CN210741685U - Temperature monitoring device for printing factory - Google Patents

Abstract

The utility model discloses a temperature monitoring device for printing factories, which belongs to temperature monitoring equipment in the technical field of printing equipment and aims to provide a temperature monitoring device with a storage function, and the technical proposal is that the temperature monitoring device comprises a shell and a temperature monitoring component arranged in the shell; the temperature monitoring device comprises a shell, a temperature monitoring assembly and a control assembly, wherein the shell comprises a transmission cavity and a circuit cavity which are arranged at the bottom, the shell also comprises a containing pipe which is arranged at the upper end of the shell, the temperature monitoring assembly comprises a temperature sensing head and a containing assembly which is arranged below the temperature sensing head, the temperature sensing head can move up and down along the inside of the containing pipe, the containing assembly comprises a screw rod which is fixedly connected with the center of the temperature sensing head and a rotating shell which is in threaded connection with the lower part of the screw rod, and a driving assembly is arranged below the rotating shell; the utility model provides a temperature monitoring device is used in printing factory has guaranteed temperature probe's life and has saved a large amount of maintenance operating time to temperature-sensing probe.

Description

Temperature monitoring device for printing factory

Technical Field

The utility model belongs to the technical field of lithography apparatus, concretely relates to temperature monitoring device is used in printing house.

Background

The printing of paper has high requirements on the temperature and humidity of a printing workshop, and the general paper printing requires the workshop to be in a certain temperature and humidity state and needs to perform the whole printing process under the conditions of constant temperature and constant humidity. The paper produced under the conditions of constant temperature and constant humidity is not easy to deform, the paper quality is better, the overprinting precision is higher, and the printing adaptability of humor is ensured. In the printing process, if the humidity in the air is low, after the paper is discharged, the paper loses water due to the fact that the environment humidity is different from the paper humidity, and the periphery of the paper is wrinkled after the water is lost, so that the paper is difficult to separate, and after the wrinkled paper enters an impression cylinder, large wrinkles are easily generated, and the paper is scrapped; if the humidity in the air is high, after the paper is discharged, in order to ensure that the paper is balanced with the humidity in the environment, the paper absorbs moisture from the air, so that the density of the periphery of the paper is reduced, the fiber gaps are increased, the paper is easy to have 'lotus leaf edges', and the paper is scrapped. During printing, the viscosity and fluidity of the ink may change with changes in temperature. The higher the temperature is, the higher the fluidity of the ink is, so that the print cannot be accurately transferred during printing, the image-text layering sense is not clear, and the printed paper has uneven ink color; the lower the temperature, the less fluid the ink flows, causing clogging of the machine oil ducts, which may result in the machine having no way at all to continue production, even damaging the printing equipment.

The temperature and humidity value in the printing vehicle plays a crucial role in the quality of printed paper, and the temperature and humidity requirement of a printing workshop can be easily met by a Xin core Internet of things temperature and humidity monitoring system for keeping constant temperature and constant humidity in the printing workshop. Temperature and humidity monitoring system adopts wireless temperature and humidity sensor, can accomplish and gather the humiture from the humiture and show to a series of operations of temperature and humidity control again, lets the light problem of solving humiture monitoring and control difficulty of administrator for whole printing process all is in the space of constant temperature, constant humidity, has guaranteed the quality of paper, and the speed of printing.

Therefore, the temperature monitoring of the printing workshop is very important, and the temperature sensing probe which is placed in the printing workshop for a long time is easily polluted by dust in the workshop, so that the protection of the temperature sensing probe is very necessary.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a: in order to protect the temperature probe in the printing workshop, the temperature monitoring device for the printing factory is provided, the temperature sensing probe is protected, the service life of the temperature probe is ensured, and a large amount of maintenance working time of the temperature sensing probe is saved.

The utility model adopts the technical scheme as follows:

a temperature monitoring device for a printing factory comprises a shell and a temperature monitoring component arranged in the shell; the casing is including setting up transmission chamber, the circuit chamber in the bottom, the casing is still including setting up the storage pipe in the casing upper end, the temperature monitoring subassembly includes the temperature-sensing head, sets up the storage assembly in the temperature-sensing head below, the inside up-and-down motion of storing the pipe can be followed to the temperature-sensing head, storage assembly include with the central fixed connection's of temperature-sensing head screw rod, with screw rod below threaded connection's rotation shell, it is provided with drive assembly to rotate the shell below.

Furthermore, the driving assembly comprises a stepping motor fixed at the bottom of the shell, an output shaft of the stepping motor is meshed with the bottom of the rotating shell through a gear, the rotating shell is rotatably connected with a limiting plate arranged at the bottom of the accommodating pipe through a bearing, the limiting plate is symmetrically provided with limiting holes along two sides of the screw rod, a first limiting rod and a second limiting rod are arranged below the temperature sensing head in parallel, and the first limiting rod and the second limiting rod are sequentially arranged in the limiting holes symmetrically arranged on the limiting plate along two sides of the screw rod; the first limiting rod and the second limiting rod can slide in the corresponding limiting holes.

Furthermore, a circuit control board assembly is arranged inside the circuit cavity, the screw rod is of a hollow structure, and a lead of the temperature sensing head penetrates through the screw rod and is electrically connected with the circuit control board assembly.

Further, the casing is provided with the louvre, the louvre sets up along the inner wall equipartition in transmission chamber, circuit chamber.

To sum up, owing to adopted above-mentioned technical scheme, the beneficial effects of the utility model are that:

1. the utility model discloses in, through at the inside temperature monitoring subassembly that sets up of casing, under the motion control of temperature monitoring subassembly, make the temperature-sensing head in the temperature monitoring subassembly can realize stretching out and the function of accomodating in the casing, when temperature monitoring device is in the user state, the temperature-sensing head realizes stretching out the action of accomodating the pipe under drive assembly's control, thereby monitor the temperature in printing workshop, when the workshop is not at printing operation or other during operation, the temperature-sensing head realizes the action that the shrink was accomodate the pipe under drive assembly's control, accomodate and carry out certain dustproof protection in accomodating the pipe, effectual having reduced directly expose the temperature-sensing head in the air in workshop and lead to the temperature-sensing head to be polluted by the dust easily, the not long problem of life of temperature-sensing head has been avoided.

2. In the utility model, the first limiting rod and the second limiting rod can slide in the corresponding limiting holes; through step motor's control among the drive assembly for the screw rod of temperature-sensing head below passes through threaded connection and under first gag lever post, second gag lever post at circumferencial direction's limiting displacement with rotating the shell, makes the screw rod realize the slip from top to bottom, thereby realizes the flexible effect of temperature-sensing head in accomodating the pipe.

Drawings

Fig. 1 is a schematic structural view of the temperature sensing head of the present invention extending out of the housing.

Fig. 2 is a schematic structural view of the temperature sensing head of the present invention received in the housing.

The labels in the figure are: the temperature control device comprises a shell 1, a temperature monitoring component 2, a transmission cavity 3, a circuit cavity 4, a storage tube 5, a temperature sensing head 6, a storage component 7, a screw rod 8, a rotating shell 9, a driving component 10, a stepping motor 11, a gear 12, a limiting plate 13, a limiting hole 14, a first limiting rod 15, a second limiting rod 16, a circuit control board component 17 and a heat dissipation hole 18.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

A temperature monitoring device for a printing factory comprises a shell 1 and a temperature monitoring component 2 arranged inside the shell 1; the temperature monitoring device comprises a shell 1, a temperature monitoring assembly 2, a rotating shell 9 and a driving assembly, wherein the shell 1 comprises a transmission cavity 3 and a circuit cavity 4 which are arranged at the bottom, the shell 1 further comprises a containing pipe 5 which is arranged at the upper end of the shell 1, the temperature monitoring assembly 2 comprises a temperature sensing head 6 and a containing assembly 7 which is arranged below the temperature sensing head 6, the temperature sensing head 6 can move up and down along the inside of the containing pipe 5, the containing assembly 7 comprises a screw rod 8 which is fixedly connected with the center of the temperature sensing head 6 and a rotating shell 9 which is in threaded connection with the lower part of the screw rod 8, and a driving assembly 10 is arranged below; through set up temperature monitoring subassembly 2 in casing 1 inside, under temperature monitoring subassembly 2's motion control, make temperature-sensing head 6 in temperature monitoring subassembly 2 can realize stretching out and the function of accomodating in casing 1, when temperature monitoring device is in the user state, temperature-sensing head 6 realizes stretching out the action of accomodating pipe 5 under drive assembly 10's control, thereby monitor the temperature in printing workshop, when the workshop is not at printing operation or other during operation, temperature-sensing head 6 realizes the action of shrink accomodating pipe 5 under drive assembly 10's control, accomodate and carry out certain dustproof protection in accomodating pipe 5, the effectual temperature-sensing head 6 that has reduced directly exposes in the air in workshop and lead to temperature-sensing head 6 easily by the problem of dust pollution, the not long problem of life of temperature-sensing head 6 has been avoided.

Preferably, the driving assembly 10 includes a stepping motor 11 fixed at the bottom of the housing 1, an output shaft of the stepping motor 11 is engaged with the bottom of the rotating housing 9 through a gear 12, the rotating housing 9 is rotatably connected with a limiting plate 13 arranged at the bottom of the accommodating tube 5 through a bearing, the limiting plate 13 is symmetrically provided with limiting holes 14 along two sides of the screw 8, a first limiting rod 15 and a second limiting rod 16 are arranged below the temperature sensing head 6 in parallel, and the first limiting rod 15 and the second limiting rod 16 are sequentially arranged in the limiting holes 14 symmetrically arranged on the limiting plate 13 along two sides of the screw 8; the first limiting rod 15 and the second limiting rod 16 can slide in the corresponding limiting holes 14; the first limiting rod 15 and the second limiting rod 16 can slide in the corresponding limiting holes 14; through the control of step motor 11 among the drive assembly 10 for screw rod 8 and the rotatory shell 9 of temperature-sensing head 6 below pass through threaded connection and under the limiting displacement of first gag lever post 15, second gag lever post 16 in circumferencial direction, make screw rod 8 realize the slip from top to bottom, thereby realize the flexible effect of temperature-sensing head 6 in accomodating pipe 5.

Preferably, a circuit control board assembly 17 is arranged inside the circuit cavity 4, the screw 8 is of a hollow structure, and a lead of the temperature sensing head 6 penetrates through the screw and is electrically connected with the circuit control board assembly 17; the hollow screw 8 enables the circuit of the temperature sensing head to be effectively connected with the circuit control board assembly 17, and the preferable lead of the connection between the temperature sensing head and the circuit control board assembly 17 is telescopic.

Preferably, the housing 1 is provided with heat dissipation holes 18, and the heat dissipation holes 18 are uniformly distributed along the inner walls of the transmission cavity 3 and the circuit cavity 4; realize the inside heat dissipation of casing 1, avoid the production of potential safety hazard.

Example 1

A temperature monitoring device for a printing factory comprises a shell 1 and a temperature monitoring component 2 arranged inside the shell 1; the temperature monitoring device comprises a shell 1, a temperature monitoring assembly 2, a rotating shell 9 and a driving assembly, wherein the shell 1 comprises a transmission cavity 3 and a circuit cavity 4 which are arranged at the bottom, the shell 1 further comprises a containing pipe 5 which is arranged at the upper end of the shell 1, the temperature monitoring assembly 2 comprises a temperature sensing head 6 and a containing assembly 7 which is arranged below the temperature sensing head 6, the temperature sensing head 6 can move up and down along the inside of the containing pipe 5, the containing assembly 7 comprises a screw rod 8 which is fixedly connected with the center of the temperature sensing head 6 and a rotating shell 9 which is in threaded connection with the lower part of the screw rod 8, and a driving assembly 10 is arranged below; through set up temperature monitoring subassembly 2 in casing 1 inside, under temperature monitoring subassembly 2's motion control, make temperature-sensing head 6 in temperature monitoring subassembly 2 can realize stretching out and the function of accomodating in casing 1, when temperature monitoring device is in the user state, temperature-sensing head 6 realizes stretching out the action of accomodating pipe 5 under drive assembly 10's control, thereby monitor the temperature in printing workshop, when the workshop is not at printing operation or other during operation, temperature-sensing head 6 realizes the action of shrink accomodating pipe 5 under drive assembly 10's control, accomodate and carry out certain dustproof protection in accomodating pipe 5, the effectual temperature-sensing head 6 that has reduced directly exposes in the air in workshop and lead to temperature-sensing head 6 easily by the problem of dust pollution, the not long problem of life of temperature-sensing head 6 has been avoided.

Example 2

On the basis of embodiment 1, the driving assembly 10 includes a stepping motor 11 fixed at the bottom of the housing 1, an output shaft of the stepping motor 11 is engaged with the bottom of the rotating shell 9 through a gear 12, the rotating shell 9 is rotatably connected with a limiting plate 13 arranged at the bottom of the accommodating tube 5 through a bearing, the limiting plate 13 is symmetrically provided with limiting holes 14 along two sides of the screw 8, a first limiting rod 15 and a second limiting rod 16 are arranged below the temperature sensing head 6 in parallel, and the first limiting rod 15 and the second limiting rod 16 are sequentially arranged in the limiting holes 14 symmetrically arranged on the limiting plate 13 along two sides of the screw 8; the first limiting rod 15 and the second limiting rod 16 can slide in the corresponding limiting holes 14; the first limiting rod 15 and the second limiting rod 16 can slide in the corresponding limiting holes 14; through the control of step motor 11 among drive assembly 10 for screw rod 8 and the rotation shell 9 of temperature-sensing head 6 below pass through threaded connection and under the limiting displacement of first gag lever post 15, second gag lever post 16 in circumferencial direction, make screw rod 8 realize the slip from top to bottom, thereby realize the telescopic action of temperature-sensing head 6 in accomodating pipe 5.

Example 3

On the basis of the embodiment 2, a circuit control board assembly 17 is arranged inside the circuit cavity 4, the screw 8 is of a hollow structure, and a lead of the temperature sensing head 6 penetrates through the screw and is electrically connected with the circuit control board assembly 17; the hollow screw 8 enables the circuit of the temperature sensing head to be effectively connected with the circuit control board assembly 17, and the preferable lead of the connection between the temperature sensing head and the circuit control board assembly 17 is telescopic.

Example 4

On the basis of the above embodiment, the housing 1 is provided with heat dissipation holes 18, and the heat dissipation holes 18 are uniformly distributed along the inner walls of the transmission cavity 3 and the circuit cavity 4; realize the inside heat dissipation of casing 1, avoid the production of potential safety hazard.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (4)

1. A temperature monitoring device for a printing factory comprises a shell (1) and a temperature monitoring component (2) arranged inside the shell (1); the method is characterized in that: casing (1) is including setting up transmission chamber (3), circuit chamber (4) in the bottom, casing (1) is still including setting up in the storage pipe (5) of casing (1) upper end, temperature monitoring subassembly (2) include temperature-sensing head (6), set up storage assembly (7) in temperature-sensing head (6) below, the inside up-and-down motion of storing pipe (5) can be followed in temperature-sensing head (6), storage assembly (7) include with temperature-sensing head (6) center fixed connection screw rod (8), with screw rod (8) below threaded connection's rotation shell (9), it is provided with drive assembly (10) to rotate shell (9) below.

2. A printing house temperature monitoring device according to claim 1, characterized in that: the driving assembly (10) comprises a stepping motor (11) fixed at the bottom of the shell (1), an output shaft of the stepping motor (11) is meshed with the bottom of the rotating shell (9) through a gear (12), the rotating shell (9) is rotatably connected with a limiting plate (13) arranged at the bottom of the accommodating pipe (5) through a bearing, limiting holes (14) are symmetrically formed in the limiting plate (13) along two sides of the screw rod (8), a first limiting rod (15) and a second limiting rod (16) are arranged below the temperature sensing head (6) in parallel, and the first limiting rod (15) and the second limiting rod (16) are sequentially arranged in the limiting holes (14) symmetrically formed in the limiting plate (13) along two sides of the screw rod (8); the first limiting rod (15) and the second limiting rod (16) can slide in the corresponding limiting holes (14).

3. A printing house temperature monitoring device according to claim 1, characterized in that: the circuit cavity (4) is internally provided with a circuit control board assembly (17), the screw (8) is of a hollow structure, and a lead of the temperature sensing head (6) penetrates through the screw and is electrically connected with the circuit control board assembly (17).

4. A printing house temperature monitoring device according to claim 1, characterized in that: the casing (1) is provided with heat dissipation holes (18), and the heat dissipation holes (18) are uniformly distributed along the inner walls of the transmission cavity (3) and the circuit cavity (4).

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