CN116117475B - Cloud server rack component is pressed and is riveted mobile conveying device - Google Patents

Abstract

The invention relates to the technical field of conveying devices, and discloses a cloud server cabinet component press riveting mobile conveying device which comprises a fixed main shaft and a support base, wherein the support base is used for fixedly connecting two ends of the fixed main shaft, a rotary supporting plate is uniformly and movably sleeved on the fixed main shaft, and sliding limiting grooves are symmetrically formed in the rotary supporting plate. Through the setting of rotatory backup pad for through segmenting transmission process, and the cooperation rotation, the component that stacks through main adsorption equipment and vice adsorption equipment below is drawn by oneself, and is rotatory afterwards, carries the top with the accurate transport of component to rotatory backup pad, and keeps good gesture to carry fast to the riveting center, can utilize this conveyor to carry out quick transport to the multiple component that the rack needs riveting, firstly reduce device area, on the other hand, effectively fix the component, avoid it to take place the aversion in the removal in-process, clamping when being convenient for follow-up riveting.

Description

Cloud server rack component is pressed and is riveted mobile conveying device

Technical Field

The invention relates to the technical field of conveying devices, in particular to a cloud server cabinet component press riveting mobile conveying device.

Background

The cloud server is a simple, efficient, safe and reliable computing service with elastically stretchable processing capacity, the management mode is simpler and more efficient than that of a physical server, the hardware of the cloud server needs to be stored by using a cabinet in the process of building a cloud server data center, meanwhile, the cloud server is generally arranged indoors and needs a good heat dissipation function, and a good sealing effect is not needed, so that a cabinet body of the cabinet loading the cloud server hardware can be quickly and effectively assembled by riveting during assembly, and a member of the cabinet needs to be conveyed to a riveting center by using a conveying device for assembling during riveting, but the conveying device for conveying the member of the cabinet at present has some defects in the use process, such as the following:

the device that uses at present utilizes the conveyer belt to transport the component of rack generally to at the midway equipment arm of conveyer belt's transmission, carry out the transfer to the rack component, carry the component of stacking to the conveyer belt through the arm on, then by conveyer belt transmission to riveting center, on the one hand need set up the arm and carry out the transmission to the component, increase equipment area, on the other hand, the component is transmitted on the conveyer belt, and the transmission of transmission on the conveyer belt lacks effectual spacing, leads to the aversion in the transmission in-process easily, when leading to the component to the riveting center, need carry out the location again and press from both sides and get, waste time.

Disclosure of Invention

The invention provides a cloud server cabinet component press riveting mobile conveying device, which has the advantages of high efficiency in conveying cabinet components and effective clamping of components with different structures, and solves the problems in the background technology.

The invention provides the following technical scheme: the utility model provides a cloud server rack component is pressed and is riveted mobile conveying device, includes fixed spindle and support base, support base carries out fixed support to fixed spindle's both ends, evenly movable sleeve has the rotatory backup pad on the fixed spindle, slip spacing groove has been seted up to the inside symmetry of rotatory backup pad, drive belt has been cup jointed in the outside activity of just being located slip spacing groove in the rotatory backup pad, the inside movable mounting of slip spacing groove has the slide plate, the side and the side swing joint of drive belt of slide plate, fixedly connected with connecting plate on the slide plate, symmetry fixed mounting has the telescopic link on the connecting plate, the extension end fixedly connected with backup pad of telescopic link, the center fixed mounting of backup pad has main adsorption equipment, the upper surface side of backup pad evenly fixed mounting has vice adsorption equipment, the inside of fixed spindle just is located the inside evenly fixed sleeve of rotatory backup pad has electromagnetic coil, the inside symmetry fixed mounting of rotatory backup pad has the magnet ring, magnet ring and electromagnetic coil activity cup joint, the inside of rotatory backup pad has biax servo motor with central point symmetry fixed mounting, biax servo motor movable connection's the inboard movable connection's of biax belt pulley movable pulley has the inside movable connection with the side of slip spacing groove respectively.

Preferably, the total length of the telescopic rod after extension is greater than the horizontal distance from the center of the fixed main shaft to the outer side edge of the rotary supporting plate, the diameter of the supporting plate is smaller than the length of the rotary supporting plate, and the sliding plate is uniformly and movably provided with balls.

Preferably, the piston tube hole has evenly been seted up to the inside of main adsorption equipment, the annular connecting hole has been seted up to the inside of main adsorption equipment and be located the below of piston tube hole, the spacing hole has been seted up to the top that just is located the piston tube hole on the main adsorption equipment, the piston has been cup jointed in the inside activity of piston tube hole, the upper surface fixed mounting of piston has the pushing block, the upper surface that pushes against the pushing block has spacing stick through axisymmetric swing joint, two symmetry installations all seted up the hole between the spacing stick, movable mounting has the spring in the hole, the both ends of spring respectively with two spacing stick fixed connection of symmetric distribution, two symmetry installations spacing stick cup joints with spacing hole activity, the lower surface fixed mounting of backup pad has the vacuum pump, the suction hole has been seted up at the center of main adsorption equipment, hole and annular connecting hole pass through pipe and vacuum pump intercommunication.

Preferably, the magnet blocks are fixedly installed at the two ends of the magnet ring on the rotary support plate, the two magnet blocks are arranged in a group, the magnet blocks are arranged in a central symmetry mode, the iron blocks are fixedly installed at the inner part of the fixed main shaft and the two ends of the electromagnetic coil, the iron blocks are horizontally arranged, and the magnet blocks attract the iron blocks.

Preferably, the sliding plate, the connecting plate, the telescopic rod, the supporting plate, the main adsorption device and the auxiliary adsorption device are combined into two groups of adsorption devices, and the adsorption devices are respectively positioned above and below the rotary supporting plate.

The invention has the following beneficial effects:

1. through the setting of rotatory backup pad for through segmenting transmission process, and the cooperation rotation, the component that stacks through main adsorption equipment and vice adsorption equipment below is inhaled by oneself, and is rotatory afterwards, is accurate to transport the top of rotatory backup pad with the component, and keep good gesture to carry fast to the riveting center, can utilize this conveyor to carry out quick transport to the multiple component that the rack needs riveting, firstly reduce device area, on the other hand, effectively fix the component, avoid it to take place the aversion in the removal in-process, clamping when being convenient for follow-up riveting improves riveting rate.

2. Through the setting of spacing stick for when transporting to the rack component of different structures, play different roles, firstly, when the surface of component is smooth and relatively complete, can form relative sealed space with main adsorption equipment, produce the adsorption affinity, make main adsorption equipment can hold the component, then utilize the belt pulley to aerify in the annular connecting hole this moment, make the piston ejecting spacing hole of spacing stick, strike the component, make the component produce certain vibration, make another component and it drop below the component, avoid two the same components to adsorb together, result in the component to be transported repeatedly, secondly, offer the mesh on the component, stretch out completely through spacing stick, and after passing the mesh, open the component at the effect of spring, ensure to pull up the component, treat rotatory backup pad rotatory back, make the component be located main adsorption equipment's top, ensure that the component can not drop behind, accomplish and carry.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic side view in half cross section of the structure of the present invention;

FIG. 3 is a schematic side view in partial cross-section of the structure of the present invention;

FIG. 4 is a schematic view of the installation of the rotary support plate and the suction device of the present invention;

FIG. 5 is an enlarged schematic view of the structure of the present invention at A in FIG. 2;

fig. 6 is a schematic view of the installation of the iron block and the magnet block of the structure of the present invention.

In the figure: 1. fixing the main shaft; 2. rotating the support plate; 3. a sliding limit groove; 4. a drive belt; 5. a slide plate; 6. a connecting plate; 7. a telescopic rod; 8. a support plate; 9. a main adsorption device; 10. a secondary adsorption device; 11. an electromagnetic coil; 12. a magnet ring; 13. a biaxial servo motor; 14. a belt pulley; 15. a vacuum pump; 16. a ball; 17. a piston tube hole; 18. an annular connecting hole; 19. a limiting hole; 20. a piston; 21. the pushing block; 22. a limit rod; 23. a spring; 24. iron blocks; 25. a magnet block.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1

Referring to fig. 1-3, a movable conveying device for riveting a cloud server cabinet member comprises a fixed main shaft 1 and a supporting base, wherein the supporting base fixedly supports two ends of the fixed main shaft 1, a rotary supporting plate 2 is uniformly and movably sleeved on the fixed main shaft 1, sliding limiting grooves 3 are symmetrically formed in the rotary supporting plate 2, a driving belt 4 is movably sleeved on the outer side of the sliding limiting grooves 3, a sliding plate 5 is movably arranged in the sliding limiting grooves 3, the side edge of the sliding plate 5 is movably connected with the side edge of the driving belt 4, a connecting plate 6 is fixedly connected on the sliding plate 5, a telescopic rod 7 is symmetrically and fixedly arranged on the connecting plate 6, a supporting plate 8 is fixedly connected with the extending end of the telescopic rod 7, a main adsorption device 9 is fixedly arranged in the center of the supporting plate 8, an auxiliary adsorption device 10 is uniformly and fixedly arranged on the side edge of the upper surface of the supporting plate 8, the inside of the fixed main shaft 1 is uniformly and fixedly sleeved with an electromagnetic coil 11, the inside of the rotary supporting plate 2 is symmetrically and fixedly provided with a magnet ring 12, the magnet ring 12 is movably sleeved with the electromagnetic coil 11, the inside of the rotary supporting plate 2 is symmetrically and fixedly provided with a double-shaft servo motor 13 at the center point, two ends of a movable shaft of the double-shaft servo motor 13 are respectively and fixedly connected with a belt pulley 14, the outer side of the belt pulley 14 is movably sleeved with the inner side of a sliding limiting groove 3, the rotation direction of the double-shaft servo motor 13 is controlled to control the transmission direction of the belt pulley 14 so as to drive a sliding plate 5 to slide in the sliding limiting groove 3, in the process, a cabinet component can be sequentially arranged below the rotary supporting plate 2, then a telescopic rod 7 stretches out to press a main adsorption device 9 and an auxiliary adsorption device 10 onto a cabinet component, the cabinet body is adsorbed, then the cabinet body is driven to enable the components to be transmitted to the position required by the fixed main shaft 1, then the electromagnetic coil 11 in the rotary supporting plate 2 is electrified, at the moment, the magnetic force between the electromagnetic coil 11 and the magnet ring 12 generates a mutual exclusion effect, the rotary supporting plate 2 is driven to rotate 180 degrees, the cabinet body components are transported to the upper part of the rotary supporting plate 2, the rotation process can be completed on any rotary supporting plate 2, the transmission process is segmented and matched with autorotation, the lower components are automatically absorbed through the main absorption device 9 and the auxiliary absorption device 10 and are rapidly transmitted to a riveting center, the conveying device can be utilized to rapidly convey various components needed to be riveted on the cabinet, firstly, the occupied area of the device is reduced, on the other hand, the components are effectively fixed, the components are prevented from shifting in the moving process, clamping during subsequent riveting is facilitated, and the riveting rate is improved; the total length of the telescopic rod 7 after extension is larger than the horizontal distance from the center of the fixed main shaft 1 to the outer side of the rotary support plate 2, the diameter of the support plate 8 is smaller than the length of the rotary support plate 2, the telescopic rod 7 is used for pushing the support plate 8, so that the main adsorption device 9 and the auxiliary adsorption device 10 can be in contact with the upper surface of a cabinet member and adsorb the same, and then in the rotating process of the rotary support plate 2, the situation that the cabinet member collides with the rotary support plate 2 which does not rotate and cannot rotate the member to the upper side of the rotary support plate 2 due to the overlarge length of the cabinet member is avoided, the balls 16 are uniformly and movably arranged in the sliding plate 5, the friction force between the sliding plate 5 and the rotary support plate 2 is reduced, and the driving belt 4 is ensured to drive the sliding plate 5 to move rapidly;

example two

Referring to fig. 4-6, a piston tube hole 17 is uniformly formed in the main adsorption device 9, an annular connecting hole 18 is formed in the main adsorption device 9 and below the piston tube hole 17, a limit hole 19 is formed in the main adsorption device 9 and above the piston tube hole 17, a piston 20 is movably sleeved in the piston tube hole 17, a push block 21 is fixedly mounted on the upper surface of the piston 20, a limit rod 22 is movably connected to the upper surface of the push block 21 through axial symmetry, holes are formed between the two limit rods 22 which are symmetrically mounted, springs 23 are movably mounted in the holes, two ends of each spring 23 are fixedly connected with the two limit rods 22 which are symmetrically distributed, the two limit rods 22 which are symmetrically mounted are movably sleeved with the limit hole 19, a vacuum pump 15 is fixedly mounted on the lower surface of the support plate 8, an air suction hole is formed in the center of the main adsorption device 9, the suction hole and the annular connecting hole 18 are communicated with the vacuum pump 15 through the guide pipe, when the main adsorption device 9 adsorbs the components stacked below, if the surfaces of the components are smooth and relatively complete at this time, a relatively sealed space can be formed between the main adsorption device 9 and the components, adsorption force is generated, so that the main adsorption device 9 can adsorb the components, then the belt pulley 14 is utilized to inflate the annular connecting hole 18 at this time, the piston 20 ejects the limiting rod 22 out of the limiting hole 19 to collide the components, so that certain vibration is generated on the components, the other component below the components is separated from the components, the components are prevented from being adsorbed together, the components are prevented from being transported repeatedly, if the components are provided with meshes, the main adsorption device 9 can not effectively adsorb the components, and further, the auxiliary adsorption device 10 is utilized to adsorb the components (in the process, at least one auxiliary adsorption device 10 can generate adsorption force on the component), the component is sucked up and lifted up at one corner, then the limiting rod 22 is aligned with the mesh of the component, the piston 20 pushes the limiting rod 22 out of the limiting hole 19 completely, so that the limiting rod 22 is inserted into the mesh of the component, then under the supporting pressure of the spring 23, the two limiting rods 22 are unfolded relatively, the component is clamped relatively through the mesh, the component can be pulled up, after the rotary supporting plate 2 rotates, the component is positioned above the main adsorption device 9, and the component is conveyed after the component is prevented from falling off; the magnet blocks 25 are fixedly arranged on the rotary support plate 2 and positioned at two ends of the magnet ring 12, the two magnet blocks 25 are in a group, the magnet blocks 24 are symmetrically arranged by taking the iron blocks 24 as the center, the iron blocks 24 are fixedly arranged at two ends of the electromagnetic coil 11 and positioned in the main shaft 1, the iron blocks 24 are horizontally arranged, the magnet blocks 25 attract the iron blocks 24, when the electromagnetic coil 11 and the magnet ring 12 drive the rotary support plate 2 to rotate, the rotary support plate 2 can not be ensured to rotate 180 degrees, so when the rotary support plate 2 rotates, the magnet blocks 25 only need to rotate to a general angle and then cut off power to the electromagnetic coil 11, and the magnet blocks 25 pull the iron blocks 24 to ensure that the rotary support plate 2 keeps horizontal, so that the sliding plate 5 can be driven in different rotary support plates 2 to transmit components; the sliding plate 5, the connecting plate 6, the telescopic rod 7, the supporting plate 8, the main adsorption device 9 and the auxiliary adsorption device 10 are combined into two groups of adsorption devices, the adsorption devices are respectively located above and below the rotary supporting plate 2, and the rotary supporting plate 2 is arranged in a segmented mode, so that when components are transported, the sliding plate 5 can move the sliding limiting groove 3 located above and also can move the sliding limiting groove 3 located below, when the moving directions of the two adsorption devices are identical, the two adsorption devices can be located on the same rotary supporting plate 2, when the moving directions of the two adsorption devices are different, the two adsorption devices cannot be located on the rotary supporting plate 2 at the same time, different allocation is carried out through the two adsorption devices, and the two adsorption devices are used for transporting the components in a staggered mode, so that the conveying efficiency is improved.

The working principle is that cabinet components to be riveted are orderly placed under the rotary support plate 2, then the transmission direction of the belt pulley 14 is controlled by controlling the rotation direction of the double-shaft servo motor 13, the sliding plate 5 is driven to slide in the sliding limiting groove 3, in the process, the cabinet components can be placed under the rotary support plate 2 in sequence, the telescopic rod 7 stretches out, the main adsorption device 9 and the auxiliary adsorption device 10 are pressed onto the cabinet components, the vacuum pump 15 is utilized to suck air, the main adsorption device 9 adsorbs the components, then the main adsorption device 9 moves on the rotary support plate 2, the components are transmitted to the riveting center, then the electromagnetic coil 11 inside the rotary support plate 2 is electrified, at the moment, the magnetic force between the electromagnetic coil 11 and the magnet ring 12 generates a mutual exclusion effect, the rotary support plate 2 is driven to rotate 180 degrees, the cabinet components are transported to the upper part of the rotary support plate 2 for riveting procedures, and in the process, the components with different structures are adsorbed in different modes, as follows:

firstly, if the surface of the component is smooth and relatively complete at this time, a relatively sealed space can be formed with the main adsorption device 9, and adsorption force is generated, so that the main adsorption device 9 can absorb the component, then the belt pulley 14 is utilized to inflate the annular connecting hole 18 at this time, so that the piston 20 ejects the limiting rod 22 out of the limiting hole 19 to impact the component, and the components are prevented from being adsorbed together and taken away; secondly, if the member is provided with meshes, the main adsorption device 9 cannot effectively adsorb the member, and further, in the process of adsorbing the member by using the auxiliary adsorption devices 10, at least one auxiliary adsorption device 10 can generate adsorption force on the member to suck the member, lift one corner of the member, then align the limiting rod 22 with the meshes of the member, the piston 20 completely pushes the limiting rod 22 out of the limiting hole 19, so that the limiting rod 22 is inserted into the meshes of the member, then, under the abutting pressure of the spring 23, the two limiting rods 22 are relatively unfolded, the member is relatively clamped through the meshes, the member can be pulled up, and after the rotary support plate 2 rotates, the member is positioned above the main adsorption device 9, so that the member is ensured not to drop, and conveying is completed.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (4)

1. The utility model provides a cloud server rack component is pressed and is riveted mobile conveying device, includes fixed main shaft (1) and support base, support base carries out fixed stay to the both ends of fixed main shaft (1), its characterized in that: the utility model discloses a rotary support plate (2) has been cup jointed to even activity on fixed spindle (1), slip spacing groove (3) has been seted up to the inside symmetry of rotary support plate (2), transmission belt (4) has been cup jointed in the outside activity that just is located slip spacing groove (3) on rotary support plate (2), the inside movable mounting of slip spacing groove (3) has slide plate (5), the side of slide plate (5) and the side swing joint of transmission belt (4), fixedly connected with connecting plate (6) on slide plate (5), symmetrical fixed mounting has telescopic link (7) on connecting plate (6), the extension end fixedly connected with backup pad (8) of telescopic link (7), the center fixed mounting of backup pad (8) has main adsorption equipment (9), the even fixed mounting of upper surface side of backup pad (8) has vice adsorption equipment (10), the inside of fixed spindle (1) and the inside that is located rotary support plate (2) evenly have solenoid (11), the inside symmetrical fixed mounting of rotary support plate (2) has magnet ring (12), magnet ring (12) have magnet (13) with the fixed point of rotation of movable center (13), two ends of a movable shaft of the double-shaft servo motor (13) are fixedly connected with belt pulleys (14) respectively, and the outer sides of the belt pulleys (14) are movably sleeved with the inner sides of the sliding limiting grooves (3);

magnet blocks (25) are fixedly installed at the two ends of the magnet ring (12) on the rotary support plate (2), the two magnet blocks (25) are arranged in a group, the two magnet blocks (24) are arranged symmetrically at the center, the iron blocks (24) are fixedly installed at the inner part of the fixed main shaft (1) and the two ends of the electromagnetic coil (11), the iron blocks (24) are horizontally arranged, and the magnet blocks (25) attract the iron blocks (24).

2. The cloud server cabinet component press riveting mobile conveying device according to claim 1, wherein: the total length after the extension of telescopic link (7) is greater than the horizontal distance of the center of fixed main shaft (1) to the outside limit of rotatory backup pad (2), the diameter of backup pad (8) is less than the length of rotatory backup pad (2), the inside even movable mounting of coaster (5) has ball (16).

3. The cloud server cabinet component press riveting mobile conveying device according to claim 1, wherein: the inside of main adsorption equipment (9) has evenly offered piston tube hole (17), annular connecting hole (18) have been seted up to the inside of main adsorption equipment (9) and be located the below of piston tube hole (17), spacing hole (19) have been seted up to the top of just being located piston tube hole (17) on main adsorption equipment (9), piston (20) have been cup jointed in the inside activity of piston tube hole (17), the upper surface fixed mounting of piston (20) has support push block (21), the upper surface of support push block (21) has spacing stick (22) through axisymmetric swing joint, two symmetrical installations all seted up the hole between spacing stick (22), movable mounting has spring (23) in the hole, the both ends of spring (23) respectively with two spacing sticks (22) fixed connection of symmetric distribution, two symmetrical installations spacing stick (22) and spacing hole (19) activity cup joint, the lower surface fixed mounting of backup pad (8) has vacuum pump (15), the center of main adsorption equipment (9) is equipped with suction hole and annular connecting pipe (18) and vacuum pump (15).

4. The cloud server cabinet component press riveting mobile conveying device according to claim 1, wherein: the sliding plate (5), the connecting plate (6), the telescopic rod (7), the supporting plate (8), the main adsorption device (9) and the auxiliary adsorption device (10) are combined into an adsorption device, and the adsorption device is divided into two groups and is respectively positioned above and below the rotary supporting plate (2).