CN219649389U

CN219649389U - Coaxial hole machining mechanism

Info

Publication number: CN219649389U
Application number: CN202320553587.3U
Authority: CN
Inventors: 张晓霞
Original assignee: Xi'an Rongxing Machinery Manufacturing Co ltd
Current assignee: Xi'an Rongxing Machinery Manufacturing Co ltd
Priority date: 2023-03-21
Filing date: 2023-03-21
Publication date: 2023-09-08
Anticipated expiration: 2033-03-21

Abstract

The utility model provides a coaxial hole machining mechanism, which relates to the technical field of mechanical equipment and comprises the following components: a mounting frame; the auxiliary component is installed in the middle of the upper end of the installation frame, the workpiece is fixedly installed at the front end of the auxiliary component on the bearing component, the bearing component is installed in the middle of the installation frame in a rotating mode, fine adjustment control is conducted on the bearing component by a fine adjustment component close to the front end, the auxiliary component on the bearing component and the bearing component has the effect of achieving quick workpiece fixing, the punching equipment is installed on the control component, the control component conducts position adjustment through control rod synchronous control, the bottom of the bearing block is connected with a fixing plate, coaxiality of the punching equipment is stably kept, and the problem that when two groups of punching equipment cannot be adjusted independently due to the fact that the existing coaxial hole machining equipment cannot be adjusted synchronously is solved, two groups of punching equipment cannot be guaranteed, and the punching equipment is located at an accurate coaxial position again.

Description

Coaxial hole machining mechanism

Technical Field

The utility model belongs to the technical field of mechanical equipment, and particularly relates to a coaxial hole machining mechanism.

Background

Along with the continuous development and progress of social economy, some more precise devices can need to be specified with required parts, some parts are more accurate in processing, production is more difficult to rely on import for a long time, parts of some mechanical devices are gradually developed by autonomous production, wherein the main problem of production of the mechanical parts appears in precision, some more precise devices are provided with parts which are required to have absolute requirements of line, vertical, coaxial, symmetry and the like, and the parts can be used on the precise devices only if the parts have due precision requirements.

When processing more accurate parts, especially after the part symmetry trompil, the axiality of hole needs in appointed requirement, and current general equipment is when processing coaxial hole, and the fixed position of part can't directly be adjusted, and the same can't adjust two sets of perforating equipment in step, causes when adjusting a set of perforating equipment alone, can't guarantee two sets of perforating equipment, is in accurate coaxial position's problem again.

Disclosure of Invention

In order to solve the technical problems, the utility model provides a coaxial hole processing mechanism, which solves the problems that the existing coaxial hole processing equipment cannot synchronously adjust two groups of punching equipment, so that when one group of punching equipment is independently adjusted, the two groups of punching equipment cannot be ensured to be positioned at an accurate coaxial position again.

The purpose and the effect of the coaxial hole processing mechanism are achieved by the following specific technical means:

the coaxial hole processing mechanism comprises a mounting frame; the utility model discloses a cleaning device, including mounting bracket, auxiliary component, cleaning component, control component, drilling equipment, collecting assembly, cleaning component, auxiliary component, control component, drilling equipment, cleaning component, etc. the mounting bracket is rotated in the middle of the mounting bracket upper end and is installed to the rear side position department of bearing component installs auxiliary component, and auxiliary component's front end department fixed mounting has the work piece on the bearing component, and the end position department of mounting bracket is provided with the fine setting part, and the middle top of fine setting part is connected with the bearing component, and the outer end position department of mounting bracket installs control component, slidable mounting has drilling equipment on the control component, bearing component's both ends position slidable mounting has the collection subassembly on the mounting bracket, is close to the rear side department of work piece on the collection subassembly.

Further, the loading board of loading part is rectangular plate structure, and the bottom is rotated and is installed on the mounting bracket in the middle of the loading board, and the middle of loading board is fixed with three sets of fixed blocks near the front end, all is provided with the draw-in groove on every fixed block of group, and the fixed band joint is installed in the draw-in groove, and the root position and the auxiliary part of fixed band are connected.

Further, the auxiliary plate of the auxiliary component is fixed at the rear side of the bearing plate, the front end of the auxiliary plate of the bearing plate is slidably provided with a clamping block, a spring is additionally arranged between the clamping block and the auxiliary plate, and the fixing belt is directly fixed on the clamping block.

Further, the regulating shaft of the fine tuning part is rotatably arranged at the position close to the front end of the mounting frame, the regulating block is mounted at the middle of the regulating shaft in a screwed mode, the sliding block is rotatably mounted at the top of the regulating block, and the sliding block slides at the front end of the bearing plate.

Further, the sliding strip of control part sets up the position department about the mounting bracket, and the sliding strip slidable mounting of mounting bracket has the carrier block, and the control lever is installed to the outer end spiro union of carrier block, and the control lever rotates to be installed in the left and right sides position of mounting bracket, and the control lever rear side position passes through synchronizing shaft connection transmission, connects between the bottom of two sets of carrier blocks and installs the fixed plate.

Further, the sliding inner groove of the collecting assembly is arranged at two sides of the bearing part on the mounting frame, and the collecting box is slidably arranged at the sliding inner groove.

Further, the mounting rod of the cleaning component is hinged to the protruding table of the collecting assembly, the cleaning plate is mounted on the mounting rod, bristles are arranged on the cleaning plate, and the comb Mao Chaoxiang of the cleaning plate is located.

Compared with the prior art, the utility model has the following beneficial effects:

according to the utility model, the bearing part is rotatably arranged in the middle of the mounting frame, the bearing part is subjected to fine adjustment control by the fine adjustment part near the front end, the bearing part and the auxiliary part on the bearing part have the effect of realizing rapid workpiece fixing, the punching equipment is arranged on the control part, the control part is subjected to position adjustment by synchronous control of the control rod, the bottom of the bearing block is connected with the fixing plate, the coaxiality of the punching equipment is stably kept, and the collecting assembly and the cleaning part are provided with the auxiliary function of collecting and cleaning fragments generated by the opening of the workpiece.

The bearing plate with the rectangular structure is arranged to rotate and is installed on the mounting rack, the effect that the angle of the bearing plate is adjusted through the fine adjustment component is achieved, the fixing block arranged on the bearing plate has the effect that the fixing block can fix the position of a workpiece, the fixing block firstly fixes the position of the workpiece, the clamping groove arranged on the fixing block can be used for clamping the fixing band, the fixing band is wound at the outer end of the workpiece, and the fixing band can further strengthen the workpiece.

The clamping block is sliding on the bearing plate, at this moment, the clamping block can be clamped at the rear side of the workpiece, and a spring is additionally arranged between the clamping block and the auxiliary plate, so that the workpiece can be directly clamped on the clamping block to slide backwards during installation, the front end of the workpiece is positioned at the position of the fixed block, and the rapid installation effect of the workpiece is realized.

When the adjusting shaft is manually rotated, the adjusting block screwed on the adjusting shaft can be moved, and the sliding block can swing left and right along with the adjusting block at the moment, so that the sliding block drives the bearing plate to slightly swing left and right, and the effect of fine adjustment of the left and right positions of the bearing part by the fine adjustment part is realized.

The outer ends of the two groups of bearing blocks are arranged to be in threaded connection with the control rods, so that the control rods rotate to realize the sliding control effect on the bearing blocks, the rear side positions of the control rods are connected and driven through the synchronous shafts, the synchronous motion effect of the two groups of control rods is realized, the control rods realize the synchronous control effect on the bearing blocks, and the punching equipment is firstly arranged on the bearing blocks, so that the bottoms of the two groups of bearing blocks are directly fixed with a fixed plate in order to increase the coaxiality of the use of the punching equipment, the stable synchronous motion of the bearing blocks is realized, and the punching equipment on the bearing blocks is always in a coaxiality state.

Drawings

Fig. 1 is a schematic view of the overall structure of the present utility model.

Fig. 2 is a schematic view of the auxiliary component structure of the present utility model.

Fig. 3 is a schematic view of the structure of the load bearing member of the present utility model.

Fig. 4 is a schematic view of the control unit structure of the present utility model.

In the figure, the correspondence between the component names and the drawing numbers is:

1. a mounting frame; 2. a carrier member; 201. a carrying plate; 202. a fixed block; 203. a fixing belt; 3. an auxiliary member; 301. an auxiliary plate; 302. a clamping block; 4. a fine adjustment member; 401. an adjusting shaft; 402. an adjusting block; 403. a sliding block; 5. a control part; 501. a control lever; 502. a bearing block; 503. a sliding bar; 504. a fixing plate; 6. a collection assembly; 601. sliding the inner tank; 602. a collection box; 7. cleaning the component; 701. a mounting rod; 702. a cleaning plate; 8. a workpiece; 9. and (3) punching equipment.

Detailed Description

Embodiments of the present utility model are described in further detail below with reference to the accompanying drawings and examples.

Examples:

as shown in fig. 1 to 4:

the utility model provides a coaxial hole machining mechanism, which comprises a mounting frame 1; the middle department of mounting bracket 1 upper end rotates installs carrier part 2, carrier part 2's rear side position department installs auxiliary part 3, carrier part 2 goes up auxiliary part 3's front end department fixed mounting has work piece 8, carrier part 1's end position department is provided with fine setting part 4, fine setting part 4's middle top is connected with carrier part 2, carrier part 1's outer end position department installs control part 5, slidable mounting has drilling equipment 9 on the control part 5, carrier part 2's both ends position slidable mounting has collection subassembly 6 on the mounting bracket 1, collection subassembly 6 goes up the rear side department that is close to work piece 8 and installs clearance part 7.

Wherein, the loading board 201 of loading part 2 is rectangular platy structure, the bottom is rotated and is installed on mounting bracket 1 in the middle of the loading board 201, set up the loading board 201 of rectangular structure and install on mounting bracket 1 for rotating, the effect of follow-up convenience is adjusted the angle of loading board 201 through fine setting part 4, the centre of loading board 201 is fixed with three sets of fixed blocks 202 near the front end, fixed block 202 of setting on loading board 201 has the effect that lets fixed block 202 realize carrying out the position to work piece 8, all be provided with the draw-in groove on every fixed block 202 of group, fixed band 203 joint is installed in the draw-in groove, the root position and the auxiliary member 3 of fixed band 203 are connected, at first fixed block 202 is carrying out the position to work piece 8 in the time of, the draw-in groove of setting up on fixed block 202, can realize with fixed band 203 joint, let fixed band 203 twine the work piece 8 outer end, reach fixed band 203 and carry out the further reinforcement effect to work piece 8.

Wherein, auxiliary plate 301 of auxiliary part 3 is fixed in loading board 201 rear side position, loading board 201's auxiliary plate 301 front end slidable mounting has chucking piece 302, add between chucking piece 302 and the auxiliary plate 301 and be equipped with the spring, fixed band 203 is directly fixed on chucking piece 302, chucking piece 302 is at first for sliding on loading board 201, chucking piece 302 can the joint in the rear side position of work piece 8 at this moment, fix fixed band 203 on chucking piece 302, realize the fixed band 203 to work piece 8's fixed, the spring of installing between chucking piece 302 and the auxiliary plate 301 has work piece 8 when the installation, directly block backward slip on chucking piece 302, make work piece 8 front end be in the position of fixed block 202, realize the quick installation effect of work piece 8.

Wherein, the regulating spindle 401 of the fine tuning part 4 is rotatably mounted at the position near the front end of the mounting frame 1, the middle part of the regulating spindle 401 is in threaded connection with a regulating block 402, the top of the regulating block 402 is rotatably mounted with a sliding block 403, the sliding block 403 slides at the front end position of the bearing plate 201, when the regulating spindle 401 is manually rotated, the regulating block 402 in threaded connection with the regulating spindle 401 can be moved, and at the moment, the sliding block 403 can swing left and right, so that the sliding block 403 drives the bearing plate 201 to swing left and right slightly, and the fine tuning function of the fine tuning part 4 on the left and right positions of the bearing part 2 is realized.

Wherein, the slider 503 of control part 5 sets up the position department about mounting bracket 1, slider 503 slidable mounting of mounting bracket 1 has carrier bar 502, install slider 503 on with mounting bracket 1, let carrier bar 502 realize better slidable mounting in slider 503 position department of mounting bracket 1, control lever 501 is installed to the outer end spiro union of carrier bar 502, control lever 501 rotates and installs the left and right sides position at mounting bracket 1, control lever 501 rear side position passes through synchronizing shaft connection transmission, set up the outer end department of two sets of carrier bars 502 into with control lever 501 spiro union installation, make control lever 501 realize the slip control effect to carrier bar 502 in the rotation, and pass through synchronizing shaft connection transmission with the rear side position of control lever 501, realized the synchronous motion effect of two sets of control levers 501, let control lever 501 realize the synchronous control effect to carrier bar 502, install fixed plate 504 between the bottom of two sets of carrier bars 502, at first install punching equipment 9, thereby in order to increase the coaxial when punching equipment 9 uses, directly let fixed plate 502 between the bottom of two sets of carrier bars 504, realize the synchronous motion of carrier bar 502, let the coaxial equipment of coaxial carrier bar 502 always be in the synchronous motion of stable state.

Wherein, the slip inside groove 601 of collection subassembly 6 sets up the loading part 2 both sides position on the mounting bracket 1, and slip inside groove 601 department slidable mounting has collecting box 602, sets up two sets of slip inside groove 601 on with the mounting bracket 1, and slip inside groove 601 is in the bottom of the fixed work piece 8 on loading part 2, lets slidable mounting in the collecting box 602 of slip inside groove 601, realizes better bearing the effect that drilling equipment 9 collected the piece that work piece 8 trompil grows.

Wherein, the installation pole 701 of clearance part 7 articulates and installs on collecting the protruding bench of subassembly 6, install clearance board 702 on the installation pole 701, install the installation pole 701 articulatedly on collecting the subassembly 6 for installation pole 701 can be when not using, pack up clearance board 702 swing square, be provided with the brush hair on the clearance board 702, the position of the comb Mao Chaoxiang work piece 8 of clearance board 702 sets up the brush hair on the clearance board 702, when making work piece 8 in slip joint installation and dismantlement, the brush of letting clearance board 702 clear up debris on the work piece 8, guaranteed the cleaning performance of work piece 8.

Specific use and action of the embodiment:

according to the utility model, the bearing plate 201 with a rectangular structure is arranged to be rotatably mounted on the mounting frame 1, so that the subsequent effect of conveniently adjusting the angle of the bearing plate 201 through the fine adjustment component 4 is realized, the fixed block 202 arranged on the bearing plate 201 has the effect of enabling the fixed block 202 to realize the position fixing of the workpiece 8, the clamping block 302 of the auxiliary component 3 slides on the bearing plate 201 when the workpiece 8 is mounted, the clamping block 302 can be clamped at the rear side position of the workpiece 8, and the spring additionally arranged between the clamping block 302 and the auxiliary plate 301 has the effect of enabling the front end of the workpiece 8 to be positioned at the position of the fixed block 202 by being directly clamped on the clamping block 302 when the workpiece 8 is mounted, so that the rapid mounting effect of the workpiece 8 is realized; when the fine adjustment component 4 is used, the adjusting shaft 401 is manually rotated, the adjusting block 402 screwed on the adjusting shaft 401 is moved, and the sliding block 403 swings left and right at the moment, so that the sliding block 403 drives the bearing plate 201 to slightly swing left and right, and the fine adjustment component 4 performs fine adjustment on the left and right positions of the bearing component 2; the outer ends of the two groups of bearing blocks 502 of the control part 5 are arranged to be in threaded connection with the control rod 501, so that the control rod 501 rotates to realize the sliding control function on the bearing blocks 502, the rear side position of the control rod 501 is connected and driven through a synchronous shaft, the synchronous motion function of the two groups of control rods 501 is realized, the control rod 501 realizes the synchronous control function on the bearing blocks 502, and as the punching equipment 9 is arranged on the bearing blocks 502, the fixing plate 504 is directly fixed between the bottoms of the two groups of bearing blocks 502 for increasing the coaxiality of the punching equipment 9 during use, the stable synchronous motion of the bearing blocks 502 is realized, and the punching equipment 9 on the bearing blocks 502 is always in a coaxiality state.

Claims

1. Coaxial hole processing mechanism, its characterized in that: comprises a mounting frame (1); the utility model discloses a cleaning device for the solar energy collector, including mounting bracket (1), including bearing component (2), auxiliary component (3), support component (2) are installed in the department rotation of middle department in the upper end of mounting bracket (1), auxiliary component (3) are installed in rear side position department, auxiliary component (3) are installed in front end department fixed mounting has work piece (8) on bearing component (2), end position department of mounting bracket (1) is provided with fine setting part (4), the middle top and the bearing component (2) of fine setting part (4) are connected, control part (5) are installed in outer end position department of mounting bracket (1), slidable mounting has drilling equipment (9) on control part (5), bearing component (2)'s both ends position slidable mounting has collection subassembly (6), clearance part (7) are installed in rear side department that is close to work piece (8) on collection subassembly (6).

2. The coaxial hole machining mechanism according to claim 1, wherein: the bearing plate (201) of the bearing component (2) is of a rectangular plate-shaped structure, the middle bottom of the bearing plate (201) is rotatably mounted on the mounting frame (1), three groups of fixing blocks (202) are fixed near the front end of the middle of the bearing plate (201), clamping grooves are formed in each group of fixing blocks (202), the fixing belts (203) are mounted in the clamping grooves in a clamping mode, and the root positions of the fixing belts (203) are connected with the auxiliary component (3).

3. The coaxial hole machining mechanism according to claim 2, wherein: the auxiliary plate (301) of the auxiliary component (3) is fixed at the rear side of the bearing plate (201), the front end of the auxiliary plate (301) of the bearing plate (201) is slidably provided with a clamping block (302), a spring is additionally arranged between the clamping block (302) and the auxiliary plate (301), and the fixing belt (203) is directly fixed on the clamping block (302).

4. The coaxial hole machining mechanism according to claim 2, wherein: the adjusting shaft (401) of the fine adjusting component (4) is rotatably arranged at the position close to the front end of the mounting frame (1), the middle of the adjusting shaft (401) is in threaded connection with the adjusting block (402), the top of the adjusting block (402) is rotatably provided with the sliding block (403), and the sliding block (403) slides at the front end of the bearing plate (201).

5. The coaxial hole machining mechanism according to claim 1, wherein: the sliding strip (503) of control part (5) sets up the position department about mounting bracket (1), and sliding strip (503) slidable mounting of mounting bracket (1) has carrier block (502), and control lever (501) is installed in outer end spiro union of carrier block (502), and control lever (501) are rotated and are installed in the left and right sides position of mounting bracket (1), and control lever (501) rear side position passes through synchronizing shaft connection transmission, connects between the bottom of two sets of carrier blocks (502) and installs fixed plate (504).

6. The coaxial hole machining mechanism according to claim 1, wherein: the sliding inner groove (601) of the collecting assembly (6) is arranged at two sides of the bearing component (2) on the mounting frame (1), and the collecting box (602) is slidably arranged at the sliding inner groove (601).

7. The coaxial hole machining mechanism according to claim 1, wherein: the mounting rod (701) of the cleaning component (7) is hinged to the protruding platform of the collecting assembly (6), the cleaning plate (702) is mounted on the mounting rod (701), bristles are arranged on the cleaning plate (702), and the comb Mao Chaoxiang of the cleaning plate (702) is located at the workpiece (8).