CN220522757U - Waste heat recovery device of air compressor - Google Patents

Abstract

The utility model discloses an air compressor waste heat recovery device, and relates to the technical field of air compressors. The waste heat recovery device comprises a waste heat recovery device body, wherein a cabinet door is arranged on the front side of the waste heat recovery device body, a connecting pipe is arranged on the back side of the waste heat recovery device body, a driving assembly is arranged at the bottom of the waste heat recovery device body, a linkage assembly is connected to the driving assembly, a buffer mechanism is connected to the linkage assembly, and a moving assembly is connected to the bottom of the buffer mechanism.

Description

Waste heat recovery device of air compressor

Technical Field

The utility model belongs to the technical field of air compressors, and particularly relates to an air compressor waste heat recovery device.

Background

An air compressor is a device for compressing a gas. The air compressor is similar in construction to the water pump. Most air compressors are reciprocating piston, rotary vane or rotary screw. The air compressor can generate a large amount of heat in the use process, usually air cooling or oil cooling is used, so as to meet the social background of energy conservation and environmental protection, and the prior air compressor is usually provided with a waste heat recovery device for recycling the heat generated by the air compressor.

In order to ensure that the traditional waste heat recovery device is placed stably, the traditional waste heat recovery device is placed on the ground through a base, and the placement mode is inconvenient to move the waste heat recovery device, so that manual labor is required to carry out moving when the waste heat recovery device is required to be subjected to position adjustment or maintenance, and the labor intensity of maintenance workers is greatly improved.

Disclosure of Invention

The utility model provides an air compressor waste heat recovery device aiming at the problems in the related art, so as to overcome the technical problems in the prior art.

In order to solve the technical problems, the utility model is realized by the following technical scheme:

the utility model relates to an air compressor waste heat recovery device, which comprises a waste heat recovery device body, wherein a cabinet door is arranged on the front surface of the waste heat recovery device body, supporting feet are arranged at the bottom of the waste heat recovery device body, and the supporting feet can be contained in the waste heat recovery device body; the waste heat recovery device comprises a waste heat recovery device body, and is characterized in that a connecting pipe is arranged on the back surface of the waste heat recovery device body, a rotary handle is arranged on the front surface of the waste heat recovery device body, a driving assembly is arranged at the bottom of the waste heat recovery device body, a linkage assembly is connected to the driving assembly, a buffer mechanism is connected to the linkage assembly, and a moving assembly is connected to the bottom of the buffer mechanism; a reverse moving mechanism is arranged between the moving assembly and the supporting leg; when the driving component drives the moving component to move, the supporting legs are driven to move in opposite directions through the reverse moving mechanism.

Further, the waste heat recovery device body comprises a display screen, an operation table, supporting feet, a placement groove and a toothed plate, wherein the display screen is arranged on the front surface of the waste heat recovery device body, the operation table is arranged beside the display screen, the supporting feet are arranged on the bottom surface of the waste heat recovery device body, the toothed plate is arranged on the supporting feet, and the placement groove is formed in the inner walls of the two sides of the bottom of the waste heat recovery device body.

Further, the rotary handle comprises a rotating handle and a rotary table, the rotating handle is connected to the rotary table, one end of the rotary table is connected with the driving assembly, the rotary table is arranged on the front surface of the device body, and the rotary table is installed below the cabinet door.

Further, the driving assembly comprises a sliding screw, a driving wheel, a driven wheel, a transmission belt and a starting shaft, the bottom of the waste heat recovery device body is provided with the driving assembly, two ends of the sliding screw are connected to two sides in a placement groove in the waste heat recovery device body, the driven wheel is installed at a position, close to the two ends, of the sliding screw, the driven wheel is installed in the placement groove, the transmission belt is connected to the driven wheel, the other end of the transmission belt is connected to the driving wheel, the driving wheel is placed at the middle position of the placement groove, the starting shaft is connected to the middle position of the placement groove at the two ends of the waste heat recovery device body, the part of the starting shaft in the placement groove is connected with the driving wheel, and one end of the starting shaft is connected with a rotary handle.

Further, the linkage assembly comprises a screw nut, a concave block and a rotating hole, wherein the concave block is fixedly connected to the bottom of the screw nut, the rotating hole is formed in the concave block, and the screw nut is connected to the sliding screw.

Further, buffer gear includes connecting rod, group's fishplate bar, connecting plate, buffering axle, support, spring, tooth's socket, gear and gear shaft, group's fishplate bar is connected to the one end of connecting rod in the buffer gear, the one end of connecting rod is connected with the rotation hole on the linkage subassembly, the other end of connecting rod is connected on group's fishplate bar, group's fishplate bar fixed mounting is on the connecting plate, swing joint has the buffering axle on the connecting plate, the bottom fixed mounting of buffering axle has the support, install the spring on the junction surface of support and buffering axle, the other end fixed mounting of spring is in the bottom surface of connecting plate, and uses the buffering axle as the center.

Further, the reverse moving mechanism comprises tooth grooves and gears, one side of the connecting plate is provided with the tooth grooves, the gears are engaged with the tooth grooves in a matching mode, the other side of the gears is engaged with the toothed plate, the middle of the gears is connected with a gear shaft, and two ends of the gear shaft are connected with the gears.

Further, the moving assembly comprises an axle and a roller, the axle is connected with the center of the roller, and two ends of the axle are movably connected with the bracket.

Further, the drive assembly comprises a plurality of sliding screw rods, the sliding screw rods are connected with linkage assemblies, the linkage assemblies comprise screw rod nuts, the sliding screw rods are connected with screw rod nuts, the linkage assemblies are connected with buffer mechanisms, the linkage assemblies comprise concave blocks, the bottoms of the concave blocks are connected with the buffer mechanisms, the buffer mechanisms comprise connecting rods, the connecting rods are connected with the concave blocks, the bottoms of the buffer mechanisms are connected with moving assemblies, the moving assemblies comprise wheel shafts, and the wheel shafts are connected with a support.

The utility model has the following beneficial effects:

the movable assembly capable of being retracted is convenient to move the waste heat recovery device, so that the working efficiency of overhauling workers is greatly improved, and the device is quite convenient.

Of course, it is not necessary for any one product to practice the utility model to achieve all of the advantages set forth above at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the utility model, the drawings that are needed for the description of the embodiments will be briefly introduced below, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic diagram of the overall structure of the present utility model;

FIG. 3 is a schematic diagram of the overall structure of the present utility model;

fig. 4 is a schematic view of a part of the structure of the present utility model.

In the drawings, the list of components represented by the various numbers is as follows:

1. a waste heat recovery device body; 11. a display screen; 12. an operation table; 13. supporting feet; 14. a mounting groove; 15. a toothed plate; 2. a cabinet door; 3. a connecting pipe; 4. rotating the handle; 41. a rotating handle; 42. a turntable; 5. a drive assembly; 51. a sliding screw rod; 52. a driving wheel; 53. driven wheel; 54. a transmission belt; 55. a starting shaft; 6. a linkage assembly; 61. a screw nut; 62. a concave block; 63. a rotation hole; 7. a buffer mechanism; 71. a connecting rod; 72. assembling plates; 73. a connecting plate; 74. a buffer shaft; 75. a bracket; 76. a spring; 77. tooth slots; 78. a gear; 79. a gear shaft; 8. a moving assembly; 81. a wheel axle; 82. and a roller.

Detailed Description

The following description of the technical solutions in the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are only some embodiments of the present utility model, not all embodiments. All other embodiments, based on the embodiments in the utility model, which a person of ordinary skill in the art would obtain without inventive faculty, are within the scope of the utility model.

In the description of the present utility model, it should be understood that the terms "open," "upper," "lower," "top," "middle," "inner," and the like indicate an orientation or positional relationship, merely for convenience of description and to simplify the description, and do not indicate or imply that the components or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the utility model.

Referring to fig. 1-4, the utility model discloses an air compressor waste heat recovery device, which comprises a waste heat recovery device body 1, wherein a cabinet door 2 is arranged on the front surface of the waste heat recovery device body 1, a supporting leg 13 is arranged at the bottom of the waste heat recovery device body 1, and the supporting leg 13 can be contained in the waste heat recovery device body 1; the back of the waste heat recovery device body 1 is provided with a connecting pipe 3, the front of the waste heat recovery device body 1 is provided with a rotary handle 4, the bottom of the waste heat recovery device body 1 is provided with a driving component 5, the driving component 5 is connected with a linkage component 6, the linkage component 6 is connected with a buffer mechanism 7, and the bottom of the buffer mechanism 7 is connected with a moving component 8; a reverse moving mechanism is arranged between the moving assembly 8 and the supporting foot 13; when the driving component 5 drives the moving component 8 to move, the supporting leg 13 is driven to move in the opposite direction by the reverse moving mechanism.

When the place is replaced, the cabinet door 2 arranged on the device body 1 is locked, the connection of the connecting pipe 3 is disconnected, the rotary handle 4 is rotated, the driving component 5 is driven, the driving component 5 can drive the linkage components 6, at the moment, the two linkage components 6 can be close to each other, so that the buffer mechanism 7 is driven to be connected with the two linkage components, the buffer mechanism 7 starts to slowly descend, and at the moment, the moving component 8 connected with the buffer mechanism 7 starts to be in contact with the ground until the whole device is supported.

In one embodiment, for the above-mentioned waste heat recovery device body 1, the waste heat recovery device body 1 includes display screen 11, operation panel 12, supporting legs 13, mounting groove 14 and pinion rack 15, display screen 11 is installed to waste heat recovery device body 1 front, one side of display screen 11 is provided with operation panel 12, the bottom surface of waste heat recovery device body 1 is provided with supporting legs 13, be provided with pinion rack 15 on the supporting legs 13, mounting groove 14 has been seted up to waste heat recovery device body 1 bottom both sides inner wall.

When the device is used, the whole device is supported by the supporting feet 13, the whole device is controlled by the operation 12, the display screen 11 displays information, and the arrangement grooves 14 formed in the inner walls of the two sides of the bottom are used for arranging other parts.

In one embodiment, for the above-mentioned rotary handle 4, the rotary handle 4 includes a rotating handle 41 and a turntable 42, the rotating handle 41 is connected to the turntable 42, one end of the turntable 42 is connected to the driving assembly 5, and the turntable 42 is disposed on the front surface of the device body 1 and is installed below the cabinet door 2.

In one embodiment, for the driving assembly 5, the driving assembly 5 includes a sliding screw 51, a driving wheel 52, a driven wheel 53, a transmission belt 54 and a starting shaft 55, the driving assembly 5 is disposed at the bottom of the waste heat recovery device body 1, two ends of the sliding screw 51 are connected to two sides in the accommodating groove 14 in the waste heat recovery device body 1, the driven wheel 53 is mounted on the sliding screw 51 near two ends, the driven wheel 53 is mounted in the accommodating groove 14, the driven wheel 53 is connected with the transmission belt 54, the other end of the transmission belt 54 is connected to the driving wheel 52, the driving wheel 52 is disposed at a middle position of the accommodating groove 14, the starting shaft 55 is connected to a middle position of the accommodating groove 14 at two ends of the waste heat recovery device body 1, the driving wheel 52 is connected to a part of the starting shaft 55 in the accommodating groove 14, and one end of the starting shaft 55 is connected to the rotating handle 4.

The rotation of the rotary handle 4 drives the starting shaft 55 connected with the rotary handle, and the starting shaft 55 drives the driving wheel 52 connected with the rotary handle, at this time, the driving wheel 52 is connected with the driving belt 54, and the other end of the driving belt 54 is connected with the driven wheel 53, so that the driven wheel 53 is driven.

In one embodiment, for the above-mentioned linkage assembly 6, the linkage assembly 6 includes a screw nut 61, a concave block 62 and a rotation hole 63, the bottom of the screw nut 61 is fixedly connected with the concave block 62, the concave block 62 is provided with the rotation hole 63, and the screw nut 61 is connected to the sliding screw 51.

When the sliding screw 51 starts to rotate, the screw nut 61 starts to move inward, the concave block 62 fixedly connected to the bottom moves with it, and the member connected to the rotation hole 63 starts to move.

In one embodiment, for the above-mentioned buffer mechanism 7, the buffer mechanism 7 includes a connecting rod 71, a combining plate 72, a connecting plate 73, a buffer shaft 74, a bracket 75, a spring 76, a tooth slot 77, a gear 78 and a gear shaft 79, wherein one end of the connecting rod 71 in the buffer mechanism 7 is connected with the combining plate 72, one end of the connecting rod 71 is connected with the rotating hole 63 on the linkage assembly 6, the other end of the connecting rod 71 is connected with the combining plate 72, the combining plate 72 is fixedly mounted on the connecting plate 73, the buffer shaft 74 is movably connected with the connecting plate 73, the bracket 75 is fixedly mounted at the bottom of the buffer shaft 74, the spring 76 is mounted on the connecting surface of the bracket 75 and the buffer shaft 74, and the other end of the spring 76 is fixedly mounted on the bottom surface of the connecting plate 73 and centered on the buffer shaft 74.

In one embodiment, for the above-mentioned reverse movement mechanism, the reverse movement mechanism includes a tooth slot 77 and a gear 78, one side of the connecting plate 73 is provided with the tooth slot 77, the tooth slot 77 is engaged with the gear 78 in a matching manner, the other side of the gear is engaged with the toothed plate 15, a gear shaft 79 is connected between the gears 78, and two ends of the gear shaft 79 are connected with the gears 78.

When the screw-nut 61 starts to approach each other, the connecting rod 71 connected to the rotation hole 63 starts to incline inward, the assembling plate 72 and the connecting plate 73 start to descend, the tooth slot 77 formed at one side of the connecting plate 73 lowers in height under the cooperation of the gear 78 and the tooth plate 15, when the moving assembly 8 at the bottom is on the same plane as the supporting leg 13, the bracket 75 fixedly connected to the buffer shaft 74 starts to move upward after receiving the acting force, the spring 76 connected thereto relieves part of the pressure caused by the weight of the apparatus body, after the position shift is finished, the rotating handle 4 is reversely rotated, the screw-nut 61 starts to move away from each other, the connecting rod 71 returns to the original position, the assembling plate 72 and the connecting plate 73 also start to ascend, and the buffer shaft 74 and the bracket also return.

In one embodiment, for the moving assembly 8, the moving assembly 8 includes a wheel shaft 81 and a roller 82, the wheel shaft 81 is connected with the center of the roller 82, and two ends of the wheel shaft 81 are movably connected with the bracket 75.

The roller 82 will contact the ground and become the body of the support device, which will push the device to move, and the device will rotate about the axle as a rotation point.

In one embodiment, for the above-mentioned air compressor waste heat recovery device, the rotary handle 4 is installed on the front of the waste heat recovery device body 1, the driving assembly 5 includes a plurality of sliding screw rods 51, the sliding screw rods 51 are connected with a linkage assembly 6, the linkage assembly 6 includes a screw nut 61, the sliding screw rods 51 are connected with the screw nut 61, the linkage assembly 6 is connected with a buffer mechanism 7, the linkage assembly 6 includes a concave block 62, the bottom of the concave block 62 is connected with the buffer mechanism 7, the buffer mechanism 7 includes a connecting rod 71, the connecting rod 71 is connected with the concave block 62, the bottom of the buffer mechanism 7 is connected with a moving assembly 8, the moving assembly 8 includes a wheel axle 81, and the wheel axle 81 is connected with a bracket 75.

Because there is linkage between the rotary handle 4, the driving component 5, the linkage 6, the buffer mechanism 7 and the moving component 8, the rotary handle 4 rotates to drive the sliding screw 51 in the driving component 5 directly connected with the rotary handle, the sliding screw 51 rotates to drive the screw nut and 61 on the linkage component 6 connected with the driving component 5, the movement of the screw nut 61 drives the position of the buffer component 7 connected with the screw nut to descend, the moving component 8 is connected with the buffer component 7 and is in the same positional relationship, and therefore the position of the moving component 8 descends at the same speed.

In summary, by means of the above technical solution of the present utility model, the following steps are provided: when an operator needs to replace a placement area, the rotating handle 4 can be directly rotated, the sliding screw rod 51 can be driven after the rotating handle 4 rotates, the sliding screw rod 51 drives the driving wheel 52 to rotate, then the two driven wheels 6 can be driven to rotate, at the moment, the sliding screw rods 51 on two sides can synchronously rotate, the sliding screw rods 51 can be mutually close to corresponding two screw rod nuts 61 after rotating, thereby driving the two connecting rods 71 to rotate, the connecting plates 73 can be pushed to move downwards, the rotating handle 4 is continuously rotated, the rollers 82 are fully contacted with the ground, at the moment, the supporting feet 13 start to rise under the meshing movement of the toothed grooves 77 and the toothed plates 15, the moving assembly 8 replaces the supporting feet 13 to integrally support the device, at the moment, the operator can push the device to move, the buffer shaft 74 moves up and down on the connecting plates 73 and presses the springs 76 in the moving process, and after the position movement is completed, the rotating handle 4 reversely can be rotated to enable the connecting plates 73 to move upwards to reset, so that the rollers 82 are enabled to move upwards again, the supporting feet 13 are enabled to be contacted with the ground again, and the device can be stably placed.

Through above-mentioned technical scheme, 1, through the removal subassembly that can pack up be convenient for remove waste heat recovery device, greatly promoted maintenance workman's work efficiency, it is very convenient.

In the description of the present specification, the descriptions of the terms "one embodiment," "example," "specific example," and the like, mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the utility model. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above disclosed preferred embodiments of the utility model are merely intended to help illustrate the utility model. The preferred embodiments are not exhaustive or to limit the utility model to the precise form disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the utility model and the practical application, to thereby enable others skilled in the art to best understand and utilize the utility model. The utility model is limited only by the claims and the full scope and equivalents thereof.

Claims (4)

1. The utility model provides an air compressor waste heat recovery device, includes waste heat recovery device body (1), its characterized in that: the front surface of the waste heat recovery device body (1) is provided with a cabinet door (2), the bottom of the waste heat recovery device body (1) is provided with supporting feet (13), and the supporting feet (13) can be contained in the waste heat recovery device body (1); the waste heat recovery device comprises a waste heat recovery device body (1), and is characterized in that a connecting pipe (3) is arranged on the back of the waste heat recovery device body (1), a rotary handle (4) is arranged on the front of the waste heat recovery device body (1), a driving assembly (5) is arranged at the bottom of the waste heat recovery device body (1), a linkage assembly (6) is connected to the driving assembly (5), a buffer mechanism (7) is connected to the linkage assembly (6), and a moving assembly (8) is connected to the bottom of the buffer mechanism (7); a reverse moving mechanism is arranged between the moving assembly (8) and the supporting leg (13); when the driving component (5) drives the moving component (8) to move, the supporting leg (13) is driven to move in the opposite direction through the reverse moving mechanism;

the waste heat recovery device comprises a waste heat recovery device body (1) and is characterized in that the waste heat recovery device body (1) comprises a display screen (11), an operation table (12), supporting legs (13), a placement groove (14) and toothed plates (15), the display screen (11) is arranged on the front surface of the waste heat recovery device body (1), the operation table (12) is arranged beside the display screen (11), the supporting legs (13) are arranged on the bottom surface of the waste heat recovery device body (1), the toothed plates (15) are arranged on the supporting legs (13), and the placement groove (14) is formed in the inner walls of the two sides of the bottom of the waste heat recovery device body (1);

the driving assembly (5) comprises a sliding screw (51), a driving wheel (52), a driven wheel (53), a transmission belt (54) and a starting shaft (55), the driving assembly (5) is arranged at the bottom of the waste heat recovery device body (1), two ends of the sliding screw (51) are connected to two sides in a mounting groove (14) in the waste heat recovery device body (1), the driven wheel (53) is mounted at a position, close to the two ends, of the sliding screw (51), the driven wheel (53) is mounted in the mounting groove (14), the driving wheel (53) is connected with the transmission belt (54), the other end of the transmission belt (54) is connected to the driving wheel (52), the driving wheel (52) is mounted at the middle position of the mounting groove (14), the starting shaft (55) is connected to the middle position of the mounting groove (14) at the two ends of the waste heat recovery device body (1), one end of the starting shaft (55) is connected with the driving wheel (52), and one end of the starting shaft (55) is connected with the rotating handle (4).

The linkage assembly (6) comprises a screw nut (61), a concave block (62) and a rotating hole (63), wherein the concave block (62) is fixedly connected to the bottom of the screw nut (61), the rotating hole (63) is formed in the concave block (62), and the screw nut (61) is connected to the sliding screw (51);

the buffer mechanism (7) comprises a connecting rod (71), a connecting plate (72), a connecting plate (73), a buffer shaft (74), a bracket (75), a spring (76), a tooth socket (77), a gear (78) and a gear shaft (79), wherein one end of the connecting rod (71) in the buffer mechanism (7) is connected with the connecting plate (72), one end of the connecting rod (71) is connected with a rotating hole (63) in the linkage assembly (6), the other end of the connecting rod (71) is connected onto the connecting plate (72), the connecting plate (72) is fixedly arranged on the connecting plate (73), the buffer shaft (74) is movably connected onto the connecting plate (73), the bracket (75) is fixedly arranged at the bottom of the buffer shaft (74), the spring (76) is arranged on the connecting surface of the bracket (75) and the buffer shaft (74), and the other end of the spring (76) is fixedly arranged on the bottom surface of the connecting plate (73) and takes the buffer shaft (74) as the center;

the reverse moving mechanism comprises tooth grooves (77) and gears (78), one side of the connecting plate (73) is provided with the tooth grooves (77), the gears (78) are engaged on the tooth grooves (77) in a matching mode, the other sides of the gears are engaged with the toothed plate (15), gear shafts (79) are connected in the middle of the gears (78), and the two ends of the gear shafts (79) are connected with the gears (78).

2. An air compressor waste heat recovery device according to claim 1, wherein the rotary handle (4) comprises a rotary handle (41) and a rotary table (42), the rotary handle (41) is connected to the rotary table (42), one end of the rotary table (42) is connected to the driving assembly (5), and the rotary table (42) is arranged on the front surface of the device body (1) and is installed below the cabinet door (2).

3. An air compressor waste heat recovery device according to claim 1, wherein the moving assembly (8) comprises an axle (81) and a roller (82), the axle (81) is centrally connected with the roller (82), and two ends of the axle (81) are movably connected with the bracket (75).

4. An air compressor waste heat recovery device according to claim 1, characterized in that the driving assembly (5) comprises a plurality of sliding screw rods (51), the sliding screw rods (51) are connected with a linkage assembly (6), the linkage assembly (6) comprises screw nuts (61), the sliding screw rods (51) are connected with the screw nuts (61), the linkage assembly (6) is connected with a buffer mechanism (7), the linkage assembly (6) comprises a concave block (62), the bottom of the concave block (62) is connected with the buffer mechanism (7), the buffer mechanism (7) comprises a connecting rod (71), the connecting rod (71) is connected with the concave block (62), the bottom of the buffer mechanism (7) is connected with a moving assembly (8), the moving assembly (8) comprises a wheel shaft (81), and the wheel shaft (81) is connected with a bracket (75).