CN113000781A - Intelligent manufacturing forging production cooling and conveying device - Google Patents

Abstract

The invention discloses an intelligent manufacturing forging production cooling transportation device, which belongs to the technical field of forging transportation and comprises a supporting seat, a feeding device, a transportation device, a cooling device, a circulation device, a heat extraction device and an air exchange device, wherein the supporting seat is vertically placed on the ground, the cooling device is horizontally arranged at the bottom of the supporting seat, the feeding device is horizontally arranged on the side wall of the cooling device, the transportation device is vertically arranged at the top of the supporting seat, the circulation device is arranged at the bottom of the cooling device, the heat extraction device is vertically arranged at the top of the transportation device, and the air exchange device is arranged at the top of the transportation device.

Description

Intelligent manufacturing forging production cooling and conveying device

Technical Field

The invention relates to the technical field of forging piece conveying, in particular to a production cooling and conveying device for intelligently manufacturing a forging piece.

Background

In metal forging processes, heating is often required in order to increase the plasticity of the metal and reduce the resistance to deformation, i.e. to improve the forging properties of the metal. Except that a few metals with good plasticity can be forged and formed at normal temperature, most metals have poor forging performance at normal temperature, so that forging is difficult or impossible. However, after the metals are heated to a certain temperature, the plasticity can be greatly improved, and the metals can be subjected to large plastic deformation only by applying small forging force.

The patent with publication number CN207275588U relates to a cooling device for forged parts, which is placed on a transportation device used for cooling the forged parts, and the cooling device is of an integrated structure and comprises a surrounding plate frame and a placing plate, wherein the placing plate is connected with the inner side of the surrounding plate frame, and a plurality of holes are uniformly arranged on the placing plate. A limiting plate used for being placed on the conveying device is arranged below the rectangular frame in the middle, and the limiting plate and the surrounding plate frame are integrally formed. The invention has the beneficial effects that: simple structure, cooling area is big for the cooling effect is good, and the setting up of limiting plate makes cooling device lay on conveyer, realizes the effect that the cooling transportation goes on simultaneously, and save time reduces workman's work.

However, the above-mentioned devices also have the following problems in use: first, it is consuming time to need the manual work to place the forging on cooling platform in proper order, and the second, can't transport by oneself and need place on other moving platforms.

Disclosure of Invention

The invention aims to solve the technical problem of providing an intelligent manufacturing forging piece production cooling and conveying device, and aims to solve the technical problems that in the prior art, the time is consumed when forging pieces are required to be manually placed on a cooling platform in sequence, and the forging pieces cannot be automatically conveyed and need to be placed on other moving platforms.

In order to solve the technical problems, the invention provides the following technical scheme: the utility model provides an intelligent manufacturing forging production cooling conveyer, includes supporting seat, feed arrangement, conveyer, cooling device, circulating device, heat abstractor and breather, the supporting seat is vertical places on ground, the cooling device level sets up the bottom at the supporting seat, the feed arrangement level sets up on cooling device's lateral wall, the vertical top that sets up at the supporting seat of conveyer, circulating device sets up the bottom at cooling device, the vertical top that sets up at the conveyer of heat abstractor, breather sets up the top at the conveyer.

Further, the feeding device comprises a feeding support plate, a material discharging plate, an L-shaped support block, a feeding motor, a first rotating disc, a square support block, a feeding rotating rod, a second rotating disc, a feeding belt, a moving plate, two feeding limit blocks and two segmentation blocks, wherein the feeding support plate is horizontally arranged on the side wall of the cooling device, two feeding sliding grooves are arranged on the inner side of the feeding support plate, the material discharging plate is vertically arranged at the top of the feeding support plate, a material taking groove is arranged at the bottom of the material discharging plate, the L-shaped plate is vertically arranged at the bottom of the feeding support plate, the feeding motor is horizontally arranged at the top of the L-shaped plate, the first rotating disc is arranged on a main shaft of the feeding motor, the square support block is arranged on the same horizontal line with the L-shaped support block and is fixedly connected with the feeding support plate, the feeding rotating rod is arranged on the side wall of the square support block and is, the one end at the pay-off dwang and with second rolling disc normal running fit, two are established to the second rolling disc cover the feeding stopper symmetry set up in the both sides of second rolling disc and with pay-off dwang normal running fit, the feeding belt cover is established on first rolling disc and second rolling disc, feeding belt and first rolling disc and second rolling disc normal running fit, the movable plate level sets up on the feeding belt, the movable plate both ends just with two feeding sliding tray sliding fit, two divide the setting of segmentation piece symmetry at the top of movable plate.

Further, the transportation device comprises a transportation supporting plate, a transportation motor, a transportation rotating column, a toothed plate grid belt pulley, two transportation fixing frames, two rotating toothed plates, a plurality of transportation matching columns and a plurality of matches, wherein the two transportation fixing frames are symmetrically arranged at the top of the supporting seat, the transportation supporting plate is arranged on the side wall of the transportation fixing frame, the transportation motor is horizontally arranged at the top of the transportation supporting plate, a main shaft of the transportation motor penetrates through the transportation fixing frames, the transportation rotating column is arranged between the two transportation fixing frames, two ends of the transportation rotating column are rotationally matched with the two transportation fixing frames, one end of the transportation rotating column is fixedly connected with the main shaft of the transportation motor, the two rotating toothed plates are symmetrically arranged at two ends of the transportation rotating column, and the transportation matching columns are equidistantly arranged between the two transportation fixing frames, the two ends of the transportation matching columns are in running fit with the two transportation fixing frames, the matching toothed plates are symmetrically arranged at the two ends of the transportation rotating columns, the rotating toothed plates are meshed with the matching toothed plates, and the grid belt pulley sleeves are arranged on the transportation rotating columns and the transportation matching columns.

Further, cooling device includes cooler bin, cooling support, cooling water pump, cooling inlet tube and cooling outlet pipe, and the cooler bin setting is in the bottom of supporting seat and link up the supporting seat bottom, feeding backup pad level sets up on the lateral wall of cooler bin, the cooling support symmetry sets up the bottom at the cooler bin, the cooling water pump level sets up the inboard at the cooling support, cooling inlet tube level sets up and link up cooling water pump, cooling outlet pipe one end and cooling inlet tube fixed connection, the other end and the cooler bin of cooling outlet pipe link up the setting.

Further, circulating device includes circulation support frame, circulating water pump, circulation inlet tube, condenser and circulation outlet pipe, the vertical bottom that sets up at the cooler bin of circulation support frame, the circulating water pump level sets up the inboard at the circulation support frame, circulation inlet tube one end link up the circulating water pump other end and link up the setting with the cooler bin and be connected with the cooler bin, the condenser level sets up the top at the circulation support frame, the one end of circulation outlet pipe link up the condenser other end and link up cooler bin and cooler bin fixed connection, the one end of circulation inlet tube and the one end fixed connection of circulation outlet pipe.

Further, heat extraction device includes heat extraction support frame, division board and a plurality of heat extraction fan, the heat extraction support frame sets up at the top of two transportation mounts, and is a plurality of heat extraction fan symmetry sets up at the top of heat extraction support frame and link up the heat extraction support frame, the vertical setting of division board in the middle of the heat extraction fan of symmetry setting and with heat extraction support frame fixed connection.

Furthermore, the air interchanger comprises air interchanging components which are symmetrically arranged at the tops of the two transportation fixing frames, the air exchange component comprises an air exchange supporting plate, an air exchange fixing plate, an air exchange motor, an air exchange rotating rod, a discharging sliding plate and four air exchange fan sheets, one end of the air exchange supporting plate is fixedly connected with the transportation fixing frame, the other end of the air exchange supporting plate is fixedly connected with the isolation plate, the air exchange fixing plate is horizontally arranged on the side wall of the air exchange supporting plate, the air exchange motor is horizontally arranged at the top of the air exchange fixing plate, the main shaft of the ventilation motor penetrates through the ventilation supporting plate, the ventilation rotating rod is horizontally arranged on the inner side of the ventilation supporting plate and is in running fit with the ventilation supporting plate, the four ventilation fan sheets are sleeved on the ventilation rotating rod at equal intervals, and the discharging sliding plate is arranged on the side wall of the cooling box.

Compared with the prior art, the invention has the beneficial effects that:

firstly, when the plate is machined, a plurality of forging pieces are manually placed into the material placing plate, the feeding motor works to drive the first rotating disc to rotate, the first rotating disc rotates to drive the feeding belt to rotate, the feeding belt rotates to drive the second rotating disc to rotate, the feeding belt is matched with the first rotating disc and the second rotating disc to rotate so as to drive the moving plate to rotate, the moving plate rotates to drive the two segmental blocks to rotate, the two segmental blocks sequentially take the forging pieces through the material removing groove, the taken forging pieces are sequentially sent to the conveying device, and the situation that the forging pieces are combined together and cannot be cooled is avoided.

Secondly, when the mesh belt wheel is used for processing a plate, the forging pieces are sequentially placed on the mesh belt wheel by the two segmentation blocks, the transportation motor works to drive the transportation rotating column to rotate, the transportation rotating column rotates to drive the two rotating toothed plates to rotate, the two rotating toothed plates rotate to drive the plurality of matching toothed plates to rotate, the plurality of matching toothed plates drive the plurality of transportation matching columns to rotate, the plurality of transportation matching columns rotate to drive the mesh belt wheel to rotate, and the mesh belt wheel rotates to drive the forging pieces to move to cool the forging pieces.

Thirdly, when the plate is machined, the cooling water pump works to drive the cooling water inlet pipe to absorb water, the cooling water inlet pipe sends water into the cooling water outlet pipe, the cooling water outlet pipe sends water into the cooling box, and the cooling box cools the forged piece from bottom to top through cooled air flow for the water sent by the cooling water outlet pipe.

Fourthly, when the plate is machined, the circulating water pump works to drive the circulating water inlet pipe to suck warm water obtained after the forging piece is cooled in the cooling box, the circulating water inlet pipe sends the sucked warm water into the circulating water outlet pipe, the circulating water outlet pipe passes through the condenser, the condenser cools the water in the circulating water outlet pipe, and the water in the cooling box can be recycled to continuously cool the forging piece.

Fifthly, when the plate is machined, the air interchanger is used for interchanging the hot air in the cooling box after cooling the forging piece, and the plurality of heat exhausting fans are used for exhausting the cold air replaced by the air interchanger, so that the situation that the hot air is circulated all the time and the forging piece cannot be cooled is prevented.

Sixth, when the sheet material is processed, the forged part on the grid belt pulley is driven by the discharging sliding plate, the ventilation rotating rod is driven to rotate by the work of the ventilation motor, the ventilation rotating rod rotates to drive the ventilation fan sheet to rotate, the ventilation fan sheet rotates to convey the hot air which cools the forged part in the cooling box into the heat exhausting fan, and the heat exhausting fan exhausts the hot air to better cool the forged part.

Drawings

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

FIG. 2 is a top view of the present invention;

FIG. 3 is a schematic perspective view of the feeding device of the present invention;

FIG. 4 is a bottom view of the feeding device of the present invention;

FIG. 5 is a schematic perspective view of the transportation device of the present invention;

FIG. 6 is a schematic perspective view of a cooling device and a circulation device according to the present invention;

fig. 7 is a perspective view of the heat exhausting device and the ventilating device of the present invention.

The reference numbers in the figures are:

a supporting seat 1, a feeding device 2, a feeding supporting plate 21, a feeding sliding groove 22, a discharging plate 23, a material taking groove 24, an L-shaped supporting block 25, a feeding motor 26, a first rotating disc 27, a square supporting block 28, a feeding rotating rod 29, a second rotating disc 210, a feeding limiting block 211, a feeding belt 212, a moving plate 213, a segmentation block 214, a transportation device 3, a transportation fixing frame 31, a transportation supporting plate 32, a transportation motor 33, a transportation rotating column 34, a rotating toothed plate 35, a transportation matching column 36, a matching toothed plate 37, a grid belt pulley 38, a cooling device 4, a cooling box 41, a cooling support 42, a cooling water pump 43, a cooling water inlet pipe 44, a cooling water outlet pipe 45, a circulating device 5, a circulating support frame 51, a circulating water pump 52, a circulating water inlet pipe 53, a condenser 54, a circulating water outlet pipe 55, a heat exhaust device 6, a heat exhaust support, the ventilator 7, the ventilation module 71, the ventilation support plate 72, the ventilation fixing plate 73, the ventilation motor 74, the ventilation rotating rod 75, the ventilation fan sheet 76, and the discharge sliding plate 77.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In the description of the present invention, it is to be understood that the terms "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, are merely for convenience of description of the present invention, and do not indicate or imply that the referred devices or elements must have a specific orientation, be constructed and arranged in a specific orientation, and thus, should not be construed as limiting the present invention.

Referring to fig. 1 to 7, the invention provides a cooling transportation device for intelligent manufacturing of forged parts, which comprises a supporting seat 1, a feeding device 2, a transportation device 3, a cooling device 4, a circulating device 5, a heat extraction device 6 and an air exchange device 7, wherein the supporting seat 1 is vertically placed on the ground, the cooling device 4 is horizontally arranged at the bottom of the supporting seat 1, the feeding device 2 is horizontally arranged on the side wall of the cooling device 4, the transportation device 3 is vertically arranged at the top of the supporting seat 1, the circulating device 5 is arranged at the bottom of the cooling device 4, the heat extraction device 6 is vertically arranged at the top of the transportation device 3, and the air exchange device 7 is arranged at the top of the transportation device 3.

The feeding device 2 comprises a feeding support plate 21, a discharging plate 23, an L-shaped support block 25, a feeding motor 26, a first rotating disc 27, a square support block 28, a feeding rotating rod 29, a second rotating disc 210, a feeding belt 212, a moving plate 213, two feeding limit blocks 211 and two segmentation blocks 214, wherein the feeding support plate 21 is horizontally arranged on the side wall of the cooling device 4, two feeding sliding grooves 22 are arranged on the inner side of the feeding support plate 21, the discharging plate 23 is vertically arranged on the top of the feeding support plate 21, a material taking groove 24 is arranged at the bottom of the discharging plate 23, the L-shaped support block 25 is vertically arranged at the bottom of the feeding support plate 21, the feeding motor 26 is horizontally arranged at the top of the L-shaped support block 25, the first rotating disc 27 is arranged on the main shaft of the feeding motor 26, the square support block 28 is arranged on the same horizontal line with the L-shaped support block 25 and is fixedly connected with the feeding, the feeding rotating rod 29 is arranged on the side wall of the square supporting block 28 and is fixedly connected with the side wall of the square supporting block 28, the second rotating disc 210 is sleeved at one end of the feeding rotating rod 29 and is in running fit with the second rotating disc 210, the two feeding limiting blocks 211 are symmetrically arranged at two sides of the second rotating disc 210 and are in running fit with the feeding rotating rod 29, the feeding belt 212 is sleeved on the first rotating disc 27 and the second rotating disc 210, the feeding belt 212 is in running fit with the first rotating disc 27 and the second rotating disc 210, the moving plate 213 is horizontally arranged on the feeding belt 212, two ends of the moving plate 213 are in sliding fit with the two feeding sliding grooves 22, and the two segmentation blocks 214 are symmetrically arranged at the top of the moving plate 213; it is artifical with a plurality of forgings put into blowing board 23, feeding motor 26 work drives first rotating disk 27 and rotates, first rotating disk 27 rotates and drives feeding belt 212 and rotates, feeding belt 212 rotates and drives second rotating disk 210 and rotates, thereby feeding belt 212 cooperates first rotating disk 27 and second rotating disk 210's rotation to drive movable plate 213 and rotates, movable plate 213 rotates and drives two segmentation blocks 214 and rotate, two segmentation blocks 214 get the material to the forgings in proper order through going to get silo 24, send the forging of taking out in proper order into conveyer 3 on, prevent the forging and be in some and the place together can't cool down.

The transportation device 3 comprises a transportation supporting plate 32, a transportation motor 33, a transportation rotating column 34, a grid belt pulley 38, two transportation fixing frames 31, two rotating toothed plates 35, a plurality of transportation matching columns 36 and a plurality of matching toothed plates 37, wherein the transportation fixing frames 31 are symmetrically arranged at the top of the supporting seat 1, the transportation supporting plate 32 is arranged on the side wall of the transportation fixing frame 31, the transportation motor 33 is horizontally arranged at the top of the transportation supporting plate 32, a main shaft of the transportation motor 33 penetrates through the transportation fixing frame 31, the transportation rotating column 34 is arranged in the middle of the two transportation fixing frames 31, two ends of the transportation rotating column 34 are in rotating matching with the two transportation fixing frames 31, one end of the transportation rotating column 34 is fixedly connected with the main shaft of the transportation motor 33, the two rotating toothed plates 35 are symmetrically arranged at two ends of the transportation rotating column 34, and the transportation matching columns 36 are equidistantly arranged in the middle of the two transportation fixing frames 31, two ends of the transport matching columns 36 are in rotating fit with the two transport fixing frames 31, the matching toothed plates 37 are symmetrically arranged at two ends of the transport rotating columns 34, the rotating toothed plates 35 are meshed with the matching toothed plates 37, and the grid belt pulley 38 is sleeved on the transport rotating columns 34 and the transport matching columns 36; two divide segmentation piece 214 to put the forging in proper order on net belt pulley 38, transportation motor 33 work drives transportation rotation post 34 and rotates, transportation rotation post 34 rotates and drives two rotation pinion rack 35 and rotate, two rotation pinion rack 35 rotate and drive a plurality of cooperation pinion rack 37 and rotate, a plurality of cooperation pinion rack 37 drive a plurality of transportation cooperation post 36 and rotate, a plurality of transportation cooperation post 36 rotate and drive net belt pulley 38 and rotate, net belt pulley 38 rotates and drives the forging and move and cool down the processing to the forging.

The cooling device 4 comprises a cooling tank 41, a cooling support 42, a cooling water pump 43, a cooling water inlet pipe 44 and a cooling water outlet pipe 45, wherein the cooling tank 41 is arranged at the bottom of the support seat 1 and penetrates through the bottom of the support seat 1, the feeding support plate 21 is horizontally arranged on the side wall of the cooling tank 41, the cooling support 42 is symmetrically arranged at the bottom of the cooling tank 41, the cooling water pump 43 is horizontally arranged at the inner side of the cooling support 42, the cooling water inlet pipe 44 is horizontally arranged and penetrates through the cooling water pump 43, one end of the cooling water outlet pipe 45 is fixedly connected with the cooling water inlet pipe 44, and the other end of the cooling water outlet pipe 45 is arranged to penetrate through; the work of cooling water pump 43 drives cooling inlet tube 44 and absorbs water, and cooling inlet tube 44 sends water into cooling outlet pipe 45, and cooling outlet pipe 45 sends water into cooler bin 41, and cooler bin 41 carries out the cooling from the bottom up to the forging member through the refrigerated air current to the water that cooling outlet pipe 45 sent.

The circulating device 5 comprises a circulating support frame 51, a circulating water pump 52, a circulating water inlet pipe 53, a condenser 54 and a circulating water outlet pipe 55, wherein the circulating support frame 51 is vertically arranged at the bottom of the cooling box 41, the circulating water pump 52 is horizontally arranged at the inner side of the circulating support frame 51, one end of the circulating water inlet pipe 53 penetrates through the circulating water pump 52, the other end of the circulating water inlet pipe 53 penetrates through the cooling box 41 and is connected with the cooling box 41, the condenser 54 is horizontally arranged at the top of the circulating support frame 51, one end of the circulating water outlet pipe 55 penetrates through the condenser 54, the other end of the circulating water outlet pipe 55 penetrates through the cooling box 41 and is fixedly connected with the cooling box 41, and; the circulating water pump 52 works to drive the circulating water inlet pipe 53 to suck warm water after cooling down the forging in the cooling box 41, the circulating water inlet pipe 53 sends the sucked warm water to the circulating water outlet pipe 55, the circulating water outlet pipe 55 passes through the condenser 54, and the condenser 54 cools down the water in the circulating water outlet pipe 55 and can recycle the water in the cooling box 41 to continuously cool down the forging.

The heat removal device 6 comprises a heat removal support frame 61, a partition plate 63 and a plurality of heat removal fans 62, the heat removal support frame 61 is arranged at the tops of the two transportation fixing frames 31, the plurality of heat removal fans 62 are symmetrically arranged at the tops of the heat removal support frame 61 and penetrate through the heat removal support frame 61, and the partition plate 63 is vertically arranged in the middle of the symmetrically arranged heat removal fans 62 and is fixedly connected with the heat removal support frame 61; the heating installation that ventilator 7 cooled down the forging in with cooling box 41 takes a breath, and the work of a plurality of heat extraction fans 62 discharges the air conditioning that ventilator 7 took a breath, prevents that the heating installation from always circulating and can't cool down the forging.

The ventilation device 7 comprises a ventilation component 71, the ventilation component 71 is symmetrically arranged at the tops of two transportation fixing frames 31, the ventilation component 71 comprises a ventilation supporting plate 72, a ventilation fixing plate 73, a ventilation motor 74, a ventilation rotating rod 75, a discharging sliding plate 77 and four ventilation fan sheets 76, one end of the ventilation supporting plate 72 is fixedly connected with the transportation fixing frames 31, the other end of the ventilation supporting plate 72 is fixedly connected with a partition plate 63, the ventilation fixing plate 73 is horizontally arranged on the side wall of the ventilation supporting plate 72, the ventilation motor 74 is horizontally arranged at the top of the ventilation fixing plate 73, a main shaft of the ventilation motor 74 penetrates through the ventilation supporting plate 72, the ventilation rotating rod 75 is horizontally arranged at the inner side of the ventilation supporting plate 72 and is in rotating fit with the ventilation supporting plate 72, and the four ventilation fan sheets 76 are equidistantly sleeved on the rotating rod 75, the discharging sliding plate 77 is arranged on the side wall of the cooling box 41; the forging piece on the net belt pulley 38 is driven by the discharging sliding plate 77, the ventilation motor 74 works to drive the ventilation rotating rod 75 to rotate, the ventilation rotating rod 75 rotates to drive the ventilation fan sheet 76 to rotate, the ventilation fan sheet 76 rotates to convey the heating air after the forging piece is cooled in the cooling box 41 to the heat exhaust fan 62, and the heat exhaust fan 62 discharges the heating air to better cool the forging piece.

The working principle of the invention is as follows: when the invention is used, a plurality of forged parts are manually placed in the material placing plate 23, the feeding motor 26 works to drive the first rotating disc 27 to rotate, the first rotating disc 27 rotates to drive the feeding belt 212 to rotate, the feeding belt 212 rotates to drive the second rotating disc 210 to rotate, the feeding belt 212 drives the moving plate 213 to rotate by matching with the rotation of the first rotating disc 27 and the second rotating disc 210, the moving plate 213 rotates to drive the two segmental blocks 214 to rotate, the two segmental blocks 214 take materials of the forged parts in sequence through the material taking groove 24, the taken forged parts are sequentially sent to the conveying device 3, the forged parts are prevented from being cooled in places where the forged parts are combined together, the two segmental blocks 214 sequentially place the forged parts on the grid belt pulley 38, the conveying motor 33 works to drive the conveying rotating column 34 to rotate, the transportation rotating column 34 rotates to drive the two rotating toothed plates 35 to rotate, the two rotating toothed plates 35 rotate to drive the plurality of matching toothed plates 37 to rotate, the plurality of matching toothed plates 37 drive the plurality of transportation matching columns 36 to rotate, the plurality of transportation matching columns 36 rotate to drive the grid belt pulley 38 to rotate, the grid belt pulley 38 rotates to drive the forged piece to move to cool the forged piece, the cooling water pump 43 operates to drive the cooling water inlet pipe 44 to absorb water, the cooling water inlet pipe 44 feeds water into the cooling water outlet pipe 45, the cooling water outlet pipe 45 feeds water into the cooling tank 41, the cooling tank 41 cools the forged piece through cooling airflow by the water fed by the cooling water outlet pipe 45, the circulating water pump 52 operates to drive the circulating water inlet pipe 53 to suck warm water after cooling the forged piece in the cooling tank 41, and the circulating water inlet pipe 53 feeds the sucked warm water into the circulating water outlet pipe 55, circulation outlet pipe 55 passes through condenser 54, but condenser 54 reduces the temperature with the water in the circulation outlet pipe 55 and recycles the water in the cooler bin 41 and continuously reduces the temperature to the forging, breather 7 takes a breath the interior heating installation that cools off the forging with cooler bin 41, the work of a plurality of exhaust fan 62 discharges the air conditioning that breather 7 took place, prevent that the heating installation from circulating and can't reduce the temperature to the forging always, ejection of compact sliding plate 77 is with the forging on the net belt pulley 38, breather motor 74 work drives breather dwang 75 and rotates, breather dwang 75 rotates and drives breather fan piece 76 and rotate, breather fan piece 76 rotates and sends the heating installation after the cooling to the forging in the cooler bin 41 to exhaust in the exhaust fan 62, exhaust fan 62 discharges the heating installation and reduces the temperature to the forging better.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims (7)

1. The utility model provides an intelligent manufacturing forging production cooling conveyer which characterized in that: including supporting seat (1), feed arrangement (2), conveyer (3), cooling device (4), circulating device (5), heat extraction device (6) and breather (7), vertical the placing on ground of supporting seat (1), cooling device (4) level sets up the bottom at supporting seat (1), feed arrangement (2) level sets up on the lateral wall of cooling device (4), the vertical top that sets up at supporting seat (1) of conveyer (3), circulating device (5) set up the bottom at cooling device (4), the vertical top that sets up at conveyer (3) of heat extraction device (6), breather (7) set up the top at conveyer (3).

2. The smart manufactured forging production cooling conveyance device of claim 1, wherein: the feeding device (2) comprises a feeding support plate (21), a discharging plate (23), L-shaped support blocks (25), a feeding motor (26), a first rotating disc (27), square support blocks (28), a feeding rotating rod (29), a second rotating disc (210), a feeding belt (212), a moving plate (213), two feeding limit blocks (211) and two segmentation blocks (214), wherein the feeding support plate (21) is horizontally arranged on the side wall of the cooling device (4), two feeding sliding grooves (22) are arranged on the inner side of the feeding support plate (21), the discharging plate (23) is vertically arranged at the top of the feeding support plate (21), a material taking groove (24) is arranged at the bottom of the discharging plate (23), the L-shaped support blocks (25) are vertically arranged at the bottom of the feeding support plate (21), and the feeding motor (26) is horizontally arranged at the top of the L-shaped support blocks (25), the feeding device is characterized in that the first rotating disc (27) is arranged on a main shaft of the feeding motor (26), the square supporting blocks (28) are arranged on the same horizontal line with the L-shaped supporting blocks (25) and fixedly connected with the feeding supporting plate (21), the feeding rotating bars (29) are arranged on the side walls of the square supporting blocks (28) and fixedly connected with the side walls of the square supporting blocks (28), the second rotating disc (210) is sleeved at one end of the feeding rotating bar (29) and is in running fit with the second rotating disc (210), the two feeding limiting blocks (211) are symmetrically arranged on two sides of the second rotating disc (210) and are in running fit with the feeding rotating bar (29), the feeding belt (212) is sleeved on the first rotating disc (27) and the second rotating disc (210), and the feeding belt (212) is in running fit with the first rotating disc (27) and the second rotating disc (210), the moving plate (213) is horizontally arranged on the feeding belt (212), two ends of the moving plate (213) are in sliding fit with the two feeding sliding grooves (22), and the two segmentation blocks (214) are symmetrically arranged at the top of the moving plate (213).

3. The smart manufactured forging production cooling conveyance device of claim 1, wherein: the transportation device (3) comprises a transportation support plate (32), a transportation motor (33), a transportation rotating column (34), a grid belt pulley (38), two transportation fixing frames (31), two rotating toothed plates (35), a plurality of transportation matching columns (36) and a plurality of matching toothed plates (37), wherein the transportation fixing frames (31) are symmetrically arranged at the top of the support seat (1), the transportation support plate (32) is arranged on the side wall of the transportation fixing frame (31), the transportation motor (33) is horizontally arranged at the top of the transportation support plate (32), a main shaft of the transportation motor (33) penetrates through the transportation fixing frames (31), the transportation rotating column (34) is arranged in the middle of the two transportation fixing frames (31), two ends of the transportation rotating column (34) are in running fit with the two transportation fixing frames (31), one end of the transportation rotating column (34) is fixedly connected with the main shaft of the transportation motor (33), two rotatory pinion rack (35) symmetry sets up at the both ends that the post (34) was rotated in the transportation, and is a plurality of transportation cooperation post (36) equidistant setting is in the centre of two transportation mounts (31), and is a plurality of the both ends and two transportation mounts (31) normal running fit of transportation cooperation post (36) are a plurality of cooperation pinion rack (37) symmetry sets up the both ends that the post (34) was rotated in a plurality of transportation, rotatory pinion rack (35) meshes with a plurality of cooperation pinion rack (37), net belt pulley (38) cover is established on transportation rotation post (34) and a plurality of transportation cooperation post (36).

4. The smart manufactured forging production cooling conveyance device of claim 1, wherein: cooling device (4) include cooler bin (41), cooling support (42), cooling water pump (43), cooling inlet tube (44) and cooling outlet pipe (45), and cooler bin (41) set up in the bottom of supporting seat (1) and link up supporting seat (1) bottom, feeding backup pad (21) level sets up on the lateral wall of cooler bin (41), cooling support (42) symmetry sets up the bottom at cooler bin (41), cooling water pump (43) level sets up the inboard at cooling support (42), cooling inlet tube (44) level sets up and link up cooling water pump (43), cooling outlet pipe (45) one end and cooling inlet tube (44) fixed connection, the other end and the cooler bin (41) of cooling outlet pipe (45) link up the setting.

5. The intelligent manufacturing forging production cooling transportation device of claim 4, wherein: circulating device (5) are including circulation support frame (51), circulating water pump (52), circulation inlet tube (53), condenser (54) and circulation outlet pipe (55), the vertical bottom that sets up in cooler bin (41) of circulation support frame (51), circulating water pump (52) level sets up the inboard at circulation support frame (51), circulation inlet tube (53) one end link up circulating water pump (52) other end and cooler bin (41) link up the setting and be connected with cooler bin (41), condenser (54) level sets up the top at circulation support frame (51), the one end of circulation outlet pipe (55) link up condenser (54) other end and link up cooler bin (41) and cooler bin (41) fixed connection, the one end of circulation inlet tube (53) and the one end fixed connection of circulation outlet pipe (55).

6. The smart manufactured forging production cooling transportation device of claim 3, wherein: heat extraction device (6) are including heat extraction support frame (61), division board (63) and a plurality of heat extraction fan (62), heat extraction support frame (61) sets up at the top of two transportation mounts (31), and is a plurality of heat extraction fan (62) symmetry sets up at the top of heat extraction support frame (61) and link up heat extraction support frame (61), division board (63) vertical setting just with heat extraction support frame (61) fixed connection in the middle of heat extraction fan (62) that the symmetry set up.

7. The smart manufactured forging production cooling conveyance device of claim 6, wherein: the air interchanger (7) comprises an air interchanging component (71), the air interchanging component (71) is symmetrically arranged at the tops of two transportation fixing frames (31), the air interchanging component (71) comprises an air interchanging supporting plate (72), an air interchanging fixing plate (73), an air interchanging motor (74), an air interchanging rotating rod (75), a discharging sliding plate (77) and four air interchanging fan sheets (76), one end of the air interchanging supporting plate (72) is fixedly connected with the transportation fixing frames (31), the other end of the air interchanging supporting plate (72) is fixedly connected with a partition plate (63), the air interchanging fixing plate (73) is horizontally arranged on the side wall of the air interchanging supporting plate (72), the air interchanging motor (74) is horizontally arranged at the top of the air interchanging fixing plate (73), a main shaft of the air interchanging motor (74) penetrates through the air interchanging supporting plate (72), the air interchanging rotating rod (75) is horizontally arranged at, the four ventilation fan sheets (76) are sleeved on the ventilation rotating rod (75) at equal intervals, and the discharging sliding plate (77) is arranged on the side wall of the cooling box (41).

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