CN109822720A - A kind of foamed ceramic is sintered slewing equipment under cooling rear mold furnace - Google Patents

Abstract

The present invention proposes that a kind of foamed ceramic is sintered slewing equipment under cooling rear mold furnace, including two lifting assemblies, first transfer bogie component, second trolley transmission assembly and auxiliary transmission assemblies, foamed ceramic is sintered cooling transmission line and transmits from left to right, two lifting assemblies are distributed in the left and right sides that foamed ceramic is sintered cooling transmission line, first transfer bogie component, second transfer bogie component and auxiliary transmission assemblies setting are sintered below cooling transmission line in foamed ceramic, first transfer bogie component, second transfer bogie component and auxiliary transmission assemblies are arranged between two lifting assemblies.Foamed ceramic of the present invention, which is sintered slewing equipment under cooling rear mold furnace, to be had the advantages that save space, guarantees the stability in the rate and mold transmit process of mold transmit process.

Description

A kind of foamed ceramic is sintered slewing equipment under cooling rear mold furnace

Technical field

The present invention relates to the slewing equipment field that foamed ceramic is sintered cooling rear mold, in particular to a kind of foamed ceramic is burnt Tie slewing equipment under cooling rear mold furnace.

Background technique

Foamed ceramic is removed after foamed ceramic sintering at present is cooling, and mold used in foamed ceramic sintering process is returned Turn to be recycled.The revolution of mold at this stage is that whole process is transmitted using transfer roller, and occupied space is big, while transporting process In it sometimes appear that not can guarantee the transmission efficiency of mold the phenomenon that transfer roller Caton.

Summary of the invention

It is an object of the invention to provide a kind of foamed ceramics to be sintered slewing equipment under cooling rear mold furnace, solves above-mentioned existing skill One or more of art problem.

The present invention proposes that a kind of foamed ceramic is sintered slewing equipment under cooling rear mold furnace, including two lifting assemblies, the One transfer bogie component, the second trolley transmission assembly and auxiliary transmission assemblies, foamed ceramic are sintered cooling transmission line from left-hand Right transmission, two lifting assemblies are distributed in the left and right sides that foamed ceramic is sintered cooling transmission line, the first transfer bogie component, the Two transfer bogie components and auxiliary transmission assemblies setting are sintered below cooling transmission line in foamed ceramic, the first transfer bogie group Part, the second transfer bogie component and auxiliary transmission assemblies are arranged between two lifting assemblies.

Wherein, the right end that the foamed ceramic is sintered cooling transmission line is equipped with the first auxiliary stopper block, the first auxiliary stopper The surface of block uses spherical design.

Wherein, two lifting assembly Relative distributions include a chain-type elevator, chain in each lifting assembly Formula elevator is equipped with a hoistable platform, and hoistable platform is equipped with the rotary cylinder connecting with air pump, and rotary cylinder is equipped with Rotary shaft, rotary shaft are equipped with double jaw clamps.

Further, limit plate is equipped with towards the side of auxiliary transmission assemblies on the chain-type elevator.Utilize limit plate Limit the transport range of the first transfer bogie component and the second transfer bogie component.

It wherein, include the first transfer bogie and the first transfer bogie driving assembly in the first transfer bogie component, the In two transfer bogie components include the second transfer bogie and the second transfer bogie driving assembly, the first transfer bogie driving assembly and The structure of second transfer bogie driving assembly is identical, and the first transfer bogie driving assembly and the second transfer bogie driving assembly are symmetrical It is distributed, includes hoist engine, help roll and wirerope in the first transfer bogie driving assembly, one end of wirerope and hoist engine connect It connects, the other end of wirerope passes through the first transfer bogie or the second transfer bogie is connect around help roll with hoist engine, hoist engine The left and right transmission of the first transfer bogie and the second transfer bogie is controlled by wirerope, auxiliary transmission assemblies are arranged in help roll On emplacing platform.

Further, the bottom of first transfer bogie and the second transfer bogie is equipped with idler wheel, and the bottom of idler wheel is equipped with Sliding groove, ground are equipped with track, and shape, size and the position of track are opposite with the shape of sliding groove, size and position It answers, the top of track is in sliding groove.

Further, first transfer bogie is equipped with the first live-roller gear, at least provided with two in auxiliary transmission assemblies Second transfer roller of station, the second transfer roller are arranged on emplacing platform, and the second transfer bogie is equipped with third transfer roller, First live-roller gear, the second transfer roller and third transfer roller are arranged in same level, and are all made of from right to left Transmission design, the outer right wall of the first transfer bogie is equipped with the first contact chip, on the outer wall of the left and right sides of emplacing platform point Not She You the second contact chip and third contact chip, the second contact chip and third contact chip connected to power supply by conducting wire, second The outer wall in the left side of transfer bogie is equipped with the 4th contact chip, and the position of the 4th contact chip is opposite with the position of third contact chip It answers, the position of the second contact chip is corresponding with the position of the first contact chip.

Further, the first transfer bogie on the left of first live-roller gear is equipped with the second auxiliary stopper block, and second is auxiliary Help the surface of limited block using spherical design.Mold can be effectively limited by the design of the second auxiliary stopper block to pass first Send the movement of trolley surface.It can so that the operation of slewing equipment is more stable under the entire cooling rear mold furnace of foamed ceramic sintering It leans on.

Further, the second transfer roller there are two station is set in the auxiliary transmission assemblies.

A kind of foamed ceramic of the present invention is sintered the advantages of slewing equipment under cooling rear mold furnace are as follows: and it is structurally reasonable, It is at low cost, it is easy to repair, it transports process and stablizes, transport high-efficient.

Detailed description of the invention

Fig. 1 is that the structure that foamed ceramic is sintered slewing equipment under cooling rear mold furnace in an embodiment of the invention is shown It is intended to；

Fig. 2 is the enlarged drawing of the part A-a in Fig. 1；

Fig. 3 is the enlarged drawing of the part A-b in Fig. 1.

Specific embodiment

As shown in Figure 1, the present invention proposes that a kind of foamed ceramic is sintered slewing equipment under cooling rear mold furnace, including two rise It comes down to a lower group part, the first transfer bogie component, the second trolley transmission assembly and auxiliary transmission assemblies, the cooling transmission of foamed ceramic sintering Line 1 transmits from left to right, and two lifting assemblies are distributed in the left and right sides that foamed ceramic is sintered cooling transmission line 1, the first transmission Trolley component, the second transfer bogie component and auxiliary transmission assemblies setting are sintered below cooling transmission line 1 in foamed ceramic, the One transfer bogie component, the second transfer bogie component and auxiliary transmission assemblies are arranged between two lifting assemblies.Such energy Enough effective saving spaces, while ensure that the efficiency of transmission of mold 2.

As the preferred of the present embodiment, as depicted in figs. 1 and 2, the right end that the foamed ceramic is sintered cooling transmission line 1 is set There is the first auxiliary stopper block 19, the first auxiliary stopper block 19 is for limiting the mold 2 of transmission, the first auxiliary stopper block 19 Surface use spherical design.

As the preferred of the present embodiment, two lifting assembly Relative distributions include a chain in each lifting assembly Formula elevator 3, chain-type elevator 3 are equipped with a hoistable platform 5, and hoistable platform 5 is equipped with the rotation connecting with air pump Cylinder 6, rotary cylinder 6 are equipped with rotary shaft, and rotary shaft is equipped with double jaw clamps 7.

As the preferred of the present embodiment, limit is equipped with towards the side of auxiliary transmission assemblies on the chain-type elevator 3 Plate.Utilize the transport range of limit plate limitation the first transfer bogie component and the second transfer bogie component.

It include the first transfer bogie 17 and the first transmission as the preferred of the present embodiment, in the first transfer bogie component Trolley driving assembly, includes the second transfer bogie 12 and the second transfer bogie driving assembly in the second transfer bogie component, and first The structure of transfer bogie driving assembly and the second transfer bogie driving assembly is identical, and the first transfer bogie driving assembly and second passes Send trolley driving assembly symmetrical, in the first transfer bogie driving assembly include hoist engine 8, help roll 10 and wirerope 9, One end of wirerope 9 is connect with hoist engine 8, and the other end of wirerope 9 passes through the first transfer bogie 17 or the second transfer bogie 12 It is connect around help roll with hoist engine 8, hoist engine 8 controls the first transfer bogie 17 and the second transfer bogie 12 by wirerope 9 Left and right transmission, help roll 10 is arranged on the emplacing platform 15 of auxiliary transmission assemblies.

As the preferred of the present embodiment, the bottom of first transfer bogie 17 and the second transfer bogie 12 is equipped with idler wheel 13, the bottom of idler wheel 13 is equipped with sliding groove, and ground is equipped with track 11, shape, size and the position of track 11 and sliding groove Shape, size and position it is corresponding, the top of track 11 is in sliding groove, so that the first transfer bogie 17 and the The operation of two transfer bogiies 12 is more stable.

As the preferred of the present embodiment, first transfer bogie 17 is equipped with the first live-roller gear 18, assists transmission group The second transfer roller 16 there are two station is set in part, the second transfer roller 16 is arranged on emplacing platform 15, the second transfer bogie 12 are equipped with third transfer roller 14, and the first live-roller gear 18, the second transfer roller 16 and the setting of third transfer roller 14 exist In same level, and it is all made of transmission design from right to left, the outer right wall of the first transfer bogie 17 is equipped with first and connects Contact is respectively equipped with the second contact chip and third contact chip, the second contact chip and on the outer wall of the left and right sides of emplacing platform 15 Three contact chips are connected to power supply by conducting wire, and the outer wall in the left side of the second transfer bogie 12 is equipped with the 4th contact chip, and the 4th The position of contact chip is corresponding with the position of third contact chip, and the position of the second contact chip is opposite with the position of the first contact chip It answers.

As the preferred of the present embodiment, as shown in figures 1 and 3, first transmission in 18 left side of the first live-roller gear is small Vehicle 17 is equipped with the second auxiliary stopper block 20, and the surface of the second auxiliary stopper block 20 uses spherical design.Pass through the second auxiliary limit The design of position block 20 can effectively limit mold 2 in the movement on 17 surface of the first transfer bogie.So that entire foamed ceramic is burnt The operation for tying slewing equipment under cooling rear mold furnace is more reliable and stable.

The foamed ceramic described in present embodiment is sintered slewing equipment under cooling rear mold furnace and is controlled by PLC program, Working principle are as follows: demoulding completes rear mold 2 and is sent to the right end that foamed ceramic is sintered cooling transmission line 1, at this time hoistable platform 5 Waiting station in crawl, double jaw clamps 7 are in the initial station of fixture, and it is cold that hoistable platform 5 is higher than foamed ceramic sintering But transmission line 1, the rotary cylinder 6 on hoistable platform 5 control the top that double jaw clamps 7 rotate to mold 2, double jaw clamps 7 It opens, then hoistable platform 5 drops to the position that double jaw clamps 7 clamp mold 2, and pause, then double jaw clamps 7 tighten folder Modulus tool 2, then rotary cylinder 6 controls double jaw clamps 7 and reversely rotates the initial station for replying fixture, then hoistable platform 5 It drives rotary cylinder 6, double jaw clamps 7 and mold 2 to decline, drops to the upper of the bottom of mold 2 and third transfer roller 14 When surface is in same level, hoistable platform 5 suspends, and the second transfer bogie 12 is in the initial station of the second trolley at this time, The right side of second transfer bogie 12 is contacted with the limit plate on right side, and the rotary cylinder 6 on hoistable platform 5 controls double jaw clamps 7 The top of third transfer roller 14 is rotated to, then double jaw clamps 7 unclamp, and mold 2 is detached from double jaw clamps 7, then go up and down Platform 5 rises, and rotary cylinder 6 controls double jaw clamps 7 and reversely rotates in uphill process, is sintered cooling pass reaching foamed ceramic The initial station of fixture is replied before defeated line 1, then hoistable platform 5 continues up the waiting station that operation is returned to crawl；Simultaneously Hoist engine 8 drives the second transfer bogie 12 to run to the left along track 11 by wirerope, when the left side of the second transfer bogie 12 When with the right contact of emplacing platform 15, hoist engine 8 stops working, and the first transfer bogie 17 is in the first trolley and waits work at this time Position, the position of the 4th contact chip contact energization with third contact chip, and the position of the second contact chip contacts energization with the first contact chip, Third transfer roller 14, the second transfer roller 16 and the first transfer roller 18 start driven mold 2 and run to the left, and mold 2 is de- When from third transfer roller 14, the position of the 4th contact chip contacts releasing with third contact chip, and third transfer roller 14 stops fortune Row, hoist engine 8 start to work, hoist engine 8 by wirerope 9 drive the second transfer bogie 12 run to the right to the second trolley just Beginning station；When mold 2 is sent to left side and the second auxiliary stopper block 20 of mold, the hoist engine 8 of the other side is started to work, Hoist engine 8 drives the first transfer bogie 17 to run to the left by wirerope 9, and the position of the second contact chip is contacted with the first contact chip It releases, the first transfer roller 18 is out of service, to the limit on the left side of the first transfer bogie 17 and another chain-type elevator 3 Position plate contact, the hoistable platform 5 on another chain-type elevator 3 is in the second station to be grabbed at this time, at double jaw clamps 7 In the initial station of the second fixture, hoistable platform 5 is higher than the upper surface of the first transport trolley 17, the rotary pneumatic on hoistable platform 5 Cylinder 6 controls the top that double jaw clamps 7 rotate to mold 2, and double jaw clamps 7 open, and then hoistable platform 5 drops to double fastener pawl Fixture 7 clamps the position of mold 2, and pause, then double tightenings of jaw clamps 7 clamp molds 2, and then rotary cylinder 6 controls double fastener Claw clip tool 7 reversely rotates the initial station for replying the second fixture, and double tightenings of jaw clamps 7 clamp molds 2, then rotary cylinder 6 Control double jaw clamps 7 and reversely rotate the initial station for replying the second fixtures, at this time then hoistable platform 5 drive rotary cylinder 6, Double jaw clamps 7 and mold 2 rise, and the bottom and foamed ceramic for rising to mold 2 are sintered at the upper surface of cooling transmission line 1 When same level, hoistable platform 5 suspends, and hoist engine 8 is started to work at this time, and hoist engine 8 drives first to pass by wirerope 9 Trolley 17 is sent to run to the right to the waiting station of the first trolley, the rotary cylinder 6 on hoistable platform 5 controls double jaw clamps 7 and revolves The top of third transfer roller 14 is gone to, then double jaw clamps 7 unclamp, and mold 2 is detached from double jaw clamps 7, and then lifting is flat Platform 5 rises, and rotary cylinder 6 controls double jaw clamps 7 and reversely rotates the initial station for replying the second fixture in uphill process, then Hoistable platform 5, which starts to run downwards, is returned to the second station to be grabbed.

It is segmented in present embodiment using two transfer bogiies (the first transfer bogie 17 and the second transfer bogie 12) Formula conveying, effectively shortening using a transfer bogie is the too long disadvantage of back-and-forth distance, and mold progress is effectively guaranteed Working efficiency when being transmitted under furnace.

The above is only preferred embodiment of the invention, it is noted that those skilled in the art, not Under the premise of being detached from the invention design, some similar deformation and improvement can be made, these also should be regarded as the present invention Protection scope within.

Claims (8)

1. a kind of foamed ceramic is sintered slewing equipment under cooling rear mold furnace, including two lifting assemblies, the first transfer bogie group Part, the second trolley transmission assembly and auxiliary transmission assemblies, foamed ceramic are sintered cooling transmission line (1) and transmit from left to right, and two A lifting assembly is distributed in the left and right sides that foamed ceramic is sintered cooling transmission line (1), the first transfer bogie component, the second transmission Trolley component and auxiliary transmission assemblies setting are sintered below cooling transmission line (1) in foamed ceramic, the first transfer bogie component, Second transfer bogie component and auxiliary transmission assemblies are arranged between two lifting assemblies.

2. a kind of foamed ceramic according to claim 1 is sintered slewing equipment under cooling rear mold furnace, which is characterized in that hair The right end for steeping ceramic post sintering cooling transmission line (1) is equipped with the first auxiliary stopper block (19), the surface of the first auxiliary stopper block (19) Using spherical design.

3. a kind of foamed ceramic according to claim 1 is sintered slewing equipment under cooling rear mold furnace, which is characterized in that two A lifting assembly Relative distribution includes a chain-type elevator (3), chain-type elevator (3) in each lifting assembly It is equipped with a hoistable platform (5), hoistable platform (5) is equipped with the rotary cylinder (6) that connect with air pump, on rotary cylinder (6) Equipped with rotary shaft, rotary shaft is equipped with double jaw clamps (7).

4. a kind of foamed ceramic according to claim 1 is sintered slewing equipment under cooling rear mold furnace, which is characterized in that institute State includes the first transfer bogie (17) and the first transfer bogie driving assembly, the second transfer bogie group in the first transfer bogie component It include the second transfer bogie (12) and the second transfer bogie driving assembly in part, the first transfer bogie driving assembly and second transmit The structure of trolley driving assembly is identical, and the first transfer bogie driving assembly and the second transfer bogie driving assembly are symmetrical, the It include hoist engine (8), help roll (10) and wirerope (9), one end of wirerope (9) and volume in one transfer bogie driving assembly Machine (8) connection is raised, the other end of wirerope (9) passes through the first transfer bogie (17) or the second transfer bogie (12) around help roll It is connect with hoist engine (8), hoist engine (8) passes through wirerope (9) control the first transfer bogie (17) and the second transfer bogie (12) Left and right transmission, help roll (10) is arranged on the emplacing platform (15) of auxiliary transmission assemblies.

5. a kind of foamed ceramic according to claim 4 is sintered slewing equipment under cooling rear mold furnace, which is characterized in that institute The bottom for stating the first transfer bogie (17) and the second transfer bogie (12) is equipped with idler wheel (13), and the bottom of idler wheel (13), which is equipped with, to be slided Dynamic slot, ground are equipped with track (11), shape, size and the position of track (11) and shape, size and the position of sliding groove Set corresponding, the top of track (11) is in sliding groove.

6. a kind of foamed ceramic according to claim 4 is sintered slewing equipment under cooling rear mold furnace, which is characterized in that institute It states the first transfer bogie (17) and is equipped with the first live-roller gear (18), at least provided with the second of two stations in auxiliary transmission assemblies Transfer roller (16), the second transfer roller (16) are arranged on emplacing platform (15), and the second transfer bogie (12) is passed equipped with third It send roller-way (14), the first live-roller gear (18), the second transfer roller (16) and third transfer roller (14) are arranged in same water In plane, and it being all made of transmission design from right to left, the outer right wall of the first transfer bogie (17) is equipped with the first contact chip, The second contact chip and third contact chip are respectively equipped on the outer wall of the left and right sides of emplacing platform (15), the second contact chip and third connect Contact is connected to power supply by conducting wire, and the outer wall in the left side of the second transfer bogie (12) is equipped with the 4th contact chip, and the 4th connects The position of contact is corresponding with the position of third contact chip, and the position of the second contact chip is corresponding with the position of the first contact chip.

7. a kind of foamed ceramic according to claim 6 is sintered slewing equipment under cooling rear mold furnace, which is characterized in that institute It states the first transfer bogie (17) on the left of the first live-roller gear (18) and is equipped with the second auxiliary stopper block (20), the second auxiliary stopper The surface of block (20) uses spherical design.

8. a kind of foamed ceramic according to claim 6 is sintered slewing equipment under cooling rear mold furnace, which is characterized in that institute State the second transfer roller (16) set in auxiliary transmission assemblies there are two station.