CN113007933B

CN113007933B - High-end equipment manufacturing is with part cooling equipment in batches

Info

Publication number: CN113007933B
Application number: CN202110242588.1A
Authority: CN
Inventors: 龙军
Original assignee: Henan Zhongke Intelligent Equipment Co ltd
Current assignee: Henan Zhongke Intelligent Equipment Co ltd
Priority date: 2021-03-05
Filing date: 2021-03-05
Publication date: 2023-10-31
Anticipated expiration: 2041-03-05
Also published as: CN113007933A

Abstract

The invention relates to cooling equipment, in particular to batch cooling equipment for parts for manufacturing high-end equipment. The invention aims to solve the technical problems: provided is a lot of parts cooling equipment for manufacturing high-end equipment, which has high cooling efficiency and does not require labor. The utility model provides a high-end equipment manufacturing is with part batch cooling equipment, includes: a support leg; the mounting plate is mounted on the supporting leg and is provided with a sliding groove; the driving assembly is arranged on the mounting plate and is in sliding fit with the chute; and the placement assembly is arranged on the driving assembly. The rotary rod and the placing frame are rotated by the aid of the rotating assembly under the action of the gear and the rack, so that a worker does not need to manually control the rotary rod to rotate, and the burden of the worker is reduced; the invention is provided with the injection assembly, and water can be sprayed out from the discharge frame by controlling the piston rod, so that a worker is not required to manually discharge water.

Description

High-end equipment manufacturing is with part cooling equipment in batches

Technical Field

The invention relates to cooling equipment, in particular to batch cooling equipment for parts for manufacturing high-end equipment.

Background

The parts are single parts for assembly into a machine, and the parts are generally made of metal, so that huge heat is generated when a part blank is processed, and the parts need to be subjected to cooling treatment after the parts are manufactured.

The common part cooling mode adopts natural cooling, and when natural cooling, the part that needs to make is exposed in the air, then waits to cool down, and natural cooling needs to take longer time, and the surface part cooling is accomplished the back, and the bottom part still is in the high temperature state moreover, so needs the manual work to stir the part for the part removes, all parts even cooling, and then need consume staff's physical power.

Therefore, it is necessary to design a high-end equipment manufacturing part batch cooling device which has high cooling efficiency and does not require labor.

Disclosure of Invention

In order to overcome the defect that natural cooling needs to take a long time, the part needs to be stirred manually, so that all parts are uniformly cooled, and the technical problem to be solved is that: provided is a lot of parts cooling equipment for manufacturing high-end equipment, which has high cooling efficiency and does not require labor.

The technical proposal is as follows: the utility model provides a high-end equipment manufacturing is with part batch cooling equipment, includes: a support leg; the mounting plate is mounted on the supporting leg and is provided with a sliding groove; the driving assembly is arranged on the mounting plate and is in sliding fit with the chute; and the placement assembly is arranged on the driving assembly.

Preferably, the driving assembly comprises: the gear motor is arranged on the mounting plate; the screw rod is arranged on an output shaft of the speed reducing motor; the sliding block is installed on the sliding groove in a sliding mode and is connected with the screw rod through threads.

Preferably, the placement component comprises: the rotating rod is rotatably arranged on the sliding block; the fixed blocks are arranged at two sides of the rotating rod; the placing frame is arranged on the rotating rod in a sliding manner; and the first spring is arranged between the placement frame and the fixed block.

Preferably, the rotary assembly is further included, and the rotary assembly includes: the fixing frames are symmetrically arranged on the mounting plate; the racks are arranged on the fixing frames at two sides; the gears are arranged on two sides of the rotating rod and are correspondingly meshed with the racks.

Preferably, the device further comprises a spraying assembly, and the spraying assembly comprises: the support frames are symmetrically arranged on two sides of the mounting plate; the discharging frame is arranged between the supporting frames; the cylinder bodies are arranged on the mounting plate; the piston rod is installed on the cylinder body in a sliding mode, and the piston rods are connected with each other; the second spring is arranged between the piston rod and the cylinder body; the liquid outlet pipe is arranged between the cylinder body and the discharge frame; and the liquid inlet pipe is arranged on the cylinder body.

Preferably, the device further comprises a dithering assembly, and the dithering assembly comprises: the connecting block is arranged on the support frame at one side; the special-shaped plate is arranged between the connecting blocks; and the convex blocks are arranged on the placement frame and are matched with the special-shaped plates.

Preferably, the device further comprises a pushing component, and the pushing component comprises: the fixed plates are arranged on two sides of the mounting plate; the special-shaped rod is arranged between the fixed plates in a sliding manner; the third spring is arranged between the special-shaped rod and the fixed plate; the two wedge-shaped blocks are arranged on the special-shaped rod and are matched with the piston rod; and the cam is arranged on the screw rod and matched with the special-shaped rod.

Preferably, the filter assembly is further included, and the filter assembly includes: the bracket is arranged on the mounting plate; the collecting frame is arranged on the support, and at least two filtering holes are formed in the bottom of the collecting frame.

The invention has the beneficial effects that: 1. the rotary rod and the placing frame are rotated through the action of the gear and the rack, so that a worker does not need to manually control the rotary rod to rotate, and the burden of the worker is reduced.

2. The invention is provided with the injection assembly, and water can be sprayed out from the discharge frame by controlling the piston rod, so that a worker is not required to manually discharge water.

3. The invention is provided with the shaking component, and the placing frame can move through the matching of the convex blocks and the special-shaped plate, so that the parts in the placing frame can move, and the parts below the placing frame can be effectively prevented from being cooled.

4. The piston rod is automatically moved by the pushing assembly, so that a worker does not need to manually control the piston rod to move, and the burden of the worker is reduced.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of a driving assembly according to the present invention.

Fig. 3 is a schematic perspective view of the placement module according to the present invention.

Fig. 4 is a schematic perspective view of a rotating assembly according to the present invention.

Fig. 5 is a schematic perspective view of the spray assembly of the present invention.

Fig. 6 is a schematic perspective view of a jitter assembly of the present invention.

Fig. 7 is a schematic perspective view of a pushing assembly according to the present invention.

Fig. 8 is a schematic perspective view of a filter assembly according to the present invention.

Reference numerals: 1_leg, 2_mounting plate, 3_runner, 4_drive assembly, 41_gear motor, 42_lead screw, 43_slider, 5_placement assembly, 51_turn bar, 52_fix, 53_first spring, 6_turn assembly, 61_mount, 62_rack, 63_gear, 7_spray assembly, 71_support frame, 72_release frame, 73_cylinder, 74_piston rod, 75_second spring, 76_drain tube, 77_inlet tube, 8_shake assembly, 81_connect block, 82_profiled plate, 83_bump, 9_push assembly, 91_fix plate, 92_profiled rod, 93_third spring, 94_wedge, 95_cam, 10_filter assembly, 101_support frame, 102_collect frame, 103_filter aperture.

Detailed Description

The invention is further described below with reference to the drawings and examples.

Example 1

The utility model provides a high-end equipment manufacturing is with part batch cooling equipment, as shown in fig. 1 through 3, including landing leg 1, mounting panel 2, drive assembly 4 and place subassembly 5, the upside of landing leg 1 has mounting panel 2 through the bolt rigid coupling, and it has spout 3 to open on the mounting panel 2, and the downside of mounting panel 2 is equipped with drive assembly 4, and drive assembly 4 and spout 3 sliding fit are equipped with on the drive assembly 4 and place subassembly 5.

When the part needs to be cooled, the part needing to be cooled is placed in the placement component 5, then the driving component 4 is started, the driving component 4 drives the placement component 5 to move, then water is sprayed in the placement component 5 to cool, after cooling is completed, the placement component 5 is controlled to take out the cooled part, then the driving component 4 is controlled to reversely operate so that the placement component 5 is reset, then the operation is repeated, and after all the parts are cooled, the driving component 4 is closed.

The driving assembly 4 comprises a gear motor 41, a screw rod 42 and a sliding block 43, the gear motor 41 is arranged at the lower side of the rear part of the mounting plate 2, the screw rod 42 is connected to the output shaft of the gear motor 41, the sliding block 43 is arranged on the sliding groove 3 in a sliding mode, and the sliding block 43 is connected with the screw rod 42 through threads.

When the part needs to be cooled, the part needing to be cooled is placed in the placement component 5, then the gear motor 41 is started, the gear motor 41 drives the screw rod 42 to rotate, and then the sliding block 43 is driven to move forwards, so that the placement component 5 can be moved, water can be sprayed in the placement component 5 to cool, after cooling is finished, the placement component 5 is controlled to take out the cooled part, then the gear motor 41 is controlled to rotate reversely, so that the parts are reset, then the operation is repeated, and after all the parts are cooled, the gear motor 41 is closed.

Place the subassembly 5 including bull stick 51, fixed block 52, place frame 53 and first spring 54, the last rotation of slider 43 is connected with bull stick 51, and the left and right sides of bull stick 51 all welds fixed block 52, and the middle part of bull stick 51 is slided and is equipped with places frame 53, all is connected with first spring 54 between placing frame 53 and the fixed block 52.

When the parts need to be cooled, the parts needing to be cooled are placed in the placement frame 53, then the gear motor 41 is started, the gear motor 41 enables the sliding block 43 to move forwards, the rotating rod 51 is further enabled to move, the fixing block 52, the placement frame 53 and the first spring 54 are further enabled to move together, water can be sprayed in the placement frame 53 during movement, meanwhile, the placement frame 53 is controlled to move left and right, the parts are cooled completely, the placement frame 53 is not controlled to move after cooling, the placement frame 53 is reset due to the effect of the first spring 54, then the rotating rod 51 is controlled to rotate, the placement frame 53 rotates together, the cooled parts are poured out, then the rotating rod 51 is controlled to rotate reversely, the placement frame 53 is reset, then the gear motor 41 is controlled to rotate reversely, the parts are reset, the operations are repeated, and after all the parts are cooled completely, the gear motor 41 is turned off.

Example 2

On the basis of embodiment 1, as shown in fig. 1, 4, 5, 6, 7 and 8, the rotary component 6 is further included, the rotary component 6 includes a fixing frame 61, a rack 62 and a gear 63, the fixing frame 61 is symmetrically arranged on the lower side of the front part of the mounting plate 2, the racks 62 are respectively arranged on the upper sides of the fixing frames 61 on the left side and the right side, the gears 63 are respectively connected with the left side and the right side of the rotating rod 51 in a key connection manner, and the gears 63 are correspondingly meshed with the racks 62.

When the bull stick 51 moves forward, can drive gear 63 and move forward, when gear 63 moves to when contacting with rack 62, can make gear 63 rotate, and then drive bull stick 51 and rotate, thereby make place the frame 53 rotate and pour the part that the cooling was accomplished, when bull stick 51 moves backward, can drive gear 63 and move backward, gear 63 can contact with rack 62 again, make gear 63 carry out reverse rotation, and then drive bull stick 51 and place the frame 53 reverse rotation and reset, and then need not the manual control bull stick 51 of staff and rotate, and then reduce staff's burden.

The injection assembly 7 comprises a support frame 71, a discharge frame 72, cylinder bodies 73, piston rods 74, second springs 75, liquid outlet pipes 76 and liquid inlet pipes 77, wherein the support frame 71 is fixedly connected with the front side and the rear side of the mounting plate 2 through bolts in a bilateral symmetry mode, the discharge frame 72 is fixedly connected between the upper sides of the support frame 71 through bolts, the three cylinder bodies 73 are fixedly connected with the lower sides of the mounting plate 2 through bolts, the piston rods 74 are arranged on the cylinder bodies 73 in a sliding mode, the piston rods 74 are connected with each other, the second springs 75 are connected between the piston rods 74 and the cylinder bodies 73, the liquid outlet pipes 76 are connected between the cylinder bodies 73 and the discharge frame 72, and the liquid inlet pipes 77 are connected to the right sides of the cylinder bodies 73.

When water needs to be sprayed, the piston rod 74 can be controlled to move leftwards firstly, the second spring 75 is stretched, so that the pressure in the cylinder 73 is reduced, water enters the cylinder 73 through the liquid inlet pipe 77, then the piston rod 74 is not controlled any more, the second spring 75 is retracted to drive the piston rod 74 to move rightwards, then water in the cylinder 73 is sprayed out of the discharge frame 72 through the liquid outlet pipe 76, parts in the placing frame 53 are cooled, and when cooling is not needed, the piston rod 74 is not controlled any more.

Still including shake subassembly 8, shake subassembly 8 is including connecting block 81, abnormal shape board 82 and lug 83, all welds connecting block 81 on the support frame 71 of left side, has abnormal shape board 82 through the bolt fastening between the connecting block 81, and the left side of placing the frame 53 has lug 83 through the bolt fastening, and lug 83 cooperates with abnormal shape board 82.

When the placement frame 53 moves, the protruding blocks 83 are driven to move together, when the protruding blocks 83 move to be in contact with the special-shaped plate 82, the protruding blocks 83 are matched with the special-shaped plate 82, the protruding blocks 83 move left and right under the action of the first springs 54, the placement frame 53 moves, parts in the placement frame 53 move, and the lower parts can be effectively prevented from being cooled.

The novel hydraulic lifting device is characterized by further comprising a pushing assembly 9, wherein the pushing assembly 9 comprises a fixing plate 91, a special-shaped rod 92, a third spring 93, wedge blocks 94 and a cam 95, the fixing plate 91 is fixedly connected to the front side and the rear side of the left part of the mounting plate 2 through bolts, the special-shaped rod 92 is slidably arranged between the fixing plates 91, the third spring 93 is connected between the special-shaped rod 92 and the fixing plates 91, the front side and the rear side of the special-shaped rod 92 are welded with the front wedge blocks 94, the wedge blocks 94 are matched with the piston rods 74, the front side of the screw rod 42 is connected with the cam 95 in a key manner, and the cam 95 is matched with the special-shaped rod 92.

When the screw rod 42 rotates, the cam 95 is driven to rotate, when the cam 95 rotates to be in contact with the special-shaped rod 92, the special-shaped rod 92 moves downwards, the third spring 93 is compressed, and then the wedge block 94 is driven to move downwards, so that the wedge block 94 is in contact with the piston rod 74, and the piston rod 74 moves leftwards, when the cam 95 rotates to be out of contact with the special-shaped rod 92, the third spring 93 rebounds to drive the special-shaped rod 92 and the wedge block 94 to move upwards for resetting, and then the wedge block 94 is not in contact with the piston rod 74 any more, the piston rod 74 automatically moves rightwards for resetting, and then the piston rod 74 does not need to be manually controlled by a worker to move, so that the burden of the worker is reduced.

The filter assembly 10 comprises a support 101 and a collecting frame 102, wherein the support 101 is arranged on the front side of the mounting plate 2, the collecting frame 102 is arranged on the support 101, and a plurality of filter holes 103 are formed in the bottom of the collecting frame 102.

The placement frame 53 rotates to pour the cooled parts into the collection frame 102, water flows out through the filtering holes 103, and then filtering can be performed, and the parts can be taken out from the collection frame 102 after the filtering is completed.

The embodiments of the present invention have been described in detail with reference to the drawings, but the present invention is not limited to the above embodiments, and various changes can be made within the knowledge of those skilled in the art without departing from the spirit of the present invention.

Claims

1. The utility model provides a high-end equipment manufacturing is with part batch cooling equipment which characterized in that includes:

a leg (1);

the mounting plate (2) is mounted on the supporting leg (1), and a chute (3) is formed in the mounting plate (2);

the driving assembly (4) is arranged on the mounting plate (2), and the driving assembly (4) is in sliding fit with the sliding groove (3);

a placement component (5) mounted on the drive component (4);

the driving assembly (4) comprises:

a gear motor (41) mounted on the mounting plate (2);

the screw rod (42) is arranged on the output shaft of the speed reducing motor (41);

the sliding block (43) is arranged on the sliding groove (3) in a sliding mode, and the sliding block (43) is connected with the screw rod (42) through threads;

the placement component (5) comprises:

the rotating rod (51) is rotatably arranged on the sliding block (43);

fixed blocks (52) arranged on both sides of the rotating rod (51);

a placement frame (53) slidably mounted on the rotating rod (51);

a first spring (54) mounted between the placement frame (53) and the fixed block (52);

still including rotating assembly (6), rotating assembly (6) including:

the fixing frames (61) are symmetrically arranged on the mounting plate (2);

a rack (62) mounted on the fixing frames (61) at both sides;

gears (63) are arranged on two sides of the rotating rod (51), and the gears (63) are correspondingly meshed with the racks (62);

the device also comprises a spraying component (7), wherein the spraying component (7) comprises:

the support frames (71) are symmetrically arranged at two sides of the mounting plate (2);

a discharge frame (72) mounted between the support frames (71);

a cylinder (73), at least two cylinders (73) being mounted on the mounting plate (2);

a piston rod (74) slidably mounted on the cylinder (73), the piston rods (74) being connected to each other;

a second spring (75) installed between the piston rod (74) and the cylinder (73);

a liquid outlet pipe (76) arranged between the cylinder body (73) and the discharge frame (72);

a liquid inlet pipe (77) arranged on the cylinder body (73);

still including shake subassembly (8), shake subassembly (8) including:

a connection block (81) mounted on the support frame (71) on one side;

a profiled plate (82) mounted between the connection blocks (81);

a protruding block (83) mounted on the placement frame (53), the protruding block (83) being engaged with the profiled plate (82);

the device also comprises a pushing component (9), wherein the pushing component (9) comprises:

the fixed plates (91) are arranged on two sides of the mounting plate (2);

a profiled bar (92) slidably mounted between the fixing plates (91);

a third spring (93) installed between the profiled bar (92) and the fixing plate (91);

the two wedge blocks (94) are arranged on the special-shaped rod (92), and the wedge blocks (94) are matched with the piston rod (74);

and the cam (95) is arranged on the screw rod (42), and the cam (95) is matched with the special-shaped rod (92).

2. The batch cooling apparatus for parts for manufacturing high-end equipment according to claim 1, further comprising a filter assembly (10), wherein the filter assembly (10) comprises:

a bracket (101) mounted on the mounting plate (2);

the collecting frame (102) is arranged on the bracket (101), and at least two filtering holes (103) are formed in the bottom of the collecting frame (102).