Automatic control processing device for large-scale material new energy automobile distribution high-heat-conductivity radiator
Technical Field
The invention relates to the technical field of new energy automobile accessory processing, in particular to an automatic control processing device for a large-scale new energy automobile accessory high-heat-conductivity radiator.
Background
The new energy automobile occupies a larger and larger area in the automobile market, more and more automobile enterprises are also increasing research on the production and processing aspects of new energy automobile accessories, an automobile radiator is an important new energy automobile accessory, the radiator is a part playing a core role in an automobile engine cooling system, and the heat radiation effect of an automobile engine is directly influenced by the heat radiation performance and the mechanical performance. The new energy automobile distribution high heat conduction radiator also becomes the main direction of research of a plurality of automobile distribution enterprises.
High heat conduction radiator of new forms of energy auto parts need carry out manual assembly when the process of carrying out the installation of main leaf, along with the increase to new energy automobile demand on the market to and the improvement of car security performance requirement, current manual assembly and the demand that can not satisfy the market, manual assembly is not only work efficiency low, and main leaf installation quality can not be ensured in addition, and simultaneously, manual operation leads to the high heat conduction radiator of new forms of energy auto parts cost higher.
Therefore, an automatic control processing device for a large-sized new energy automobile distribution high-heat-conductivity radiator is provided to solve the problems.
Disclosure of Invention
The invention aims to solve the problems in the prior art, and provides an automatic control processing device for a large-scale new-energy automobile distribution high-heat-conductivity radiator.
In order to achieve the purpose, the invention adopts the following technical scheme:
the automatic control processing device for the large-scale new-energy automobile distribution high-heat-conductivity radiator comprises two first supporting seats, two second supporting seats and two mounting frames, wherein the two first supporting seats are symmetrically arranged, the two second supporting seats are symmetrically arranged, the connecting line between the two first supporting seats is perpendicular to the connecting line between the two second supporting seats, each first supporting seat is symmetrically and fixedly connected with two first supporting frames, a first motor is installed on the side wall of one first supporting frame, a transmission roller is connected between the two first supporting frames in a rotating mode, the two first supporting frames are corresponding in position, one end of one transmission roller penetrates through the first supporting frame and is welded to an output shaft of the first motor, and a conveyor belt is sleeved on the two transmission rollers;
each second supporting seat is fixedly connected with a second supporting frame, a connecting framework is welded between the two second supporting frames, two mounting assemblies and two force application assemblies are symmetrically sleeved on the connecting framework in a sliding mode, each mounting assembly is provided with a hydraulic cylinder, the output end of each hydraulic cylinder is fixedly connected with the force application assemblies, each force application assembly is provided with a clamping seat, the side wall of each second supporting frame is provided with a second motor, the output shaft of each second motor penetrates through the second supporting frames and is welded with a threaded rod, and each mounting assembly and each force application assembly are in threaded connection with the threaded rod corresponding to the position;
every all install coupling assembling on the installation component, two install pressure equipment device jointly between the coupling assembling.
In foretell high heat conduction radiator automated control processingequipment of big section bar new forms of energy auto parts, two the mounting bracket is located the both sides of conveyer belt respectively, every the logical groove of installation has all been seted up to the lower surface of mounting bracket, every equal fixedly connected with connecting spring on the inner wall that the groove was led to in the installation, connecting spring's lower extreme fixedly connected with installation cover, and the installation cover is located the logical inslot of installation, and the position is corresponding two install the compression roller jointly between the installation cover, and the compression roller is located the top of conveyer belt.
In foretell high heat conduction radiator automated control processingequipment of big section bar new forms of energy auto parts, the installation component includes riser, connection diaphragm and second riser, the equal threaded connection of riser and second riser is on the threaded rod, and the equal slip of riser and second riser cup joints on connecting the skeleton, the pneumatic cylinder is installed between riser and second riser, connect the horizontal fixed connection of diaphragm in the upper end of riser and second riser, and coupling assembling installs on connecting the diaphragm.
In foretell high heat conduction radiator automated control processingequipment of big section bar new forms of energy auto parts, afterburning subassembly includes slurcam, propulsion seat and gusset, propulsion seat fixed connection is between slurcam and gusset, and the output circle fixed connection of pneumatic cylinder is on the slurcam, the equal threaded connection of slurcam, propulsion seat and gusset is on the threaded rod, and slurcam, propulsion seat and gusset all slide to cup joint on connecting the skeleton, holder fixed mounting is on the gusset.
In foretell high heat conduction radiator automated control processingequipment of big section bar new forms of energy auto parts, coupling assembling includes mount, crossbeam frame, common fixedly connected with reinforcing plate between mount and the crossbeam frame, the mount is vertical to be installed on the installation component, crossbeam frame level fixed connection is on the lateral wall of mount, and pressure equipment device fixed connection is between two crossbeam framves.
In the automatic control processing device for the large-section new-energy automobile distribution high-heat-conductivity radiator, the press-fitting device comprises a press-fitting cylinder and a press-fitting seat, the press-fitting cylinder is fixedly connected between the two connecting assemblies, the press-fitting seat is fixedly connected to the output end of the press-fitting cylinder, the press-fitting seat is located above the conveyor belt, and the press-fitting seat is located on a central line of the connecting framework.
In the automatic control machining device for the large-section new-energy automobile distribution high-heat-conductivity radiator, the two sliding rails are symmetrically arranged on the upper surface of the connecting framework, the mounting assembly and the stress application assembly are both connected to the sliding rails in a sliding manner, and the lower surface of the clamping seat is higher than the upper end surfaces of the sliding rails.
In foretell high heat conduction radiator automated control processingequipment of big section bar new forms of energy auto parts, two install the bearing seat jointly between the mounting bracket, the conveyer belt comprises the area of carrying the area and the no area of carrying that is located the below and is located the closed loop, and the bearing seat is located and carries between the area of the area and the no area of carrying, and the upper surface of bearing seat and the lower surface contact who carries the area of the area.
In the automatic control processing device for the large-section new-energy automobile high-heat-conductivity radiator, the connecting framework is positioned between the loaded belt body and the unloaded belt body, and the upper end surface of the connecting framework is in contact with the lower surface of the loaded belt body.
In the automatic control processing device for the large-section new-energy automobile distribution high-heat-conductivity radiator, the controller is arranged on the pushing seat, the infrared distance sensor is arranged on the clamping seat and electrically connected with the controller, and the hydraulic cylinder, the first motor, the second motor and the press-fitting device are all electrically connected with the controller.
Compared with the prior art, the invention has the beneficial effects that:
1. the position of an object is sensed through the infrared distance sensor, and then the second motor, the hydraulic cylinder and the press-fitting cylinder are controlled through the controller, so that the automation of the new energy automobile distribution high-heat-conductivity radiator main board is realized, and the production efficiency and the machining precision are improved.
1. The object is moved in the horizontal direction through the first motor, the transmission roller and the conveyor belt; drive installation component and afterburning subassembly through second motor and threaded rod and remove on connecting skeleton and slide rail to this realizes being close to each other of two afterburning subassemblies, the installation component, the setting of hydraulic stem is guaranteed to break away from the threaded rod at afterburning subassembly and the holder can continue to promote afterburning subassembly and move on connecting the skeleton when not realizing pressing from both sides the clamp tightly to the article, guarantee that the device can carry out the pressure equipment to the high heat conduction radiator mainboard of new energy auto parts of different model sizes, the width of device adaptation has been increased.
2. When the press-fitting cylinder and the press-fitting seat press-fit the new-energy automobile distribution high-heat-conductivity radiator main board, the lower surface of the belt-carrying body on the conveying belt is in contact with the connecting framework, the connecting framework can bear the weight of the articles and the pressure applied to the press-fitting articles by the press-fitting seat, and therefore press-fitting of the new-energy automobile distribution high-heat-conductivity radiator main board is smoothly achieved.
3. Mounting bracket, the compression roller, the logical groove of installation, connecting spring and installation cover can carry out further compressing tightly to the new forms of energy auto parts high heat conduction radiator mainboard after the pressure equipment is accomplished through connecting spring's elasticity, this moment, because the carrier tape body that has of conveyer belt with bear the seat contact, then when connecting spring compresses tightly the mainboard through the compression roller, bear the seat and bear connecting spring's pressure, ensure that the conveyer belt can not produce great deformation and lead to compressing tightly the effect relatively poor, guarantee the effect of new forms of energy auto parts high heat conduction radiator mainboard pressure equipment, improve the qualification rate of new forms of energy auto parts high heat conduction radiator mainboard pressure equipment.
In conclusion, the novel energy automobile distribution high-heat-conductivity radiator is ingenious in structure, automation of press mounting of the main board of the novel energy automobile distribution high-heat-conductivity radiator is achieved, working efficiency is improved, press mounting quality of the main board is guaranteed, production cost of the novel energy automobile distribution high-heat-conductivity radiator is reduced by controlling labor cost, and profit margin is improved.
Drawings
Fig. 1 is a schematic structural diagram of an automatic control processing device for a large-scale new energy automobile distribution high-thermal-conductivity radiator provided by the invention;
FIG. 2 is a schematic structural view of a mounting rack part of an automatic control processing device for a large-scale new energy automobile distribution high-heat-conductivity radiator provided by the invention;
fig. 3 is a top view of an automated control processing device for a large-scale new energy automobile distribution high thermal conductivity radiator provided by the invention.
In the figure: 1 first supporting seat, 2 driving plates, 3 connection frameworks, 4 second supporting seats, 5 sliding rails, 6 second vertical plates, 7 cross beams, 8 clamping seats, 9 conveyor belts, 10 first supporting frames, 11 press-fitting cylinders, 12 press-fitting seats, 13 reinforcing plates, 14 fixing frames, 15 connection transverse plates, 16 hydraulic cylinders, 17 second supporting frames, 18 second motors, 19 threaded rods, 20 push seats, 21 transmission rollers, 22 mounting frames, 23 bearing seats, 24 mounting sleeves, 25 connecting springs, 26 mounting through grooves, 27 pressing rollers, 28 first motors, 29 mounting assemblies, 30 reinforcing assemblies and 31 first vertical plates.
Detailed Description
The following examples are for illustrative purposes only and are not intended to limit the scope of the present invention.
Examples
Referring to fig. 1-3, an automatic control processing device for a large-scale new energy automobile distribution high-thermal-conductivity radiator comprises two first supporting seats 1 which are symmetrically arranged, two second supporting seats 4 which are symmetrically arranged, and two mounting frames 22 which are symmetrically arranged, wherein a connecting line between the two first supporting seats 1 is perpendicular to a connecting line between the two second supporting seats 4.
Equal two first support frames 10 of symmetry fixedly connected with on every first supporting seat 1, install first motor 28 on the lateral wall of one of them first support frame 10, rotate jointly between two corresponding first support frames 10 in position and be connected with driving roller 21, and the one end of one of them driving roller 21 runs through first support frame 10 and welds on the output shaft of first motor 28, overlaps jointly on two driving roller 21 and is equipped with conveyer belt 9.
Equal fixedly connected with second support frame 17 on every second supporting seat 4, the common welding has connection skeleton 3 between two second support frames 17, connect on the skeleton 3 symmetry slip cup joint two installation component 29 and two afterburning subassemblies 30, all install pneumatic cylinder 16 on every installation component 29, the output fixed connection of every pneumatic cylinder 16 is at afterburning subassembly 30, all install holder 8 on every afterburning subassembly 30, all install second motor 18 on the lateral wall of every second support frame 17, the output shaft of every second motor 18 all runs through second support frame 17 and the welding has threaded rod 19, and every installation component 29, afterburning subassembly 30 all with the corresponding threaded rod 19 threaded connection in position.
Two slide rails 5 are symmetrically installed on the upper surface of the connecting framework 3, the installation component 29 and the stress application component 30 are both connected to the slide rails 5 in a sliding mode, and the lower surface of the clamping seat 8 is higher than the upper end faces of the slide rails 5.
Installation component 29 includes first riser 31, connects diaphragm 15 and second riser 6, and the equal threaded connection of first riser 31 and second riser 6 is on threaded rod 19, and first riser 31 and second riser 6 all slide to cup joint on connecting skeleton 3, and pneumatic cylinder 16 installs between first riser 31 and second riser 6, connects the horizontal fixed connection of diaphragm 15 in the upper end of first riser 31 and second riser 6, and coupling assembling installs on connecting diaphragm 15.
Afterburning subassembly 30 includes slurcam 2, promote seat 20 and gusset 13, promote seat 20 fixed connection between slurcam 2 and gusset 13, and the output circle fixed connection of pneumatic cylinder 16 is on slurcam 2, promote the equal threaded connection of seat 20 and gusset 13 on threaded rod 19, and slurcam 2, promote seat 20 and gusset 13 and all slide to cup joint on connecting skeleton 3, holder 8 fixed mounting is on gusset 13.
Each mounting assembly 29 is provided with a connecting assembly, and a press-fitting device is mounted between the two connecting assemblies.
The connecting assembly comprises a fixed frame 14 and a cross beam frame 7, a reinforcing plate is fixedly connected between the fixed frame 14 and the cross beam frame 7 together, the fixed frame 14 is vertically installed on the installation assembly 29, the cross beam frame 7 is horizontally and fixedly connected to the side wall of the fixed frame 14, and the press-fitting device is fixedly connected between the two cross beam frames 7.
The press-fitting device comprises a press-fitting cylinder 11 and a press-fitting seat 12, the press-fitting cylinder 11 is fixedly connected between the two connecting assemblies, the press-fitting seat 12 is fixedly connected to the output end of the press-fitting cylinder 11, the press-fitting seat 12 is located above the conveying belt 9, and the press-fitting seat 12 is located on a central line of the connecting framework 3.
The pushing seat 20 is provided with a controller, the clamping seat 8 is provided with an infrared distance sensor, the infrared distance sensor is electrically connected with the controller, and the hydraulic cylinder 16, the first motor 28, the second motor 18 and the press-fitting device are electrically connected with the controller.
Two mounting brackets 22 are located the both sides of conveyer belt 9 respectively, and the logical groove 26 of installation has all been seted up to the lower surface of every mounting bracket 22, and equal fixedly connected with coupling spring 25 on the inner wall of logical groove 26 of every installation, coupling spring 25's lower extreme fixedly connected with installation cover 24, and installation cover 24 is located the logical inslot 26 of installation, installs pinch roller 27 jointly between two corresponding installation covers 24 in position, and pinch roller 27 is located the top of conveyer belt 9.
A bearing seat 23 is commonly arranged between the two mounting frames 22, the conveyor belt 9 is a closed loop composed of a loaded belt body positioned above and an unloaded belt body positioned below, the bearing seat 23 is positioned between the loaded belt body and the unloaded belt body, the upper surface of the bearing seat 23 is contacted with the lower surface of the loaded belt body, the connecting framework 3 is positioned between the loaded belt body and the unloaded belt body, and the upper end surface of the connecting framework 3 is contacted with the lower surface of the loaded belt body.
When the pressing device is used, firstly, a main sheet is placed on chips of corresponding models through an operator and is sequentially placed on a carrying belt body on a conveying belt 9, at the moment, a first motor 28 is turned on through a controller, the first motor 28 drives the conveying belt 9 to rotate through driving a driving roller 21 connected with the first motor 28, and at the moment, an object to be pressed moves towards the direction of the pressing device under the conveying of the conveying belt 9;
when the infrared distance sensor on the clamping seat 8 senses an object, a signal is transmitted to the controller, the controller simultaneously turns on the two second motors 18, the two second motors 18 simultaneously rotate in the forward direction, the threaded rod 19 connected with the second motors 18 rotates in the forward direction, the mounting component 29 and the force application component 30 which are in threaded connection with the threaded rod 19 slide on the connecting framework 3 and the slide rail 5 towards the direction of the conveyor belt 9 at the same time, the controller turns off the second motor 18 when the force application component 30 is completely separated from the threaded rod 19, the mounting component 29 and the force application component 30 stop moving, then the controller turns on the hydraulic cylinder 16, the output end of the hydraulic cylinder 16 extends, the force application component 30 is completely separated from the threaded rod 19 at the moment, the output end of the hydraulic cylinder 16 pushes the force application component 30 to slide on the connecting framework 3 and the slide rail 5 until an object needing press mounting is clamped, and the controller turns off the hydraulic cylinder 16;
the press-fitting cylinder 11 is opened through the controller, the output end of the press-fitting cylinder 11 extends to drive the press-fitting seat 12 to move downwards, the press-fitting seat 12 is gradually contacted with the press-fitted articles, the output end of the press-fitting cylinder 11 still extends, the press-fitting seat 12 continues to move downwards, and the lower surface of the loaded belt body on the conveyor belt 9 is contacted with the connecting framework 3, so that the connecting framework 3 bears the weight of the articles and the pressure applied to the press-fitted articles by the press-fitting seat 12 at the moment, and the press-fitting of the articles is further;
after the press mounting is finished, the controller simultaneously opens the press mounting air cylinder 11 and the hydraulic cylinder 16, the output end of the press mounting air cylinder 11 is shortened, the press mounting seat 12 is driven to be far away from the press-mounted object, the output end of the hydraulic cylinder 16 is shortened, the force application component 30 is driven to move towards the direction of the mounting component 29 until the force application component 30 is contacted with the threaded rod 19 and is in preliminary threaded connection, at the moment, the controller closes the press mounting air cylinder 11 and the hydraulic cylinder 16 and opens the two second motors 18, the second motors 18 drive the threaded rod 19 to rotate reversely, and the mounting component 29 and the force application component 30 are driven to move towards the direction far away from the conveyor;
the article after the pressure equipment is accomplished continues to move to the direction of mounting bracket 22 along with conveyer belt 9, the pressure equipment article is when moving to the below of pressure roller 27, the pressure equipment article is with pressure roller 27 initial contact, along with the motion of pressure equipment article, promote pressure roller 27 upward movement through the lateral wall that extrudes pressure roller 27, coupling spring 25 compresses and holds power thereupon, installation cover 24 is upwards moving in installation through groove 26, because the elasticity of spring has the bi-directionality, and coupling spring 25's upper end fixed connection is on the inner wall of installation through groove 26, then coupling spring 25 can only push down pressure roller 27 through installation cover 24 downwards this moment, then pressure roller 27 extrudes the pressure equipment article, further consolidate compressing tightly of article.
Although terms such as the first supporting seat 1, the pushing plate 2, the connecting framework 3, the second supporting seat 4, the sliding rail 5, the second vertical plate 6, the cross beam frame 7, the clamping seat 8, the conveying belt 9, the first supporting frame 10, the press-fitting cylinder 11, the press-fitting seat 12, the stressing plate 13, the fixing frame 14, the connecting transverse plate 15, the hydraulic cylinder 16, the second supporting frame 17, the second motor 18, the threaded rod 19, the pushing seat 20, the driving roller 21, the mounting frame 22, the bearing seat 23, the mounting sleeve 24, the connecting spring 25, the mounting through groove 26, the pressing roller 27, the first motor 28, the mounting assembly 29, the stressing assembly 30 and the first vertical plate 31 are used more frequently, the possibility of using other terms is not excluded. These terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed as being without limitation to any additional limitations that may be imposed by the spirit of the present invention.