CN108821199B

CN108821199B - Hand mould strip propelling movement hoisting device

Info

Publication number: CN108821199B
Application number: CN201810813466.1A
Authority: CN
Inventors: 王咸华; 丁晓东; 卢晓庆
Original assignee: Hanvo Safety Products Nantong Co ltd
Current assignee: Hanvo Safety Products Nantong Co ltd
Priority date: 2018-07-23
Filing date: 2018-07-23
Publication date: 2023-09-15
Anticipated expiration: 2038-07-23
Also published as: CN108821199A

Abstract

The invention provides a hand mould strip pushing and lifting device which comprises a main body frame, wherein the main body frame comprises a bottom layer frame body and an upper layer frame body, two conveying lines are respectively arranged on the front side and the rear side of the bottom layer frame body and the front side and the rear side of the upper layer frame body, the hand mould strip is placed on the conveying lines, the pushing device is erected above the hand mould strip on the bottom layer frame body in a hanging mode, a guide receiving seat is arranged on the right side of each conveying line on the bottom layer frame body, a clamping block is arranged on the guide receiving seat, a lifting mechanism is arranged on the right side of the main frame body, a lifting block is arranged in the lifting mechanism, a second cylinder is arranged on the lifting block, a second telescopic rod is arranged on the second cylinder, and a bearing seat is arranged on the second telescopic rod. The hand mould strip pushing and lifting device has the advantages of reasonable structure, practical function, stable pushing and lifting processes and effective guarantee of the working efficiency of the hand mould strip pushing and lifting device.

Description

Hand mould strip propelling movement hoisting device

Technical Field

The invention relates to related equipment in the glove production process, in particular to a hand mould strip pushing and lifting device.

Background

The whole production line of gum dipping gloves is longer, if the gum dipping gloves are directly paved in a room to occupy more places, space resources can be wasted, if the indoor two layers are utilized, the production line is respectively arranged on the two layers according to the production sequence, thus the occupied area is effectively saved, the space utilization rate is improved, but no device for specially conveying the hand pattern strips from the bottom layer to the second layer is currently available on the market, so that a pushing and lifting device is designed to push the hand pattern strips on the lower layer production line to a lifting device, and then the hand pattern strips are lifted to the upper layer.

Disclosure of Invention

The invention aims to provide a hand mould strip pushing and lifting device which solves one or more of the problems in the prior art.

The invention provides a hand mold strip pushing and lifting device, which comprises a main body frame, wherein the main body frame comprises a bottom layer frame body and an upper layer frame body, two front and back sides of the bottom layer frame body and two front and back sides of the upper layer frame body are respectively provided with a conveying line, the front and back ends of the hand mold strip on the bottom layer frame body are respectively placed on the conveying lines of the front and back sides of the bottom layer frame body, the front and back ends of the hand mold strip on the upper layer frame body are respectively placed on the conveying lines of the front and back sides of the upper layer frame body, a pushing device is suspended and erected above the hand mold strip on the bottom layer frame body, the right side of each conveying line on the bottom layer frame body is provided with a connecting base, the connecting base is provided with a clamping block, the right side of the main frame body is provided with a lifting mechanism, the lifting block is provided with a second cylinder connected with an air pump through an air conveying pipe, at least two second telescopic rods are arranged on the lifting block, and the position of each second telescopic rod is provided with a bearing seat, and the bearing seat corresponds to the position of the hand mold strip.

The conveying line comprises a driving shaft, a driven shaft and a conveying main body, wherein the driving shaft is connected with an output shaft of a first motor, a groove is formed in the top of the conveying main body, auxiliary protruding blocks corresponding to the shape and size of the groove are arranged at the bottoms of the front end and the rear end of a hand mould strip, the auxiliary protruding blocks are embedded in the groove, the hand mould strip and the conveying line can be detached, an access groove is formed in an access seat, the access groove is communicated with the groove on a conveying line on a bottom layer frame body, a clamping block is arranged in the access groove, an opening is formed in the bottom of the clamping block, the shape, the size and the position of the opening correspond to the shape, the size and the position of the clamping block, a lifting rod is arranged at the bottom of the clamping block, and penetrates through the opening to be connected with a third cylinder, and the third cylinder is connected with an air pump through an air pipe. The third cylinder controls the clamping block to pass through the opening through the lifting rod to perform lifting operation.

The outer sides of the conveying lines on the front side and the rear side of the bottom layer frame body are provided with first auxiliary connecting pieces, a first connecting plate is arranged between the two auxiliary connecting pieces, the first connecting plate is suspended and erected above the conveying lines on the front side and the rear side of the bottom layer frame body and the hand mould strips on the conveying lines, and the pushing device is arranged on the first connecting plate.

Wherein, pusher includes the first cylinder of being connected through gas-supply pipe and air pump, telescopic link, linking arm and propelling movement spare on the first cylinder, there are two at least telescopic links on the first cylinder, connect a propelling movement spare through the linking arm on every telescopic link, the propelling movement spare includes two connection pieces and a propelling movement piece, two connection pieces set up in the bottom of linking arm, through bolted connection propelling movement piece between two connection pieces, be equipped with spacing seat and swivelling chute on the face of contact with the propelling movement piece on every connection piece, be equipped with the spacing groove with swivelling chute switch-on the spacing seat, be equipped with the through-hole on the propelling movement piece, the bolt passes the through-hole, be equipped with the stopper on the face of contact with the connection piece on the propelling movement piece, the stopper inlays in the swivelling chute.

Further, a first positioning lug is arranged on the surface, in contact with the pushing block, of each connecting piece, a first positioning groove, a second positioning lug and an auxiliary groove are arranged on the surface, in contact with the connecting piece, of each pushing block, the auxiliary groove is communicated with the first positioning groove, the first positioning lug is embedded in the first positioning groove, one end of the first positioning lug is attached to the second positioning lug, a torsion spring is arranged on a bolt in the auxiliary groove, one end of the torsion spring is attached to the inner wall of the first positioning lug, and the other end of the torsion spring is attached to the inner wall of the second positioning lug.

Further, be equipped with the thickening layer on the inner wall of connection piece, be equipped with first supplementary connecting block between thickening layer and the spacing seat, can strengthen the steadiness of structure like this, further guarantee the life of impeller.

Wherein, be equipped with crane, guide bar, lifter, baffle and the lift power structure that sets up in the crane in the elevating system, the lifter passes through supplementary engaging lug and is connected with the lift power structure in the crane, offer an operation groove on the crane on the vertical direction that supplementary engaging lug is located, the operation groove is used for the reciprocate of supplementary engaging lug, be equipped with the baffle on the crane, be equipped with the guide bar between baffle and the top of crane, the lifter cover is established on the guide bar, the lifter can reciprocate along the guide bar, the second cylinder sets up on the lifter, be equipped with buffering damper between lifter and the baffle.

Further, lift power structure includes motor, first toothed disc, the second toothed disc, the third toothed disc, the fourth toothed disc, fifth toothed disc and two chain circles, through connecting axle connection between fifth toothed disc and the fourth toothed disc, all be equipped with the center pin on third toothed disc and the second toothed disc, in the output shaft of motor inserts the crane, first toothed disc is established on the output shaft, the one end of crane is inserted to the output shaft, the both ends of center pin, the both ends of connecting axle are passed through the bearing and are connected with the crane, two chain circles are first chain circle and second chain circle respectively, first toothed disc, second toothed disc and fourth toothed disc all establish at first chain circle, and all mesh with first chain circle, the third toothed disc sets up the outside at first chain circle, the bottom and the first chain circle meshing of third toothed disc, the shape that makes first chain circle through the setting up of third toothed disc corresponds with the shape of crane, the second toothed disc is established in the top of first toothed disc, the fourth toothed disc is established in the first side of first toothed disc through bearing and relevant part and crane, two chain circles are first chain circle and second chain circle, first side is connected with the first side of first chain circle, first side of second toothed disc is connected with the first side of auxiliary sprocket, first side of second chain circle is connected with the first side of the second toothed disc, the auxiliary sprocket sets up side of first side of the second toothed disc and second chain circle, the auxiliary sprocket is connected with the first side of the auxiliary sprocket, the first side of the second toothed disc, and the auxiliary sprocket is connected with the first side. Such an arrangement may make the lifting block experience two points of upward force on the diagonal of the lifting block, making lifting of the lifting block smoother.

Further, the buffering and damping mechanism comprises a buffering spring and a contact seat, each guide rod is sleeved with the buffering spring and the contact seat, the contact seat can move up and down along the guide rods, the bottom of the buffering spring is connected with the partition plate, and the top of the buffering spring is connected with the contact seat.

The hand mould strip pushing and lifting device has the advantages that: rational in infrastructure, the function is practical, and the propelling movement is steady with the process of promoting, the effectual work efficiency who guarantees hand mould strip propelling movement hoisting device.

Drawings

FIG. 1 is a front view of a hand molding pushing and lifting device according to one embodiment of the present invention;

FIG. 2 is a schematic cross-sectional view of a hand molding pushing and lifting device according to an embodiment of the present invention;

FIG. 3 is a side view of a pusher in one embodiment of the present invention;

FIG. 4 is a schematic cross-sectional view of a pushing member according to an embodiment of the present invention;

FIG. 5 is a schematic view of the structure of a connecting ear according to an embodiment of the present invention;

FIG. 6 is a front cross-sectional view of a lift mechanism in one embodiment of the invention;

FIG. 7 is a first partial cross-sectional view of the left side of the lift mechanism in one embodiment of the present invention;

fig. 8 is a second partial cross-sectional view of the left side of the lift mechanism in one embodiment of the invention.

Detailed Description

As shown in fig. 1 and 2, the invention provides a hand mold strip pushing and lifting device, which comprises a main body frame, wherein the main body frame comprises a bottom layer frame body 1 and an upper layer frame body 2, two sides of the bottom layer frame body 1 and two sides of the upper layer frame body 2 are respectively provided with a conveying line 5, two ends of the hand mold strip on the bottom layer frame body 1 are respectively placed on the conveying lines 5 of the two sides of the bottom layer frame body 1, two ends of the hand mold strip on the upper layer frame body 2 are respectively placed on the conveying lines 5 of the two sides of the upper layer frame body 2, the conveying lines 5 comprise a driving shaft, a driven shaft and a conveying main body 501 which are connected with an output shaft of a first motor, a groove 502 is formed at the top of the conveying main body 501, auxiliary lugs which are corresponding to the groove 502 in shape and size are formed at the bottom of the two ends of the hand mold strip, a detachable connection groove 104 is formed in the groove 502, the connection groove 104 is formed in the connection guide seat, the connection groove 104 is formed with the groove 103 on the conveying line 5 on the bottom layer frame body 1, the connection groove 103 is formed in the groove 103, the connection groove 103 is formed in the bottom 103 is connected with the bottom 103 of the air cylinder 101, the opening is formed in the bottom 101 and the opening is formed in the bottom 101, and the opening is formed in the bottom 101 is connected with the opening is formed in the opening, and the opening is formed in the opening is 101. The third cylinder 101 controls the fixture 103 to pass through the opening 105 through the lifting rod 102 for lifting operation. The outer sides of the conveying lines on the front side and the rear side of the bottom layer frame body 1 are provided with first auxiliary connecting pieces 4, a first connecting plate is arranged between the two auxiliary connecting pieces 4, the first connecting plate is suspended and erected above the conveying lines 5 on the front side and the rear side of the bottom layer frame body 1 and the hand mould strips on the conveying lines 5, the pushing device is arranged on the first connecting plate and can perform pushing operation, the pushing device pushes the hand mould strips closest to the conveying lines 5 on the bottom layer frame body 1 onto the connecting base, when the hand mould strips pass through the upper side of the opening 105 to the right side of the opening, the corresponding clamping blocks 103 at the opening 105 are lifted under the driving of the third cylinder 101 and the lifting rods 102 for connecting the third cylinder 101 and the clamping blocks 103, the connecting base is sealed, the other hand mould strips are prevented from reaching the connecting base on the right side of the opening 105, and then the pushing device is retracted and reset, the right side of the main frame body is provided with a lifting mechanism, the lifting mechanism is provided with a lifting block 302, the lifting block 302 is provided with a second air cylinder 601 connected with an air pump through an air pipe, the second air cylinder 601 is provided with at least two second telescopic rods 602, each second telescopic rod 602 is provided with a bearing seat 603, the positions of the bearing seats 603 correspond to the positions of the hand mold strips, the bearing seats 603 are initially arranged between the two conveying lines 5 of the bottom layer frame body 1, then the hand mold strips pushed to the right side of the opening 105 on the connecting seat are hand mold strips A, the bearing seats 603 are right below the hand mold strips A, then lifting operation is carried out, the bearing seats 603 can bear the hand mold strips A to upwards move under the driving of the lifting block 302 and the lifting mechanism, when the bearing seats move between the two conveying lines 5 on the upper layer frame body 2, the lifting block 302 stops moving, the air pump can control the second telescopic rod 602 and the bearing seat 603 on the second telescopic rod 602 to drive the hand die strip A to move leftwards through the second air cylinder 601, when the hand die strip A moves to above the two conveying lines 5 on the upper layer frame body 2, the lifting mechanism can drive the lifting block 302, the second air cylinder 601 on the lifting block 302, the second telescopic rod 602, the bearing seat 603 and the hand die strip A on the bearing seat 603 to descend until the left end of the hand die strip A is erected to the right end of the two conveying lines 5 on the upper layer frame body 2, the lifting block 302 stops running, the conveying line 5 drives the hand die strip A to move leftwards until the hand die strip A is completely separated from the bearing seat 603, the air pump can control the bearing seat 603 on the second telescopic rod 602 and the second telescopic rod 602 to move rightwards through the second air cylinder 601, then the lifting block 302, the second air cylinder 601 on the lifting block 302, the second telescopic rod 602 and the bearing seat 603 can descend until the bearing seat 603 descends to the initial position until the bearing seat 603 descends, then the clamping block 103 can drive the third air cylinder 101 and the lifting block 101 to descend, and the circulating operation is carried out, and then the lifting block is driven by the third cylinder 101 and the circulating operation.

As shown in fig. 1 to 5, the pushing device includes a first cylinder 401 connected to the air pump through an air pipe, a telescopic rod 402, a connecting arm 403 and a pushing member on the first cylinder 401, at least two telescopic rods 402 on the first cylinder 401, each telescopic rod 402 is connected to a pushing member through the connecting arm 403, the pushing member includes two connecting pieces 411 and a pushing piece 412, the two connecting pieces 411 are disposed at the bottom of the connecting arm 403, the two connecting pieces 411 are hinged to the pushing piece 412 through bolts 413, a limit seat 420 and a rotary groove 421 are disposed on a surface of each connecting piece 411, which contacts the pushing piece 412, a limit groove is disposed on the limit seat 420, which is connected to the rotary groove 421, a through hole 422 is disposed on the surface of the pushing piece 412, which contacts the connecting piece 411, a limit block 416 is embedded in the rotary groove 421, a first positioning lug 423 is disposed on the surface of each connecting piece 411, a first positioning lug 424 is disposed on the surface of the connecting piece 412, a torsion force is disposed on the first positioning lug 424, a torsion force is disposed on the first positioning lug 418 is disposed on the auxiliary positioning lug 418, a torsion force is disposed on the auxiliary positioning lug 418 is disposed on the auxiliary positioning lug, and the auxiliary positioning lug is disposed on the auxiliary positioning lug 418, and the torsion force is disposed on the auxiliary positioning lug is disposed on the first positioning lug 418.

The working principle of the pushing device is as follows: the air pump controls the telescopic rod 403, the connecting arm 403 and the pushing piece to push the hand mould strip to move rightwards through the first air cylinder 401, so that the aim of pushing rightwards is fulfilled, at the moment, the pushing piece is positioned at the left side of the hand mould strip, the limiting block 416 on the pushing block 412 in the pushing piece is clamped in the limiting groove communicated with the rotating groove 421 and cannot rotate leftwards, and therefore the hand mould strip can be effectively pushed to move rightwards; when pushing the next hand mould strip after the pushing is finished, the air pump controls the telescopic rod 403, the connecting arm 403 and the pushing piece to move leftwards through the first air cylinder 401, the pushing block 412 on the pushing piece can rotate leftwards by taking the bolt 413 as the center when encountering the hand mould strip, the torsion spring 424 can receive inward extrusion force, when the pushing piece reaches the left side of the hand mould strip, the extrusion force received by the torsion spring 424 can disappear the torsion spring 424 to open towards two sides, the pushing block 412 rotates rightwards by taking the bolt 413 as the center until the limiting block 416 on the pushing block 412 is clamped in the limiting groove communicated with the rotating groove 421, and thus the next right pushing operation can be performed.

As a preference of this embodiment, the inner wall of the connecting piece 411 is provided with a thickening layer 414, and a first auxiliary connecting piece 415 is provided between the thickening layer 414 and the limiting seat 420, so that the stability of the structure can be enhanced, and the service life of the pushing piece is further ensured.

As a preference of this embodiment, as shown in fig. 1, 2 and 6 to 8, the lifting mechanism is provided with a lifting frame 3, a guide rod 301, a lifting block 302, a partition board 304 and a lifting power structure arranged in the lifting frame 3, the lifting block 302 is connected with the lifting power structure in the lifting frame 3 through an auxiliary connecting lug 316, a running groove is formed in the lifting frame 3 in the vertical direction where the auxiliary connecting lug 316 is located, the running groove is used for assisting the up-and-down movement of the connecting lug 316, the lifting frame 3 is provided with the partition board 304, the guide rod 301 is arranged between the partition board 304 and the top of the lifting frame 3, the lifting block 302 is sleeved on the guide rod 301, the lifting block 302 can move up and down along the guide rod 301, a second air cylinder 601 is arranged on the lifting block 302, and a buffering and damping mechanism is arranged between the lifting block 302 and the partition board 304.

As a preferable way of this embodiment, the lifting power structure includes a motor, a first gear disc 312, a second gear disc 314, a third gear disc 317, a fourth gear disc 319, a fifth gear disc 321, and two chain rings, where the fifth gear disc 321 and the fourth gear disc 319 are connected by a connecting shaft 318, central shafts 313 are disposed on the third gear disc 317 and the second gear disc 314, an output shaft 311 of the motor is inserted into the lifting frame 3, the first gear disc 312 is disposed on the output shaft 311, one end of the output shaft 311 is inserted into the lifting frame 3, two ends of the central shaft 313, two ends of the connecting shaft 318 are connected with the lifting frame 3 by bearings and related components, the two chain rings are respectively a first chain ring 315 and a second chain ring 320, the first gear disc 312, the second gear disc 314, and the fourth gear disc 319 are all disposed on the first chain ring 315, and are all meshed with the first chain ring 315, the third gear plate 317 is disposed on the outer side of the first chain ring 315, the bottom of the third gear plate 317 is meshed with the first chain ring 315, the shape of the first chain ring 315 corresponds to the shape of the lifting frame 3 through the arrangement of the third gear plate 317, the second gear plate 314 is disposed above the first gear plate 312, the fourth gear plate 319 is disposed on the left side of the first gear plate 312, a fifth gear plate 321 and a second gear plate 314 are disposed in the second chain ring 320, the second gear plate 314 is disposed above the fifth gear plate 321, the lifting block 302 is connected with one side of the first chain ring 315 through the auxiliary connection lug 316, the lifting block 302 is connected with one side of the second chain ring 320 through the auxiliary connection lug 316, the conveying direction of one side of the first chain ring 315 connected with the auxiliary connection lug 316 is the first direction, the conveying direction of one side of the second chain ring 320 connected with the auxiliary connection lug 316 is the second direction, the second direction is the same as the first direction. Such an arrangement may allow the point of the two upward forces experienced by the lifting block 302 to be on the diagonal of the lifting block 302, making lifting of the lifting block 302 smoother.

The lifting principle of the lifting mechanism is as follows: the motor drives the first gear plate 312 to rotate through the output shaft 311, then the first gear plate 312 drives the second gear plate 314 meshed with the first chain ring 315, the third gear plate 317 and the fourth gear plate 319 to rotate through the first chain ring 315, then the fourth gear plate 319 drives the fifth gear plate 321 to rotate through the connecting shaft 318, and then the fifth gear plate 321 drives the second chain ring 320 to drive and the second gear plate 314 in the second chain ring 320 to rotate. Then, the first chain loop 315, the second chain loop 320 and the auxiliary connecting lug 316 can drive the two connecting points of the lifting block 302 to lift at constant speed.

As a preferred embodiment, the buffering and damping mechanism includes a buffering spring 303 and a contact seat 305, each guide rod 301 is sleeved with a buffering spring 303 and a contact seat 305, the contact seat 305 can move up and down along the guide rod 301, the bottom of the buffering spring 303 is connected with a partition 304, and the top of the buffering spring 303 is connected with the contact seat 305.

The working principle of the buffering vibration mechanism is as follows: the lifting block 302 stops running when being lowered to be in contact with the contact seat 305, braking force generated after stopping acts on the buffer spring 303 through the contact seat 305, so that the braking force generated when the lifting block 302 stops running after being lowered acts on the auxiliary connecting lug 316, the first chain ring 315 and the second chain ring 320, the service life of the lifting mechanism is effectively ensured, and the lifting process is more stable.

The hand mould strip propelling movement hoisting device of this embodiment rational in infrastructure, the function is practical, and the lift effect is good, and the lift process is stable, has also effectually guaranteed this hand mould strip propelling movement hoisting device's work efficiency and life simultaneously.

The foregoing is merely a preferred embodiment of the present invention, and it should be noted that it will be apparent to those skilled in the art that several similar modifications and improvements can be made without departing from the inventive concept, and these should also be considered as being within the scope of the present invention.

Claims

1. The hand mold strip pushing and lifting device is characterized by comprising a main body frame, wherein the main body frame comprises a bottom layer frame body (1) and an upper layer frame body (2), two front and back sides on the bottom layer frame body (1) and two front and back sides on the upper layer frame body (2) are respectively provided with a conveying line (5), the front and back ends of the hand mold strips on the bottom layer frame body (1) are respectively placed on the conveying lines (5) on the front and back sides of the bottom layer frame body (1), the front and back ends of the hand mold strips on the upper layer frame body (2) are respectively placed on the conveying lines (5) on the front and back sides of the upper layer frame body (2), a pushing device is suspended and erected above the hand mold strips on the bottom layer frame body (1), the right side of each conveying line (5) on the bottom layer frame body (1) is provided with a connecting base, the right side of the connecting base is provided with a lifting mechanism, the lifting block (302) is respectively placed on the conveying line (5) on the front and back sides of the bottom layer frame body, the lifting block (302) is respectively provided with a second air cylinder (601) connected with an air pump through an air pipe, the second air cylinder (601) on the lifting block (302) is respectively provided with a second air cylinder (603) on the front and back side of the bottom frame body, and the second air cylinder (603) is provided with a second telescopic rod (603), and the second telescopic position (603) is corresponding to the second position of each telescopic rod (603);

the conveying line (5) comprises a driving shaft, a driven shaft and a conveying main body (501) which are connected with an output shaft of a first motor, a groove (502) is formed in the top of the conveying main body (501), auxiliary protruding blocks with the shape and the size corresponding to those of the groove (502) are arranged at the bottoms of the front end and the rear end of a hand die strip, the auxiliary protruding blocks are embedded in the groove (502), the hand die strip and the conveying line are detachable, an adapter groove (104) is formed in an adapter seat, the adapter groove (104) is communicated with the groove (502) in the conveying line (5) on the bottom frame body (1), a clamping block (103) is arranged in the adapter groove (104), an opening (105) is formed in the bottom of the clamping block (103), the shape, the size and the position of the opening (105) correspond to those of the clamping block (103), a lifting rod (102) is arranged at the bottom of the clamping block (103), the lifting rod (102) is connected with a third cylinder (101) through an air pipe;

the pushing device comprises a first air cylinder (401) connected with an air pump through an air pipe, a telescopic rod (402), a connecting arm (403) and a pushing piece, wherein the telescopic rod (402), the connecting arm (403) and the pushing piece are arranged on the first air cylinder (401), at least two telescopic rods (402) are arranged on the first air cylinder (401), one pushing piece is connected on each telescopic rod (402) through the connecting arm (403), the pushing piece comprises two connecting pieces (411) and one pushing piece (412), the two connecting pieces (411) are arranged at the bottom of the connecting arm (403), the two connecting pieces (411) are hinged with the pushing piece (412) through bolts (413), a limiting seat (420) and a rotating groove (421) are arranged on the surface, contacted with the pushing piece (412), of each connecting piece (411), a limiting groove (421) is communicated with the rotating groove (421), a through hole (422) is formed in the pushing piece (412), a limiting block (416) is arranged on the surface, contacted with the connecting piece (411), and the limiting block (416) is embedded in the rotating groove (421).

2. The hand mould strip pushing and lifting device according to claim 1, wherein lifting mechanisms are provided with lifting frames (3), guide rods (301), lifting blocks (302), partition boards (304) and lifting power structures arranged in the lifting frames (3), the lifting blocks (302) are connected with the lifting power structures in the lifting frames (3) through auxiliary connecting lugs (316), a running groove is formed in the lifting frames (3) in the vertical direction where the auxiliary connecting lugs (316) are located, partition boards (304) are arranged on the lifting frames (3), guide rods (301) are arranged between the partition boards (304) and the tops of the lifting frames (3), lifting blocks (302) are sleeved on the guide rods (301), the lifting blocks (302) can move up and down along the guide rods (301), second air cylinders (601) are arranged on the lifting blocks (302), and buffer and damping mechanisms are arranged between the lifting blocks (302) and the partition boards (304).

3. The hand molding pushing and lifting device according to claim 1, wherein the lifting power structure comprises a motor, a first gear disc (312), a second gear disc (314), a third gear disc (317), a fourth gear disc (319), a fifth gear disc (321) and two chain rings, the fifth gear disc (321) and the fourth gear disc (319) are connected through a connecting shaft (318), central shafts (313) are arranged on the third gear disc (317) and the second gear disc (314), an output shaft (311) of the motor is inserted into the lifting frame (3), a first gear disc (312) is arranged on the output shaft (311), the output shaft (311) is inserted into one end of the lifting frame (3), two ends of the central shaft (313), two ends of the connecting shaft (318) are connected with the lifting frame (3) through bearings and related components, the two chain rings are a first chain ring (315) and a second chain ring (320), the first gear disc (312), the second gear disc (314) and the fourth gear disc (319) are respectively arranged on the first chain ring (315) and the second chain ring (315) are meshed with the first chain ring (315) on the outer side of the third gear disc (315), the fourth gear disc (319) is arranged on the left side of the first gear disc (312), a fifth gear disc (321) and a second gear disc (314) are arranged in the second chain ring (320), the second gear disc (314) is arranged above the fifth gear disc (321), the lifting block (302) is connected with one side of the first chain ring (315) through the auxiliary connecting lug (316), the lifting block (302) is connected with one side of the second chain ring (320) through the auxiliary connecting lug (316), the conveying direction of one side of the first chain ring (315) connected with the auxiliary connecting lug (316) is a first direction, and the conveying direction of one side of the second chain ring (320) connected with the auxiliary connecting lug (316) is a second direction which is the same as the first direction.

4. The hand mould strip pushing and lifting device according to claim 1, wherein the buffering and damping mechanism comprises buffering springs (303) and contact seats (305), each guide rod (301) is sleeved with one buffering spring (303) and one contact seat (305), the contact seats (305) can move up and down along the guide rods (301), the bottoms of the buffering springs (303) are connected with the partition plates (304), and the tops of the buffering springs (303) are connected with the contact seats (305).