CN112707649B - A heat preservation device for online coated glass production - Google Patents

Abstract

The invention provides a heat preservation device for online production of coated glass, which comprises a device shell, an air outlet pipe, a motor, fan blades, high-temperature silicic acid cellucotton, a movable door, a movable mounting frame structure, a locking and buffering mounting frame structure, a protective mounting frame structure, a steam radiator, an inlet pipe, a connecting pipe, a steam pressure control valve, a protective cover and a steam control loop, wherein the air outlet pipe is inserted at the left side and the right side of the upper part of the device shell; the motor bolt is arranged on the middle upper part of the device shell, and the output shaft of the motor penetrates through the top of the device shell. The rubber protection pad is arranged on the upper screw of the transverse protection plate, so that the damage caused by falling when the glass is operated on the front side of the movable door can be avoided; buffer spring sets up on the inboard upper portion of buffering frame, is favorable to conveniently playing the tight buffer function in top to the limiting plate when using to play buffer function when utilizing the locating lever to support horizontal guard plate.

Description

A heat preservation device for online coated glass production

Technical Field

The invention belongs to the technical field of machinery, and particularly relates to a heat preservation device for online coated glass production.

Background

With the continuous release of national energy-saving and environment-friendly policies, people have continuously strengthened energy-saving and environment-friendly awareness, the energy-saving requirement on building glass is higher and higher, and the demand of the market on low-emissivity glass is further stimulated. The quantity of buildings in China is huge, the popularization rate of energy-saving products of buildings is greatly different from that of developed countries in China, and therefore the space of the energy-saving products of buildings in China is huge and the potential is huge. The energy-saving glass market has good market and product price in a long period.

But the heat preservation device of current coated glass production has not had and plays the guard action to the dodge gate lower side according to the demand, and is inconvenient to protect the frame and play shock attenuation buffer function, inconvenient to protect the frame locking and do not possess the problem that the locking position played buffer function.

Therefore, the invention is necessary to invent a heat preservation device for online coated glass production.

Disclosure of Invention

In order to solve the technical problems, the invention provides a heat preservation device for online coated glass production, which aims to solve the problems that the existing heat preservation device for coated glass production does not have the protection function on the lower side of a movable door according to requirements, is inconvenient to play a damping and buffering function on a protection frame, and is inconvenient to lock the protection frame and does not have the buffering function on the locking position. A heat preservation device for online coated glass production comprises a device shell, an air outlet pipe, a motor, fan blades, high-temperature silicic acid cellucotton, a movable door, a movable mounting frame structure, a locking and buffering mounting frame structure, a protective mounting frame structure, a steam radiator, an inlet pipe, a connecting pipe, a steam pressure control valve, a protective cover and a steam control loop, wherein the air outlet pipe is inserted in the left side and the right side of the upper part of the device shell; the motor bolt is arranged at the middle upper part of the device shell, and an output shaft of the motor penetrates through the top of the device shell; the fan blades are arranged on the inner side of the device shell, and meanwhile, fan blade bolts are arranged on an output shaft of the motor; the high-temperature silicic acid cellucotton screw is arranged on the left side of the movable door; the movable door is hinged to the lower part of the right side of the device shell; the movable mounting frame structure is arranged at the front part and the rear part of the right lower side of the device shell; the locking buffer fixing frame structure is arranged on the right side of the movable mounting frame structure; the sleeved protective bearing frame structure is arranged at the bottom of the device shell; the steam radiator is mounted on the upper part of the inner side of the device shell through a bolt; the leading-in pipe and the connecting pipe are respectively connected to the left side of the steam radiator in a flange manner; the steam pressure control valve can be connected to the upper part of the connecting pipe through threads; the steam control loop is welded at the lower part of the connecting pipe; the muff-coupling protective bearing frame structure comprises a fixing frame, a storage inserting frame, a transverse groove, a transverse protection plate, a limiting fixing rod, a side lug plate and a buffer support structure, wherein the fixing frame is welded at the bottom of a device shell; the storage inserting frame is welded at the upper part of the fixed frame; the transverse slots are formed in the front side and the rear side of the middle position of the storage inserting frame; the transverse protection plate is inserted into the right side of the interior of the storage inserting frame; the side ear plates are welded at the front end and the rear end of the right side of the upper part of the transverse protection plate; the buffering support structure is arranged on the right side of the transverse protection plate.

Preferably, the buffering support structure comprises a buffering frame, a positioning ring, a positioning rod, a rubber holding handle, a limiting plate and a buffering spring, and the buffering frame is welded on the right side of the transverse protection plate; the positioning rod penetrates through the positioning ring and is inserted into the inner side of the buffer frame; the limiting plate is arranged on the inner side of the buffering frame, and meanwhile, a limiting plate screw is arranged on the upper portion of the positioning rod.

Preferably, the movable mounting frame structure comprises an L-shaped fixing plate, a fixing bolt, a side mounting plate, a connecting shaft plate, a connecting screw rod and a fixing shaft rod, wherein the L-shaped fixing plate is mounted on the front side and the rear side of the device shell through the fixing bolt; the side mounting plate is welded on the right side of the L-shaped fixing plate; the connecting shaft plate is welded in the middle of the right side of the side mounting plate.

Preferably, the locking buffer fixing frame structure comprises a left movable ring, a jacking spring, a right movable ring, a locking nut and a corrugated pipe, wherein the right movable ring is arranged on the right side of the left movable ring; the locking nut is arranged on the right side of the right movable ring.

Preferably, a rubber pad is mounted on the upper screw of the transverse protection plate.

Preferably, the buffer spring is arranged at the upper part of the inner side of the buffer frame, and the lower part of the buffer spring is contacted with the upper part of the limit plate.

Preferably, the locking nut is in threaded connection with the right side of the outer part of the connecting screw rod.

Preferably, the jacking spring is sleeved outside the connecting screw rod and is arranged on the right side of the left movable ring and the left side of the right movable ring.

Preferably, the limiting fixing rod penetrates through the transverse slotted bolt and is installed at the front end and the rear end of the left side of the transverse protection plate.

Preferably, the corrugated pipe screw is arranged on the outer sides of the left movable ring and the right movable ring to play a role in protection.

Preferably, the connecting screw rod is connected to the right side of the connecting shaft plate through a fixed shaft.

Preferably, the protective cover screw is arranged at the upper left side of the device shell.

Preferably, the rubber grip handle is mounted on the lower part of the positioning rod through a screw.

Preferably, the positioning ring screw is installed at the lower part of the inner side of the buffer frame.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the rubber protection pad is arranged on the upper screw of the transverse protection plate, so that the right side of the movable door can be conveniently protected when the movable door is used, and the damage caused by falling when the glass is operated on the front side of the movable door can be avoided.

2. In the invention, the buffer spring is arranged at the upper part of the inner side of the buffer frame, and the lower part of the buffer spring is contacted with the upper part of the limiting plate, so that the limiting plate can be conveniently pushed and buffered when in use, and the transverse protection plate can be conveniently supported by the positioning rod.

3. In the invention, the locking nut is in threaded connection with the right side of the outer part of the connecting screw rod, so that the locking nut can be favorably used for rotating on the right side of the connecting screw rod when in use, and the side lug plates can be conveniently locked and fixed from the connecting screw rod.

4. In the invention, the jacking spring is sleeved on the outer side of the connecting screw rod and is arranged on the right side of the left movable ring and the left side of the right movable ring, so that the inner sides of the left movable ring and the right movable ring can be conveniently buffered when the device is used.

5. In the invention, the limiting fixing rod penetrates through the transverse slotted bolt and is arranged at the front end and the rear end of the left side of the transverse protection plate, so that the transverse protection plate can be conveniently and completely drawn out of the storage insertion frame when in use, and meanwhile, the limiting function can be realized.

6. In the invention, the corrugated pipe screw is arranged at the outer sides of the left movable ring and the right movable ring to play a role of protection, thereby being beneficial to avoiding that sundries enter the inner sides of the left movable ring and the right movable ring to influence the function of jacking the spring when in use.

7. According to the invention, the connecting screw rod is connected to the right side of the connecting shaft plate through the fixed shaft, so that the connecting screw rod can conveniently move up and down from the right side of the connecting shaft plate according to requirements when in use, and the connecting screw rod can be more easily inserted into the inner side of the side lug plate.

8. According to the invention, the protective cover screw is arranged on the upper part of the left side of the device shell, so that the protective cover screw is beneficial to conveniently protecting the connectors of the steam radiator, the inlet pipe and the connecting pipe when in use, and the steam radiator, the inlet pipe and the connecting pipe can be prevented from being easily damaged due to corrosion.

9. According to the invention, the rubber grip handle is arranged at the lower part of the positioning rod through the screw, so that the positioning rod can be prevented from being damaged by collision with the opposite surface when in use, and the protection effect of the rubber grip handle in collision with the ground can be reduced.

10. In the invention, the positioning ring screw is arranged at the lower part of the inner side of the buffer frame, so that the positioning function of the positioning rod is conveniently realized when the buffer frame is used, and the positioning rod can be prevented from moving left and right in the positioning ring when the buffer frame is used.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic structural view of the flexible mount structure of the present invention.

Fig. 3 is a structural schematic diagram of the locking buffer fixing frame structure of the invention.

Fig. 4 is a schematic structural view of the construction of the socketable protective carrier of the present invention.

Fig. 5 is a schematic structural view of a buffer bracket structure of the present invention.

In the figure:

1. a device housing; 2. an air outlet pipe; 3. a motor; 4. a fan blade; 5. high-temperature silicic acid cellucotton; 6. a movable door; 7. a movable mounting frame structure; 71. an L-shaped fixing plate; 72. fixing the bolt; 73. a side mounting plate; 74. connecting the shaft plate; 75. connecting a screw rod; 76. fixing the shaft lever; 8. locking the buffer fixing frame structure; 81. a left movable ring; 82. the spring is tightly propped; 83. a right movable ring; 84. locking the nut; 85. a bellows; 9. the protective bearing frame structure can be sleeved; 91. a fixing frame; 92. storing the insert frame; 93. transversely grooving; 94. a transverse protection plate; 95. a limiting fixing rod; 96. a side ear plate; 97. a buffer support structure; 971. a buffer frame; 972. a positioning ring; 973. positioning a rod; 974. a rubber grip; 975. a limiting plate; 976. a buffer spring; 10. a steam radiator; 11. an introducing pipe; 12. a connecting pipe; 13. a steam pressure control valve; 14. a protective cover; 15. a vapor control loop.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example (b):

as shown in figures 1 and 4

The invention provides a heat preservation device for online coated glass production, which comprises a device shell 1, an air outlet pipe 2, a motor 3, fan blades 4, high-temperature silicic acid cellucotton 5, a movable door 6, a movable mounting frame structure 7, a locking and buffering fixing frame structure 8, a protective bearing frame structure 9, a steam radiator 10, an inlet pipe 11, a connecting pipe 12, a steam pressure control valve 13, a protective cover 14 and a steam control loop 15, wherein the air outlet pipe 2 is inserted at the left side and the right side of the upper part of the device shell 1; the motor 3 is mounted on the middle upper part of the device shell 1 through a bolt, and an output shaft of the motor 3 penetrates through the top of the device shell 1; the fan blades 4 are arranged on the inner side of the device shell 1, and meanwhile, the fan blades 4 are installed on an output shaft of the motor 3 through bolts; the high-temperature silicic acid cellucotton 5 is mounted on the left side of the movable door 6 through screws; the movable door 6 is hinged at the lower part of the right side of the device shell 1; the movable mounting frame structure 7 is arranged at the front part and the rear part of the right lower side of the device shell 1; the locking buffer fixing frame structure 8 is arranged on the right side of the movable mounting frame structure 7; the socketable protective bearing frame structure 9 is arranged at the bottom of the device shell 1; the steam radiator 10 is mounted on the upper part of the inner side of the device shell 1 through bolts; the lead-in pipe 11 and the connecting pipe 12 are respectively connected to the left side of the steam radiator 10 in a flange manner; the steam pressure control valve 13 can be connected to the upper part of the connecting pipe 12 through screw threads; the steam control loop 15 is welded at the lower part of the connecting pipe 12; the protective cover 14 is mounted on the upper left side of the device shell 1 through screws, so that the connectors of the steam radiator 10, the lead-in pipe 11 and the connecting pipe 12 are protected conveniently when the device is used, and the steam radiator 10, the lead-in pipe 11 and the connecting pipe 12 can be prevented from being corroded and easily damaged; the socketed protective bearing frame structure 9 comprises a fixing frame 91, a storage inserting frame 92, a transverse slot 93, a transverse protective plate 94, a limiting fixing rod 95, a side lug plate 96 and a buffer support structure 97, wherein the fixing frame 91 is welded at the bottom of the device shell 1; the storage insert frame 92 is welded on the upper part of the fixed frame 91; the transverse slots 93 are formed in the front side and the rear side of the middle position of the storage inserting frame 92; the transverse protection plate 94 is inserted into the right side of the storage insertion frame 92; the side ear plates 96 are welded at the front end and the rear end of the right side of the upper part of the transverse protection plate 94; the buffer bracket structure 97 is arranged at the right side of the transverse protection plate 94; the upper portion screw mounting of horizontal guard plate 94 have the rubber protection pad, conveniently play the guard action to the right side of dodge gate 6 when using, can avoid simultaneously dropping when the front side of dodge gate 6 is operated glass and cause the damage, spacing dead lever 95 run through horizontal fluting 93 bolt and install both ends around horizontal guard plate 94 is left, conveniently insert frame 92 from storing and in whole take out horizontal guard plate 94 when using, can play limit function simultaneously.

As shown in fig. 5, in the above embodiment, specifically, the buffering bracket structure 97 includes a buffering frame 971, a positioning ring 972, a positioning rod 973, a rubber grip 974, a limiting plate 975 and a buffering spring 976, and the buffering frame 971 is welded to the right side of the transverse protection plate 94; the positioning rod 973 penetrates through the positioning ring 972 and is inserted into the inner side of the buffer frame 971; the limit plate 975 is arranged on the inner side of the buffer frame 971, and the limit plate 975 is screwed on the upper part of the positioning rod 973; buffer spring 976 set up on buffering frame 971's inboard upper portion, buffer spring 976's lower part and limiting plate 975's upper portion contact simultaneously, the convenience plays the tight buffer function in top to limiting plate 975 when using, so as to play buffer function when utilizing locating lever 973 to support horizontal guard plate 94, rubber grip 974 screw mounting in locating lever 973's lower part, can avoid locating lever 973 and face-to-face collision to cause the damage to it when using, thereby can reduce the rubber and grip the safeguard effect when 974 collides with the ground, holding ring 972 screw mounting in buffering frame 971's inboard lower part, conveniently play locate function to locating lever 973 when using, locating lever 973 moves about in holding ring 972 when can avoiding using simultaneously.

As shown in fig. 2, in the above embodiment, specifically, the flexible mounting frame structure 7 includes an L-shaped fixing plate 71, a fixing bolt 72, a side mounting plate 73, a connecting shaft plate 74, a connecting screw 75 and a fixing shaft 76, wherein the L-shaped fixing plate 71 is mounted on the front and rear sides of the device housing 1 through the fixing bolt 72; the side mounting plate 73 is welded on the right side of the L-shaped fixing plate 71; the connecting shaft plate 74 is welded at the middle position of the right side of the side edge mounting plate 73; the connecting screw 75 is coupled to the right side of the connecting shaft plate 74 through the fixing shaft 76, so that the connecting screw 75 can move up and down from the right side of the connecting shaft plate 74 as required when in use, and the connecting screw 75 can be more easily inserted into the inner side of the side ear plate 96.

As shown in fig. 3, in the above embodiment, specifically, the locking buffer fixing frame structure 8 includes a left movable ring 81, a tightening spring 82, a right movable ring 83, a locking nut 84 and a bellows 85, where the right movable ring 83 is disposed at the right side of the left movable ring 81; the locking nut 84 is arranged on the right side of the right movable ring 83; lock nut 84 threaded connection on connecting screw 75's outside right side, utilize lock nut 84 rotatory on connecting screw 75's right side when using, and then conveniently lock side otic placode 96 from connecting screw 75, top tension spring 82 cup joint in connecting screw 75's the outside, set up the right side at left side activity ring 81 and the left side of right side activity ring 83 simultaneously, conveniently play buffer function to the inboard of left side activity ring 81 and right side activity ring 83 when using, bellows 85 screw mounting play the guard action in the outside of left side activity ring 81 and right side activity ring 83, debris enter into the inboard of left side activity ring 81 and right side activity ring 83 and influence the effect of top tension spring 82 when avoiding using.

Principle of operation

In the working process, the heat exchange plate is integrally led into the inner side of the steam radiator 10 from the lead-in pipe 11 during use so as to exchange heat inside the device shell 1, meanwhile, the steam pressure control valve 13 controls the connecting pipe 12 to discharge gas outwards according to requirements, the transverse protection plate 94 rotates towards the right side during taking and placing, the transverse protection plate is horizontally placed on the ground, meanwhile, the rubber holding handle 974 is used for supporting the transverse protection plate, and meanwhile, the buffer spring 976 can be used for supporting and buffering the transverse protection plate 94 so as to prevent glass from falling onto the transverse protection plate 94 and being easily damaged; after the movable door 6 is closed, the transverse protection plate 94 is pulled upwards to enable the connecting screw 75 to penetrate through the side ear plate 96, the left movable ring 81, the jacking spring 82, the right movable ring 83 and the locking nut 84 are sequentially sleeved on the outer side of the connecting screw 75, the locking nut 84 is screwed on the right side of the connecting screw 75, and then the side ear plate 96 is conveniently fixed.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention.

Claims (10)

1. The heat preservation device for online coated glass production is characterized by comprising a device shell (1), an air outlet pipe (2), a motor (3), fan blades (4), high-temperature silicic acid cellucotton (5), a movable door (6), a movable mounting frame structure (7), a locking and buffering fixing frame structure (8), a protective bearing frame structure (9), a steam radiator (10), a lead-in pipe (11), a connecting pipe (12), a steam pressure control valve (13), a protective cover (14) and a steam control loop (15), wherein the air outlet pipe (2) is inserted into the left side and the right side of the upper part of the device shell (1); the motor (3) is mounted on the middle upper part of the device shell (1) through a bolt, and an output shaft of the motor (3) penetrates through the top of the device shell (1); the fan blades (4) are arranged on the inner side of the device shell (1), and meanwhile, the fan blades (4) are installed on an output shaft of the motor (3) through bolts; the high-temperature silicic acid cellucotton (5) is arranged on the left side of the movable door (6) through screws; the movable door (6) is hinged at the lower part of the right side of the device shell (1); the movable mounting frame structure (7) is arranged at the front part and the rear part of the right lower side of the device shell (1); the locking buffer fixing frame structure (8) is arranged on the right side of the movable mounting frame structure (7); the sleeved protective bearing frame structure (9) is arranged at the bottom of the device shell (1); the steam radiator (10) is mounted on the upper part of the inner side of the device shell (1) through bolts; the lead-in pipe (11) and the connecting pipe (12) are respectively connected to the left side of the steam radiator (10) in a flange manner; the steam pressure control valve (13) can be connected to the upper part of the connecting pipe (12) in a threaded manner; the steam control loop (15) is welded at the lower part of the connecting pipe (12); the telescopic protective bearing frame structure (9) comprises a fixing frame (91), a storage inserting frame (92), a transverse groove (93), a transverse protection plate (94), a limiting fixing rod (95), a side lug plate (96) and a buffer support structure (97), wherein the fixing frame (91) is welded at the bottom of the device shell (1); the storage inserting frame (92) is welded at the upper part of the fixed frame (91); the transverse slots (93) are formed in the front side and the rear side of the middle position of the storage inserting frame (92); the transverse protection plate (94) is inserted into the right side of the interior of the storage insertion frame (92); the side ear plates (96) are welded at the front end and the rear end of the right side of the upper part of the transverse protection plate (94); the buffer support structure (97) is arranged on the right side of the transverse protection plate (94).

2. The heat preservation device for the on-line coated glass production according to claim 1, wherein the buffer support structure (97) comprises a buffer frame (971), a positioning ring (972), a positioning rod (973), a rubber grip handle (974), a limiting plate (975) and a buffer spring (976), and the buffer frame (971) is welded on the right side of the transverse protection plate (94); the positioning rod (973) penetrates through the positioning ring (972) and is inserted into the inner side of the buffer frame (971); the limiting plate (975) is arranged on the inner side of the buffering frame (971), and meanwhile, the limiting plate (975) is installed on the upper portion of the positioning rod (973) through screws.

3. The heat preservation device for the on-line coated glass production according to claim 1, wherein the movable mounting frame structure (7) comprises an L-shaped fixing plate (71), a fixing bolt (72), a side mounting plate (73), a connecting shaft plate (74), a connecting screw rod (75) and a fixing shaft rod (76), wherein the L-shaped fixing plate (71) is arranged on the front side and the rear side of the device shell (1) through the fixing bolt (72); the side mounting plate (73) is welded on the right side of the L-shaped fixing plate (71); the connecting shaft plate (74) is welded at the middle position of the right side of the side edge mounting plate (73).

4. The heat preservation device for the online production of coated glass according to claim 1, wherein the locking buffer fixing frame structure (8) comprises a left movable ring (81), a tightening spring (82), a right movable ring (83), a locking nut (84) and a corrugated pipe (85), wherein the right movable ring (83) is arranged on the right side of the left movable ring (81); the locking nut (84) is arranged on the right side of the right movable ring (83).

5. The heat-insulating device for the on-line coated glass production as claimed in claim 1, wherein the upper screw of the transverse protective plate (94) is provided with a rubber pad.

6. The heat-insulating device for the on-line coated glass production according to claim 2, wherein the buffer spring (976) is disposed at the upper inner side of the buffer frame (971), and the lower portion of the buffer spring (976) is in contact with the upper portion of the limit plate (975).

7. The heat preservation device for the on-line coated glass production as claimed in claim 1, wherein the limit fixing rods (95) are installed at the front and rear ends of the left side of the transverse protection plate (94) through bolts passing through the transverse slots (93).

8. The heat preservation device for the on-line coated glass production according to claim 4, wherein the corrugated pipe (85) is screwed on the outer sides of the left movable ring (81) and the right movable ring (83) for protection.

9. The heat-insulating device for the on-line coated glass production according to claim 3, wherein the connecting screw rod (75) is coupled to the right side of the connecting shaft plate (74) through a fixing shaft rod (76).

10. The heat-insulating device for the on-line coated glass production according to claim 2, wherein the rubber grip (974) is screwed on the lower part of the positioning rod (973).

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