CN220946694U - Heating pipeline heat preservation sticky tape wind - Google Patents

Abstract

The utility model provides a heating pipeline heat preservation sticky tape wind, heating pipeline heat preservation outside needs winding one deck sticky tape in order to guarantee that the heat preservation can not peel off the heat preservation pipeline, can not exist the space between the assurance heat preservation, guarantees heat retaining effect, this product includes mount (110), motor (150) are connected to mount (110) one side, expansion ring (120) are connected to mount (110) other one side, two swivel (130) are connected in mount (110) and expansion ring (120) internal rotation, gear (140) are connected to motor (150), gear (140) and two swivel (130) intermeshing, sticky tape one side is passed one of them swivel (130) and is twined on heating pipe (160). This product utilizes can dismantle combination formula swivel structure and drives the sticky tape and can pass heat preservation pipeline and twine heat preservation pipeline apart from the gap of building or facility, prevents that the heat preservation from having the space, influences the heat preservation effect, improves winding efficiency.

Description

Heating pipeline heat preservation sticky tape wind

Technical Field

The utility model relates to the field of heating, in particular to a heating pipeline heat preservation adhesive tape winding device.

Background

The outside of the heat-insulating layer of the heating pipeline needs to be wound with a layer of adhesive tape so as to ensure that the heat-insulating layer cannot peel off the heat-insulating pipeline, ensure that no gap exists between the heat-insulating layers, ensure the heat-insulating effect, and ensure that in the field construction process, some heating pipelines are relatively close to buildings or other facilities, and the gap between the pipelines and the buildings or facilities is relatively small. The limited adhesive tape in the space cannot be wound freely, so that the adhesive tape winding effect is poor, gaps exist between the heat insulation layers, the heat insulation effect is affected, the winding efficiency is affected, and the device is needed to solve the problems.

Disclosure of Invention

The utility model aims at the defects of the prior art, and provides the heating pipeline heat-insulating layer adhesive tape winding device which can wind the heat-insulating pipeline by utilizing the detachable combined swivel structure to drive the adhesive tape to pass through the heat-insulating pipeline and a gap away from a building or a facility, so that the problem that the adhesive tape cannot be wound freely because the gap between the heat-insulating pipeline and the building or the facility is too small is avoided, the gap of a heat-insulating layer is prevented, the heat-insulating effect is influenced, and the winding efficiency is improved.

The utility model aims at realizing the following technical scheme:

The utility model provides a heating pipeline heat preservation sticky tape wind, includes mount (110), motor (150) are connected to mount (110) one side, expansion ring (120) are connected to mount (110) other one side, two swivel (130) are connected in mount (110) and expansion ring (120) internal rotation, gear (140) are connected to motor (150), gear (140) and two swivel (130) intermeshing, sticky tape one side is passed one of them swivel (130) and is twined on heating pipe (160).

A heating pipeline heat preservation sticky tape wind, motor board (112) fixed connection motor (150) of mount (110) one side, motor (150) output shaft connection gear (140) jackshaft, gear (140) jackshaft rotates gear shaft hole (111) of connecting motor board (112) one side.

A heating pipeline heat preservation sticky tape wind, mount (110) inboard be equipped with solid fixed ring (113), gu fixed ring (113) are semi-circular ring shape, gu fixed ring (120) that gu fixed ring (113) connect are semi-circular ring structure, fixed hole (115) of gu fixed ring (113) both sides are passed in bolt (122) both sides of gu fixed ring (120), screw connection nut in the bolt (122) outside, the nut links together gu fixed ring (120) and mount (110), gu fixed ring (113) and inside round hole that forms of gu fixed ring (120), gu fixed ring inside groove (114) of fixed ring (113) and the inside gu movable ring inside groove (121) of gu fixed ring (120) form the ring groove.

A heating pipeline heat preservation sticky tape wind, be equipped with two swivel ties (130) in the round hole that fixed ring (113) and expansion ring (120) inboard formed, swivel ties (130) are semi-circular axle sleeve, and a complete axle sleeve is constituteed to two swivel ties (130), the axle sleeve cover that two swivel ties (130) formed is in the round hole that fixed ring (113) and expansion ring (120) formed, swivel ties (130) one side is equipped with swivel boss (132), two swivel boss (132) form a complete boss, the boss that two swivel boss (132) formed forms the annular inslot rotation at fixed ring inside groove (114) and expansion ring inside groove (121).

A heating pipeline heat preservation sticky tape wind, be equipped with swivel gear (131) in the middle of swivel (130), two swivel gear (131) form complete gear, complete gear and gear (140) intermeshing that two swivel gear (131) formed.

One side of one swivel (130) of the heating pipeline heat preservation adhesive tape winding device is provided with an adhesive tape groove (133), and one side of the adhesive tape penetrates through the adhesive tape groove (133) and is wound on the heating pipe (160).

Advantageous effects

When the device is in an initial state, the fixing frame 110, the movable ring 120 and the rotating rings 130 are in a separated state, when the device is used, firstly, the movable ring 120 is sleeved on one side with a relatively narrow space outside the heat insulation pipe, the fixing frame 110 is aligned with the movable ring 120 on the other side, bolts 122 on two sides of the movable ring 120 penetrate through corresponding fixing holes 115 on two sides of the fixing frame 110, nuts are screwed on the bolts 122, the two rotating rings 130 penetrate between the fixing frame 110 and the movable ring 120, the nuts are appropriately screwed, the rotating ring boss 132 is clamped in the inner groove 121 of the movable ring, the nuts are screwed, the free side of an adhesive tape penetrates through the adhesive tape groove 133 and is primarily wound on the outer side of the heat insulation layer of the heat insulation pipe 160, the other side of the adhesive tape is manually clamped, the fixing frame 110 is held, the motor 150 is started, the gear 140 is driven to rotate by the motor 150, the gear 140 drives the two rotating rings 130 to rotate, the adhesive tape is driven to wind on the outer side of the heat insulation layer of the heat insulation pipe 160, when the device is wound, the device is properly driven to move along the axis of the heating pipe 160, so that the adhesive tape is spirally wound on the outer side of the heat insulation layer, when the adhesive tape rotates along with the rotating ring 130, the hand is used for pulling the other side of the adhesive tape, so that the adhesive tape can generate certain tensile force, the tightness of the adhesive tape is controlled, the adhesive tape on the inner side of the rotating ring 130 and the adhesive tape on the handheld part can be simultaneously wound on the outer side of the heat insulation layer of the heating pipe 160 during winding, the two layers of the adhesive tape are simultaneously wound, the winding efficiency is improved, the adhesive tape passes through the adhesive tape groove 133, when the adhesive tape is prevented from being wound, the adhesive tape is separated from the adhesive tape groove 133, after the winding is finished, the adhesive tape is sheared, the nut is unscrewed again, the device is dismounted from the outer side of the heating pipe 160, the detachable combined movable ring 120 and the rotating ring 130 adopt an annular structure, the adhesive tape is driven to pass through a heat insulation pipeline and a gap away from a building or a facility to wind the heat insulation pipeline, the problem that the adhesive tape cannot be wound freely because the gap between the heat-insulating pipe and a building or facilities is too small is avoided, the heat-insulating layer is prevented from having gaps, the heat-insulating effect is affected, and the winding efficiency is improved.

Drawings

Fig. 1 is a schematic structural view of a heating pipeline heat-insulating layer adhesive tape winding device according to the utility model.

Fig. 2 is a schematic structural view of the fixing frame according to the present utility model.

Fig. 3 is a schematic view of a movable ring structure according to the present utility model.

Fig. 4 is a schematic view of a swivel structure according to the present utility model.

Detailed Description

The utility model is described in further detail below with reference to the drawings and examples:

examples

The utility model provides a heating pipeline heat preservation sticky tape wind, includes mount 110, motor 150 is connected to mount 110 one side, the expansion link 120 is connected to mount 110 other one side, two swivel 130 are connected in mount 110 and expansion link 120 internal rotation, gear 140 is connected to motor 150, gear 140 and two swivel 130 intermeshing, sticky tape one side passes one of them swivel 130 and twines on heating pipe 160.

The motor plate 112 on one side of the fixing frame 110 is fixedly connected with a motor 150, an output shaft of the motor 150 is connected with a middle shaft of the gear 140, and the middle shaft of the gear 140 is rotationally connected with the gear shaft hole 111 on one side of the motor plate 112.

The inside of the fixed frame 110 is provided with a fixed ring 113, the fixed ring 113 is in a semicircular ring shape, the movable ring 120 connected with the fixed ring 113 is in a semicircular ring structure, bolts 122 on two sides of the movable ring 120 penetrate through fixed holes 115 on two sides of the fixed ring 113, nuts are connected on the outer sides of the bolts 122 in a threaded manner, the nuts connect the movable ring 120 with the fixed frame 110 together, a round hole is formed inside the fixed ring 113 and the movable ring 120, and an annular groove is formed inside a fixed ring inner groove 114 on the inner side of the fixed ring 113 and a movable ring inner groove 121 on the inner side of the movable ring 120.

Two swivel rings 130 are arranged in round holes formed in the inner sides of the fixed ring 113 and the movable ring 120, each swivel ring 130 is a semicircular shaft sleeve, the two swivel rings 130 form a complete shaft sleeve, the complete sleeve formed by the two swivel rings 130 rotates in the round holes formed in the inner sides of the fixed ring 113 and the movable ring 120, a swivel ring boss 132 is arranged on one side of the swivel ring 130, the two swivel ring bosses 132 form a complete boss, and the boss formed by the two swivel ring bosses 132 rotates in the circular ring groove formed by the fixed ring inner groove 114 and the movable ring inner groove 121.

The rotating ring 130 is provided with a rotating ring gear 131 in the middle, the two rotating ring gears 131 form a complete gear, and the complete gear formed by the two rotating ring gears 131 and the gear 140 are meshed with each other.

One side of the swivel 130 is provided with a tape slot 133, and one side of the tape passes through the tape slot 133 and is wound on the heating pipe 160.

When the device is in an initial state, the fixing frame 110, the movable ring 120 and the rotating rings 130 are in a separated state, when the device is used, firstly, the movable ring 120 is sleeved on one side with a relatively narrow space outside the heat insulation pipe, the fixing frame 110 is aligned with the movable ring 120 on the other side, bolts 122 on two sides of the movable ring 120 penetrate through corresponding fixing holes 115 on two sides of the fixing frame 110, nuts are screwed on the bolts 122, the two rotating rings 130 penetrate between the fixing frame 110 and the movable ring 120, the nuts are appropriately screwed, the rotating ring boss 132 is clamped in the inner groove 121 of the movable ring, the nuts are screwed, the free side of an adhesive tape penetrates through the adhesive tape groove 133 and is primarily wound on the outer side of the heat insulation layer of the heat insulation pipe 160, the other side of the adhesive tape is manually clamped, the fixing frame 110 is held, the motor 150 is started, the gear 140 is driven to rotate by the motor 150, the gear 140 drives the two rotating rings 130 to rotate, the adhesive tape is driven to wind on the outer side of the heat insulation layer of the heat insulation pipe 160, when the device is wound, the device is properly driven to move along the axis of the heating pipe 160, so that the adhesive tape is spirally wound on the outer side of the heat insulation layer, when the adhesive tape rotates along with the rotating ring 130, the hand is used for pulling the other side of the adhesive tape, so that the adhesive tape can generate certain tensile force, the tightness of the adhesive tape is controlled, the adhesive tape on the inner side of the rotating ring 130 and the adhesive tape on the handheld part can be simultaneously wound on the outer side of the heat insulation layer of the heating pipe 160 during winding, the two layers of the adhesive tape are simultaneously wound, the winding efficiency is improved, the adhesive tape passes through the adhesive tape groove 133, when the adhesive tape is prevented from being wound, the adhesive tape is separated from the adhesive tape groove 133, after the winding is finished, the adhesive tape is sheared, the nut is unscrewed again, the device is dismounted from the outer side of the heating pipe 160, the detachable combined movable ring 120 and the rotating ring 130 adopt an annular structure, the adhesive tape is driven to pass through a heat insulation pipeline and a gap away from a building or a facility to wind the heat insulation pipeline, the problem that the adhesive tape cannot be wound freely because the gap between the heat-insulating pipe and a building or facilities is too small is avoided, the heat-insulating layer is prevented from having gaps, the heat-insulating effect is affected, and the winding efficiency is improved.

Claims (6)

1. The utility model provides a heating pipeline heat preservation sticky tape wind, includes mount (110), wherein mount (110) one side is connected motor (150), mount (110) other one side is connected expansion ring (120), mount (110) and expansion ring (120) internal rotation connect two swivel (130), gear (140) are connected to motor (150), gear (140) and two swivel (130) intermeshing, sticky tape one side is passed one of them swivel (130) and is twined on heating pipe (160).

2. The heating pipeline heat preservation adhesive tape winding device according to claim 1, wherein a motor plate (112) on one side of the fixing frame (110) is fixedly connected with a motor (150), an output shaft of the motor (150) is connected with a gear (140) intermediate shaft, and the gear (140) intermediate shaft is rotationally connected with a gear shaft hole (111) on one side of the motor plate (112).

3. The heating pipeline heat preservation adhesive tape winding device according to claim 1 or 2, wherein a fixed ring (113) is arranged on the inner side of the fixed frame (110), the fixed ring (113) is in a semicircular ring shape, a movable ring (120) connected with the fixed ring (113) is in a semicircular ring structure, bolts (122) on two sides of the movable ring (120) penetrate through fixing holes (115) on two sides of the fixed ring (113), nuts are connected on the outer sides of the bolts (122) in a threaded manner, the nuts connect the movable ring (120) with the fixed frame (110), a round hole is formed in the fixed ring (113) and the movable ring (120), and a circular groove is formed in a fixed ring inner groove (114) on the inner side of the fixed ring (113) and a movable ring inner groove (121) on the inner side of the movable ring (120).

4. The heating pipeline heat preservation adhesive tape winding device according to claim 3, wherein two swivel rings (130) are arranged in round holes formed in the inner sides of the fixed ring (113) and the movable ring (120), the swivel rings (130) are semicircular shaft sleeves, the two swivel rings (130) form a complete shaft sleeve, the shaft sleeves formed by the two swivel rings (130) are sleeved in the round holes formed by the fixed ring (113) and the movable ring (120), a swivel ring boss (132) is arranged on one side of the swivel ring (130), the two swivel ring bosses (132) form a complete boss, and the bosses formed by the two swivel ring bosses (132) rotate in the circular grooves formed by the fixed ring inner groove (114) and the movable ring inner groove (121).

5. A heating pipeline heat preservation adhesive tape winding device according to claim 1 or 4 is characterized in that a swivel gear (131) is arranged in the middle of the swivel (130), the two swivel gears (131) form a complete gear, and the complete gear formed by the two swivel gears (131) is meshed with a gear (140).

6. A heating pipe insulation tape winding device according to claim 1, wherein one side of the swivel (130) is provided with a tape slot (133), and one side of the tape passes through the tape slot (133) and is wound on the heating pipe (160).