CN209763780U - Rodless cylinder transmission device - Google Patents

Abstract

A rodless cylinder transmission device comprises a rodless cylinder and a guide rail which are arranged in parallel, wherein the rodless cylinder and the guide rail are arranged in a base; a guide rail supporting seat is connected and arranged above the cylinder connecting plate, and a protective shell supporting seat is arranged above the guide rail supporting seat; the high-temperature lens to be moved is arranged in a protective shell, and the protective shell is fixedly arranged on a protective shell supporting seat; the guide rail supporting seat comprises a guide rail connecting bottom plate, a transmission connecting plate and an upper supporting plate, the guide rail connecting bottom plate is fixed on the air cylinder connecting plate, the transmission connecting plate is fixedly arranged between the guide rail connecting bottom plate and the upper supporting plate, and the protective shell supporting seat is fixedly connected above the upper supporting plate. The high-temperature lens can be moved through a short transmission structure, and the high-temperature lens has high reliability.

Description

Rodless cylinder transmission device

Technical Field

The utility model relates to a kiln temperature measurement industrial television field, concretely relates to kiln temperature measurement industrial television does not have pole cylinder transmission.

Background

The industrial television for measuring the temperature of the kiln is used for monitoring the working state of flame and material operation in the kiln in real time, and because the temperature of the kiln is extremely high and the installation and adjustment are inconvenient, the lens is inserted into the kiln when needed and pushed out of the furnace chamber when not in use, so that the service life of the lens can be obviously prolonged, and the detection quality can be improved.

However, the temperature of the kiln is extremely high, and the installation and adjustment are inconvenient, so that the lens can be conveniently adjusted by arranging the moving device of the high-temperature lens on the industrial television for measuring the temperature of the kiln. In view of the special use, the mobile device needs to have a small weight and volume and have high reliability.

SUMMERY OF THE UTILITY MODEL

In view of the above circumstances, in order to solve the problems in the art, the present invention provides a rodless cylinder transmission device, which can realize the movement of a high temperature lens through a short transmission structure and has high reliability.

According to the utility model, the rodless cylinder transmission device comprises a rodless cylinder and a guide rail which are arranged in parallel, wherein the rodless cylinder and the guide rail are arranged inside a base, and a driving actuating element of the rodless cylinder and a guide rail slider arranged on the guide rail are mutually connected through a cylinder connecting plate; a guide rail supporting seat is connected and arranged above the cylinder connecting plate, and a protective shell supporting seat is arranged above the guide rail supporting seat; the high-temperature lens to be moved is arranged in a protective shell, and the protective shell is fixedly arranged on a protective shell supporting seat; the guide rail supporting seat comprises a guide rail connecting bottom plate, a transmission connecting plate and an upper supporting plate, the guide rail connecting bottom plate is fixed on the air cylinder connecting plate, the transmission connecting plate is fixedly arranged between the guide rail connecting bottom plate and the upper supporting plate, and the protective shell supporting seat is fixedly connected above the upper supporting plate.

The motion of a transmission structure in the base is transmitted to the upper supporting plate through the guide rail connecting bottom plate, and then the motion is transmitted to the protective shell supporting seat through the upper supporting plate, so that the protective shell and the high-temperature lens arranged in the protective shell are driven to move. Through setting up the transmission connecting plate, make the motion transmission only need leave a long and narrow gap on the base, the sealing base of also being convenient for when guaranteeing transmission performance to can be fixed in the kiln outer wall in the base free drive high temperature camera lens remove to the kiln in or shift out outside the kiln.

Preferably, the guide rail connecting bottom plate is located above the guide rail sliding block, and the symmetry center of the transmission connecting plate and the symmetry center of the guide rail sliding block are overlapped in the vertical direction. The high-temperature lens driving mechanism is convenient to drive and guarantees that reaction force generated when the high-temperature lens moves acts on the guide rail, and the bearing capacity of the guide rail is higher than that of the rodless cylinder, so that the reliability of the rodless cylinder can be guaranteed.

Preferably, the protective shell supporting seat comprises a protective shell supporting base and a protective shell supporting upper cover which are fixedly connected to the guide rail supporting seat, semicircular clamping openings are respectively and oppositely formed in the protective shell supporting base and the protective shell supporting upper cover, and the protective shell is clamped in the semicircular clamping openings. The split structure of the protective shell supporting seat is beneficial to mounting and dismounting the protective shell and the high-temperature lens arranged in the protective shell.

preferably, the guide rail supporting seat, the protective shell supporting base and the protective shell supporting upper cover are fixedly connected through bolts. Making the connection reliable and easy to install or remove.

Preferably, the two sets of protective shell supporting seats are arranged, and the two sets of protective shell supporting seats are arranged at the front end and the rear end of the top of the upper supporting plate in parallel. Through setting up two sets ofly around, make its location more accurate, guarantee that high temperature lens is towards the place ahead, set up longer fixing device relatively simultaneously and reduced weight.

Preferably, the rodless cylinder and the outer wall of the base at the periphery of the guide rail are of a cavity structure. The base has certain heat insulation capability and protects the internal transmission mechanism.

Preferably, the outer wall of the base of the cavity structure is internally provided with heat insulation cotton. The base has stronger heat insulation capability and protects the internal transmission mechanism.

Preferably, cooling water is arranged in the outer wall of the base of the cavity structure and is communicated with the cooling water circulating device through a pipeline. The base has stronger heat insulation capability and protects the internal transmission mechanism. The outside can be provided with a cooling water circulating device through pipeline connection, for example, cold water is pumped into a cavity of the outer wall of the base by a water pump, the heated water in the cavity of the outer wall of the base is pumped out or flows out to enter a water tank for cooling, and then the water is pumped into the base again.

Preferably, the top of the base is provided with a moving groove, and the transmission connecting plate is positioned in the moving groove. The transmission connecting plate can move along the moving groove, so that the protective shell and the high-temperature lens are driven to move.

Preferably, the top of the base is provided with an opening, the opening is provided with a base cover plate, the base cover plate is provided with a moving groove, and the transmission connecting plate is positioned in the moving groove; sealing elastic sheets are respectively arranged on two sides of the moving groove, and the sealing elastic sheets on the two sides of the moving groove are obliquely arranged and folded above the moving groove; and the sealing elastic sheets are attached to two sides of the transmission connecting plate. The sealing elastic sheet can be a metal sheet with certain elastic deformation capacity or a rubber sheet with high temperature resistance or other elastic sheets capable of realizing the pump application, and in a free state, the sealing elastic sheets on the two sides are freely folded above the moving groove to enable the inside and the outside of the base to be mutually isolated. Because the transmission connecting plate is arranged in the moving groove and can be driven by the guide rail sliding block to move along the moving groove, the folding states of the sealing elastic sheets at the two sides are separated by the transmission connecting plate at the transmission connecting plate, but the transmission connecting plate is thinner, the sealing elastic sheets at the two sides are pressed and attached to the side surface of the transmission connecting plate, and the effect of isolating the inside and the outside of the base can also be achieved. When the transmission connecting plate moves, the sealing elastic sheet in front of the transmission connecting plate is separated and pressed against the side surface of the transmission connecting plate, and the sealing elastic sheet behind the transmission connecting plate can be folded again due to the elasticity of the sealing elastic sheet because the sealing elastic sheet loses the obstruction of the transmission connecting plate.

Preferably, the height of the top surfaces of the driving actuating element of the rodless cylinder and the guide rail sliding block on the guide rail is the same. The two are conveniently located on the same plane, when the actuating element is driven to drive the guide rail sliding block to move, the moment is located on the same plane, the friction resistance is reduced, and the component force of vertical deflection cannot be generated. Meanwhile, the thinner cylinder connecting plate is favorably arranged, and the thickness size is reduced.

After the technology provided by the utility model, according to the utility model discloses no pole cylinder transmission has following beneficial effect:

1) According to a no pole cylinder transmission of this application, through set up no pole cylinder and the guide rail parallel with it in the base, reciprocating motion around can the high temperature camera lens of quick drive to transmission occupation space is less, and conventional cylinder drive is relatively, and length also very shortens, and corresponding protector is also shorter, and weight is lighter, and the volume is less, is convenient for install and use and adjustment maintenance.

2) According to the rodless cylinder transmission device, the transmission mechanism, the high-temperature lens to be driven to move and the protective shell of the high-temperature lens are arranged inside and outside the base respectively, so that the transmission mechanism can be protected by the base and is prevented from being influenced by external high temperature and smoke dust, and the high-temperature lens and the protective shell of the high-temperature lens can move relative to the base.

3) According to a rodless cylinder transmission of this application, because transmission all airtight setting is inside the base, only be connected with camera lens and protecting crust subassembly and drive the transmission connecting plate that camera lens and protecting crust subassembly removed also seals through sealed shell fragment, ensures in debris such as external high temperature ashes get into the base, ensures transmission's normal steady operation, the reliability is high, can show the maintenance and the maintenance work that reduce under high temperature, the climbing condition.

Drawings

FIG. 1 is a block diagram of the rodless cylinder transmission of the present application after installation;

FIG. 2 is a sectional view taken along the direction A-A in FIG. 1;

Fig. 3 is a perspective structural view of the rodless cylinder transmission device according to the present application, in which a part of the slender part is shown in a broken state.

d-legend:

Rodless cylinder 1

Drive actuator 11

guide rail 2

Guide rail slide block 21

Cylinder connecting plate 3

guide rail bearing seat 4

Guide rail connection base plate 41

Transmission connecting plate 42

Upper supporting plate 43

Protective shell bearing 5

Protective shell supporting base 51

Protective shell support upper cover 52

Protective shell 6

Base 90

Base cover plate 91

Moving slot 92

Sealing spring plate 93

Detailed Description

The present invention will be described in further detail with reference to embodiments shown in the drawings. The described embodiments include various specific details to aid understanding, but they are to be construed as merely illustrative, and not restrictive of all embodiments of the invention. Unless defined otherwise, technical or scientific terms used herein shall have the ordinary meaning as understood by one of ordinary skill in the art to which this invention belongs. Meanwhile, in order to make the description more clear and concise, a detailed description of functions and configurations well known in the art will be omitted.

As shown in fig. 1 to 3, a rodless cylinder transmission device comprises a rodless cylinder 1 and a guide rail 2 which are arranged in parallel, wherein the rodless cylinder 1 and the guide rail 2 are arranged inside a base 90, and a driving actuating element 11 of the rodless cylinder 1 and a guide rail slide block 21 arranged on the guide rail 2 are connected with each other through a cylinder connecting plate 3; a guide rail supporting seat 4 is connected and arranged above the cylinder connecting plate 3, and a protective shell supporting seat 5 is arranged above the guide rail supporting seat 4; the high-temperature lens to be moved is arranged in a protective shell 6, and the protective shell 6 is fixedly arranged on a protective shell supporting seat 5; the guide rail supporting seat 4 comprises a guide rail connecting bottom plate 41, a transmission connecting plate 42 and an upper supporting plate 43, the guide rail connecting bottom plate 41 is fixed on the cylinder connecting plate 3, the transmission connecting plate 42 is fixedly arranged between the guide rail connecting bottom plate 41 and the upper supporting plate 43, and the protective shell supporting seat 5 is fixedly connected above the upper supporting plate 43.

The guide rail connecting bottom plate 41 is arranged to transmit the motion of the transmission structure in the base 90 to the upper supporting plate 43, and further the motion is transmitted to the protective shell supporting seat 5 through the upper supporting plate 43, so that the protective shell 6 and the high-temperature lens arranged therein are driven to move. Through setting up transmission connecting plate 42, make the motion transmission only need leave a long and narrow gap on base 90, also be convenient for sealed base 90 when guaranteeing drive performance to can freely drive the high temperature camera lens and remove to the stove in or outside the stove when base 90 is fixed in the stove outer wall.

Further, the guide rail connecting bottom plate 41 is located above the guide rail sliding block 21, and the symmetry center of the transmission connecting plate 42 and the symmetry center of the guide rail sliding block 21 are overlapped in the vertical direction. The reaction force which is convenient for transmission and ensures that the high-temperature lens moves acts on the guide rail 2, and the bearing capacity of the guide rail is stronger than that of the rodless cylinder, so that the reliability of the rodless cylinder 1 can be ensured.

Further, the protective shell supporting seat 5 comprises a protective shell supporting base 51 and a protective shell supporting upper cover 52 which are fixedly connected to the guide rail supporting seat 4, the protective shell supporting base 51 and the protective shell supporting upper cover 52 are respectively and oppositely provided with a semicircular clamping opening, and the protective shell 6 is clamped in the semicircular clamping opening. The split structure of the protective shell supporting seat 5 is beneficial to mounting and dismounting the protective shell 6 and the high-temperature lens arranged in the protective shell.

The guide rail supporting seat 4, the protective shell supporting base 51 and the protective shell supporting upper cover 52 are fixedly connected through bolts. Making the connection reliable and easy to install or remove.

The two sets of protective shell supporting seats 5 are arranged, and the two sets of protective shell supporting seats 5 are arranged at the front end and the rear end of the top of the upper supporting plate 43 in parallel. Through setting up two sets ofly around, make its location more accurate, guarantee that high temperature lens is towards the place ahead, set up longer fixing device relatively simultaneously and reduced weight.

Further, the outer wall of the base 90 around the rodless cylinder 1 and the guide rail 2 is a cavity structure. The base 90 has a certain thermal insulation capability to protect the internal transmission mechanism. And cooling water is arranged in the outer wall of the base 90 of the cavity structure and is communicated with a cooling water circulating device through a pipeline. The base 90 has a stronger thermal insulation capability, protecting the internal transmission mechanism. The exterior may be provided with a cooling water circulation device through a pipeline connection, for example, cold water is pumped into the cavity of the outer wall of the base 90 by a water pump, the heated water in the cavity of the outer wall of the base 90 is pumped out or flows out and enters the water tank for cooling, and then is pumped into the base 90 again.

Further, an opening is formed in the top of the base 90, a base cover plate 91 is arranged on the opening, a moving groove 92 is formed in the base cover plate 91, and the transmission connecting plate 42 is located in the moving groove 92; sealing elastic sheets 93 are respectively arranged on two sides of the moving groove 92, and the sealing elastic sheets 93 on the two sides of the moving groove 92 are obliquely arranged and are folded above the moving groove 92; at the transmission connecting plate 42, the sealing elastic pieces 93 are attached to two sides of the transmission connecting plate 42. The sealing elastic sheet 93 can be a metal sheet with certain elastic deformation capacity, a rubber sheet with high temperature resistance or other elastic sheets capable of realizing the pump application function, and in a free state, the sealing elastic sheets 93 on the two sides are freely folded above the moving groove 92, so that the inside and the outside of the base 90 are mutually isolated. Because the transmission connecting plate 42 is disposed in the moving groove 92 and can be driven by the guide rail slider to move along the moving groove 92, the closed state of the sealing elastic pieces 93 at the two sides is separated by the transmission connecting plate 42 at the transmission connecting plate 42, but because the transmission connecting plate 42 is thin, the sealing elastic pieces 93 at the two sides are pressed against the side surface of the transmission connecting plate 42, and the effect of isolating the inside and the outside of the base 90 can also be achieved. When the transmission connecting plate 42 moves, the sealing elastic sheet 93 in front of the transmission connecting plate is separated and pressed against the side surface of the transmission connecting plate 42, and the sealing elastic sheet 93 in back of the transmission connecting plate 42 can be folded again due to the elasticity of the sealing elastic sheet 93 because the obstruction of the transmission connecting plate 42 is lost.

Further, the height of the top surfaces of the driving actuator 11 of the rodless cylinder 1 and the rail slider 21 on the rail 2 is the same. The two are conveniently located on the same plane, when the actuating element 11 is driven to drive the guide rail sliding block 21 to move, the moment is located on the same plane, the friction resistance is reduced, and the component force of vertical deflection cannot be generated. Meanwhile, the thinner cylinder connecting plate 3 is favorably arranged, and the thickness size is reduced.

According to the rodless cylinder transmission device of the embodiment, the rodless cylinder and the guide rail parallel to the rodless cylinder are arranged in the base, the high-temperature lens can be driven to move back and forth in a reciprocating mode quickly, the transmission device occupies a small space, the length is greatly shortened compared with the conventional cylinder driving, accordingly, the protection device is short, the weight is light, the size is small, and the installation, the use, the adjustment and the maintenance are facilitated.

According to the rodless cylinder transmission device of the above embodiment, the transmission mechanism, the high-temperature lens to be driven and moved, and the protective shell 6 thereof are respectively arranged inside and outside the base 90, so that the transmission mechanism can be protected by the base 90 from the influence of external high temperature and smoke, and the high-temperature lens and the protective shell 6 thereof can be moved relative to the base 90.

According to the rodless cylinder transmission device of the embodiment, the transmission devices are arranged inside the base in a sealed mode, the only transmission connecting plate is connected with the lens and the protective shell assembly and drives the lens and the protective shell assembly to move, the transmission connecting plate is sealed through the sealing elastic sheet, foreign materials such as external high-temperature furnace dust can be prevented from entering the base, normal and stable operation of the transmission device is guaranteed, reliability is high, and overhauling and maintenance work under the conditions of high temperature and climbing can be reduced remarkably.

The terms "upper" and "lower" or "above" and "below" are used in this application in the context of their normal usage in the resting position, i.e., in the context of the drawings of this application. When the placement state changes, for example, when the placement state is turned over, the corresponding positional relationship should be changed accordingly to understand or implement the technical solution of the present application.

Claims (10)

1. A rodless cylinder transmission device is characterized by comprising a rodless cylinder (1) and a guide rail (2) which are arranged in parallel, wherein the rodless cylinder (1) and the guide rail (2) are arranged inside a base (90), and a driving execution element (11) of the rodless cylinder (1) is connected with a guide rail sliding block (21) arranged on the guide rail (2) through a cylinder connecting plate (3); a guide rail supporting seat (4) is connected and arranged above the cylinder connecting plate (3), and a protective shell supporting seat (5) is arranged above the guide rail supporting seat (4); the high-temperature lens to be moved is arranged in a protective shell (6), and the protective shell (6) is fixedly arranged on a protective shell supporting seat (5); the guide rail supporting seat (4) comprises a guide rail connecting bottom plate (41), a transmission connecting plate (42) and an upper supporting plate (43), the guide rail connecting bottom plate (41) is fixed on the cylinder connecting plate (3), the transmission connecting plate (42) is fixedly arranged between the guide rail connecting bottom plate (41) and the upper supporting plate (43), and the protective shell supporting seat (5) is fixedly connected above the upper supporting plate (43).

2. The rodless cylinder transmission according to claim 1, wherein the rail connection base plate (41) is located above the rail slider (21), and a center of symmetry of the transmission connection plate (42) coincides with a center of symmetry of the rail slider (21) in a vertical direction.

3. The rodless cylinder transmission according to claim 1, wherein the shield case support base (5) comprises a shield case support base (51) and a shield case support upper cover (52) fixedly connected to the guide rail support base (4), the shield case support base (51) and the shield case support upper cover (52) are respectively provided with a semicircular clamping opening in an opposite manner, and the shield case (6) is clamped in the semicircular clamping opening.

4. A rodless cylinder transmission according to claim 3, characterized in that two sets of the shroud-supporting blocks (5) are provided, and the two sets of the shroud-supporting blocks (5) are provided in parallel at the front and rear ends of the top of the upper supporting plate (43).

5. A rodless cylinder transmission according to any one of claims 1 to 4, characterized in that the rodless cylinder (1) and the outer wall of the base (90) around the guide rail (2) are of a cavity structure.

6. The rodless cylinder transmission according to claim 5, wherein insulation wool is provided inside the outer wall of the base (90) of the cavity structure.

7. The rodless cylinder transmission according to claim 5, wherein cooling water is provided in an outer wall of the base (90) of the cavity structure and is communicated with a cooling water circulation device through a pipeline.

8. The rodless cylinder transmission according to claim 5, wherein a moving groove is formed at the top of the base (90), and the transmission connecting plate (42) is located in the moving groove.

9. The rodless cylinder transmission according to claim 5, wherein an opening is formed in the top of the base (90), a base cover plate (91) is arranged on the opening, a moving groove (92) is formed in the base cover plate (91), and the transmission connecting plate (42) is located in the moving groove (92); sealing elastic sheets (93) are respectively arranged on two sides of the moving groove (92), and the sealing elastic sheets (93) on the two sides of the moving groove (92) are obliquely arranged and are folded above the moving groove (92); and the sealing elastic sheets (93) are attached to two sides of the transmission connecting plate (42) at the position of the transmission connecting plate (42).

10. A rodless cylinder transmission according to any one of claims 1 to 4, characterized in that the height of the top surfaces of the rail slider (21) on the rail (2) and the drive actuator (11) of the rodless cylinder (1) are the same.