CN217226717U - Die changing device and hot melting device - Google Patents

Abstract

The utility model provides a retooling device and hot melt device, wherein retooling device includes: the mould assembling machine comprises a machine frame, a first mould assembling device and a second mould assembling device, wherein the machine frame is provided with a first bearing device and a second bearing device; the first acquisition device comprises a first moving device and a first acquisition assembly, wherein the first end of the first moving device is connected with the rack, the second end of the first moving device is connected with the first acquisition assembly, the first acquisition assembly can acquire the mold to be replaced, and the first moving device can drive the first acquisition assembly to move relative to the rack so as to enable the first acquisition assembly to reach a first position; the second acquisition device comprises a second moving device and a second acquisition assembly, wherein the first end of the second moving device is connected with the rack, the second end of the second moving device is connected with the second acquisition assembly, and the second moving device can drive the second acquisition assembly to move relative to the rack so that the second acquisition assembly reaches a second position, a third position and a fourth position. The utility model discloses can improve production efficiency.

Description

Die changing device and hot melting device

Technical Field

The utility model relates to a processing equipment technique especially relates to a retooling device and hot melt device.

Background

With the development and progress of society, the application of notebook computers is more and more extensive.

The keyboard and the shell of the existing notebook computer need to be integrated through a hot melting machine, and because the required moulds of different machine types are different, the mould changing operation needs to be carried out according to the machine types.

Because the temperature of the die is high in the hot melting process, technicians need to wait for the die to be cooled and manually change the die, the operation time is increased, and the production efficiency is reduced.

SUMMERY OF THE UTILITY MODEL

The utility model provides a retooling device and hot melt device to improve production efficiency.

An aspect of the utility model is to provide a die change device, include:

the mould assembling machine comprises a machine frame, a first mould assembling device and a second mould assembling device, wherein the machine frame is provided with a first bearing device and a second bearing device, and the first bearing device is used for placing a standby mould;

the first acquisition device comprises a first moving device and a first acquisition assembly, wherein a first end of the first moving device is connected with the rack, a second end of the first moving device is connected with the first acquisition assembly, the first acquisition assembly can acquire a mold to be replaced, and the first moving device can drive the first acquisition assembly to move relative to the rack so as to enable the first acquisition assembly to reach a first position;

a second acquiring device, including a second moving device and a second acquiring component, a first end of the second moving device is connected with the frame, a second end of the second moving device is connected with the second acquiring component, the second moving device can drive the second acquiring component to move relative to the frame, so that the second acquiring component reaches a second position, a third position and a fourth position, the second acquiring component can cooperate with the first acquiring component at the first position to acquire the mold to be replaced in the state of being located at the second position, the second acquiring component can place the mold to be replaced on a second bearing device in the state of being located at the third position, and the second acquiring component can acquire the mold to be replaced on the first bearing device in the state of being located at the fourth position, the first obtaining component can obtain the standby mould by matching with the second obtaining component at the second position in the state of being located at the first position.

In the mold changing device of the present invention, the first moving device comprises a first support and a first telescopic device, the first telescopic device is connected to the first support, and the output end of the first telescopic device is connected to the first acquiring assembly; the rack is provided with a first rail, the first rail extends along the length direction of the rack, and the first support is connected with the first rail in a sliding manner; the first support can slide along the first rail to drive the first acquisition assembly to move relative to the rack, and the first telescopic device can drive the first acquisition assembly to move relative to the rack along the height direction of the rack, so that the first acquisition assembly can reach the first position.

In the mold changing device of the present invention, the second moving device comprises a second support and a second telescopic device, the second telescopic device is connected to the second support, and the output end of the second telescopic device is connected to the second acquiring assembly; the rack is provided with a second rail, the second rail extends along the width direction of the rack, and the second support is connected with the second rail in a sliding manner; the second support can slide along the second rail to drive the second acquiring component to move relative to the rack, and the second telescopic device can drive the second acquiring component to move relative to the rack along the height direction of the rack, so that the second acquiring component can reach the second position, the third position and the fourth position.

Retooling device in, first acquisition subassembly include two first layer boards, two first layer boards with the direction of height of frame is perpendicular and the interval sets up, two first layer boards all are followed the length direction of frame extends, two the upper surface of first layer board be located the coplanar and all with first telescoping device's output is connected, two distance between the first layer board is first setting value, supports with the cooperation treat mould or mould for use, make first acquisition subassembly acquires treat mould or mould for use.

Retooling device in, the second acquires the subassembly and includes two second layer boards, two second layer boards with the direction of height of frame is perpendicular and the interval sets up, two the second layer board is all followed the length direction of frame extends, two the upper surface of second layer board is located the coplanar, the lower surface of second layer board all with first telescoping device's output is connected, two distance between the second layer board is the second setting value, supports with the cooperation treat mould or mould for use, make the second acquires the subassembly and acquires treat mould or mould for use.

Retooling device in, first bear the device and be first hot plate, the second bears the device and is the second hot plate, first hot plate and second hot plate are followed the width direction interval of frame sets up and the perpendicular to the direction of height of frame, first hot plate and second hot plate are in be located two on the length direction of frame between the second layer board.

Retooling device in, the second layer board is in length on the width direction of frame is less than the interval between two first layer boards, first position is in lie in on the direction of height of frame the second position below, just first position and second position are in set for the interval on the direction of height of frame has.

The utility model provides a hot melting device, which comprises a main body, a platform, a jacking device, a heating device and the die changing device, wherein the frame is connected with the main body, the platform is connected with the main body, a bearing part is arranged on the platform and used for bearing a bottom die, a hot melting product is placed on the bottom die, and the bearing part is provided with a through hole; the heating device is connected with the first support, and the heating device is positioned between the two first supporting plates in the direction along the length of the rack; jacking device with the main part is connected and with first acquire the corresponding setting of subassembly, jacking device's output can be followed the direction of height of frame removes in order to wear out the through-hole with the die block that the bearing part bore contacts, jacking device's output can also drive the die block is followed the direction of height of frame removes so that die block and two the mould for use that first layer board supported contacts and makes up and forms the mould subassembly, jacking device's output can also drive the mould subassembly is followed the direction of height of frame removes, so that the mould for use with heating device contacts, heating device is used for right thereby it is right to mould heating for use place on the die block treat that the hot melt product carries out the hot melt.

Hot melt device, still include drive arrangement, the platform is the disc, be equipped with a plurality ofly on the platform the bearing part, the bearing part is followed the circumference of platform is arranged and is set up, each the bearing part all is equipped with the through-hole, the platform through the pivot with the main part rotates to be connected, the platform with the pivot coaxial line, drive arrangement with the pivot is connected, drive arrangement is used for the drive the pivot uses the axis as the center for the main part rotates, thereby drives the platform with the pivot for the center for the main part rotates so that each the bearing part homoenergetic reaches the hot melt position, jacking device's output can be followed the direction of height of frame removes in order to wear out to be located the hot melt position the bearing part corresponds the through-hole.

The hot melting device of the utility model also comprises a manipulator and a conveying device, wherein the manipulator is connected with the main body; the three bearing parts are uniformly distributed along the circumferential direction of the platform, the driving device is used for driving the platform to rotate relative to the main body by taking the rotating shaft as a center so that each bearing part can sequentially reach a loading position, a hot melting position and a discharging position, the loading position, the hot melting position and the discharging position are uniformly distributed along the axial direction of the platform, the loading position and the discharging position are symmetrically arranged by taking a first central line of the platform as a symmetry axis, and the first central line of the platform extends along the length direction of the rack; the conveying device comprises a first conveying belt, a second conveying belt and a third conveying belt which are connected with the main body, the first conveying belt, the second conveying belt and the third conveying belt are arranged along the width direction of the rack and are sequentially and linearly arranged along the width direction of the rack, the first conveying belt corresponds to the material loading position in the width direction of the rack, the second conveying belt corresponds to the hot melting position in the width direction of the rack, the third conveying belt corresponds to the material unloading position in the width direction of the rack, the first conveying belt is used for placing a product tray, the first conveying belt can convey the hot melting product tray to the second conveying belt in the process that the bearing part moves from the material loading position to the material unloading position, and the second conveying belt can convey the product tray to the second conveying belt in the process that the bearing part moves from the hot melting position to the material unloading position The third conveyor belt can drive the product tray to move in the process that the bearing part moves from the blanking position to the loading position; the manipulator can grab the hot melt product in the product tray on the first conveyor belt, place the hot melt product in the bottom die at the feeding position, and can grab the hot melt product in the bottom die at the discharging position, and place the hot melt product in the product tray on the third conveyor belt.

Based on the foregoing, the utility model provides a retooling device, can be used to the hot melt device, when the hot melt device needs the retooling, can place the mould for use on first bear the device, and acquire through first acquisition component and wait to retool the mould, later drive first acquisition component through first mobile device and remove for the frame, so that first acquisition component reachs the primary importance, drive the second through the second mobile device simultaneously and acquire the component and remove for the frame, so that the second acquires the component and reachs the secondary importance, the second acquires the component and can cooperate with first acquisition component this moment, thereby acquire the first mould that waits to retool that acquires the component and acquire earlier. And then the second acquiring component can be driven by the second moving device to move relative to the rack so as to enable the second acquiring component to reach a third position and place the die to be replaced on the second bearing device. And then the second acquisition assembly can be driven by the second moving device to move relative to the rack so as to enable the second acquisition assembly to reach a fourth position and acquire the standby mould placed on the first bearing device. Afterwards, the second acquisition assembly can be driven by the second moving device to move relative to the rack so as to enable the second acquisition assembly to reach the second position, at the moment, the first acquisition assembly located at the first position can be matched with the second acquisition assembly to acquire the standby mold acquired by the second acquisition assembly, and therefore the standby mold can be used in the hot melting operation process. Therefore, the replacement of the die can be conveniently realized, and the die can be replaced without waiting for the cooling of the die because the manual die replacement of technicians is not needed, so that the operation time is reduced, and the production efficiency is improved.

Drawings

Fig. 1 is a schematic partial structural view of a hot melting device according to an embodiment of the present invention;

fig. 2 is a schematic partial structural view of a die-changing device according to an embodiment of the present invention;

fig. 3 is a schematic structural view of a hot melting device according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a platform of a hot melting apparatus according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a jacking device of a hot melting device according to an embodiment of the present invention.

Reference numerals:

101: a frame; 102: a first carrying device;

103: a second carrying device; 104: a first mobile device;

105: a first acquisition component; 106: a second mobile device;

107: a second acquisition component; 108: a first bracket;

109: a first telescoping device; 110: a first track;

111: a second bracket; 112: a second telescoping device;

113: a second track; 114: a first pallet;

115: a second pallet; 116: a main body;

117: a platform; 118: a jacking device;

119: a heating device; 120: a bearing part;

121: a through hole; 122: a manipulator;

123: a first conveyor belt; 124: a second belt;

125: a third conveyor belt; 201: a mold is to be replaced;

202: bottom die; 203: and (4) hot-melting the product.

Detailed Description

To make the objects, features and advantages of the present invention more obvious and understandable, the embodiments of the present invention are described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and obviously, the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by the skilled in the art without creative work belong to the protection scope of the present invention.

Example one

Referring to fig. 1 and fig. 2, an embodiment of the present invention provides a mold changing apparatus, including: the mold assembling device comprises a machine frame 101, wherein a first bearing device 102 and a second bearing device 103 are arranged on the machine frame 101, and the first bearing device 102 is used for placing a standby mold; the first acquiring device comprises a first moving device 104 and a first acquiring component 105, a first end of the first moving device 104 is connected with the rack 101, a second end of the first moving device 104 is connected with the first acquiring component 105, the first acquiring component 105 can acquire the mold 201 to be replaced, and the first moving device 104 can drive the first acquiring component 105 to move relative to the rack 101 so as to enable the first acquiring component 105 to reach a first position; a second acquiring device comprising a second moving device 106 and a second acquiring component 107, wherein a first end of the second moving device 106 is connected with the frame 101, a second end of the second moving device 106 is connected with the second acquiring component 107, the second moving device 106 can drive the second acquiring component 107 to move relative to the frame 101, so that the second acquiring assembly 107 reaches the second position, the third position and the fourth position, the second acquiring assembly 107 can acquire the to-be-exchanged mold 201 in cooperation with the first acquiring assembly 105 at the first position in the state of being located at the second position, the second acquiring assembly 107 can place the to-be-exchanged mold 201 on the second carrying device 103 in the state of being located at the third position, the second acquiring assembly 107 can acquire the to-be-exchanged mold placed on the first carrying device 102 in the state of being located at the fourth position, and the first acquiring assembly 105 can acquire the to-be-exchanged mold in cooperation with the second acquiring assembly 107 at the second position in the state of being located at the first position.

The mold changing device in this embodiment can be used for a hot melting device, when the hot melting device needs to change the mold, a standby mold can be placed on the first bearing device 102, the mold 201 to be changed is acquired through the first acquisition component 105, then the first acquisition component 105 is driven by the first moving device 104 to move relative to the frame 101, so that the first acquisition component 105 reaches the first position, meanwhile, the second acquisition component 107 is driven by the second moving device 106 to move relative to the frame 101, so that the second acquisition component 107 reaches the second position, at this moment, the second acquisition component 107 can be matched with the first acquisition component 105, and thus the mold 201 to be changed, which is acquired by the first acquisition component 105 before, is acquired. The second picking assembly 107 can then be moved by the second moving device 106 relative to the frame 101, so that the second picking assembly 107 reaches a third position and the mold 201 to be replaced is placed on the second carrier 103. The second picking assembly 107 can then be moved by the second moving device 106 relative to the frame 101 to bring the second picking assembly 107 to the fourth position and pick the standby mold placed on the first carrier 102. The second capturing assembly 107 is then moved by the second moving device 106 relative to the frame 101 to move the second capturing assembly 107 to the second position, and at this time, the first capturing assembly 105 located at the first position can cooperate with the second capturing assembly 107 to capture the standby mold previously captured by the second capturing assembly 107, so that the standby mold can be used during the hot melting operation. Therefore, the replacement of the die can be conveniently realized, and the die can be replaced without waiting for the cooling of the die because the manual die replacement of technicians is not needed, so that the operation time is reduced, and the production efficiency is improved. And, through first acquisition device and second acquisition device simultaneous movement mutually support, do benefit to further shorten retooling time.

Example two

On the basis of the first embodiment, the first moving device 104 includes a first support 108 and a first telescopic device 109, the first telescopic device 109 is connected to the first support 108, and an output end of the first telescopic device 109 is connected to the first acquiring assembly 105; a first rail 110 is arranged on the rack 101, the first rail 110 extends along the length direction of the rack 101, and the first support 108 is connected with the first rail 110 in a sliding manner; the first support 108 can slide along the first rail 110 to move the first capturing component 105 relative to the frame 101, and the first telescopic device 109 can move the first capturing component 105 relative to the frame 101 along the height direction of the frame 101, so that the first capturing component 105 can reach the first position. Therefore, the first acquisition device is simple in structure and convenient to use.

In this embodiment, the second moving device 106 includes a second support 111 and a second telescopic device 112, the second telescopic device 112 is connected to the second support 111, and an output end of the second telescopic device 112 is connected to the second acquiring component 107; a second rail 113 is arranged on the rack 101, the second rail 113 extends along the width direction of the rack 101, and the second bracket 111 is connected with the second rail 113 in a sliding manner; the second support 111 can slide along the second rail 113 to move the second capturing component 107 relative to the frame 101, and the second telescopic device 112 can move the second capturing component 107 relative to the frame 101 along the height direction of the frame 101, so that the second capturing component 107 can reach the second position, the third position, and the fourth position. Therefore, the second acquisition device is simple in structure and convenient to use.

EXAMPLE III

On the basis of the second embodiment, the first obtaining assembly 105 includes two first supporting plates 114, the two first supporting plates 114 are perpendicular to the height direction of the rack 101 and are arranged at intervals, the two first supporting plates 114 both extend along the length direction of the rack 101, the upper surfaces of the two first supporting plates 114 are located in the same plane and are both connected with the output end of the first telescopic device 109, and the distance between the two first supporting plates 114 is a first set value so as to support the mold 201 to be replaced or the mold to be used in a matching manner, so that the first obtaining assembly 105 obtains the mold 201 to be replaced or the mold to be used. Thus, the first acquisition component 105 is simple in structure and reliable in use.

In this embodiment, the second obtaining assembly 107 includes two second supporting plates 115, the two second supporting plates 115 are perpendicular to the height direction of the rack 101 and are arranged at intervals, the two second supporting plates 115 extend along the length direction of the rack 101, the upper surfaces of the two second supporting plates 115 are located in the same plane, the lower surfaces of the second supporting plates 115 are connected to the output end of the first telescopic device 109, and the distance between the two second supporting plates 115 is a second set value, so as to support the mold 201 to be replaced or a standby mold in a matching manner, and the second obtaining assembly 107 obtains the mold 201 to be replaced or the standby mold. Therefore, the second acquisition device has a simple structure and is reliable to use.

In this embodiment, the first bearing device 102 is a first heating plate, the second bearing device 103 is a second heating plate, the first heating plate and the second heating plate are arranged at an interval along the width direction of the rack 101 and perpendicular to the height direction of the rack 101, and the first heating plate and the second heating plate are located between the two second supporting plates 115 in the length direction of the rack 101. From this, the mould that can treat with the first hot plate can preheat, and the mould 201 that trades can be treated with the second hot plate to the heating time of mould for use and mould 201 that waits to trade among the hot melt process is favorable to saving.

In this embodiment, the length of the second palette 115 in the width direction of the rack 101 is smaller than the interval between the two first palettes 114, the first position is located below the second position in the height direction of the rack 101, and the first position and the second position have a set interval in the height direction of the rack 101.

When the hot melting device needs to change the mold, the mold 201 to be changed is placed on the upper surfaces of the two first supporting plates 114, the second bracket 111 slides along the second rail 113 to drive the two second supporting plates 115 to move to a position right below the first position, then the second telescopic device 112 drives the two second supporting plates 115 to move to the second position along the height direction of the rack 101, and at the moment, the upper surfaces of the two second supporting plates 115 are slightly lower than the upper surfaces of the two first supporting plates 114 in the height direction of the rack 101. Then, the first support 108 slides along the first rail 110 to drive the two first supporting plates 114 to reach positions right above the first position, and then the first telescopic device 109 drives the two first supporting plates 114 to move towards the first position along the height direction of the rack 101, because the length of the second supporting plate 115 in the width direction of the rack 101 is smaller than the distance between the two first supporting plates 114, the two second supporting plates 115 can pass through the two first supporting plates 114 to receive the mold 201 to be replaced placed on the two first supporting plates 114, and then the two first supporting plates 114 continue to move to the first position. Then, the first bracket 108 slides along the first rail 110 to drive the two first supporting plates 114 to be away from the two second supporting plates 115, the second bracket 111 slides along the second rail 113 and the second telescopic device 112 drives the two second supporting plates 115 to move to a third position along the height direction of the rack 101, and the mold 201 to be replaced is placed on the second bearing device 103. Then, the second support 111 slides along the second rail 113 and the two second pallets 115 are moved to a fourth position by the second telescopic device 112 along the height direction of the frame 101 to obtain the mold to be placed on the first carrier 102. Then, the second bracket 111 slides along the second rail 113 and the second telescopic device 112 drives the two second supporting plates 115 to move to the second position along the height direction of the rack 101, and the first bracket 108 slides along the first rail 110 to drive the two first supporting plates 114 to move to the first position, and then the first telescopic device 109 drives the two first supporting plates 114 to move upwards along the height direction of the rack 101 so that the two second supporting plates 115 pass between the two first supporting plates 114, and simultaneously the two first supporting plates 114 receive the standby molds placed on the two first supporting plates 114, so that the standby molds can be used in the hot melting process. Therefore, the matching action of the first acquisition device and the second acquisition device is more concise, and the die change time is further shortened.

Referring to fig. 3 to 5, an embodiment of the present invention provides a hot melting device, including a main body 116, a platform 117, a jacking device 118, a heating device 119, and a mold changing device according to the third embodiment, wherein the frame 101 is connected to the main body 116, the platform 117 is provided with a bearing portion 120, the bearing portion 120 is used for bearing a bottom mold 202, the bottom mold 202 is used for placing a hot melting product 203, and the bearing portion 120 is provided with a through hole 121; a heating device 119 is connected to the first support 108, the heating device 119 being located between the two first pallets 114 in a direction along the length of the rack 101; jacking device 118 is connected with main part 116 and with the first corresponding setting of subassembly 105 that acquires, the direction of height that jacking device 118 can follow frame 101 removes and contacts in order to wear out through-hole 121 and the die block 202 that bears with bearing part 120, jacking device 118's output can also drive die block 202 and remove so that die block 202 and two for use moulds that first layer board 114 supported contact and make up and form the mould assembly along the direction of height of frame 101, jacking device 118's output can also drive the mould assembly and remove along the direction of height of frame 101, so that for use the mould contacts with heating device 119, thereby heating device 119 is used for heating for use the mould to heat treating hot melt product 203 to placing on the die block 202 and carry out the hot melt.

In the hot melting device in this embodiment, during hot melting operation, the output end of the jacking device 118 can move along the height direction of the rack 101 to penetrate through the through hole 121 to contact with the bottom mold 202 carried by the carrying part 120, and then the output end of the jacking device 118 continues to move so as to drive the bottom mold 202 to move along the height direction of the rack 101 to make the bottom mold 202 contact with the standby molds supported by the two first supporting plates 114 and combine to form a mold assembly, and then the output end of the jacking device 118 continues to move so as to drive the mold assembly to move along the height direction of the rack 101, so that the standby molds contact with the heating device 119, and the heating device 119 is used for heating the standby molds to heat the standby products 203 to be hot melted on the bottom mold 202.

When the hot melting device needs to change the mold, the mold 201 to be changed is placed on the upper surfaces of the two first supporting plates 114, the second bracket 111 slides along the second rail 113 to drive the two second supporting plates 115 to move to a position right below the first position, then the second telescopic device 112 drives the two second supporting plates 115 to move to the second position along the height direction of the rack 101, and at the moment, the upper surfaces of the two second supporting plates 115 are slightly lower than the upper surfaces of the two first supporting plates 114 in the height direction of the rack 101. Then, the first support 108 slides along the first rail 110 to drive the two first supporting plates 114 to reach positions right above the first position, and then the first telescopic device 109 drives the two first supporting plates 114 to move towards the first position along the height direction of the rack 101, and since the length of the second supporting plate 115 in the width direction of the rack 101 is smaller than the distance between the two first supporting plates 114, the two second supporting plates 115 can pass through the space between the two first supporting plates 114 to receive the to-be-replaced mold 201 placed on the two first supporting plates 114, and then the two first supporting plates 114 continue to move to the first position. Then, the first bracket 108 slides along the first rail 110 to drive the two first supporting plates 114 to be away from the two second supporting plates 115, the second bracket 111 slides along the second rail 113 and the second telescopic device 112 drives the two second supporting plates 115 to move to a third position along the height direction of the rack 101, and the mold 201 to be replaced is placed on the second bearing device 103. Then, the second support 111 slides along the second rail 113 and the two second pallets 115 are moved to a fourth position by the second telescopic device 112 along the height direction of the frame 101 to obtain the mold to be placed on the first carrier 102. Then, the second bracket 111 slides along the second rail 113 and the second telescopic device 112 drives the two second pallets 115 to move to the second position along the height direction of the rack 101, and the first bracket 108 slides along the first rail 110 to drive the two first pallets 114 to move to the first position, and then the first telescopic device 109 drives the two first pallets 114 to move upwards along the height direction of the rack 101 so that the two second pallets 115 pass through between the two first pallets 114, and simultaneously the two first pallets 114 receive the standby molds placed on the two first pallets 114, so that the standby molds can be used in the hot melting process. Therefore, the replacement of the die can be conveniently realized, and the die can be replaced without waiting for the cooling of the die because the manual die replacement of technicians is not needed, so that the operation time is reduced, and the production efficiency is improved. And, through first acquisition device and the mutual cooperation of second acquisition device simultaneous movement, do benefit to further shorten retooling time.

In this embodiment, the hot melting device further includes a driving device, the platform 117 is a disc, a plurality of bearing portions 120 are disposed on the platform 117, the bearing portions 120 are arranged along the circumferential direction of the platform 117, each bearing portion 120 is provided with a through hole 121, the platform 117 is rotatably connected with the main body 116 through a rotating shaft, the platform 117 is coaxial with the rotating shaft, the driving device is connected with the rotating shaft, the driving device is configured to drive the rotating shaft to rotate relative to the main body 116 with the axis as the center, thereby driving the platform 117 to rotate relative to the main body 116 with the rotating shaft as the center so that each bearing portion 120 can reach the hot melting position, the output end of the jacking device 118 can move along the height direction of the rack 101 so as to penetrate through the through hole 121 corresponding to the bearing portion 120 located at the hot melting position. From this, the technician can place hot melt product 203 die block 202 on bearing part 120 in the material loading position department of keeping away from the hot melt position, can deliver to the hot melt position with hot melt product 203 through the rotation of platform 117 and carry out the hot melt operation, later can deliver to the unloading position department of keeping away from the hot melt position with hot melt product 203 through the hot melt operation through the rotation of platform 117 to make things convenient for the technician to acquire the hot melt product 203 of overheated melt operation. Therefore, the convenience of hot melting operation is improved, the operation time is reduced, and the production efficiency is improved.

In this embodiment, the fuse device further includes a manipulator 122 and a transmission device, the manipulator 122 is connected to the main body 116; the number of the bearing parts 120 is three, the three bearing parts 120 are uniformly distributed along the circumferential direction of the platform 117, the driving device is used for driving the platform 117 to rotate relative to the main body 116 by taking the rotating shaft as the center so that each bearing part 120 can sequentially reach a feeding position, a hot melting position and a discharging position, the feeding position, the hot melting position and the discharging position are uniformly distributed along the axial direction of the platform 117, the feeding position and the discharging position are symmetrically arranged by taking the first central line of the platform 117 as a symmetry axis, and the first central line of the platform 117 extends along the length direction of the rack 101; the conveying device comprises a first conveying belt 123, a second conveying belt 124 and a third conveying belt 125 which are connected with the main body 116, the first conveying belt 123, the second conveying belt 124 and the third conveying belt 125 are all arranged along the width direction of the rack 101 and are sequentially and linearly arranged along the width direction of the rack 101, the first conveying belt 123 corresponds to the material loading position in the width direction of the rack 101, the second conveying belt corresponds to the hot melting position in the width direction of the rack 101, the third conveying belt 125 corresponds to the material unloading position in the width direction of the rack 101, the first conveying belt 123 is used for placing a product tray, the first conveying belt 123 can convey the product tray to the second conveying belt in the process that the bearing part 120 moves from the material loading position to the hot melting position, the second conveying belt can convey the product tray to the third conveying belt 125 in the process that the bearing part 120 moves from the hot melting position to the material unloading position, the third conveyor belt 125 can drive the product tray to move in the process that the bearing part 120 moves from the blanking position to the feeding position; the robot arm 122 can grasp the hot-melted product 203 in the product tray on the first conveyor belt 123 and place the hot-melted product 203 in the bottom mold 202 in the loading position, and the robot arm 122 can also grasp the hot-melted product 203 in the bottom mold 202 in the unloading position and place the hot-melted product 203 in the product tray on the third conveyor belt 125.

In this embodiment, the first hot-melt product 203 can enter the first conveyor belt 123 along with the first product tray, the first hot-melt product 203 is grabbed by the manipulator 122, and the first hot-melt product 203 is placed in the first bottom mold 202 located at the loading position, then the platform 117 rotates to move the bearing part 120 on which the first bottom mold 202 is placed from the loading position to the hot-melt position to perform the hot-melt operation on the first hot-melt product 203, and meanwhile, the first conveyor belt 123 conveys the first product tray onto the second conveyor belt. At this time, the second hot-melt product 203 may enter the first conveyor belt 123 along with the second product tray, and the robot 122 may grasp the second hot-melt product 203 and place the second hot-melt product 203 in the second bottom mold 202 located at the loading position.

After the hot melting operation for the first hot-melting product 203 is completed, the platform 117 rotates to move the bearing part 120 on which the first bottom die 202 is placed from the hot melting position to the blanking position, and moves the bearing part 120 on which the second bottom die 202 is placed from the loading position to the hot melting position to perform the hot melting operation on the second hot-melting product 203, and meanwhile, the second conveyor belt conveys the first product tray onto the third conveyor belt 125, and the first conveyor belt 123 conveys the second product tray onto the second conveyor belt. The robot 122 then grasps the first hot-melted product 203 in the first bottom mold 202 in the blanking position and places the first hot-melted product 203 in the first product tray on the third conveyor belt 125. At this time, the third hot-melt product 203 may enter the first conveyor belt 123 along with the third product tray, and the third hot-melt product 203 is grabbed by the robot 122 and placed in the third bottom die 202 located at the loading position.

After the hot melting operation for the second hot-melting product 203 is completed, the platform 117 rotates to move the bearing part 120 on which the first bottom die 202 is placed from the discharging position to the charging position, and moves the bearing part 120 on which the second bottom die 202 is placed from the hot melting position to the discharging position, and simultaneously moves the bearing part 120 on which the third bottom die 202 is placed from the charging position to the hot melting position to perform the hot melting operation on the third hot-melting product 203. Meanwhile, the third conveyor belt 125 drives the first product tray to move so that the first hot-melt products 203 leave, the second conveyor belt conveys the second product tray onto the third conveyor belt 125, and the first conveyor belt 123 conveys the third product tray onto the second conveyor belt. Therefore, all the devices are tightly matched, and the operation efficiency is further improved.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Moreover, various embodiments or examples and features of various embodiments or examples described in this specification can be combined and combined by one skilled in the art without being mutually inconsistent.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. A die change apparatus, comprising:

the mould assembling machine comprises a machine frame, a first mould assembling device and a second mould assembling device, wherein the machine frame is provided with a first bearing device and a second bearing device, and the first bearing device is used for placing a standby mould;

the first acquisition device comprises a first moving device and a first acquisition assembly, wherein a first end of the first moving device is connected with the rack, a second end of the first moving device is connected with the first acquisition assembly, the first acquisition assembly can acquire a mold to be replaced, and the first moving device can drive the first acquisition assembly to move relative to the rack so as to enable the first acquisition assembly to reach a first position;

a second acquiring device, including a second moving device and a second acquiring component, a first end of the second moving device is connected with the frame, a second end of the second moving device is connected with the second acquiring component, the second moving device can drive the second acquiring component to move relative to the frame, so that the second acquiring component reaches a second position, a third position and a fourth position, the second acquiring component can cooperate with the first acquiring component at the first position to acquire the mold to be replaced in the state of being located at the second position, the second acquiring component can place the mold to be replaced on a second bearing device in the state of being located at the third position, and the second acquiring component can acquire the mold to be replaced on the first bearing device in the state of being located at the fourth position, the first obtaining component can obtain the standby mould by matching with the second obtaining component at the second position in the state of being located at the first position.

2. The die change device according to claim 1, wherein the first moving device comprises a first bracket and a first telescopic device, the first telescopic device is connected with the first bracket, and an output end of the first telescopic device is connected with the first acquisition assembly;

the rack is provided with a first rail, the first rail extends along the length direction of the rack, and the first support is connected with the first rail in a sliding manner;

the first support can slide along the first track to drive the first acquisition assembly to move relative to the rack, and the first telescopic device can drive the first acquisition assembly to move relative to the rack along the height direction of the rack, so that the first acquisition assembly can reach the first position.

3. The die change apparatus according to claim 2, wherein the second moving means comprises a second bracket and a second telescoping means, the second telescoping means is connected to the second bracket, and an output end of the second telescoping means is connected to the second acquiring assembly;

the rack is provided with a second rail, the second rail extends along the width direction of the rack, and the second support is connected with the second rail in a sliding manner;

the second support can slide along the second rail to drive the second acquiring component to move relative to the rack, and the second telescopic device can drive the second acquiring component to move relative to the rack along the height direction of the rack, so that the second acquiring component can reach the second position, the third position and the fourth position.

4. The mold changing device according to claim 3, wherein the first acquiring assembly comprises two first supporting plates, the two first supporting plates are perpendicular to the height direction of the rack and are arranged at intervals, the two first supporting plates extend along the length direction of the rack, the upper surfaces of the two first supporting plates are located in the same plane and are connected with the output end of the first telescopic device, and the distance between the two first supporting plates is a first set value so as to support the mold to be changed or the mold to be used in a matched manner, so that the first acquiring assembly acquires the mold to be changed or the mold to be used.

5. The mold changing device according to claim 4, wherein the second acquiring assembly comprises two second supporting plates, the two second supporting plates are perpendicular to the height direction of the rack and are arranged at intervals, the two second supporting plates extend along the length direction of the rack, the upper surfaces of the two second supporting plates are located in the same plane, the lower surfaces of the two second supporting plates are connected with the output end of the first telescopic device, and the distance between the two second supporting plates is a second set value so as to support the mold to be changed or the mold to be used in a matched manner, so that the second acquiring assembly acquires the mold to be changed or the mold to be used.

6. The die change apparatus of claim 5, wherein the first bearing means is a first heating plate, the second bearing means is a second heating plate, the first heating plate and the second heating plate are spaced apart along the width direction of the frame and perpendicular to the height direction of the frame, and the first heating plate and the second heating plate are located between the two second support plates in the length direction of the frame.

7. The die change apparatus according to claim 5, wherein a length of the second palette in a width direction of the rack is smaller than a space between two first palettes, the first position is located below the second position in a height direction of the rack, and the first position and the second position have a set space in the height direction of the rack.

8. A hot melting device is characterized by comprising a main body, a platform, a jacking device, a heating device and the die changing device of claim 4 or 5, wherein the rack is connected with the main body, the platform is connected with the main body, a bearing part is arranged on the platform and used for bearing a bottom die, a hot melting product is placed on the bottom die, and a through hole is formed in the bearing part;

the heating device is connected with the first support, and the heating device is positioned between the two first supporting plates in the direction along the length of the rack;

jacking device with the main part is connected and with first acquireing the corresponding setting of subassembly, jacking device's output can be followed the direction of height of frame removes in order to wear out the through-hole with the die block that the bearing part bore contacts, jacking device's output can also drive the die block is followed the direction of height of frame removes so that die block and two the mould for use that first layer board supported contacts and makes up and form mould assembly, jacking device's output can also drive mould assembly follows the direction of height of frame removes, so that for use the mould with heating device contacts, heating device is used for right thereby it is right to heat mould for use place on the die block treat that the hot melt product carries out the hot melt.

9. The hot melting device according to claim 8, further comprising a driving device, wherein the platform is disc-shaped, the platform is provided with a plurality of bearing portions, the bearing portions are arranged along a circumferential direction of the platform, each bearing portion is provided with the through hole, the platform is rotatably connected with the main body through a rotating shaft, the platform and the rotating shaft are coaxial, the driving device is connected with the rotating shaft, the driving device is used for driving the rotating shaft to rotate relative to the main body with the axis as a center, so that the platform is driven to rotate relative to the main body with the rotating shaft as a center to enable each bearing portion to reach a hot melting position, and an output end of the jacking device can move in a height direction of the rack to penetrate through the through hole corresponding to the bearing portion located in the hot melting position.

10. The fuse device of claim 9, further comprising a robot and a conveyor, the robot being coupled to the body;

the three bearing parts are uniformly distributed along the circumferential direction of the platform, the driving device is used for driving the platform to rotate relative to the main body by taking the rotating shaft as a center so that each bearing part can sequentially reach a loading position, a hot melting position and a discharging position, the loading position, the hot melting position and the discharging position are uniformly distributed along the axial direction of the platform, the loading position and the discharging position are symmetrically arranged by taking a first central line of the platform as a symmetry axis, and the first central line of the platform extends along the length direction of the rack;

the conveying device comprises a first conveying belt, a second conveying belt and a third conveying belt which are connected with the main body, the first conveying belt, the second conveying belt and the third conveying belt are arranged along the width direction of the rack and are sequentially and linearly arranged along the width direction of the rack, the first conveying belt corresponds to the material loading position in the width direction of the rack, the second conveying belt corresponds to the hot melting position in the width direction of the rack, the third conveying belt corresponds to the material unloading position in the width direction of the rack, the first conveying belt is used for placing a product tray, the first conveying belt can convey the hot melting product tray to the second conveying belt in the process that the bearing part moves from the material loading position to the material unloading position, and the second conveying belt can convey the product tray to the second conveying belt in the process that the bearing part moves from the hot melting position to the material unloading position The third conveyor belt can drive the product tray to move in the process that the bearing part moves from the blanking position to the loading position;

the manipulator can grab the hot melt product in the product tray on the first conveyor belt, place the hot melt product in the bottom die at the feeding position, and can grab the hot melt product in the bottom die at the discharging position, and place the hot melt product in the product tray on the third conveyor belt.

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