CN217650136U - Heated board material loading pusher - Google Patents

Abstract

The utility model relates to an heated board material loading pusher, it is including the conveying subassembly that is used for conveying the heated board, conveying subassembly top is provided with the promotion subassembly that is used for changing heated board moving direction, it includes two parallel arrangement's slide rail to promote the subassembly, the length direction of slide rail intersects with the transmission direction of conveying subassembly, two it is connected with the carriage to slide between the slide rail, it is still including the drive assembly two that is used for ordering about carriage reciprocating motion to promote the subassembly, the carriage below is provided with the promotion frame that is used for promoting the heated board, install the extensible member that is used for ordering about the promotion frame and reciprocates between carriage and the promotion frame, conveying subassembly tail end still is provided with and is used for controlling the control center that conveying subassembly stops and control promotion subassembly synchronous start. This application has the effect that improves heated board production preparation efficiency.

Description

Heated board material loading pusher

Technical Field

The application relates to the field of building material production, in particular to a heated board feeding and pushing device.

Background

Because the coefficient of thermal conductivity of heated board is low, it is obvious to keep warm the effect, so the heated board is by more and more application in real life, heated board production is also more and more popularized, heated board production generally goes on a longer production line, but receives factory floor area's influence, can not build complete linear type's production line, in the position that production line direction of transmission changed, generally carry out the manual work by the staff and transport, realize turning to the transportation of heated board, so not only consumed more manpower, production efficiency also receives the influence.

SUMMERY OF THE UTILITY MODEL

In order to improve heated board production preparation efficiency, this application provides a heated board material loading pusher.

The application provides a pair of heated board material loading pusher adopts following technical scheme:

the utility model provides an heated board material loading pusher, is including the transfer assembly who is used for conveying the heated board, transfer assembly top is provided with the promotion subassembly that is used for changing heated board moving direction, it includes two parallel arrangement's slide rail to promote the subassembly, the length direction of slide rail is crossing with transfer assembly's transmission direction, two it is connected with the carriage to slide between the slide rail, it is still including the drive assembly two that is used for ordering about carriage reciprocating motion to promote the subassembly, the carriage below is provided with the promotion frame that is used for promoting the heated board, install between carriage and the promotion frame and be used for ordering about the extensible member that the promotion frame reciprocated, the transfer assembly tail end still is provided with and is used for controlling the control center that the transfer assembly stops and control promotion subassembly synchronous start.

Through adopting above-mentioned technical scheme, the heated board conveys from the transfer assembly at first, when the heated board conveys the transfer assembly other end, heated board and control center contact, control center transmits the stop work signal to the transfer assembly, the transfer assembly stop work, control center is to promoting subassembly transmission signal simultaneously, make the carriage slide along the slide rail, when the heated board is pushed to next process, the extensible member drives propelling movement frame rebound, and the carriage is along slide rail reverse movement, through this structure, the automated control that the heated board turned to has been realized, and then the production efficiency of heated board has been improved.

Further, the conveying assembly tail end is provided with the mounting panel, mounting panel length direction perpendicular to conveying assembly direction of transfer, control center includes the fixed plate, the fixed plate rigid coupling deviates from one side of heated board in the mounting panel, install the control switch of control conveying assembly and promotion subassembly on the fixed plate, the hole of stepping down has been seted up on the mounting panel, the downthehole rotation of stepping down is connected with the steel sheet that is used for triggering control switch, be connected with the extension spring between steel sheet and the fixed plate.

Through adopting above-mentioned technical scheme, when heated board and steel sheet butt, the one end that the steel sheet is close to control switch breaks away from control switch, and control switch control conveying subassembly stop work to make and promote subassembly work, when the heated board left the steel sheet, the steel sheet was close to control switch's one end because extension spring pulling force and control switch butt, conveying subassembly work this moment, a heated board under the transportation, this control center structure reasonable in design, the operation is sensitive.

Further, the telescopic part is a cylinder.

By adopting the technical scheme, when the air cylinder is started, the air cylinder piston rod is contracted to drive the pushing frame to move upwards, when the air cylinder piston rod is extended, the air cylinder drives the pushing frame to move downwards, and the air cylinder can drive the pushing piece to move upwards or downwards, so that materials can be conveniently taken.

Furthermore, a limiting pipe sleeve is fixed on the sliding frame, a sliding rod is vertically fixed on the pushing frame, and the sliding rod penetrates through the limiting pipe sleeve in a sliding mode.

Through adopting above-mentioned technical scheme, when the pushing frame upwards or when moving down, the slide bar upwards or slides down in spacing pipe box, and the stability of slide bar multiplicable pushing frame in-process that reciprocates.

Further, the promotion frame is including setting up in two fixed blocks at self both ends, the lead screw is worn to be equipped with to the fixed block higher authority, threaded connection has two fixation nut on the lead screw, two fixation nut is located the both sides of fixed block and supports tight fixed block, lead screw tip rigid coupling has the stopper, the rigid coupling has the angle steel that is used for supporting tight heated board on the stopper.

Through adopting above-mentioned technical scheme, the pushing frame is when promoting the heated board, and angle steel and heated board looks butt, the inclination of angle steel is adjusted in the cooperation of accessible lead screw and nut, makes the heated board forward movement.

Further, drive assembly two is including the second chain that encircles a slide rail a week and set up, be connected with the connecting piece between carriage tip and the second chain, the slide rail sets up for channel-section steel and opening relatively, the carriage tip rotates to be connected with the gyro wheel that rolls and set up in the channel-section steel.

Through adopting above-mentioned technical scheme, the heated board is promoting the in-process, and the carriage slides in the channel-section steel through the gyro wheel, and the channel-section steel can reduce the possibility that the carriage drops from the slide rail, and through mutually supporting of second chain, can make the carriage more stable in the slip in-process, has also increased the stability of heated board at the promotion in-process simultaneously.

Further, promote the frame and include two parallel arrangement's square steel pipe, the extensible member is connected with one of them square steel pipe, two the rigid coupling has two connecting blocks between the square steel pipe, the fixed block is fixed in on the connecting block, the angle steel is set up on the square steel pipe of not connecting the extensible member.

Through adopting above-mentioned technical scheme, two square steel pipes constitute the structure that constitutes the promotion frame with the connecting block, should promote a structural design reasonable, convenient for draw materials.

Further, the conveying assembly comprises a supporting frame body, a plurality of rotating rollers parallel to each other are rotatably connected to the supporting frame body, a conveying motor is further installed on the supporting frame body, and power transmission is achieved between the conveying motor and the rotating rollers through a gear set and a first chain.

Through adopting above-mentioned technical scheme, the heated board is at the propelling movement in-process, at first the mutually supporting of conveying motor, gear train and first chain makes to change the roller and rotate, changes the roller and rotates and drive the heated board and follow and change roller rotation direction and convey.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the insulation board is firstly conveyed from the conveying assembly, when the insulation board is conveyed to the other end of the conveying assembly, the insulation board is contacted with the control center, the control center transmits a stop working signal to the conveying assembly, the conveying assembly stops working, meanwhile, the control center transmits a signal to the pushing assembly, so that the sliding frame slides along the sliding rail;

2. when the insulation board is abutted to the steel plate, one end, close to the control switch, of the steel plate is separated from the control switch, the control switch controls the conveying assembly to stop working, the pushing assembly is made to work, when the insulation board is separated from the steel plate, one end, close to the control switch, of the steel plate is abutted to the control switch due to the tensile force of the tension spring, at the moment, the conveying assembly works, the next insulation board is transported, and the control center is reasonable in structural design and sensitive in operation;

3. when the cylinder starts, the piston rod of the cylinder contracts to drive the pushing frame to move upwards, when the piston rod of the cylinder extends, the cylinder drives the pushing frame to move downwards, and the cylinder can drive the pushing piece to move upwards or move downwards, so that materials can be conveniently taken.

Drawings

Fig. 1 is a schematic diagram showing an overall structure in an embodiment of the present application.

Fig. 2 is a schematic structural diagram of a lifting assembly embodied in the embodiment of the present application.

Fig. 3 is a schematic structural diagram of a control center embodied in the embodiment of the present application.

Description of reference numerals: 1. a transfer assembly; 11. a support frame body; 111. mounting plate 112, abdicating hole; 12. rotating the roller; 13. a transfer motor; 14. a gear set; 141. a transmission gear; 142. a first gear; 143. a second gear; 144. a third gear; 15. a first chain; 2. a pushing assembly; 21. a slide rail; 22. a lifting assembly; 221. a carriage; 2211. a roller; 222. a cylinder; 223. a slide bar; 224. a limiting pipe sleeve; 225. a pushing frame; 2251. a square steel pipe; 2252. connecting blocks; 2253. angle steel; 2254. a fixed block; 2255. a lead screw; 2256. fixing a nut; 2257. a limiting block; 23. a connecting member; 24. a second chain; 25. a push motor; 3. a cutting machine; 4. a control center; 41. a fixing plate; 42. a control switch; 43. a steel plate; 44. a rotating shaft; 45. a tension spring.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses heated board material loading pusher. Referring to fig. 1, an heated board material loading pusher includes transfer assembly 1, transfer assembly 1 mainly conveys the heated board that the both sides cutting is good, top at transfer assembly 1 is provided with promotion subassembly 2, promotion subassembly 2 can change the direction of transfer of heated board, promote heated board perpendicular to transfer assembly 1's direction of transfer, 2 both sides fixed mounting at promotion subassembly has cutting machine 3, cutting machine 3 can cut heated board length direction's both ends, be provided with control center 4 at 1 direction of transfer end of transfer assembly, control center 4 is used for sending the instruction and gives promotion subassembly 2, thereby make promotion subassembly 2 begin to function.

Heated board length direction's both sides are cut at last process, and on the heated board was carried conveying subassembly 1 afterwards, after the heated board removed conveying subassembly 1 other end, contacted with control center 4, conveying subassembly 1 stop work promotes subassembly 2 functions, promotes the heated board along the direction of transfer of perpendicular to conveying subassembly 1, promotes the in-process, and cutting machine 3 is promoting the further cutting of in-process with the heated board.

Referring to fig. 1, the conveying assembly 1 includes a rectangular supporting frame 11, a plurality of rollers 12 are rotatably connected to the supporting frame 11 along a length direction of the supporting frame 11, the length direction of the rollers 12 is perpendicular to the length direction of the supporting frame 11, a conveying motor 13 is further disposed on a side of the supporting frame 11, the conveying motor 13 can provide a power source for the rotation of the rollers 12, a gear set 14 is connected to the conveying motor 13, a gear of the gear set 14 is synchronously rotated through a first chain 15, and the rollers 12 on the supporting frame 11 are rotated by the mutual cooperation of the gear set 14 and the first chain 15.

Referring to fig. 1, the gear set 14 includes a transmission gear 141, the transmission gear 141 is fixedly connected to a rotation shaft of the conveying motor 13, a first gear 142 is disposed on the support frame 11, the first gear 142 and the transmission gear 141 are located on a vertical plane, and the first gear 142 is located right below the rotation roller 12 far away from the conveying motor 13, and the first gear 142 can change a moving direction of the first chain 15. The end of each roller 12 is connected with a second gear 143, the transmission gear 141 and the first gear 142 are located on a vertical plane, and the second gear 143 is engaged with the first chain 15, so as to drive the rollers 12 to rotate. A plurality of third gears 144 are further rotatably connected to the support frame 11, the third gears 144 and the second gears 143 are spaced from each other, the height of the central axis of the third gears 144 is lower than that of the central axis of the second gears 143, the third gears 144 are used for tensioning the first chain 15, so that the first chain 15 is in contact with the second gears 143 to a greater extent, the loss of force is reduced, and the first driving assembly for driving the rotary roller 12 to rotate is formed by the transmission motor 13, the gear set 14 and the first chain 15.

Referring to fig. 1 and fig. 2, push away subassembly 2 and include that the horizontal bracket locates two subaerial slide rails 21, slide rail 21 in this embodiment is the channel-section steel, two slide rails 21 mutual parallel arrangement, and the opening sets up relatively, slide rail 21 is located changes roller 12 top, and slide rail 21 direction is mutually perpendicular with change roller 12 direction of transfer, it is provided with lifting unit 22 to slide between two slide rails 21, be connected with connecting piece 23 on lifting unit 22, at connecting piece 23 one side fixedly connected with second chain 24, second chain 24 encircles slide rail 21 round back other end and connecting piece 23 opposite side fixed connection of slide rail, second chain 24 realizes rotating through the cooperation of a driving motor 25 with the gear, connecting piece 23, second chain 24, driving motor 25 and corresponding gear constitute the second drive assembly who is used for ordering about lifting unit 22 and removes.

Referring to fig. 1 and 2, the lifting assembly 22 includes a sliding frame 221, two rollers 2211 are respectively installed at two ends of the sliding frame 221, the sliding frame 221 moves in parallel on the sliding rail 21 through the rollers 2211, a cylinder 222 is fixedly connected to a center position of a side of the sliding frame 221, a piston rod of the cylinder 222 is disposed downward, in this embodiment, the cylinder 222 is used as a driving source, in other embodiments, a hydraulic cylinder, an electric push rod and other telescopic members are also used as the driving source, two sliding rods 223 are vertically disposed on a side of the sliding frame 221 where the cylinder 222 is disposed, the two sliding rods 223 are located at two sides of the cylinder 222, a limiting pipe sleeve 224 is sleeved on the two sliding rods 223, the limiting pipe sleeve 224 is fixedly connected to the sliding frame 221, the sliding rods 223 are driven by the cylinder 222 to move up and down in the limiting pipe sleeve 224, the limiting pipe sleeve 224 plays a certain limiting role, the sliding rods 223 can not be separated from the sliding frame 221, a pushing frame 225 is installed at a piston rod end of the cylinder 222, and bottom ends of the two sliding rods 223 are fixedly connected to the pushing frame 225. When the cylinder 222 is activated, the cylinder 222 and the two sliding rods 223 drive the pushing frame 225 to move up and down.

Referring to fig. 1 and 2, the pushing frame 225 includes two parallel square steel pipes 2251, two connecting blocks 2252 are fixedly connected between the two square steel pipes 2251, the two square steel pipes 2251 are connected to each other through the connecting blocks 2252, the cylinder 222 is connected to one of the square steel pipes 2251, an angle steel 2253 is fastened to the square steel pipe 2251 that is not connected to the cylinder 222, the cross section of the angle steel 2253 is L-shaped, rectangular fixing blocks 2254 are respectively and fixedly connected to the top surfaces of the two connecting blocks 2252, a lead screw 2255 is inserted into the fixing block 2254, two fixing nuts 2256 are threadedly connected to the lead screw 2255, the two fixing nuts 2256 are located on the two sides of the fixing block 2254 and are used for tightly abutting against the fixing block 2254, a limiting block 2257 is fixedly connected to the top surface of the angle steel 2253, the limiting block 2257 is fixedly connected to the lead screw 5, and a worker can adjust the inclination degree of the angle steel 2253 by adjusting the lead screw 2255, so as to ensure that the insulation board moves forward and is cut by the cutting machine 3.

Referring to fig. 1 and 3, the rigid coupling has mounting panel 111 on support frame body 11 top surface, the hole 112 of stepping down has been seted up on mounting panel 111, control center 4 sets up in the hole 112 department of stepping down, control center 4 includes fixed plate 41, fixed plate 41 fixed connection is in the one side that the mounting panel 111 kept away from the commentaries on classics roller 12, the rigid coupling has control switch 42 on fixed plate 41, it is connected with L shape steel sheet 43 to rotate on the hole 112 of stepping down, the longer one side of steel sheet 43 is just right with control switch 42, there is pivot 44 at the longer one side rigid coupling of steel sheet 43, steel sheet 43 rotates in the hole 112 of stepping down through pivot 44, it is connected with extension spring 45 to be close to control switch 42 department on the longer one side of steel sheet 43, the other end and the fixed plate 41 of extension spring 45 install one side of control switch 42 and be connected. When heated board and steel sheet 43 contactless, the one end and the control switch 42 looks butt that steel sheet 43 is close to control switch 42, conveying motor 13 is in operating condition this moment, change roller 12 and rotate and convey the heated board to steel sheet 43 position, when the heated board keeps away from control switch 42's one end looks butt with steel sheet 43, the one end that steel sheet 43 is close to control switch 42 breaks away from control switch 42, conveying motor 13 stop work this moment, change roller 12 stall, later control switch 42 is to promoting subassembly 2 transmission signal, make 2 functions of promotion subassembly, promote subassembly 2 and promote the heated board along the direction of 1 direction of transfer of perpendicular to conveying subassembly, promote heated board to heated board drilling department.

When the insulation board is conveyed to the rotary roller 12 from the cutting chamber, the rotary roller 12 drives the insulation board to move towards the direction close to the control switch 42, when the insulation board is abutted to the control switch 42, the rotary roller 12 stops rotating, the pushing frame 225 is abutted to the insulation board at the moment and is driven by the sliding frame 221, the insulation board is moved towards the guide direction of the sliding rail 21, in the pushing process, the cutting machine 3 cuts two sides of the insulation board, when the insulation board is far away from the control switch 42, the rotary roller 12 continues to rotate to convey the next insulation board to the control switch 42, when the insulation board is moved to a drilling workshop, the air cylinder 222 drives the pushing frame 225 to move upwards, so that the pushing frame 225 is far away from the plane of the rotary roller 12, so that the next insulation board is prevented from being touched when the pushing frame 225 moves backwards, when the pushing frame 225 moves upwards to a certain position, the sliding frame 221 moves towards the direction far away from the drilling workshop along the sliding rail 21, when the rotary roller 12 moves to the outer side, the sliding frame 221 stops sliding, the air cylinder 222 extends to drive the pushing frame 225 to move downwards, so that the pushing frame 225 contacts with the upper surface of the rotary roller 12 to push the insulation board of the next insulation board.

The implementation principle of the insulation board feeding and pushing device in the embodiment of the application is as follows: make the heated board promote control switch 42 department through changeing roller 12 rotation through conveying motor 13, control switch 42 is through control conveying motor 13 stop work and start pushing motor 25, pushing motor 25 drives lifting unit 22 and slides along slide rail 21, the heated board is being cut by the cutting machine 3 of fixed mounting in the 2 both sides of pushing unit by the in-process that lifting unit 22 promoted, the heated board promotes to drill in the workshop afterwards, accomplish the heated board material loading and promote the process.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: equivalent changes in structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides an heated board material loading pusher which characterized in that: including conveying assembly (1) that is used for conveying the heated board, conveying assembly (1) top is provided with promotion subassembly (2) that is used for changing heated board moving direction, promotion subassembly (2) are including two parallel arrangement's slide rail (21), the length direction of slide rail (21) is crossing with the transmission direction of conveying assembly (1), two it is connected with carriage (221) to slide between slide rail (21), promote subassembly (2) still including being used for ordering about carriage (221) reciprocating motion's drive assembly two, carriage (221) below is provided with promotion frame (225) that are used for promoting the heated board, install between carriage (221) and promotion frame (225) and be used for ordering about the extensible member that promotes frame (225) reciprocated, conveying assembly (1) tail end still is provided with and is used for controlling conveying assembly (1) to stop and control the control center (4) that promote subassembly (2) synchronous start.

2. The insulation board feeding and pushing device according to claim 1, characterized in that: conveying subassembly (1) tail end is provided with mounting panel (111), mounting panel (111) length direction perpendicular to conveying subassembly (1) direction of transfer, control center (4) are including fixed plate (41), fixed plate (41) rigid coupling deviates from one side of heated board in mounting panel (111), install control conveying subassembly (1) and control switch (42) that promote subassembly (2) on fixed plate (41), set up hole of stepping down (112) on mounting panel (111), hole of stepping down (112) internal rotation is connected with steel sheet (43) that are used for triggering control switch (42), be connected with extension spring (45) between steel sheet (43) and fixed plate (41).

3. The insulation board feeding and pushing device according to claim 1 or 2, characterized in that: the telescopic piece is a cylinder (222).

4. The insulation board feeding and pushing device according to claim 3, characterized in that: a limiting pipe sleeve (224) is fixed on the sliding frame (221), a sliding rod (223) is vertically fixed on the pushing frame (225), and the sliding rod (223) penetrates through the limiting pipe sleeve (224) in a sliding mode.

5. The insulation board feeding and pushing device according to claim 1, characterized in that: the pushing frame (225) comprises two fixing blocks (2254) arranged at two ends of the pushing frame, a lead screw (2255) is horizontally arranged on each fixing block (2254), two fixing nuts (2256) are connected to the lead screw (2255) in a threaded manner, the two fixing nuts (2256) are located on two sides of each fixing block (2254) and abut against the fixing blocks (2254), a limiting block (2257) is fixedly connected to the end of the lead screw, and an angle steel (2253) used for abutting against a heat insulation board is fixedly connected to the limiting block (2257).

6. The insulation board feeding and pushing device according to claim 1, characterized in that: drive assembly two is including second chain (24) that encircles slide rail (21) a week and set up, be connected with connecting piece (23) between carriage (221) tip and second chain (24), slide rail (21) set up for channel-section steel and opening relatively, carriage (221) tip rotates to be connected with gyro wheel (2211) that the roll set up in the channel-section steel.

7. The insulation board feeding and pushing device according to claim 5, characterized in that: push away frame (225) including two parallel arrangement's square steel pipe (2251), the extensible member is connected with one of them square steel pipe (2251), two the rigid coupling has two connecting blocks (2252) between square steel pipe (2251), fixed block (2254) are fixed in on connecting block (2252), angle steel (2253) are set up on square steel pipe (2251) of not connecting the extensible member.

8. The insulation board feeding and pushing device according to claim 1, characterized in that: conveying subassembly (1) is including supporting support body (11), it is connected with a plurality of commentaries on classics roller (12) that are parallel to each other to rotate on supporting support body (11), still install conveying motor (13) on supporting support body (11), realize power transmission through a gear train (14) and a first chain (15) between conveying motor (13) and commentaries on classics roller (12).

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