 to rotate alternately in the forward and reverse directions; rotation of the third gear 35 causes the rack 27 to move towards the side on which the rear wheel 57 is mounted; the rack 27 moves to drive the driving plate 15 to move; the driving plate 15 moves to drive the connecting plate 25 to move; the connecting plate 25 moves to drive the two driving mounting plates 31 to move; the two driving mounting plates 31 move to drive the two corresponding trigger triangular blocks 32 to move; the two trigger triangular blocks 32 move to stretch the two corresponding first springs 13 to enable the first springs 13 to be stressed, meanwhile, the two trigger triangular blocks 32 move to enable the trigger triangular blocks 32 to lose the limiting effect on the corresponding support rods 28, and the support rods 28 move upwards under the effect of the corresponding second springs 14; during the movement, when the rack 27 is disengaged from the sixth gear 38, the support bar 28 stops moving upward; at the moment, the front end of the main machine base is put down, so that the front wheels 4 of the main machine base are in contact with the ground, the supporting block 2 is in an inclined state, and the main machine base is pulled forwards; the main body base moves forward under the co-rotation of the front wheel 4 and the rear wheel 57, and the rotation of the rear wheel 57 does not affect the movement of the supporting rod 28 because the rack 27 and the sixth gear 38 are in a disengaged state; the rack 27 and the sixth gear 38 are in a junction state of engagement and disengagement, and the rack 27 cannot move reversely under the action of the sixth gear 38; after the host moves to a specified position, stopping pulling the host base, and then shifting the adjusting rod 1, so that the adjusting rod 1 drives the driving plate 15 to move transversely; the driving plate 15 moves to drive the rack 27 to move; when the rack 27 is moved to be completely disengaged from the sixth gear 38, the driving mounting plate 31 is moved toward the side where the first spring 13 is mounted by the first spring 13; the driving mounting plate 31 moves to drive the trigger triangular block 32 to move; the trigger triangle 32 moves to press the support bar 28 to move the support bar 28 downwards; during the moving process, when the lowest end of the support rod 28 is flush with the lowest side of the front wheel 4, the support rod 28 moves downwards to enable the support block 2 to swing towards the horizontal state; when the first spring 13 is restored to the initial state, the supporting block 2 is in a horizontal state; the friction plate 5 is in contact with the ground, and the lowest end of the friction plate 5 is flush with the lowest side of the rear wheel 57; the friction plate 5 is used for fixing the base of the main machine.

Claims (5)

1. The utility model provides a computer main frame base based on friction braking which characterized in that: the device comprises an adjusting rod, a supporting block, a rear wheel, a front wheel, a friction plate, a first rotating shaft, a trapezoidal guide groove, a square hole, a guide hole, a shaft hole, a mounting groove, a first spring, a second spring, a driving plate, a transmission shaft, a second support, a driving wheel, a trapezoidal guide block, a fixing plate, a second rotating shaft, a first gear, a connecting plate, a worm sleeve, a rack, a supporting rod, a square sleeve, a T-shaped guide groove, a driving mounting plate, a trigger triangular block, a spring fixing plate, a second gear, a third gear, a fourth gear, a fifth gear, a sixth gear, a one-way ring, a third rotating shaft, a fourth rotating shaft, a fifth rotating shaft, a sixth rotating shaft, a seventh rotating shaft, a first square guide groove, a second square guide groove, a first guide block, a third spring, a fourth spring, a second guide block, an eighth rotating shaft and a T-shaped guide block, wherein the inner side; two shaft holes communicated with the inner side of the supporting block are symmetrically formed on two side surfaces of one end of the supporting block; the lower side surface of the other end of the supporting block is symmetrically provided with two square holes communicated with the inner side of the supporting block; two trapezoidal guide grooves are symmetrically formed in the upper end face of the inner side of one end, provided with the square hole, of the supporting block; the end surface of one end of the supporting block, which is provided with the square hole, is provided with a square guide hole communicated with the inner side of the supporting block; the upper end of the supporting block is provided with a placing groove; the two first rotating shafts are respectively and symmetrically arranged on two sides of one end of the supporting block, which is provided with the square hole; the two front wheels are respectively arranged on the two first rotating shafts; the eighth rotating shaft is arranged on the supporting block through two shaft holes on the supporting block; the two rear wheels are symmetrically arranged on the eighth rotating shaft and are positioned on the outer side of the supporting block;

the mounting structures on the two sides of the inner side of the end, provided with the square hole, of the supporting block are completely the same and are mutually symmetrical, and a trapezoidal guide block is mounted on the upper side of the driving mounting plate on any one of the two sides of the inner side of the end, provided with the square hole, of the supporting block; the driving mounting plate is arranged on the inner side of the supporting block through the matching of the trapezoidal guide block and one of the two trapezoidal guide grooves formed in the supporting block, which corresponds to the trapezoidal guide groove on one side of the supporting block, and the trapezoidal guide block is positioned at one end of the corresponding trapezoidal guide groove; a first spring is arranged between the front end of the driving mounting plate and the front end surface of the inner side of the supporting block; the trigger triangular block is arranged on the lower side of the driving mounting plate; the upper end of the supporting rod is provided with an inclined plane; the supporting rod is arranged on the supporting block through the matching of one square hole on the corresponding side of the supporting block and two square holes formed on the supporting block, and the upper end and the lower end of the supporting rod are respectively positioned on the inner side and the outer side of the supporting block; the inclined plane on the supporting rod is matched with the inclined plane on the trigger triangular block; the spring fixing disc is arranged on the supporting rod and is positioned on the inner side of the supporting block; a second spring is arranged between the spring fixing disc and the lower end surface of the inner side of the supporting block; the friction plate is arranged at the lower end of the support rod;

the connecting plate is arranged between the two driving mounting plates; the lower side surface of one end of the driving plate is provided with a T-shaped guide groove; one end of the driving plate, which is provided with a T-shaped guide groove, is provided with a square sleeve; the driving plate is arranged on one side of the connecting plate through the matching of the square sleeve and the connecting plate; the rack is arranged on the lower side of the other end of the driving plate; one end of the adjusting rod is provided with a T-shaped guide block; the adjusting rod is arranged on the supporting block through the matching of the T-shaped guide block and the T-shaped guide groove on the driving plate, and the other end of the adjusting rod penetrates through a guide hole formed in the supporting block and is positioned outside the supporting block; the adjusting rod is in sliding fit with the guide hole; a first square guide groove and a second square guide groove are formed in one side face of the fixing plate and are symmetrical to each other; the upper end of the fixing plate is arranged on the upper end surface of the inner side of the supporting block; the third rotating shaft is arranged on the fixed plate; one end of the third gear is a bevel gear end; the third gear is arranged on the third rotating shaft; one end of the seventh rotating shaft is provided with a first guide block; the seventh rotating shaft is arranged on the fixed plate through the matching of the first guide block and a second square guide groove formed in the fixed plate, and a third spring is arranged between the first guide block and one end face of the second square groove; the fourth gear is arranged on the seventh rotating shaft; the fourth gear is matched with the third gear; the sixth rotating shaft is arranged on the fixed plate; the fifth gear is arranged on the sixth rotating shaft; the fifth gear is matched with the fourth gear; the fifth rotating shaft is arranged on the fixed plate; the sixth gear is arranged on the fifth rotating shaft through a one-way ring; the sixth gear is meshed with the fifth gear; the sixth gear is meshed with the rack; one end of the fourth rotating shaft is provided with a second guide block; the fourth rotating shaft is arranged on the fixed plate through the matching of the second guide block and a first square guide groove formed in the fixed plate, and a fourth spring is arranged between the second guide block and one end face of the first square groove; the second gear is arranged on the fourth rotating shaft; the second gear is matched with the third gear; the second gear is matched with the sixth gear;

one end of the transmission shaft is provided with bevel teeth; the transmission shaft is arranged on the inner side of the supporting block through a second support, and one end of the transmission shaft with the bevel gear is meshed with the bevel gear end of the third gear; the first gear is arranged at the other end of the transmission shaft; the second rotating shaft is fixedly arranged on the rear end face of the supporting block; one end of the driving wheel is a worm wheel, and the other end of the driving wheel is a gear; the driving wheel is arranged on the second rotating shaft; the driving wheel is meshed with the first gear through the gear end; the worm sleeve is nested on the eighth rotating shaft and is meshed with the worm wheel end on the driving wheel;

in an initial state, the first spring has certain tension; the lowest end of the friction plate is flush with the lowest side of the rear wheel; the lowest end of the friction plate is higher than the lowest side of the front wheel.

2. The computer host base of claim 1, wherein: the first spring is an extension spring; the second spring is an extension spring; the third spring is a compression spring; the fourth spring is a compression spring.

3. The computer host base of claim 1, wherein: the friction plate is provided with friction rubber.

4. The computer host base of claim 1, wherein: the square sleeve is arranged on the connecting plate through a linear bearing.

5. The computer host base of claim 1, wherein: the adjusting rod is arranged in the guide hole through a linear bearing.

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