CN216178615U - Numerical control machining device for aviation organic glass - Google Patents

Abstract

The utility model discloses a numerical control machining device for aviation organic glass, which belongs to the technical field of numerical control machining devices for aviation organic glass and comprises a CNC machining table, wherein support tables are respectively arranged at the upper ends of the left side and the right side of the CNC machining table, a supporting plate is arranged at the top end of the support tables, mounting plates are respectively arranged at the top ends of the far sides of the two supporting plates, electric push rods are respectively arranged at the opposite side ends of the two mounting plates, the output end of one side, far away from the mounting plates, of each electric push rod is connected with a push plate, the bottom end of each push plate is connected with the corresponding supporting plate in a sliding mode through a supporting sliding assembly, transverse plates are respectively arranged at the upper ends of the opposite sides of the two push plates, positioning assemblies are arranged on the transverse plates, limiting assemblies are arranged on the positioning assemblies, and rubber shock-absorbing pads are arranged on the surfaces of the top ends of the CNC machining table, so that the numerical control machining device for aviation organic glass is simple and convenient to operate, the working efficiency of the device is improved, and the protective effect on aviation organic glass is improved.

Description

Numerical control machining device for aviation organic glass

Technical Field

The utility model relates to the technical field of numerical control machining devices for aviation organic glass, in particular to a numerical control machining device for aviation organic glass.

Background

Aviation organic glass is with methyl methacrylate as main material, add a small amount of auxiliaries, transparent plate that makes through the body polymerization under the initiator effect, traditional numerical control processingequipment is adding man-hour to aviation organic glass, it is fixed to use anchor clamps to carry out the centre gripping to aviation organic glass more often, the use of anchor clamps is loaded down with trivial details, influence work efficiency, and numerical control processingequipment's protecting effect is not good, aviation organic glass produces the wearing and tearing phenomenon by the influence of anchor clamps easily at the in-process of processing, influence aviation organic glass's production quality, in order to improve numerical control processingequipment's work efficiency and to aviation organic glass's protecting effect, for this reason, we provide an aviation organic glass's numerical control processingequipment.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a numerical control machining device for aviation organic glass, which aims to solve the problems in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme: the utility model provides an aviation organic glass's numerical control processingequipment, includes the CNC processing platform, the equal installation in the left and right sides upper end of CNC processing platform is equipped with the brace table of laminating mutually with the CNC processing platform, and two brace tables are opposite each other, the top installation of brace table is equipped with the layer board, two the mounting panel is all installed and is equipped with two on one side top that the layer board was kept away from mutually the side all installs and is equipped with electric putter, electric putter keeps away from one side output of mounting panel and is connected with the push pedal, the bottom of push pedal is through supporting sliding assembly sliding connection layer board, two the diaphragm is all installed and is equipped with in the one side upper end that the push pedal is relative, the installation is equipped with locating component on the diaphragm, the installation is equipped with spacing subassembly on the locating component, the top surface mounting of CNC processing platform is equipped with the rubber shock pad.

Furthermore, the positioning assembly comprises a first slide bar, the first slide bar is inserted in the middle of the top end of the transverse plate in a sliding mode, a fixed plate is arranged at the bottom end of the first slide bar, a first reset spring is arranged between the fixed plate and the transverse plate in an installing mode, the first reset spring is movably sleeved on the outer surface of the first slide bar, a protection cushion layer matched with the fixed plate is arranged at the bottom end of the fixed plate, and a first pulling piece is arranged at the top end of the first slide bar.

Furthermore, the limiting assembly comprises a second sliding rod, the second sliding rod is inserted into one side end of the push plate in a sliding mode and is symmetrically located right above the transverse plate, the second sliding rod and the first sliding rod are perpendicular to each other, one side end of the second sliding rod is connected with the first sliding rod in a sliding and penetrating mode, a first sliding groove matched with the second sliding rod is formed in the first sliding rod, one side end, far away from the first sliding rod, of the second sliding rod penetrates through the push plate in a sliding mode and is connected with a second pulling piece, a second reset spring is installed between the push plate and the second pulling piece, and the second reset spring is movably sleeved on the outer surface of the second sliding rod.

Furthermore, a set of second sliding grooves are formed in the outer surface of the first sliding rod, the second sliding grooves are correspondingly located right above the first sliding grooves, the second sliding grooves and the first sliding grooves are identical in shape and size, and the second sliding grooves are three and are evenly opposite to each other in the vertical direction.

Further, the sliding assembly comprises a groove arranged on the top surface of the supporting plate, a supporting rod in the horizontal direction is installed in the groove, an auxiliary sliding sleeve is sleeved on the outer surface of the supporting rod in a sliding mode, and the outer top end of the auxiliary sliding sleeve is connected with the push plate.

Further, the rubber shock pad is matched with the CNC machining table, and the height of the rubber shock pad is the same as that of the supporting plate.

Furthermore, both ends all install and are equipped with the cushion ring about the auxiliary sliding sleeve is outside, cushion ring and auxiliary sliding sleeve looks adaptation.

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

1. by arranging the positioning assembly, the limiting assembly and the second sliding chute, the second sliding rod can be driven to be separated from the first sliding chute by pulling the second pulling piece outwards, wherein the second reset spring is stretched, the first sliding rod can be driven to slide downwards by the elastic action of the first reset spring, so that the fixing plate can be driven to drive the protective cushion layer to move downwards, the aviation organic glass can be quickly fixed on the CNC processing table by the combined cooperation of the first reset spring, the first sliding rod, the fixing plate and the protective cushion layer, the processing efficiency of the device can be improved, the outer surface of the aviation organic glass can be protected by arranging the protective cushion layer, the protection effect of the device on the aviation organic glass can be improved, the second sliding rod can be driven to quickly reset by the elastic action of the second reset spring, so that the second sliding rod can be inserted into the second sliding chute in a sliding way, the position of being convenient for when using first slide bar is fixed, is favorable to improving locating component's result of use.

2. Through setting up electric putter, the output through electric putter promotes the push pedal and moves left or right, can keep away from CNC processing platform with it when not using locating component, conveniently places aviation organic glass, through setting up the rubber shock pad, when protecting aviation organic glass's bottom surface, can reduce shaking of this device during operation dynamic or vibrations and feel, is favorable to further improving the protective effect to aviation organic glass.

3. Through setting up sliding assembly, through the sliding action of supplementary sliding sleeve and bracing piece, stability when being favorable to improving the push pedal motion, through setting up the buffering packing ring, be favorable to improving the buffering protective effect of supplementary sliding sleeve, prevent to produce wearing and tearing between supplementary sliding sleeve and the recess inner wall, be favorable to prolonging the life of supplementary sliding sleeve.

Drawings

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

FIG. 2 is an enlarged schematic view of FIG. 1 at A;

FIG. 3 is a schematic structural view of the auxiliary sliding sleeve and the cushion ring according to the present invention;

in the figure: 1. a CNC machining table; 2. a support table; 3. a support plate; 4. mounting a plate; 5. an electric push rod; 6. pushing the plate; 7. a sliding assembly; 71. a groove; 72. a support bar; 73. an auxiliary sliding sleeve; 8. a transverse plate; 9. a positioning assembly; 91. a first slide bar; 92. a fixing plate; 93. a first return spring; 94. a protective cushion layer; 95. a first pulling member; 10. a limiting component; 101. a second slide bar; 102. a first chute; 103. a second pulling member; 104. a second return spring; 11. a rubber shock pad; 12. a second chute; 13. a cushion washer.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

Referring to fig. 1, a numerical control machining device for aviation organic glass comprises a CNC machining table 1, wherein support tables 2 attached to the CNC machining table 1 are installed at the upper ends of the left side and the right side of the CNC machining table 1, the two support tables 2 are opposite to each other, a support plate 3 is installed at the top end of the support tables 2, the support tables 2 comprise triangular fixed blocks, ear plates are fixedly arranged at one side ends of the fixed blocks close to the support plate 3 and the CNC machining table 1, the ear plates are connected with the support plate 3 and the CNC machining table 1 through bolts, the support tables 2 are detachably connected, stable supporting force can be provided for the support plate 3 through the support tables 2, mounting plates 4 are installed at the top ends of the sides far away from the two support plates 3, electric push rods 5 are installed at the opposite side ends of the two mounting plates 4, the output ends of the electric push rods 5 far away from the mounting plates 4 are connected with push plates 6, the bottom ends of the push plates 6 are slidably connected with the support plates 3 through support sliding assemblies 7, all install two push pedal 6 relative one side upper ends and be equipped with diaphragm 8, the installation is equipped with locating component 9 on diaphragm 8, the installation is equipped with spacing subassembly 10 on locating component 9, through setting up electric putter 5, the push pedal 6, diaphragm 8, locating component 9 and spacing subassembly 10, output through electric putter 5 promotes push pedal 6 or moves left or right, can drive diaphragm 8 and carry out synchronous motion, thereby can drive locating component 9 and spacing subassembly 10 and keep away from or be close to CNC processing platform 1, be convenient for keep away from CNC processing platform 1 with it when not using locating component 9 and spacing subassembly 10, be convenient for place aviation organic glass on CNC processing platform 1, the top surface mounting of CNC processing platform 1 is equipped with rubber shock pad 11.

Referring to fig. 2, the positioning assembly 9 includes a first sliding rod 91, the first sliding rod 91 is inserted in the middle of the top end of the transverse plate 8 in a sliding manner, a fixing plate 92 is installed at the bottom end of the first sliding rod 91, a first return spring 93 is installed between the fixing plate 92 and the transverse plate 8, the first return spring 93 is movably sleeved on the outer surface of the first sliding rod 91, a protection cushion 94 adapted to the fixing plate 92 is installed at the bottom end of the fixing plate 92, the aircraft organic glass can be quickly limited and fixed through the cooperation of the first sliding rod 91, the first return spring 93, the fixing plate 92 and the protection cushion 94, which is beneficial to improving the working efficiency of the device, wherein the protection cushion 94 is arranged to protect the outer surface of the aircraft organic glass, which is beneficial to improving the protection effect of the device on the aircraft organic glass, a first pulling member 95 is installed at the top end of the first sliding rod 91, through arranging the first pulling part 95, the first sliding rod 91 is convenient to pull and use, the limiting component 10 comprises a second sliding rod 101, the second sliding rod 101 is inserted into one side end of the push plate 6 in a sliding way and is symmetrically positioned right above the transverse plate 8, the second sliding rod 101 and the first sliding rod 91 are mutually vertical, one side end of the second sliding rod 101 is connected with the first sliding rod 91 in a sliding way, a first sliding groove 102 matched with the second sliding rod 101 is formed in the first sliding rod 91, one side end, far away from the first sliding rod 91, of the second sliding rod 101 penetrates through the push plate 6 in a sliding way and is connected with a second pulling part 103, a second return spring 104 is arranged between the push plate 6 and the second pulling part 103, the second return spring 104 is movably sleeved on the outer surface of the second sliding rod 101, through arranging a second return spring 104, the second sliding rod 101 is convenient to drive to quickly return, a group of second sliding grooves 12 are formed in the outer surface of the first sliding rod 91, the group of second sliding grooves 12 are correspondingly positioned right above the first sliding groove 102, the shapes and sizes of the second sliding grooves 12 and the first sliding groove 102 are the same, the position of the first sliding rod 91 can be fixed when the first sliding rod 91 is not used through the sliding connection between the second sliding rod 101 and the first sliding groove 102, the position of the first sliding rod 91 can be fixed when the first sliding rod 91 is used (the fixed plate 92 and the protective cushion layer 94 are attached to the top surface of the aviation organic glass), the second sliding grooves 12 are uniformly opposite up and down in a group, the device is suitable for aviation organic glass with various thicknesses, the use efficiency of the device is improved, the sliding assembly 7 comprises a groove 71 formed in the top surface of the supporting plate 3, a supporting rod 72 in the horizontal direction is installed in the groove 71, and an auxiliary sliding sleeve 73 is sleeved on the outer surface of the supporting rod 72 in a sliding manner, the outside top of supplementary sliding sleeve 73 is connected with push pedal 6, through setting up sliding assembly 7, is favorable to improving the stability when push pedal 6 moves.

Please refer to fig. 1, the rubber shock pad 11 is adapted to the CNC processing platform 1, the height of the rubber shock pad 11 is the same as the height of the supporting plate 3, and by setting the rubber shock pad 11, the shaking sense and the vibration sense generated during the processing of the device can be reduced, which is beneficial to improving the stability of the device, and the rubber shock pad 11 can avoid the direct contact between the aviation organic glass and the CNC processing platform 1, and can protect the bottom surface of the aviation organic glass.

Example 2

The buffer washers 13 are added on the basis of the embodiment 1, please refer to fig. 2-3, the buffer washers 13 are installed at the left and right ends of the outside of the auxiliary sliding sleeve 73, the buffer washers 13 are matched with the auxiliary sliding sleeve 73, and the arrangement of the buffer washers 13 is favorable for improving the buffer protection effect of the auxiliary sliding sleeve 73, preventing the auxiliary sliding sleeve 73 from being worn away from the inner wall of the groove 71, and prolonging the service life of the auxiliary sliding sleeve 73.

The working principle is as follows: when the device is used, the device is connected with an external power supply, firstly, aviation organic glass is placed on the rubber shock pad 11 on the CNC processing table 1, the electric push rod 5 is started, the push plate 6 is pushed to move towards the aviation organic glass through the output end of the electric push rod 5 until the fixing plate 92 is completely and correspondingly positioned above one side of the top of the aviation organic glass, the electric push rod 5 stops working, wherein the auxiliary sliding sleeve 73 can be driven to slide on the supporting rod 72 in the same direction through the movement of the push plate 6 towards the aviation organic glass, the stability of the push plate 6 during movement is favorably improved through the sliding action of the auxiliary sliding sleeve 73 and the supporting rod 72, the second pulling part 103 is pulled outwards manually, the second sliding rod 101 can be driven to be separated from the first sliding groove 102, wherein the second return spring 104 is stretched, at the moment, the first sliding rod 91 is not limited by the first sliding rod 91, the first sliding rod 91 can be driven to slide downwards by the elastic action of the first return spring 93, so that the fixed plate 92 can be driven, and the protective cushion 94 can be driven to move downwards, through the cooperation of the first return spring 93, the first slide bar 91, the fixed plate 92 and the protection pad 94, the aviation organic glass can be quickly fixed on the CNC processing table 1, the processing efficiency of the device is improved, and by arranging the protective cushion layer, can protect the external surface of the aviation organic glass, is favorable for improving the protection effect of the device on the aviation organic glass, the second slide bar 101 can be driven to reset rapidly by the elastic action of the second reset spring 104, therefore, the second sliding rod 101 can be inserted into one of the second sliding grooves 12 of the first sliding rod 91 in a sliding manner, so that the position of the first sliding rod 91 in use can be conveniently fixed, and the use effect of the positioning assembly 9 can be improved.

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

Claims (7)

1. The utility model provides an aviation organic glass's numerical control processingequipment, includes CNC processing platform (1), its characterized in that: the automatic numerical control machining device is characterized in that supporting tables (2) which are attached to the CNC machining table (1) are arranged at the upper ends of the left side and the right side of the CNC machining table (1), the two supporting tables (2) are opposite to each other, supporting plates (3) are arranged at the top ends of the supporting tables (2), mounting plates (4) are arranged at the top ends of two sides, away from the mounting plates (4), of the supporting plates (3), electric push rods (5) are arranged at the opposite side ends of the two mounting plates (4), the output end, away from the mounting plates (4), of each electric push rod (5) is connected with a push plate (6), the bottom end of each push plate (6) is connected with the corresponding supporting plate (3) in a sliding mode through a supporting sliding component (7), transverse plates (8) are arranged at the upper ends of two opposite sides of the push plates (6), positioning components (9) are arranged on the transverse plates (8), and limiting components (10) are arranged on the positioning components (9), the top surface mounting of CNC processing platform (1) is equipped with rubber shock pad (11).

2. The numerical control machining device for aviation organic glass according to claim 1, characterized in that: the positioning assembly (9) comprises a first sliding rod (91), the first sliding rod (91) is inserted in the middle of the top end of the transverse plate (8) in a sliding mode, a fixing plate (92) is arranged at the bottom end of the first sliding rod (91), a first return spring (93) is arranged between the fixing plate (92) and the transverse plate (8), the first return spring (93) is movably sleeved on the outer surface of the first sliding rod (91), a protective cushion layer (94) matched with the fixing plate (92) is arranged at the bottom end of the fixing plate (92), and a first pulling piece (95) is arranged at the top end of the first sliding rod (91).

3. The numerical control machining device for aviation organic glass according to claim 2, characterized in that: the limiting assembly (10) comprises a second sliding rod (101), the second sliding rod (101) is inserted into one side end of the push plate (6) in a sliding mode and is symmetrically located right above the transverse plate (8), the second sliding rod (101) and the first sliding rod (91) are perpendicular to each other, one side end of the second sliding rod (101) is connected with the first sliding rod (91) in a sliding mode in a penetrating mode, a first sliding groove (102) matched with the second sliding rod (101) is formed in the first sliding rod (91), one side end, far away from the first sliding rod (91), of the second sliding rod (101) slides and penetrates through the push plate (6) and is connected with a second pulling piece (103), a second return spring (104) is installed between the push plate (6) and the second pulling piece (103), and the second return spring (104) is movably sleeved on the outer surface of the second sliding rod (101).

4. The numerical control machining device for aviation organic glass according to claim 3, characterized in that: a set of second sliding grooves (12) are formed in the outer surface of the first sliding rod (91), the second sliding grooves (12) are correspondingly located right above the first sliding groove (102), the second sliding grooves (12) and the first sliding groove (102) are identical in shape and size, and the second sliding grooves (12) are three and are evenly opposite up and down.

5. The numerical control machining device for aviation organic glass according to claim 1, characterized in that: the sliding assembly (7) comprises a groove (71) arranged on the top surface of the supporting plate (3), a supporting rod (72) arranged in the groove (71) in the horizontal direction is installed, an auxiliary sliding sleeve (73) is sleeved on the outer surface of the supporting rod (72) in a sliding mode, and the outer top end of the auxiliary sliding sleeve (73) is connected with the push plate (6).

6. The numerical control machining device for aviation organic glass according to claim 1, characterized in that: the rubber shock pad (11) is matched with the CNC machining table (1), and the height of the rubber shock pad (11) is the same as that of the supporting plate (3).

7. The numerical control machining device for aviation organic glass according to claim 5, characterized in that: both ends all install and are equipped with cushion ring (13) about auxiliary sliding sleeve (73) outside, cushion ring (13) and auxiliary sliding sleeve (73) looks adaptation.

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