CN217413182U - High accuracy cooling tube finish machining positioner - Google Patents

Abstract

The utility model discloses a high accuracy cooling tube finish machining positioner, including slide, motor, holding ring, base, two-way lead screw and complementary unit, the utility model discloses a set up complementary unit in the base inboard, carry out the auxiliary stay through the cooling tube of backup pad in to processing, improved the stability of cooling tube course of working, it is outwards ejecting with the cooling tube at backup pad top to rotate through the bent plate simultaneously, has reached the auxiliary stay to the course of working cooling tube for the cooling tube processing is more stable, and is convenient for the beneficial effect of taking out fast the cooling tube of accomplishing of processing.

Description

High accuracy cooling tube finish machining positioner

Technical Field

The utility model relates to a positioner field of relevance specifically is a high accuracy cooling tube finish machining positioner.

Background

With the rapid development of the society, in order to more efficiently perform production or work, as the power of machinery is larger and larger, more and more heat is generated, the heat dissipation effect of some radiators often cannot meet the heat dissipation requirement of machines, sometimes even the machinery needs to be stopped to reduce the temperature and then works again, or the heat dissipation effect is mechanically damaged due to overhigh temperature, the heat dissipation pipes are important components in the radiators, and positioning devices are needed to be used in the process of processing the heat dissipation pipes.

When the positioning device fixes the position of the radiating pipe and adds the radiating pipe, because part of the radiating pipe is long in length, and the positioning device is usually used for fixing the two ends of the radiating pipe, the supporting force of the processing points of the radiating pipe is poor, the radiating pipe processing process is easy to damage, and meanwhile, the radiating pipe is taken down from the positioning device for manual work after the processing is completed, so that the working efficiency is reduced, and the stability of the radiating pipe when the processing process is placed is poor.

SUMMERY OF THE UTILITY MODEL

Therefore, in order to solve the above insufficiency, the utility model provides a high accuracy cooling tube finish machining positioner here.

The utility model discloses a realize like this, construct a high accuracy cooling tube finish machining positioner, the device includes slide, motor and holding ring, the slide is provided with two in the base inboardly, and two slides respectively slidable mounting in both ends about the base is inboard, the motor lock in base left end face bottom, and motor right side output shaft pass behind the base left end face fixed connection in two-way lead screw left end face, the positioning ring lock about two slides looks right side face top, two-way lead screw outside right-hand member rotates with base inboard right-hand member bottom to be connected, and the inboard screw-thread fit of screw that two-way lead screw side surface and slide left end face bottom were seted up, complementary unit sets up in the base inboardly, clamping mechanism sets up in the holding ring inboardly, complementary unit includes drive wheel, electric motor, drive belt, installation piece, connecting rod, backup pad, support plate, The electric motor is locked at the right end of the front end face of the base, an output shaft at the rear end of the electric motor penetrates through the front end face of the base and then is connected with the middle of the front end face of the driving wheel on the right side, the left end and the right end of the inner side of the driving belt are respectively tightly attached to the opposite faces of the outer sides of the two driving wheels, the mounting block is slidably mounted in the middle of the inner side of the base, the mounting block is fastened in the middle of the top of the driving belt, the connecting rod is arranged in the middle of the bottom end face of the supporting plate, the ejection mechanism is arranged at the top end of the mounting block, the inserting rod is fastened in the middle of the bottom end face of the connecting rod and is matched with the inner side of the inserting groove, and the inserting groove is formed in the top end face of the mounting block.

Preferably, ejection mechanism includes mount, electric putter, L type pole, opening and bent plate, the mount is installed in installation piece top face middle part, and the inboard bottom closure of mount has electric putter, electric putter top piston rod is connected in L type pole bottom face mutually, L type pole right-hand member top activity stretches into in the opening inboard, the opening is seted up in bent plate left end face rear end, both ends middle part is rotated through pivot and the inboard top of mount about the bent plate and is connected, and the bent plate runs through in the inboard top face of mount.

Preferably, screens mechanism includes rubber circle, cylinder, recess, bent cardboard, sheet rubber and spring, the rubber circle is pasted in the holding ring inner circle, and rubber circle inner circle covers in cylinder and bent cardboard outside end face, the cylinder is connected in the inboard left end face of holding ring, the recess is seted up in cylinder outside right-hand member, bent cardboard rotates and installs in the recess inboardly, and bent cardboard is connected in cylinder outside left end through the spring, the sheet rubber is pasted in bent cardboard outside end face

Preferably, the middle part of the right end face of the sliding plate is provided with a through hole, and the size of the position of the through hole corresponds to that of the transmission belt.

Preferably, the supporting plate is in an arc shape protruding downwards, and the top end face of the supporting plate is flush with the bottom of the inner side of the positioning ring.

Preferably, the side surface of the inserted link is provided with a rubber sheet, and the thickness of the rubber sheet is 0.1cm to 0.2 cm.

Preferably, more than two slots are formed in the top end face of the mounting block at equal intervals, and all the slots are distributed along the same X axis.

Preferably, the front end of the top end face of the fixing frame is provided with a strip-shaped hole, and the width of the inner side of the strip-shaped hole corresponds to the width of the curved plate.

Preferably, the top of the right end of the L-shaped rod is in the shape of a cylindrical rod, and the L-shaped rod is perpendicular to the top end face of the electric push rod.

The utility model has the advantages of as follows: the utility model discloses an improve and provide a high accuracy cooling tube finish machining positioner here, compare with equipment of the same type, have following improvement:

the method has the advantages that: a high accuracy cooling tube finish machining positioner, it is inboard in the base through having set up complementary unit, carry out the auxiliary stay through the cooling tube of backup pad in to processing, improved the stability of cooling tube course of working, it is outwards ejecting with the cooling tube at backup pad top to rotate through the bent plate simultaneously, reached the auxiliary stay to the course of working cooling tube for the cooling tube processing is more stable, and be convenient for the beneficial effect who takes out the cooling tube of accomplishing with processing fast.

The method has the advantages that: a high accuracy cooling tube finish machining positioner, equidistant more than two slots of having seted up through installation piece top face, and all slots are with X axle distribution, be convenient for be fixed in the inserted bar on the different positions at installation piece top.

Drawings

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

fig. 2 is a schematic view of the front cross-sectional structure of the base of the present invention;

FIG. 3 is a schematic view of the front cross-sectional structure of the auxiliary mechanism of the present invention;

FIG. 4 is a schematic view of the slide plate structure of the present invention;

fig. 5 is a schematic view of a right-side sectional structure of the ejection mechanism of the present invention;

fig. 6 is a schematic front sectional view of the locking mechanism of the present invention.

Wherein: the device comprises a sliding plate-1, a motor-2, a positioning ring-3, a base-4, a bidirectional screw rod-6, an auxiliary mechanism-5, a transmission wheel-51, an electric motor-52, a transmission belt-53, an installation block-54, a connecting rod-55, a supporting plate-56, an ejection mechanism-57, an insertion rod-58, an insertion slot-59, a fixing frame-571, an electric push rod-572, an L-shaped rod-573, an opening-574, a curved plate-575, a clamping mechanism-7, a rubber ring-71, a cylinder-72, a groove-73, a curved clamping plate-74, a rubber sheet-75 and a spring-76.

Detailed Description

The present invention will be described in detail with reference to the accompanying fig. 1-6, and the technical solutions in the embodiments of the present invention will be clearly and completely described, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Please refer to fig. 1 and 2, the utility model provides a high accuracy cooling tube finish machining positioner through the improvement here, including slide 1, motor 2 and holding ring 3, slide 1 is provided with two in 4 inboards of base, and two slides 1 respectively slidable mounting in 4 inboards of base both ends about, the through-hole has been seted up at 1 right-hand member face middle part of slide, and the position size of through-hole is corresponding to drive belt 53, motor 2 closure is in 4 left end face bottoms of base, and 2 right side output shafts of motor pass 4 left end faces after fixed connection in 6 left end faces of two-way lead screw, holding ring 3 closures are in two 1 control oppositions top of slide, 6 outside right-hand members of two-way lead screw are connected with 4 inboard right-hand member bottoms of base are rotated, and the inboard screw thread fit of the screw that 6 side surfaces of two-way lead screw and 1 left end face bottom of slide were seted up.

Referring to fig. 3 and 4, the present invention provides a high-precision radiating pipe fine-machining positioning device through improvement, wherein an auxiliary mechanism 5 is disposed inside a base 4, the auxiliary mechanism 5 includes a transmission wheel 51, an electric motor 52, a transmission belt 53, an installation block 54, a connection rod 55, a support plate 56, an ejection mechanism 57, an insertion rod 58 and an insertion slot 59, the transmission wheel 51 is rotatably installed at the middle of the left and right ends inside the base 4, the electric motor 52 is locked at the right end of the front end surface of the base 4, and the rear end output shaft of the electric motor 52 passes through the front end surface of the base 4 and then is connected to the middle of the front end surface of the transmission wheel 51 at the right side, the left and right ends inside the transmission belt 53 are respectively tightly attached to the outer opposite surfaces of the two transmission wheels 51, the installation block 54 is slidably installed at the middle of the inside of the base 4, and the installation block 54 is fastened at the middle of the top of the transmission belt 53, the top end surface of the installation block 54 is provided with more than two insertion slots 59 at equal intervals, and all slots 59 are distributed along the same X axis, so that the inserting rod 58 can be conveniently fixed at different positions on the mounting block 54, the connecting rod 55 is arranged in the middle of the bottom end face of the supporting plate 56, the supporting plate 56 is in an arc shape protruding downwards, the top end face of the supporting plate 56 is flush with the bottom of the inner side of the positioning ring 3, so that the supporting plate 56 can be stably attached to the bottom of the radiating pipe, the ejection mechanism 57 is arranged at the top end of the mounting block 54, the inserting rod 58 is fastened in the middle of the bottom end face of the connecting rod 55, the inserting rod 58 is matched with the inner side of the slot 59, a rubber sheet is arranged on the side surface of the inserting rod 58, the thickness of the rubber sheet is 0.1cm to 0.2cm, so that the inserting rod 58 is more stably fixed in the slot 59, and the slot 59 is arranged on the top end face of the mounting block 54.

Referring to fig. 5, the present invention provides a high-precision positioning device for heat pipe fine machining through improvement, wherein the ejection mechanism 57 includes a fixing frame 571, an electric push rod 572, an L-shaped rod 573, an opening 574 and a curved plate 575, the fixing frame 571 is installed in the middle of the top end surface of the installation block 54, the electric push rod 572 is locked at the bottom inside the fixing frame 571, a strip-shaped hole is formed at the front end of the top end surface of the fixing frame 571, the width of the inner side of the strip-shaped hole corresponds to the width of the curved plate 575, so that the curved plate 575 rotates at the top inside of the fixing frame 571, the piston rod at the top of the electric push rod 572 is connected to the bottom end surface of the L-shaped rod 573, the top of the right end of the L-shaped rod 573 movably extends into the opening 574, the top of the right end of the L-shaped rod 573 is in a cylindrical rod shape, the L-shaped rod 573 is perpendicular to the top end surface of the electric push rod 572, so that the L-shaped rod 573 drives the curved plate 574 to rotate stably, the opening is formed at the rear end surface of the left end surface of the curved plate 575, the middle parts of the left and right ends of the curved plate 575 are rotatably connected with the top of the inner side of the fixing frame 571 through a rotating shaft, and the curved plate 575 penetrates through the top surface of the inner side of the fixing frame 571.

Please refer to fig. 6, the utility model provides a high accuracy cooling tube finish machining positioner through the improvement here, clamping mechanism 7 includes rubber circle 71, cylinder 72, recess 73, curved cardboard 74, rubber sheet 75 and spring 76, rubber circle 71 pastes in the 3 inner circles of holding ring, and rubber circle 71 inner circle covers in cylinder 72 and curved cardboard 74 outside end face, cylinder 72 is connected in the 3 inboard left end faces of holding ring, recess 73 sets up in cylinder 72 outside right-hand member, curved cardboard 74 rotates and installs in recess 73 inboardly, and curved cardboard 74 is connected in cylinder 72 outside left end through spring 76, rubber sheet 75 pastes in curved cardboard 74 outside end face.

The utility model provides a high-precision radiating tube finish machining positioning device through improvement, and the working principle is as follows;

firstly, the base 4 drives the whole device to be fixedly arranged at a designated position on the radiating pipe processing device, and the motor 2 and the electric motor 52 are connected to an external controller;

secondly, the heat dissipation pipe to be processed can be placed in two positioning rings 3, the heat dissipation pipe applies pressure to the curved clamping plate 74 and the spring 76 is compressed under stress in the process of being placed in the positioning rings 3, when the heat dissipation pipe is completely placed in the positioning rings 3, the curved clamping plate 74 applies pressure to the heat dissipation pipe under the elastic force of the spring 76 so that the heat dissipation pipe is stably placed in the positioning rings 3, the heat dissipation pipe is attached to the top end face of the supporting plate 56, the motor 2 is started to drive the two-way screw rod 6 to rotate, the two sliding plates 1 move downwards and radially inwards under the action of the two-way screw rod 6, the sliding plates 1 drive the positioning rings 3 to move inwards to clamp the heat dissipation pipe, the motor 2 is powered off, the heat dissipation pipe can be processed, the electric motor 52 can be started to drive the driving wheel 51 to rotate on different positions of the heat dissipation pipe to be processed, and the driving wheel 53 drives the mounting block 54, The connecting rod 55 and the supporting plate 56 horizontally slide to adapt to the machining point of the radiating pipe by the machining device, so that the machining point of the machining device is always positioned in the middle of the two supporting plates 56;

thirdly, after the cooling tube is processed, the motor 2 can be reversely started to drive the two positioning rings 3 to separate, at the moment, the cooling tube is supported by the supporting plate 56, then the electric push rod 572 is started to drive the L-shaped rod 573 to vertically move downwards, and the L-shaped rod 573 is matched with the opening 574 to drive the curved plate 575 to rotate anticlockwise, so that the top of the curved plate 575 is rotated upwards to push the cooling tube to move upwards to separate from the top of the supporting plate 56, and the cooling tube enters the collection device which is arranged in advance in the external processing device to be collected.

The utility model discloses an improvement provides a high accuracy cooling tube finish machining positioner, carry out the auxiliary stay through backup pad 56 to the cooling tube in the processing, the stability of cooling tube course of working has been improved, it is outwards ejecting to rotate the cooling tube at backup pad 56 top through bent plate 575 simultaneously, the auxiliary stay to the course of working cooling tube has been reached, make the cooling tube processing more stable, and be convenient for the beneficial effect of taking out fast of the cooling tube of accomplishing of processing, equidistant two above slots 59 of having seted up through installation piece 54 top face, and all slots 59 are with X axle distribution, be convenient for be fixed in on the different positions at installation piece 54 top with inserted bar 58.

The basic principle and the main characteristics of the utility model and the advantages of the utility model have been shown and described above, and the utility model discloses the standard part that uses all can purchase from the market, and dysmorphism piece all can be customized according to the record of the description with the drawing, and the concrete connection mode of each part all adopts conventional means such as ripe bolt rivet among the prior art, welding, and machinery, part and equipment all adopt prior art, conventional model, and conventional connection mode in the prior art is adopted in addition to circuit connection, and the details are not repeated here.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (9)

1. The utility model provides a high accuracy cooling tube finish machining positioner, includes slide (1), motor (2) and holding ring (3), slide (1) is provided with two in base (4) inboard, and two slides (1) respectively sliding mounting in base (4) inboard both ends about, motor (2) closure is in base (4) left end face bottom, and motor (2) right side output shaft pass base (4) left end face after fixed connection in two-way lead screw (6) left end face, holding ring (3) closure is in two slides (1) right and left opposite face tops, two-way lead screw (6) outside right-hand member is connected with base (4) inboard right-hand member bottom rotation, and two-way lead screw (6) side surface and the inboard screw thread fit of the screw that slide (1) left end face bottom was seted up;

the method is characterized in that: the auxiliary mechanism (5) is arranged on the inner side of the base (4), the clamping mechanism (7) is arranged on the inner side of the positioning ring (3), the auxiliary mechanism (5) comprises a transmission wheel (51), an electric motor (52), a transmission belt (53), an installation block (54), a connecting rod (55), a supporting plate (56), an ejection mechanism (57), an insertion rod (58) and an insertion slot (59), the transmission wheel (51) is rotatably provided with two middle parts of the left end and the right end of the inner side of the base (4), the electric motor (52) is locked at the right end of the front end surface of the base (4), an output shaft of the rear end of the electric motor (52) penetrates through the front end surface of the base (4) and then is connected with the middle part of the front end surface of the transmission wheel (51) on the right side, the left end and the right end of the inner side of the transmission belt (53) are respectively clung to the outer opposite surfaces of the two transmission wheels (51), the mounting block (54) is slidably mounted in the middle of the inner side of the base (4), the mounting block (54) is fastened in the middle of the top of the transmission belt (53), the connecting rod (55) is arranged in the middle of the bottom end face of the supporting plate (56), the ejection mechanism (57) is arranged at the top end of the mounting block (54), the insertion rod (58) is fastened in the middle of the bottom end face of the connecting rod (55), the insertion rod (58) is matched with the inner side of the insertion groove (59), and the insertion groove (59) is formed in the top end face of the mounting block (54).

2. The fine finishing positioning device for the high-precision radiating pipe according to claim 1, wherein: the ejection mechanism (57) comprises a fixed frame (571), an electric push rod (572), an L-shaped rod (573), an opening (574) and a curved plate (575), the fixed frame (571) is installed in the middle of the top end face of the installation block (54), the electric push rod (572) is locked at the bottom of the inner side of the fixed frame (571), a piston rod at the top of the electric push rod (572) is connected to the bottom end face of the L-shaped rod (573), the top of the right end of the L-shaped rod (573) movably extends into the inner side of the opening (574), the opening (574) is formed in the rear end of the left end face of the curved plate (575), the middle of the left end and the right end of the curved plate (575) is rotatably connected with the top of the inner side of the fixed frame (571) through a rotating shaft, and the curved plate (575) penetrates through the top end face of the inner side of the fixed frame (571).

3. The fine finishing positioning device for the high-precision radiating pipe according to claim 1, wherein: clamping mechanism (7) include rubber circle (71), cylinder (72), recess (73), bent type cardboard (74), rubber sheet (75) and spring (76), rubber circle (71) are pasted in holding ring (3) inner circle, and rubber circle (71) inner circle cover in cylinder (72) and bent type cardboard (74) outside terminal surface, cylinder (72) are connected in holding ring (3) inboard left end face, cylinder (72) outside right-hand member is seted up in recess (73), bent type cardboard (74) rotate and install in recess (73) are inboard, and bent type cardboard (74) are connected in cylinder (72) outside left end through spring (76), rubber sheet (75) are pasted in bent type cardboard (74) outside terminal surface.

4. The fine finishing positioning device for the high-precision radiating pipe according to claim 1, wherein: the middle part of the right end face of the sliding plate (1) is provided with a through hole, and the position of the through hole corresponds to the transmission belt (53).

5. The fine finishing positioning device for the high-precision radiating pipe according to claim 1, wherein: the supporting plate (56) is in an arc shape protruding downwards, and the top end face of the supporting plate (56) is flush with the bottom of the inner side of the positioning ring (3).

6. The fine finishing positioning device for the high-precision radiating pipe according to claim 1, wherein: the side surface of the inserted bar (58) is provided with a rubber sheet, and the thickness of the rubber sheet is 0.1cm to 0.2 cm.

7. The fine finishing positioning device for the high-precision radiating pipe according to claim 1, wherein: more than two slots (59) are formed in the top end face of the mounting block (54) at equal intervals, and all the slots (59) are distributed on the same X axis.

8. The fine finishing positioning device for the high-precision radiating pipe as claimed in claim 2, wherein: the front end of the top end surface of the fixing frame (571) is provided with a strip-shaped hole, and the width of the inner side of the strip-shaped hole corresponds to the width of the curved plate (575).

9. The fine finishing positioning device for the high-precision radiating pipe as claimed in claim 2, wherein: the top of the right end of the L-shaped rod (573) is in a shape of a cylindrical rod, and the L-shaped rod (573) is perpendicular to the top end face of the electric push rod (572).

Images