CN217622051U - Brim of a hat core shaping production line panel cooling device of tailorring - Google Patents

Abstract

The utility model provides a production line panel cooling device is tailor in brim of a hat core shaping, its characterized in that: ground is arranged in to the guide rail, and be located panel extrusion molding device's extrusion molding mould one end, the cooling frame is installed on the guide rail, the dragon door frame is equipped with to the top, cooling drum I and cooling drum II install respectively between the slide of dragon door frame and in the spout, cylinder drive is equipped with to cylinder one end, the coupling is equipped with to the other end, the U-shaped side arm both ends at the dragon door frame are installed in the transmission of cooling right angle, the cooling transmission shaft inserts in the cooling right angle driven input hole, 1 cooling adjustment drive is equipped with to one end, in cooling adjustment screw rod one end twists cooling adjustment drive, the other end is connected with cooling drum II respectively, the heat dissipation frame that is equipped with the radiator is installed on the dragon door frame, it drives and installs on the guide rail to indulge to transfer the screw rod both ends, it drives with cooling frame and vertical accent to be connected to indulge. The utility model discloses panel cooling shaping is efficient, pollution-free, and it is few to occupy the labour.

Description

Brim of a hat core shaping production line panel cooling device of tailorring

Technical Field

The utility model provides a production line panel cooling device is tailor in brim of a hat core shaping belongs to the automated production and equips the field, the cooling shaping after the panel of mainly used brim of a hat core is extruded.

Background

At present, the machining process of the cap peak core adopts a manual operation mode, after extrusion molding, the whole process is finished by manpower from the cooling, forming and shearing of plates, the bending forming and cutting of the cap peak core and the like, the labor intensity is high, the occupied labor force is large, and the odor generated in the manufacturing process causes serious pollution to workers and the environment.

The plate cooling device for the brim core forming and cutting production line, which has the advantages of high plate cooling and forming efficiency, no pollution and less labor occupation, is urgently needed to integrate the current situations of the industries of plate forming, cutting, brim core bending and cutting.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a can overcome current panel cooling shaping, brim of a hat core bend and tailor the problem that the shaping trade exists, not only cool off that the shaping is fast, effectual, and can alleviate workman intensity of labour's brim of a hat core shaping and tailor production line panel cooling device.

The technical scheme is as follows: the cooling frame comprises guide rails, rail connecting plates, an underframe, idler wheels I, a gantry frame, a slide way, a convex block and a drying convex lug, wherein 2 guide rails are mutually parallel and are arranged on the ground in an aligned mode, two ends of each guide rail are respectively connected together through 2 rail connecting plates, the position close to one end part is reinforced through another 1 rail connecting plate, a middle connecting frame of the underframe in an I shape is positioned at the center of the middle part of the 2 parallel frames, 1 idler wheel I is respectively arranged at two ends of the same side surface of the 2 parallel frames, the underframe is arranged at one end of the 2 guide rails which is reinforced through the rail connecting plates through 4 idler wheels I and is positioned between the reinforced rail connecting plates and the rail connecting plates positioned at the end parts, and the middle connecting frame of the underframe is vertical to the length direction of the guide rails, the opening end of a U-shaped gantry frame is downwards fixed at the connecting position of the 2 parallel frames and the middle frame of the underframe respectively, the U-shaped plane of the gantry frame is perpendicular to the 2 parallel frames of the underframe, 2U-shaped side arms of the gantry frame are provided with 2 sections of slideways with T-shaped sections towards one side of the 2 guide rails through a rail connecting plate reinforcing end, the slideways are parallel to the length direction of the U-shaped side arms of the gantry frame, the connecting positions of the U-shaped bottom arms and the 2 side arms of the gantry frame extend out of 1 lug towards the direction provided with the slideways respectively, the planes of the 2 lugs towards the direction of the underframe are positioned in the same plane and are parallel to the I-shaped plane of the underframe, and the other surfaces of the 2 side arms of the gantry frame, which extend out of the lugs, are close to the opening of the U-shaped frame and are provided with 1 drying lug respectively; the cooling device comprises a cooling roller I, a cooling roller II and a cooling adjusting device, wherein the cooling roller I comprises a roller body, a support I, a roller drive and a pipe joint, two ends of 1 roller body are arranged between 2 sections of slideways on 2 side arms of a gantry frame of the cooling frame through the support I, the axis of the roller body is parallel to an I-shaped plane of a chassis, the 1 roller drive is arranged at the outer side of the support I at one end of the roller body, an output hole of the roller drive is arranged at an extending end of a shaft of the roller body after penetrating through the support I, the pipe joint is arranged at the extending end of the shaft at the other end of the roller body after penetrating through the support I, the cooling roller II comprises a roller body, a support II, a roller drive and a pipe joint, a T-shaped bulge which is consistent with a T-shaped section chute of the slideway of the cooling frame is arranged on the mounting surface of the support II, two ends of 2 roller bodies are respectively arranged in T-shaped section chutes of 2 sections of slideways on 2 side arms of a gantry of a cooling frame through T-shaped bulges of a support II, the axis of the 2 roller bodies is parallel to the axis of the roller body of a cooling roller I, 2 roller drives are respectively arranged on the outer side of the support II at one end of the 2 roller bodies, output holes of the 2 roller drives are respectively arranged at the extending ends of shafts of the 2 roller bodies after penetrating through the support II, 1 pipe joint is respectively arranged at the extending ends of the shafts at the other ends of the 2 roller bodies after penetrating through the support II, a cooling adjusting device comprises a cooling right-angle transmission, a cooling transmission shaft, a cooling adjusting drive, a cooling fine-adjusting handle and a cooling adjusting screw rod, the 2 cooling right-angle transmissions are respectively arranged on the 2 frames of the underframe of a cooling frame of a plate cooling device and are positioned at the position close to the gantry at one side of the gantry provided with the slideways, the 2 output holes of the 2 cooling right-angle transmissions are vertical to the I-shaped plane of the underframe and face upwards, 2 cooling right-angle transmission input holes are parallel to an I-shaped plane of the underframe and a U-shaped plane of the gantry frame at the same time, the axes of the input holes are coaxial, 2 cooling right-angle transmissions are respectively arranged on the plane of 2 bumps arranged on the gantry frame facing the underframe and are positioned close to the gantry frame, the 2 cooling right-angle transmission output holes are respectively coaxial with the 2 cooling right-angle transmission output holes arranged on the underframe and positioned at the same side arm of the gantry frame, the 2 cooling right-angle transmission input holes are coaxial in axis and are parallel to the cooling right-angle transmission input holes arranged on the underframe, the 2 cooling transmission shafts are respectively inserted into the 2 cooling right-angle transmission input holes coaxial with the input holes, one end of each cooling adjustment drive is arranged at an extending end penetrating through the cooling right-angle transmission, a cooling fine adjustment handle is arranged on each cooling adjustment drive, one end of each cooling adjustment screw rod 4 is respectively screwed into a screw sleeve of the 4 cooling adjustment drive output holes, and the other end of each cooling adjustment screw rod is respectively connected with a support II of a cooling roller close to the cooling device II; the heat dissipating device comprises a heat dissipating frame, a radiator, a pipeline pump, a cold water pipe, a hot water pipe, a water supplementing pipe and a water supplementing tank, wherein the heat dissipating frame with a rectangular plane frame structure is arranged on the outer side of a U-shaped side arm on one side, far away from a roller drive side of a cooling roller I of the cooling device, of a gantry frame of the cooling frame of the plate cooling device, the water outlet of the radiator is provided with the pipeline pump, 3 radiators with the pipeline pumps are arranged on a frame plane on one side, far away from a gantry frame, of the heat dissipating frame from a gantry frame, 3 water outlets with the pipeline pumps are respectively connected with water inlets of pipe joints arranged on 1 cooling roller I and 2 cooling rollers II through 3 cold water pipes, one ends of the 3 hot water pipes are respectively connected with the water outlets of the 3 pipe joints, the other ends of the 3 heat dissipating frame are respectively connected with water inlets of the 3 heat dissipating frame, 3 water supplementing pipes of the radiators are respectively connected with the water supplementing tank arranged on the cooling frame of the plate cooling device through the 1 longitudinal water supplementing pipe, the longitudinal adjusting device comprises an adjusting drive screw and a longitudinal adjusting screw, the longitudinal adjusting drive device is arranged in an output shaft of the cooling frame, which is screwed in the cooling frame.

On the basis of the prior art, 2 guide rails of the cooling frame are parallel to each other and are aligned on the ground, the two ends of the guide rails are respectively connected together through 2 connecting rail plates, and the part close to one end part is reinforced through another 1 connecting rail plate; the middle connecting frame of the underframe in the shape of an I is positioned at the center of the middle part of the 2 parallel frames, 1 roller I is respectively arranged at two ends of the same side of the 2 parallel frames, the underframe is arranged at one end of the 2 guide rails which is reinforced by the rail connecting plate through 4 rollers I and is positioned between the reinforced rail connecting plate and the rail connecting plate positioned at the end part; the middle connecting frame of the bottom frame is vertical to the length direction of the guide rail, and is positioned at one side far away from the end part of the guide rail relative to the centers of the 2 parallel frames of the bottom frame and the middle connecting frame of the bottom frame; the opening ends of the U-shaped gantry frame are respectively fixed at the joints of the 2 parallel frames and the middle frame of the underframe, the opening end of the gantry frame faces downwards, the U-shaped plane of the gantry frame is perpendicular to the 2 parallel frames of the underframe, 2U-shaped side arms of the gantry frame are respectively provided with 2 sections of slideways with T-shaped cross sections towards one side of the 2 guide rails passing through the reinforced end of the rail connecting plate, and the slideways are parallel to the length direction of the U-shaped side arms of the gantry frame; the U-shaped bottom arm of the dragon door frame and the joints of the 2 side arms extend out of 1 convex block towards the direction provided with the slide ways, the planes of the 2 convex blocks towards the direction of the underframe are positioned in the same plane and are parallel to the I-shaped plane of the underframe, and the other surfaces of the 2 side arms of the dragon door frame, which extend out of the convex blocks, are provided with 1 drying convex lug close to the U-shaped opening. Two ends of 1 roller body of a cooling roller I of a cooling device are arranged between 2 sections of slideways on 2 side arms of a gantry of a cooling frame through a support I, the axis of the roller body is parallel to an I-shaped plane of a chassis, 1 roller is arranged outside the support I at one end of the roller body in a driving mode, an output hole of the roller drive is arranged at an extending end of a shaft of the roller body after the shaft passes through the support I, and a pipe joint is arranged at the extending end of the shaft at the other end of the roller body after the shaft passes through the support I; the mounting surface of a support II of the cooling roller II is provided with a T-shaped bulge consistent with a T-shaped section chute of a slideway of the cooling rack, two ends of 2 roller bodies are respectively mounted in the T-shaped section chutes of 2 sections of slideways on 2 side arms of a gantry frame of the cooling rack through the T-shaped bulge of the support II, the axes of the 2 roller bodies are parallel to the axis of the roller body of the cooling roller I, 2 roller drives are respectively mounted on the outer side of the support II at one end of the 2 roller bodies, output holes of the 2 roller drives are respectively mounted at the extending end of the shaft of the 2 roller bodies after passing through the support II, and the extending end of the shaft at the other end of the 2 roller bodies after passing through the support II is respectively provided with 1 pipe joint; 2 pieces of cooling right-angle transmission of the cooling adjusting device are respectively arranged on 2 pieces of parallel frames of a bottom frame of a cooling frame of the plate cooling device and are positioned at a position, close to the gantry frame, of one side, provided with a slide way, of the gantry frame, an output hole of the 2 pieces of cooling right-angle transmission is vertical to an I-shaped plane of the bottom frame and faces upwards, and an input hole of the 2 pieces of cooling right-angle transmission is parallel to the I-shaped plane of the bottom frame and a U-shaped plane of the gantry frame at the same time, and the axes of the input holes are coaxial; the other 2 cooling right-angle drives are respectively arranged on a plane of the 2 convex blocks arranged on the gantry frame and facing to the direction of the bottom frame and are positioned close to the gantry frame, the output holes of the 2 cooling right-angle drives are respectively coaxial with the output holes of the cooling right-angle drives which are arranged on the bottom frame and are positioned on the same side arm of the gantry frame, and the axes of the input holes of the 2 cooling right-angle drives are coaxial and are parallel to the input holes of the cooling right-angle drives arranged on the bottom frame; 2 cooling transmission shafts are respectively inserted into 2 coaxial cooling right-angle transmission input holes of the input hole, one end of each extending end after passing through the cooling right-angle transmission is provided with 1 cooling adjustment drive, and 2 cooling adjustment drives are respectively provided with a cooling fine adjustment handle, one end of each 4 cooling adjustment screw rod is respectively screwed into a threaded sleeve of each 4 cooling adjustment drive output holes, and the other end of each cooling adjustment screw rod is respectively connected with a support II of a cooling roller II of a cooling device close to the other end of each cooling adjustment screw rod. The heat dissipation frame of the heat dissipation device is of a rectangular plane frame structure, the heat dissipation frame is arranged on the outer side of a U-shaped side arm on the side, away from a roller drive side, of a cooling roller I of the cooling device, of a gantry frame of the cooling frame of the plate cooling device, a pipeline pump is arranged at a water outlet of the radiator, 3 pieces of radiators provided with pipeline pumps are arranged on a frame plane on the side, away from the gantry frame, of the heat dissipation frame from top to bottom, 3 pieces of water outlets provided with pipeline pumps are respectively connected with water inlets of pipe joints arranged on 1 piece of cooling roller I and 2 pieces of cooling roller II through 3 pieces of cold water pipes, one ends of 3 pieces of hot water pipes are respectively connected with the water outlets of the 3 pieces of pipe joints, the other ends of the 3 pieces of hot water pipes are respectively connected with the water inlets of the 3 pieces of heat dissipation frame, and water replenishing holes of the 3 pieces of radiators are connected with water replenishing tanks arranged on the cooling frame of the plate cooling device through the same 1 piece of water replenishing pipes; the longitudinal adjusting device is arranged on a connecting rail plate which is close to one end of the guide rail and used for reinforcing in a longitudinal adjusting driving mode, and the output shaft faces to the direction of another 1 connecting rail plate which is located at the end of the guide rail; one end of the longitudinal adjusting screw rod is screwed into a screw hole in an underframe of a cooling frame of the plate cooling device, and the other end of the longitudinal adjusting screw rod is connected with an output shaft of the longitudinal adjusting drive.

The working principle is as follows: and a cooling adjusting screw of a cooling adjusting device of a cooling device of the plate cooling device returns, and drives the upper and lower 2 cooling rollers II to leave the cooling roller I.

After the sheet material is extruded from the outlet of the extrusion molding die, the sheet material is still in a softer state, so that the soft sheet material can be guided to be led in between a cooling roller I of a cooling device of a sheet material cooling device of an extrusion cooling device and a cooling roller II positioned below the cooling device and led out from one side, far away from the sheet material extrusion molding device, of the sheet material cooling device; then, introducing the plate material between the cooling roller I and a cooling roller II positioned above the cooling roller I, and leading the plate material out from one side of the plate material cooling device close to the plate material extrusion molding device; finally, the plate material bypasses the cooling roller II from the upper part of the cooling roller II positioned above and then falls down; after cooling, the hardness of the plate is improved to a certain extent. Starting cooling adjustment drives of a cooling adjustment device of a cooling device of a plate cooling device, which are positioned above and below, and driving cooling right-angle transmission operation of the cooling adjustment device positioned above and below through a cooling transmission shaft respectively, so as to drive an upper cooling roller II and a lower cooling roller II to rapidly approach to a cooling roller I through a cooling adjustment screw rod; when the gap between the cooling roller II and the cooling roller I is close to a set value, the cooling adjustment driving is stopped; and manually rotating the cooling fine adjustment handle, and stopping when the gap between the cooling roller II and the cooling roller I reaches a set value. Thus, the required plate can be continuously extruded.

Compared with the current situation in the prior art, the plate extruded by the preorder process is still in a soft state, and subsequent bending, cutting and forming operations cannot be carried out in a short time, so that the cooling device is arranged, and the time for curing the plate is greatly shortened; due to the arrangement of the cooling adjusting device, the gap between the cooling roller II and the cooling roller I can be quickly adjusted, and manual fine adjustment can be implemented, so that the quality of the plate is further improved.

Drawings

Fig. 1 is an isometric view of an embodiment of the present invention;

FIG. 2 is an isometric view of the cooling rack embodiment of FIG. 1 according to the present invention;

figure 3 is an isometric view of the cooling device of the embodiment of figure 1 of the present invention;

FIG. 4 is an isometric view of the embodiment of the cooling roller I of FIG. 3 according to the present invention;

FIG. 5 is an isometric view of the cooling drum II of the embodiment of the present invention shown in FIG. 3;

figure 6 is an isometric view of the cooling adjustment device of the embodiment of figure 3 of the present invention;

figure 7 is an isometric view of the heat sink of the embodiment of figure 1 of the present invention;

figure 8 is an isometric view of the longitudinal adjustment device of the embodiment of figure 1 of the present invention.

Detailed Description

120. The cooling device comprises a cooling frame 1200, a guide rail 1201, a rail connecting plate 1202, a bottom frame 1203, a roller I1204, a gantry 1205, a slide 1206, a bump 1207, a drying lug 121, a cooling device 1210, a cooling roller I12100, a roller body 12101, a support I12102, a roller drive 12103, a pipe joint 1211, a cooling roller II 12110, a support II 1212, a cooling adjustment device 12120, a cooling right-angle transmission 12121, a cooling transmission shaft 12122, a cooling adjustment drive 12123, a cooling fine adjustment handle 12124, a cooling adjustment screw 122, a heat dissipation device 1220, a heat dissipation frame 1221, a heat sink 1222, a pipeline pump 1223, a cold water pipe 1224, a hot water pipe 1225, a water replenishing pipe 1226, a water replenishing tank 123, a longitudinal adjustment device 1230, a longitudinal adjustment drive 1231 and a longitudinal adjustment screw.

In the embodiment shown in fig. 1-8: 2 guide rails 1200 of the cooling rack 120 are parallel to each other and are arranged on the ground in an aligned manner, two ends of the guide rails 1200 are respectively connected together through 2 rail connecting plates 1201, and the end part close to one end is reinforced through another 1 rail connecting plate 1201; the middle connecting frame of the base frame 1202 in the shape of the Chinese character 'gong' is positioned at the center of the 2 parallel frames, the two ends of the same side of the 2 parallel frames are respectively provided with 1 roller I1203, the base frame 1202 is arranged at one end of the 2 guide rails 1200, which is reinforced by the rail connecting plate 1201, and is positioned between the reinforced rail connecting plate 1201 and the rail connecting plate 1201 positioned at the end part through the 4 rollers I1203; the middle connecting frame of the bottom frame 1202 is perpendicular to the length direction of the guide rail 1200, and is located at one side far away from the end of the guide rail 1200 relative to the center of the 2 parallel frames of the bottom frame 1202 and the middle connecting frame of the bottom frame 1202; the open end of the U-shaped gantry 1204 is fixed at the joint of the 2 parallel frames of the bottom frame 1202 and the middle frame respectively, and the open end of the gantry 1204 faces downward, the U-shaped plane of the gantry 1204 is perpendicular to the 2 parallel frames of the bottom frame 1202, 2U-shaped side arms of the gantry 1204 face 2 guide rails 1200, one side of the reinforced end of the rail connecting plate 1201 is provided with 2 slide rails 1205 with T-shaped cross section respectively, and the slide rails 1205 are parallel to the length direction of the U-shaped side arm of the gantry 1204; the joints of the U-shaped bottom arm and the 2 side arms of the gantry 1204 extend towards the direction provided with the slide 1205 respectively, the plane of the 1 piece of lug 1206, the plane of the 2 piece of lug 1206 towards the direction of the bottom frame 1202 are positioned in the same plane and are parallel to the I-shaped plane of the bottom frame 1202, and the other side of the gantry 1204, which extends out of the lug 1206 and is close to the U-shaped opening, is provided with 1 piece of drying lug 1207 respectively. Two ends of 1 roller body 12100 of a cooling roller I1210 of a cooling device 121 are arranged between 2 sections of slideways 1205 on 2 side arms of a gantry 1204 of a cooling frame 120 through a support I12101, the axis of the roller body 12100 is parallel to an I-shaped plane of an underframe 1202, a 1 roller drive 12102 is arranged outside the support I12101 at one end of the roller body 12100, an output hole of the roller drive 12102 is arranged at an extending end of the shaft of the roller body 12100 after passing through the support I12101, and a pipe joint 12103 is arranged at the extending end of the shaft at the other end of the roller body 12100 after passing through the support I12101; the mounting surface of a support II 12110 of a cooling roller II 1211 is provided with a T-shaped protrusion which is consistent with a T-shaped section sliding groove of a sliding way 1205 of a cooling frame 120, two ends of a 2-piece roller body 12100 are respectively mounted in the T-shaped section sliding grooves of 2 sections of sliding ways 1205 on 2 side arms of a gantry 1204 of the cooling frame 120 through the T-shaped protrusion of the support II 12110, the axis of the 2-piece roller body 12100 is parallel to the axis of the roller body 12100 of a cooling roller I1210, 2-piece roller drives 12102 are respectively mounted on the outer side of the support II 12110 at one end of the 2-piece roller body 12100, output holes of the 2-piece roller drives 12102 are respectively mounted at the extending end of the shaft of the 2-piece roller body 12100 after passing through the support II 12110, and the extending end of the shaft at the other end of the 2-piece roller body 12100 after passing through the support II 12110 is respectively provided with a 1-piece pipe joint 12103; 2 cooling right-angle drives 12120 of the cooling adjustment device 1212 are respectively installed on 2 parallel frames of the bottom frame 1202 of the cooling rack 120 of the plate cooling device 12, and are located at a position close to the gantry 1204, on the side of the gantry 1204 where the slide 1205 is located, an output hole of the 2 cooling right-angle drives 12120 is perpendicular to the "i" plane of the bottom frame 1202 and faces upwards, and an input hole of the 2 cooling right-angle drives 12120 is parallel to the "i" plane of the bottom frame 1202 and the U-shaped plane of the gantry 1204 at the same time, and the axes of the input holes are coaxial; the other 2 cooling right-angle drives 12120 are respectively installed on the plane of the 2 bumps 1206 arranged on the gantry frame 1204 facing the direction of the base frame 1202 and located close to the gantry frame 1204, the output holes of the 2 cooling right-angle drives 12120 are respectively coaxial with the output holes of the 2 cooling right-angle drives 12120 installed on the base frame 1202 and located at the same side arm of the gantry frame 1204, and the input hole axes of the 2 cooling right-angle drives 12120 are coaxial and parallel with the input holes of the 2 cooling right-angle drives 12120 installed on the base frame 1202; the 2 cooling transmission shafts 12121 are respectively inserted into the input holes of the 2 cooling right-angle transmission 12120 which are coaxial with the input holes, the extending ends of the two cooling right-angle transmission 12120, which have one end passing through the cooling right-angle transmission 12120, are respectively provided with 1 cooling adjustment drive 12122, the 2 cooling adjustment drive 12122 is respectively provided with a cooling fine adjustment handle 12123, one end of each 4 cooling adjustment screw 12124 is respectively screwed into a screw sleeve of the output hole of the 4 cooling adjustment drive 12122, and the other end is respectively connected with a support II 12110 of a cooling roller II 1211 of the adjacent cooling device 121. The heat dissipation frame 1220 of the heat dissipation device 122 is of a rectangular plane frame structure, the heat dissipation frame 1220 is installed on the outer side of a U-shaped side arm of the side, away from a roller drive 12102 of a cooling roller I1210 of a cooling device 121, of a gantry frame 1204 of the cooling frame 120 of the plate cooling device 12, a pipeline pump 1222 is installed at a water outlet of the radiator 1221, the radiator 1221 provided with the pipeline pump 1222 is installed on a frame plane of the side, away from the gantry frame 1204, of the heat dissipation frame 1220, from top to bottom, the 3 water outlets provided with the pipeline pump 1222 are respectively connected with water inlets of pipe joints 12103 installed on the 1 cooling roller I1210 and the 2 cooling roller II 1211 through 3 cold water pipes 1223, one end of each 3 hot water pipe 1224 is respectively connected with a water outlet of the 3 pipe joints 12103, the other end of each 3 pipe 1220 is respectively connected with a water inlet of the 3 heat dissipation frame 1220, and a water replenishing water port of the 3 radiator 1221 is connected with a water replenishing water tank 1226 installed on the cooling frame 120 of the cooling plate cooling device 12 through the same 1 water replenishing water pipe 1225; the longitudinal adjusting drive 1230 of the longitudinal adjusting device 123 is installed on the rail connecting plate 1201 near one end of the guide rail 1200 for reinforcement, and the output shaft faces the other 1 rail connecting plate 1201 at the end of the guide rail 1200; one end of the longitudinal adjusting screw 1231 is screwed into a screw hole in the bottom frame 1202 of the cooling frame 120 of the plate cooling device 12, and the other end is connected with the output shaft of the longitudinal adjusting drive 1230.

Claims (1)

1. Production line panel cooling device is tailor in brim of a hat core shaping, including cooling frame (120), cooling device (121), heat abstractor (122) and vertical adjustment device (123), its characterized in that: the cooling frame (120) comprises a guide rail (1200), a rail connecting plate (1201), a bottom frame (1202), rollers I (1203), a gantry frame (1204), a slide way (1205), a lug (1206) and a drying lug (1207), wherein 2 guide rails (1200) are parallel to each other and are arranged on the ground in an aligned mode, two ends of the guide rail (1200) are respectively connected together through the 2 rail connecting plates (1201), the end part close to one end is reinforced through another 1 rail connecting plate (1201), a middle connecting frame of the I-shaped bottom frame (1202) is positioned at the position deviating from the center of the middle part of the 2 parallel frames, two ends of the same side of the 2 parallel frames are respectively provided with the 1 roller I (1203), the bottom frame (1202) is arranged at one end, reinforced through the rail connecting plate (1201), of the 2 guide rails (1200) through the 4 rollers I (1203), is positioned between the reinforced rail connecting plate (1201) and the rail connecting plate (1201) positioned at the end part, the middle connecting frame (1202) of the bottom frame (1202) of the 2 parallel frames is vertical to the length direction of the guide rails (1200), the middle connecting frame (1202) of the U-shaped bottom frame (1202) is positioned at one side, the U-shaped bottom frame (1202) far away from the end part of the U-shaped bottom frame (1200), the U-shaped bottom frame (1202) is fixed at one end part of the U-shaped parallel frame (1200), 2U-shaped side arms of a portal frame (1204) are respectively provided with 2 slideways (1205) with T-shaped sections towards one side of a reinforcing end of 2 guide rails (1200) through a rail connecting plate (1201), the slideways (1205) are parallel to the length direction of the U-shaped side arm of the portal frame (1204), the joint of the U-shaped bottom arm and the 2 side arms of the portal frame (1204) respectively extends out of 1 lug (1206) towards the direction provided with the slideways (1205), the planes of the 2 lugs (1206) towards the direction of the bottom frame (1202) are positioned in the same plane and are parallel to the I-shaped plane of the bottom frame (1202), and 1 lug drying (1207) is respectively arranged on the other surface of the 2 side arms of the portal frame (1204), which extends out of the lugs (1206), close to a U-shaped opening; the cooling device (121) comprises a cooling roller I (1210), a cooling roller II (1211) and a cooling adjusting device (1212), wherein the cooling roller I (1210) comprises a roller body (12100), a support I (12101), a roller drive (12102) and a pipe joint (12103), two ends of 1 roller body (12100) are arranged between 2 sections of slideways (1205) on 2 side arms of a gantry frame (1204) of the cooling frame (120) through the support I (12101), the axis of the roller body (12100) is parallel to an I-shaped plane of the underframe (1202), the 1 roller drive (12102) is arranged on the outer side of the support I (12101) at one end of the roller body (12100), and an output hole of the roller drive (12102) is arranged at an extending end of the roller body (12100) after the shaft passes through the support I (12101), the extension end of the shaft at the other end of the roller body (12100) after passing through the support I (12101) is provided with a pipe joint (12103), the cooling roller II (1211) comprises the roller body (12100), a support II (12110), a roller drive (12102) and the pipe joint (12103), the mounting surface of the support II (12110) is provided with a T-shaped bulge consistent with the T-shaped section sliding groove of the sliding rail (1205) of the cooling rack (120), and the two ends of the 2-piece roller body (12100) are respectively mounted on the T-shaped section sliding grooves (1205) of the 2-segment sliding rails (1205) on the 2 side arms of the gantry frame (1204) of the cooling rack (120) through the T-shaped bulge of the support II (12110) In the groove, the axes of 2 roller bodies (12100) are parallel to the axis of a roller body (12100) of a cooling roller I (1210), 2 roller drives (12102) are respectively arranged at the outer side of a support II (12110) at one end of the 2 roller bodies (12100), the output holes of the 2 roller drives (12102) are respectively arranged at the extending ends of the shafts of the 2 roller bodies (12100) after passing through the support II (12110), the extending ends of the shafts at the other end of the 2 roller bodies (12100) after passing through the support II (12110) are respectively provided with 1 pipe joint (12103), a cooling adjusting device (1212) comprises a cooling right-angle transmission (12120), a cooling transmission shaft (12121), a cooling adjusting drive (12122), a cooling fine-adjusting handle (12123) and a cooling adjusting screw (12124), 2 cooling right-angle drives (12120) are respectively arranged on 2 parallel frames of a bottom frame (1202) of a cooling frame (120) of a plate cooling device (12) and are positioned at a position close to a gantry frame (1204) at one side of the gantry frame (1204) provided with a slide (1205), an output hole of the 2 cooling right-angle drives (12120) is vertical to an I-shaped plane of the bottom frame (1202) and faces upwards, an input hole of the 2 cooling right-angle drives (12120) is simultaneously parallel to the I-shaped plane of the bottom frame (1202) and a U-shaped plane of the gantry frame (1204), and the axes of the input holes are coaxial, and the 2 cooling right-angle drives (12120) are respectively arranged on 2 convex blocks (1206) arranged on the gantry frame (1204) and face towards the bottom frame (1202) On the plane of the direction and at the position close to the gantry (1204), the output holes of 2 cooling right-angle drives (12120) are respectively coaxial with the output holes of the cooling right-angle drives (12120) which are arranged on the underframe (1202) and are positioned at the same side arm of the gantry (1204), the axes of the input holes of the 2 cooling right-angle drives (12120) are coaxial and are parallel to the input holes of the cooling right-angle drives (12120) arranged on the underframe (1202), the 2 cooling drive shafts (12121) are respectively inserted into the input holes of the 2 cooling right-angle drives (12120) which are coaxial with the input holes, the extending ends of the two cooling right-angle drives (12120) which penetrate through one ends are respectively provided with 1 cooling adjustment drive (12122), the two cooling adjustment drives (12122) are respectively provided with a cooling fine adjustment handle (12123), one ends of the 4 cooling adjustment screws (12124) are respectively screwed into the screw sleeves of the output holes of the 4 cooling adjustment drives (12122), and the other ends of the two cooling adjustment screws (12110) are respectively connected with the support II (12110) of the cooling roller (12120) close to the cooling device (121); the heat dissipation device (122) comprises a heat dissipation frame (1220), a radiator (1221), a pipeline pump (1222), a cold water pipe (1223), a hot water pipe (1224), a water replenishing pipe (1225) and a water replenishing tank (1226), the heat dissipation frame (1220) with a rectangular plane frame structure is arranged on the outer side of a U-shaped side arm at one side of a roller drive (12102) of a cooling roller I (1210) of the cooling frame (120) of the plate cooling device (12), the heat dissipation frame (1220) is arranged on the outer side of the U-shaped side arm at one side of the roller drive (12102) of the cooling roller I (1210) far away from the cooling device (121), the pipeline pump (1222) is arranged at a water outlet of the radiator (1221), the 3 radiator (1221) provided with the pipeline pump (1222) is arranged on a frame plane at one side of the heat dissipation frame (1220) far away from the water replenishing frame (1204) from the frame from the water replenishing device (121) from the water outlet of the heat dissipation frame (1221), the 3 piece pipe (1222) is respectively connected with a water inlet (12103) of the cooling roller I (1210) and a pipe joint (1211) of a 2 piece cooling roller II (1211) through the 3), one end of the 3 piece 1223 piece cold water pipe (1223) is respectively connected with the water replenishing device (1226) connected with the water replenishing device (1235) of the water replenishing pipe drive device (1235) of the heat dissipation frame (1235), the heat dissipation frame (1221) and the water replenishing device (1221) through the water replenishing device (1226), the longitudinal adjusting drive (1230) is installed on a connecting rail plate (1201) which is close to one end of the guide rail (1200) and used for reinforcing, an output shaft faces to the direction of the other 1 connecting rail plate (1201) which is located at the end of the guide rail (1200), one end of a longitudinal adjusting screw (1231) is screwed into a screw hole which is located in an underframe (1202) of a cooling frame (120) of the plate cooling device (12), and the other end of the longitudinal adjusting screw is connected with the output shaft of the longitudinal adjusting drive (1230).

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